阅读说明：本技术 糕点压缩成型机 (Cake compression molding machine ) 是由 不公告发明人 于 2020-06-05 设计创作，主要内容包括：本发明涉及糕点压缩成型机,其包括原料输送装置、压缩成型装置、糕点接收装置,原料输送装置包括进料漏斗、输送机构、安装板,进料漏斗内储存有糕点原料并且其用于引导糕点原料向输送机构内输送,输送机构用于接收糕点原料并将糕点原料定量输送给压缩成型装置,压缩成型装置包括承托壳体、压缩成型机构,压缩成型机构安装于承托壳体内并且压缩成型机构用于将糕点原料压缩成型为方柱状结构,糕点接收装置用于接收成型后的方柱状糕点；其能够自动将糕点原料制成方柱状结构,不仅降低了人力成本,而且制作效率得到了提高,同时还可根据需求压缩不同大小的方柱状糕点,适用性更广,同时成型后的糕点两端压缩紧实,质量较佳。(The invention relates to a cake compression molding machine, which comprises a raw material conveying device, a compression molding device and a cake receiving device, wherein the raw material conveying device comprises a feeding hopper, a conveying mechanism and a mounting plate, cake raw materials are stored in the feeding hopper and are used for guiding the cake raw materials to be conveyed into the conveying mechanism, the conveying mechanism is used for receiving the cake raw materials and quantitatively conveying the cake raw materials to the compression molding device, the compression molding device comprises a bearing shell and a compression molding mechanism, the compression molding mechanism is arranged in the bearing shell and is used for compression molding the cake raw materials into a square column structure, and the cake receiving device is used for receiving the molded square column cake; it can make the cake raw materials into square column structure automatically, has not only reduced the human cost, and preparation efficiency has obtained the improvement moreover, still can compress the square column cake of equidimension not as required simultaneously, and the suitability is wider, and the cake both ends compression after the shaping is tight simultaneously, the quality preferred.)

1. The cake compression molding machine is characterized by comprising a raw material conveying device, a compression molding device and a cake receiving device, wherein the raw material conveying device is used for conveying cake raw materials to the compression molding device in a quantitative mode, the compression molding device is used for compression molding the cake raw materials into a square column structure, and the cake receiving device is used for receiving the molded square column cake;

the raw material conveying device comprises a feeding funnel, a conveying mechanism and a mounting plate, wherein cake raw materials are stored in the feeding funnel and are used for guiding the cake raw materials to be conveyed into the conveying mechanism, and the conveying mechanism is used for receiving the cake raw materials and quantitatively conveying the cake raw materials to the compression molding device.

2. The cake compression molding machine of claim 1, wherein the mounting plate is a circular plate structure axially perpendicular to the ground, the upper end surface of the mounting plate is provided with a mounting shell, the mounting shell is a rectangular shell structure which is concentric with the mounting plate and has an open upper end and a closed lower end, the closed end of the mounting shell is fixedly connected with the upper end surface of the mounting plate, and the open end of the mounting shell is matched with the mounting end cover;

a feed hole is formed in the middle of the mounting end cover, a discharge hole penetrating to the bottom of the cavity of the mounting shell is coaxially formed in the lower end face of the mounting plate, and the feed hole and the discharge hole are coaxially arranged;

the upper end surface of the mounting plate is provided with a vibrator;

the feeding funnel is coaxially and fixedly connected and communicated with the upper orifice of the feeding hole.

3. A cake compression-molding machine as claimed in claim 2, wherein said conveying mechanism comprises a conveying switch, a conveying power member, the moving state of the conveying switch is divided into a conveying state for receiving the cake raw material and quantitatively conveying the cake raw material to the compression-molding device, a blocking state for blocking the discharge hole and stopping conveying the cake raw material to the compression-molding device, and the conveying power member is used for driving the moving state of the conveying switch to change;

the conveying switch is arranged in the installation shell and comprises a switching block, a switching screw rod, a conveying assembly and a plugging assembly, the axial direction of the switching screw rod is parallel to the length direction of the installation shell, the switching screw rod is movably arranged in the installation shell and can rotate around the axial direction of the switching screw rod, the power input end of the switching screw rod penetrates through the side wall of the installation shell and is positioned outside the installation shell, and two groups of switching screw rods are arranged along the width direction of the installation shell;

the switching block is of a rectangular block structure, mounting holes penetrating through the length of the switching block are formed in the side face of the switching block along the length direction of the switching block, nuts are arranged in the mounting holes, the switching block is mounted outside the switching screw rod through the nuts, two groups of the mounting holes and the nuts are uniformly and correspondingly arranged, and the switching screw rod rotates around the axial direction of the switching screw rod and can pull the switching block to displace along the axial direction of the switching screw rod;

the upper end surface of the switching block is provided with a conveying hole penetrating through the height of the switching block, when the conveying switch is in a conveying state, the conveying hole and the feeding hole can be coaxially arranged, the lower end surface of the switching block is provided with a mounting groove in a circular groove structure, and when the conveying switch is in a blocking state, the mounting groove and the discharging hole can be coaxially arranged;

the upper orifice of the conveying hole is provided with an internal step, and the inner circular surface of the internal step extends downwards coaxially to form a guide sliding sleeve;

the conveying assembly is arranged in the conveying hole and comprises a conveying head and a return spring, the conveying head is of a circular cylinder structure which is coaxially arranged with the conveying hole and is provided with openings at the upper end and the lower end, the conveying head can be divided into two parts along the axial direction of the conveying head and is respectively a cylindrical section and a circular truncated cone section, the cylindrical section is coaxially sleeved inside the guide sliding sleeve and forms sliding guide fit, the horizontal cross section area of the circular truncated cone section is increased progressively from bottom to top, and the circular truncated cone section is coaxially fixed at the bottom end of the cylindrical section;

the reset spring is sleeved outside the cylindrical section of the conveying head, one end of the reset spring is fixedly connected with an internal step arranged on an upper orifice of the conveying hole, the other end of the reset spring is fixedly connected with the top end of the circular truncated cone section of the conveying head, and the conveying head is driven to integrally move downwards by the elasticity of the reset spring;

the mounting groove can be divided into two parts along the groove depth direction of the mounting groove, and the two parts are respectively a mounting section arranged on the lower end surface of the switching block and an avoidance section arranged at the bottom of the mounting section;

the plugging assembly is arranged in the mounting groove and comprises a plugging head and a plugging spring, the plugging head and the mounting groove are coaxially arranged, the plugging head can be divided into two parts along the self axial direction and respectively comprises a guide section and a plugging section, the guide section is a circular cylinder structure with openings at the upper end and the lower end, the guide section is movably sleeved in an avoidance section of the mounting groove and forms sliding guide fit, the plugging section is a truncated cone-shaped block structure with the horizontal cross section area increasing from bottom to top, and the plugging block is coaxially fixed at the bottom end of the guide section;

the blocking spring is sleeved in the guide section of the blocking head, one end of the blocking spring is fixedly connected with the bottom of the avoiding section of the mounting groove, the other end of the blocking spring is fixedly connected with the blocking section of the blocking head, the elastic force of the blocking spring drives the blocking head to do descending motion, and when the blocking spring is in a normal state, the bottom end of the blocking head and the lower orifice of the discharge hole are positioned in the same horizontal plane, and the bottom end of the blocking head can also block the lower orifice of the discharge hole;

the discharge hole is a circular truncated cone hole structure correspondingly matched with the plugging section of the plugging head.

4. A cake compression molding machine as claimed in claim 3, wherein said conveying power member comprises a conveying motor, an output shaft of the conveying motor is axially parallel to an axial direction of the switching screw rod, and the conveying motor is fixedly mounted on an upper end face of the mounting end cover;

the power output end of the conveying motor and the power input end of any one of the two switching screw rods are provided with a power transmission component, the power transmission component is connected and transmitted through a first power transmission component, a second power transmission component is arranged between the power input ends of the two switching screw rods, the power transmission component is connected and transmitted through a second power transmission component, the first power transmission component is a speed reducing belt transmission structure, and the second power transmission component is a belt transmission structure with a transmission ratio of one.

5. A cake compression molding machine as claimed in claim 3, wherein said compression molding device comprises a support housing, a compression molding mechanism installed in the support housing and used for compression molding the cake raw material into a square column structure;

the bearing shell comprises an outer shell, the outer shell is of an annular block structure, one end of the outer shell is a fixed end, the other end of the outer shell is an installation end, the installation end of the outer shell is provided with an accommodating groove, and the accommodating groove is communicated with an inner annular surface of the outer shell;

the outer shell is provided with two groups which are respectively a first outer shell and a second outer shell, the fixed end of the first outer shell is coaxially and fixedly connected with the lower end face of the mounting plate, the accommodating groove arranged at the mounting end of the first outer shell is a first accommodating groove, and the fixed end of the first outer shell is also coaxially provided with a bearing groove in a circular groove structure;

the mounting end of the second outer shell is coaxially and fixedly connected with the mounting end of the first outer shell, and the accommodating groove arranged at the mounting end of the second outer shell is a second accommodating groove which and the second accommodating groove jointly form an accommodating area for supporting the shell;

the mounting plate is characterized in that a fixing frame is further arranged on the upper end face of the mounting plate, a connecting frame is arranged on the outer circular face of the first outer shell, the connecting frame is of a rectangular shell structure with openings at two ends, one opening end of the connecting frame is fixedly connected with the outer circular face of the first outer shell, a connecting hole for connecting the supporting groove and the connecting frame is further formed in the outer circular face of the first outer shell, and the fixing frame and the connecting frame are located on one side of the mounting plate.

6. A cake compression-molding machine as claimed in claim 5, wherein said compression-molding mechanism comprises a compression member, a compression driving member for driving the compression member to compression-mold the cake raw material into a square columnar structure;

the compression driving component comprises a compression driving component and a compression power component, the compression driving component is used for driving the compression component to operate, and the compression power component is used for providing power for the operation of the compression driving component;

the compression driving assembly is arranged in the accommodating area of the bearing shell and comprises a driving part, the driving part comprises a driving shaft and a compression screw rod, the driving shaft is vertically and movably arranged in the accommodating area of the bearing shell and can rotate around the axial direction, the top end of the driving shaft penetrates through the groove bottom of the first accommodating groove and is positioned in a bearing bracket arranged at one fixed end of the shell, and the compression screw rod is horizontally and movably arranged in the accommodating area of the bearing shell and can rotate around the axial direction;

a power connecting piece is arranged between the driving shaft and the compression screw rod and is in power connection transmission with the compression screw rod through a power connecting piece I, and the power connecting piece I is of a worm and gear transmission structure;

the driving components are provided with four groups and the four groups of driving components are distributed in a four-point mode, the areas among the compression screw rods of the four groups of driving components form a mounting area in a square structure, and the mounting area and the bearing shell share the same center line;

the compression power assembly comprises a compression motor and a transmission shaft, the compression motor is vertically and fixedly arranged on the fixed frame, the transmission shaft is vertically and movably arranged on the connecting frame and can axially rotate around the transmission shaft, a power connecting piece II is arranged between the compression motor and the transmission shaft, power connection and transmission are carried out between the compression motor and the transmission shaft through the power connecting piece II, and the power connecting piece II is of a speed reduction straight gear transmission structure;

the transmission axle be provided with power connecting piece three between four driving part's of group the drive shaft, power connecting piece three including input straight-tooth gear, transmission ring gear, output straight-tooth gear, the coaxial movable mounting of transmission ring gear can be around self axial rotation in setting up the bearing inslot of shell body stiff end, the inner circle and the outer lane of transmission ring gear all are provided with the meshing tooth, the coaxial fixed mounting of input straight-tooth gear is in the outside of transmission axle and intermeshing between the outer lane meshing tooth of input straight-tooth gear and transmission ring gear, the coaxial fixed mounting of output straight-tooth gear is in the outside of driving part's drive shaft top and intermeshing between the inner circle meshing tooth of output straight-tooth gear and transmission ring gear, the output straight-tooth gear one-to.

7. A pastry compression-moulding machine as claimed in claim 6, wherein the compression members are disposed in the inner annular surface of the supporting housing, the compression members include compression elements, the compression elements are connected with the compression screw rods of the driving part, and the compression elements are correspondingly disposed in four groups;

the compression assembly comprises a compression block, the horizontal included angle between the compression block and a compression screw rod of a corresponding driving part is forty-five degrees, a connecting lug is arranged on the side surface of the compression block, which faces the compression screw rod of the corresponding driving part, and is movably connected with the compression screw rod of the corresponding driving part through a nut, and the compression screw rod rotates around the self axial direction and can pull the compression block to displace along the axial direction of the compression screw rod;

the areas among the compression blocks of the four groups of compression assemblies are square compression areas, the compression areas and the bearing shell are concentric, the compression screw rods of the four groups of driving parts rotate around the axial direction of the compression screw rods and can pull the areas of the compression members to change, and the compression areas of the compression members are always kept in a square structure which is concentric with the bearing shell.

8. A cake compression molding machine as claimed in claim 5 or 7, wherein said cake receiving means is located below the molding compression means, the cake receiving means comprises a fixed housing, a discharge switch, a storage case, the movement state of the discharge switch is divided into a closed state for closing the opening of the compression region of the compression member and an open state for releasing the closing of the opening of the compression region of the compression member, the storage case is used for receiving molded cakes which fall downward through the discharge switch in the open state;

the fixed shell is a rectangular shell, the upper end face of the fixed shell is fixedly connected with the end faces of the fixed ends of the second shell of the bearing shell, the fixed shell and the second shell share a center line, and a discharge opening is formed in the middle of the upper end face of the fixed shell;

the side of the fixed shell is provided with a drawing opening, the storage box is arranged in the fixed shell, the end part of the storage box, which is provided with a handle, is positioned on the drawing opening, and the storage box and the drawing opening form sliding guide fit.

9. A pastry compression-moulding machine as claimed in claim 8, wherein the dispensing switch comprises a dispensing power member, a closing member for closing/unblocking the opening at the lower part of the compression region of the compression member, the dispensing power member being used for providing power for the operation of the closing member;

the sealing component is arranged in the fixed shell and is also positioned between the discharge port and the storage box, the sealing component comprises a discharge screw rod and a sealing plate, the discharge screw rod is horizontally and movably arranged in the fixed shell and can rotate around the axial direction of the discharge screw rod, the discharge screw rod can be divided into two parts along the axial direction of the discharge screw rod, the two parts are a first thread section and a second thread section respectively, the thread turning direction of the first thread section is opposite to that of the second thread section, and the power input end of the discharge screw rod penetrates through the side wall of the fixed shell and is positioned outside the fixed shell;

the blanking plate is provided with a sleeving hole, a screw is arranged in the sleeving hole, the blanking plate is arranged outside the discharging screw rod through the screw, the upper end surface of the blanking plate and the lower hole opening of the discharging opening are positioned in the same horizontal plane, the blanking plate is provided with two groups, one group of the blanking plate is connected with the first thread section of the discharging screw rod, the other group of the blanking plate is connected with the second thread section of the discharging screw rod, and the discharging screw rod rotates around the self axial direction and can pull the two groups of the blanking plates to move away from or close to each other;

the discharging screw rods are arranged in two groups, and the sleeving holes arranged on the sealing plate are correspondingly arranged in two groups;

the discharging power component comprises a discharging motor, an output shaft of the discharging motor is axially parallel to the axial direction of the discharging screw rod, and the discharging motor is fixedly arranged on the upper end face of the fixed shell;

the power output end of the discharging motor and the power input end of any one of the two groups of discharging screw rods are provided with a third power transmission component, the third power transmission component and the third power transmission component are in power connection transmission, the fourth power transmission component is arranged between the power input ends of the two groups of discharging screw rods, the fourth power transmission component and the fourth power transmission component are in power connection transmission, the third power transmission component is a speed reducing belt transmission structure, and the fourth power transmission component is a belt transmission structure with a transmission ratio of one.

10. A pastry compression-moulding machine as claimed in claim 3 or claim 9, wherein the upper end surface of the compression block of the compression member is in contact with the lower end surface of the mounting plate, and the lower end surface of the compression block passes through the discharge opening and is contactable with the upper end surface of the closure plate.

Technical Field

The invention relates to the field of food processing, in particular to cake compression molding equipment.

Background

The food machinery refers to mechanical equipment and devices applied in the process of processing food raw materials into food or semi-finished products, at present, the development of food machinery in China is serious and far, the space is wide, the main reason is that most of food consumed by people in China is unprocessed food from agriculture, the loss caused by incapability of directly processing, storing and preserving food resources reaches dozens of yuan each year due to the lack of necessary food processing machinery, and the resource waste loss caused by the failure of deep processing comprehensive utilization is higher, so the food machinery in China has wide market prospect, the existing small cake compression molding device has low efficiency, more broken slag generated in the compression process is difficult to recycle, the waste rate is higher, and the cost is increased virtually, therefore, the invention provides stuffing-free cake compression molding equipment which can automatically make cake raw materials into a square column structure, compare artifical manual preparation cake, not only reduced the human cost, preparation efficiency has obtained the improvement moreover, and simultaneously, the square column cake of equidimension not can be compressed according to actual demand to this equipment, and the suitability is more extensive, and simultaneously, the cake both ends compression after this equipment compression moulding is compact, the quality preferred to various composition in the raw materials distribute evenly, the taste preferred.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide cake compression molding equipment which can automatically make cake raw materials into a square column structure, not only reduces the labor cost and improves the making efficiency compared with manual cake making, but also can compress the square column cakes with different sizes according to the actual requirements, has wider applicability, and simultaneously has compact compression of two ends of the cake after compression molding, better quality, uniform distribution of various components in the raw materials and better taste.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

The cake compression molding machine comprises a raw material conveying device, a compression molding device and a cake receiving device, wherein the raw material conveying device is used for conveying cake raw materials to the compression molding device in a quantitative mode, the compression molding device is used for compression molding the cake raw materials into a square column structure, and the cake receiving device is used for receiving the molded square column cake.

The technical scheme is further improved and optimized.

The raw material conveying device comprises a feeding funnel, a conveying mechanism and a mounting plate, wherein cake raw materials are stored in the feeding funnel and are used for guiding the cake raw materials to be conveyed into the conveying mechanism, and the conveying mechanism is used for receiving the cake raw materials and quantitatively conveying the cake raw materials to the compression molding device;

the mounting plate is of a circular plate structure which is axially vertical to the ground, the upper end face of the mounting plate is provided with a mounting shell, the mounting shell is of a rectangular shell structure which shares a center line with the mounting plate, the upper end of the mounting shell is open, the lower end of the mounting shell is closed, the closed end of the mounting shell is fixedly connected with the upper end face of the mounting plate, and the open end of the mounting shell is matched with a mounting end cover;

a feed hole is formed in the middle of the mounting end cover, a discharge hole penetrating to the bottom of the cavity of the mounting shell is coaxially formed in the lower end face of the mounting plate, and the feed hole and the discharge hole are coaxially arranged;

the upper end surface of the mounting plate is provided with a vibrator;

the feeding funnel is coaxially and fixedly connected and communicated with the upper orifice of the feeding hole.

The technical scheme is further improved and optimized.

The conveying mechanism comprises a conveying switch and a conveying power component, the movement state of the conveying switch can be divided into a conveying state for receiving the cake raw materials and quantitatively conveying the cake raw materials to the compression molding device, a blocking state for blocking the discharge hole and stopping conveying the cake raw materials to the compression molding device, and the conveying power component is used for driving the movement state of the conveying switch to change;

the conveying switch is arranged in the installation shell and comprises a switching block, a switching screw rod, a conveying assembly and a plugging assembly, the axial direction of the switching screw rod is parallel to the length direction of the installation shell, the switching screw rod is movably arranged in the installation shell and can rotate around the axial direction of the switching screw rod, the power input end of the switching screw rod penetrates through the side wall of the installation shell and is positioned outside the installation shell, and two groups of switching screw rods are arranged along the width direction of the installation shell;

the switching block is of a rectangular block structure, mounting holes penetrating through the length of the switching block are formed in the side face of the switching block along the length direction of the switching block, nuts are arranged in the mounting holes, the switching block is mounted outside the switching screw rod through the nuts, two groups of the mounting holes and the nuts are uniformly and correspondingly arranged, and the switching screw rod rotates around the axial direction of the switching screw rod and can pull the switching block to displace along the axial direction of the switching screw rod;

the upper end surface of the switching block is provided with a conveying hole penetrating through the height of the switching block, when the conveying switch is in a conveying state, the conveying hole and the feeding hole can be coaxially arranged, the lower end surface of the switching block is provided with a mounting groove in a circular groove structure, and when the conveying switch is in a blocking state, the mounting groove and the discharging hole can be coaxially arranged;

the upper orifice of the conveying hole is provided with an internal step, and the inner circular surface of the internal step extends downwards coaxially to form a guide sliding sleeve;

the conveying assembly is arranged in the conveying hole and comprises a conveying head and a return spring, the conveying head is of a circular cylinder structure which is coaxially arranged with the conveying hole and is provided with openings at the upper end and the lower end, the conveying head can be divided into two parts along the axial direction of the conveying head and is respectively a cylindrical section and a circular truncated cone section, the cylindrical section is coaxially sleeved inside the guide sliding sleeve and forms sliding guide fit, the horizontal cross section area of the circular truncated cone section is increased progressively from bottom to top, and the circular truncated cone section is coaxially fixed at the bottom end of the cylindrical section;

the reset spring is sleeved outside the cylindrical section of the conveying head, one end of the reset spring is fixedly connected with an internal step arranged on an upper orifice of the conveying hole, the other end of the reset spring is fixedly connected with the top end of the circular truncated cone section of the conveying head, and the conveying head is driven to integrally move downwards by the elasticity of the reset spring;

the mounting groove can be divided into two parts along the groove depth direction of the mounting groove, and the two parts are respectively a mounting section arranged on the lower end surface of the switching block and an avoidance section arranged at the bottom of the mounting section;

the plugging assembly is arranged in the mounting groove and comprises a plugging head and a plugging spring, the plugging head and the mounting groove are coaxially arranged, the plugging head can be divided into two parts along the self axial direction and respectively comprises a guide section and a plugging section, the guide section is a circular cylinder structure with openings at the upper end and the lower end, the guide section is movably sleeved in an avoidance section of the mounting groove and forms sliding guide fit, the plugging section is a truncated cone-shaped block structure with the horizontal cross section area increasing from bottom to top, and the plugging block is coaxially fixed at the bottom end of the guide section;

the blocking spring is sleeved in the guide section of the blocking head, one end of the blocking spring is fixedly connected with the bottom of the avoiding section of the mounting groove, the other end of the blocking spring is fixedly connected with the blocking section of the blocking head, the elastic force of the blocking spring drives the blocking head to do descending motion, and when the blocking spring is in a normal state, the bottom end of the blocking head and the lower orifice of the discharge hole are positioned in the same horizontal plane, and the bottom end of the blocking head can also block the lower orifice of the discharge hole;

the discharge hole is a circular truncated cone hole structure correspondingly matched with the plugging section of the plugging head.

The technical scheme is further improved and optimized.

The conveying power component comprises a conveying motor, an output shaft of the conveying motor is axially parallel to the axial direction of the switching screw rod, and the conveying motor is fixedly arranged on the upper end face of the mounting end cover;

the power output end of the conveying motor and the power input end of any one of the two switching screw rods are provided with a power transmission component, the power transmission component is connected and transmitted through a first power transmission component, a second power transmission component is arranged between the power input ends of the two switching screw rods, the power transmission component is connected and transmitted through a second power transmission component, the first power transmission component is a speed reducing belt transmission structure, and the second power transmission component is a belt transmission structure with a transmission ratio of one.

The technical scheme is further improved and optimized.

The compression molding device comprises a bearing shell and a compression molding mechanism, wherein the compression molding mechanism is arranged in the bearing shell and is used for compressing and molding the cake raw materials into a square columnar structure;

the bearing shell comprises an outer shell, the outer shell is of an annular block structure, one end of the outer shell is a fixed end, the other end of the outer shell is an installation end, the installation end of the outer shell is provided with an accommodating groove, and the accommodating groove is communicated with an inner annular surface of the outer shell;

the outer shell is provided with two groups which are respectively a first outer shell and a second outer shell, the fixed end of the first outer shell is coaxially and fixedly connected with the lower end face of the mounting plate, the accommodating groove arranged at the mounting end of the first outer shell is a first accommodating groove, and the fixed end of the first outer shell is also coaxially provided with a bearing groove in a circular groove structure;

the mounting end of the second outer shell is coaxially and fixedly connected with the mounting end of the first outer shell, and the accommodating groove arranged at the mounting end of the second outer shell is a second accommodating groove which and the second accommodating groove jointly form an accommodating area for supporting the shell;

the mounting plate is characterized in that a fixing frame is further arranged on the upper end face of the mounting plate, a connecting frame is arranged on the outer circular face of the first outer shell, the connecting frame is of a rectangular shell structure with openings at two ends, one opening end of the connecting frame is fixedly connected with the outer circular face of the first outer shell, a connecting hole for connecting the supporting groove and the connecting frame is further formed in the outer circular face of the first outer shell, and the fixing frame and the connecting frame are located on one side of the mounting plate.

The technical scheme is further improved and optimized.

The compression molding mechanism comprises a compression component and a compression driving component, and the compression driving component is used for driving the compression component to compress and mold the cake raw materials into a square column structure;

the compression driving component comprises a compression driving component and a compression power component, the compression driving component is used for driving the compression component to operate, and the compression power component is used for providing power for the operation of the compression driving component;

the compression driving assembly is arranged in the accommodating area of the bearing shell and comprises a driving part, the driving part comprises a driving shaft and a compression screw rod, the driving shaft is vertically and movably arranged in the accommodating area of the bearing shell and can rotate around the axial direction, the top end of the driving shaft penetrates through the groove bottom of the first accommodating groove and is positioned in a bearing bracket arranged at one fixed end of the shell, and the compression screw rod is horizontally and movably arranged in the accommodating area of the bearing shell and can rotate around the axial direction;

a power connecting piece is arranged between the driving shaft and the compression screw rod and is in power connection transmission with the compression screw rod through a power connecting piece I, and the power connecting piece I is of a worm and gear transmission structure;

the driving components are provided with four groups and the four groups of driving components are distributed in a four-point mode, the areas among the compression screw rods of the four groups of driving components form a mounting area in a square structure, and the mounting area and the bearing shell share the same center line;

the compression power assembly comprises a compression motor and a transmission shaft, the compression motor is vertically and fixedly arranged on the fixed frame, the transmission shaft is vertically and movably arranged on the connecting frame and can axially rotate around the transmission shaft, a power connecting piece II is arranged between the compression motor and the transmission shaft, power connection and transmission are carried out between the compression motor and the transmission shaft through the power connecting piece II, and the power connecting piece II is of a speed reduction straight gear transmission structure;

the transmission axle be provided with power connecting piece three between four driving part's of group the drive shaft, power connecting piece three including input straight-tooth gear, transmission ring gear, output straight-tooth gear, the coaxial movable mounting of transmission ring gear can be around self axial rotation in setting up the bearing inslot of shell body stiff end, the inner circle and the outer lane of transmission ring gear all are provided with the meshing tooth, the coaxial fixed mounting of input straight-tooth gear is in the outside of transmission axle and intermeshing between the outer lane meshing tooth of input straight-tooth gear and transmission ring gear, the coaxial fixed mounting of output straight-tooth gear is in the outside of driving part's drive shaft top and intermeshing between the inner circle meshing tooth of output straight-tooth gear and transmission ring gear, the output straight-tooth gear one-to.

The technical scheme is further improved and optimized.

The compression components are arranged in the inner annular surface of the bearing shell and comprise compression assemblies, the compression assemblies are connected with compression screw rods of the driving part, and four groups of compression assemblies are correspondingly arranged;

the compression assembly comprises a compression block, the horizontal included angle between the compression block and a compression screw rod of a corresponding driving part is forty-five degrees, a connecting lug is arranged on the side surface of the compression block, which faces the compression screw rod of the corresponding driving part, and is movably connected with the compression screw rod of the corresponding driving part through a nut, and the compression screw rod rotates around the self axial direction and can pull the compression block to displace along the axial direction of the compression screw rod;

the areas among the compression blocks of the four groups of compression assemblies are square compression areas, the compression areas and the bearing shell are concentric, the compression screw rods of the four groups of driving parts rotate around the axial direction of the compression screw rods and can pull the areas of the compression members to change, and the compression areas of the compression members are always kept in a square structure which is concentric with the bearing shell.

The technical scheme is further improved and optimized.

The cake receiving device is positioned below the forming compression device and comprises a fixed shell, a discharge switch and a storage box, wherein the motion state of the discharge switch can be divided into a closed state for closing the lower opening of the compression area of the compression member and an open state for canceling the closing of the lower opening of the compression area of the compression member, and the storage box is used for receiving formed cakes falling downwards through the discharge switch in the open state;

the fixed shell is a rectangular shell, the upper end face of the fixed shell is fixedly connected with the end faces of the fixed ends of the second shell of the bearing shell, the fixed shell and the second shell share a center line, and a discharge opening is formed in the middle of the upper end face of the fixed shell;

the side of the fixed shell is provided with a drawing opening, the storage box is arranged in the fixed shell, the end part of the storage box, which is provided with a handle, is positioned on the drawing opening, and the storage box and the drawing opening form sliding guide fit.

The technical scheme is further improved and optimized.

The discharging switch comprises a discharging power member and a sealing member, the sealing member is used for sealing/unsealing a lower opening of a compression area of the compression member, and the discharging power member is used for providing power for the operation of the sealing member;

the sealing component is arranged in the fixed shell and is also positioned between the discharge port and the storage box, the sealing component comprises a discharge screw rod and a sealing plate, the discharge screw rod is horizontally and movably arranged in the fixed shell and can rotate around the axial direction of the discharge screw rod, the discharge screw rod can be divided into two parts along the axial direction of the discharge screw rod, the two parts are a first thread section and a second thread section respectively, the thread turning direction of the first thread section is opposite to that of the second thread section, and the power input end of the discharge screw rod penetrates through the side wall of the fixed shell and is positioned outside the fixed shell;

the blanking plate is provided with a sleeving hole, a screw is arranged in the sleeving hole, the blanking plate is arranged outside the discharging screw rod through the screw, the upper end surface of the blanking plate and the lower hole opening of the discharging opening are positioned in the same horizontal plane, the blanking plate is provided with two groups, one group of the blanking plate is connected with the first thread section of the discharging screw rod, the other group of the blanking plate is connected with the second thread section of the discharging screw rod, and the discharging screw rod rotates around the self axial direction and can pull the two groups of the blanking plates to move away from or close to each other;

the discharging screw rods are arranged in two groups, and the sleeving holes arranged on the sealing plate are correspondingly arranged in two groups;

the discharging power component comprises a discharging motor, an output shaft of the discharging motor is axially parallel to the axial direction of the discharging screw rod, and the discharging motor is fixedly arranged on the upper end face of the fixed shell;

the power output end of the discharging motor and the power input end of any one of the two groups of discharging screw rods are provided with a third power transmission component, the third power transmission component and the third power transmission component are in power connection transmission, the fourth power transmission component is arranged between the power input ends of the two groups of discharging screw rods, the fourth power transmission component and the fourth power transmission component are in power connection transmission, the third power transmission component is a speed reducing belt transmission structure, and the fourth power transmission component is a belt transmission structure with a transmission ratio of one.

The technical scheme is further improved and optimized.

The upper end surface of the compression block of the compression component is contacted with the lower end surface of the mounting plate, and the lower end surface of the compression block passes through the discharge opening and can be contacted with the upper end surface of the sealing plate.

Compared with the prior art, the cake making machine has the advantages that cake raw materials can be automatically made into the square column structure, and compared with manual cake making, the labor cost is reduced, and the making efficiency is improved; in addition, the compression component compresses the cake raw materials in a mode of feeding four groups of compression block layers and gradually reducing the area of a compression area, so that square column cakes with different sizes can be compressed according to actual requirements, and the applicability is wider; in addition, the upper end surface of the compression block of the compression component is contacted with the lower end surface of the mounting plate, the lower end surface of the compression block passes through the discharge opening and can be contacted with the upper end surface of the sealing plate, so that in the process of compression molding of cake raw materials by the compression component, gaps do not exist between the upper opening of the compression area of the compression component and the mounting plate and between the lower opening and the sealing plate, all cake raw materials can be compressed by one-time compression molding, raw material waste cannot be caused, and the two ends of the molded cake are compressed tightly, so that the quality is better; in addition, the plugging component of the conveying switch can plug the discharge hole in the compression molding process, so that the problem that the compression fails because the cake raw materials are extruded into the discharge hole in the compression process is avoided; in addition, the vibrator can make the cake raw materials evenly drop to the compression region of the compression component, and various components of the cake raw materials are evenly distributed in the compression region, so that the formed cake has better taste.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of the raw material conveying device of the present invention.

Fig. 4 is a schematic structural diagram of the conveying mechanism, the mounting plate and the vibrator of the invention.

Fig. 5 is a schematic diagram of the mounting plate and the delivery switch of the present invention.

Fig. 6 is a schematic structural diagram of the mounting plate of the present invention.

Fig. 7 is a schematic structural diagram of the conveying mechanism of the present invention.

Fig. 8 is a schematic structural view of a power transmission member and a switching screw rod according to the present invention.

Fig. 9 is a schematic diagram of the switching block, the conveying assembly and the plugging assembly according to the present invention.

Fig. 10 is a schematic structural diagram of a switching block according to the present invention.

Fig. 11 is a schematic structural view of a conveying assembly and a plugging assembly of the present invention.

FIG. 12 is a schematic view of the compression molding apparatus of the present invention.

Fig. 13 is a schematic diagram of the assembly of the mounting plate, the first outer casing and the second outer casing.

Fig. 14 is a schematic diagram of the mounting plate, the first outer shell and the second outer shell.

Fig. 15 is a schematic structural view of the compression molding mechanism of the present invention.

Fig. 16 is a schematic view of the structure of the compressing member of the present invention.

Fig. 17 is a schematic view of the compression driving assembly of the present invention.

FIG. 18 is a schematic view of the compression power assembly of the present invention.

Fig. 19 is a schematic structural view of the cake receiving device of the present invention.

Fig. 20 is a schematic structural view of the discharging switch of the present invention.

FIG. 21 is a schematic view of the combination of the discharge screw and the discharge power member of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

A cake compression molding machine comprises a raw material conveying device 100, a compression molding device 200 and a cake receiving device 300, wherein the raw material conveying device 100 is used for conveying cake raw materials to the compression molding device 200 in a fixed quantity, the compression molding device 200 is used for compression molding the cake raw materials into a square column structure, and the cake receiving device 300 is used for receiving the molded square column cake.

The material conveying device 100 includes a feeding hopper 110, a conveying mechanism 120, and a mounting plate 130, the feeding hopper 110 stores cake raw materials and guides the cake raw materials to be conveyed into the conveying mechanism 120, and the conveying mechanism 120 receives the cake raw materials and quantitatively conveys the cake raw materials to the compression molding device 200.

Mounting panel 130 be the circular plate body structure of axial perpendicular to ground, the up end of mounting panel 130 is provided with installation shell 131, installation shell 131 be with mounting panel 130 concentric line and upper end opening, lower extreme confined rectangle shell structure, fixed connection between the blind end of installation shell 131 and the up end of mounting panel 130, the open end of installation shell 131 matches and installs installation end cover 132.

A feed hole 133 is formed in the middle of the mounting end cover 132, a discharge hole 134 penetrating through the bottom of the cavity of the mounting shell 131 is coaxially formed in the lower end surface of the mounting plate 130, and the feed hole 133 and the discharge hole 134 are coaxially arranged.

The feeding funnel 110 is coaxially and fixedly connected and communicated with the upper opening of the feeding hole 133.

The conveying mechanism 120 includes a conveying switch 1210 and a conveying power member 1220, the movement state of the conveying switch 1210 can be divided into a conveying state for receiving the cake raw material and quantitatively conveying the cake raw material to the compression molding device 200 and a blocking state for blocking the discharging hole 134 and stopping conveying the cake raw material to the compression molding device 200, and the conveying power member 1220 is used for driving the movement state of the conveying switch 1210 to change.

The conveying switch 1210 is arranged in the installation shell 131, the conveying switch 1210 comprises a switching block 1211, a switching screw rod 1212, a conveying assembly and a plugging assembly, the axial direction of the switching screw rod 1212 is parallel to the length direction of the installation shell 131, the switching screw rod 1212 is movably installed in the installation shell 131 and can rotate around the axial direction, the power input end of the switching screw rod 1212 penetrates through the side wall of the installation shell 131 and is located outside the installation shell 131, and two sets of switching screw rods 1212 are arranged along the width direction of the installation shell 131.

The switching block 1211 is of a rectangular block structure, a mounting hole penetrating through the length of the switching block 1211 is formed in the side face of the switching block 1211 in the length direction, a nut is arranged in the mounting hole, the switching block 1211 is mounted outside the switching screw rod 1212 through the nut, two groups of mounting holes and two groups of nuts are uniformly and correspondingly arranged, and the switching screw rod 1212 rotates around the axial direction of the switching block 1211 and can pull the switching block 1211 to displace along the axial direction of the switching screw rod 1212.

The upper end surface of the switching block 1211 is opened with a conveying hole 1213 penetrating through the height thereof, and when the conveying switch 1210 is in a conveying state, the conveying hole 1213 can be coaxially arranged with the feeding hole 133, the lower end surface of the switching block 1211 is provided with a mounting groove 1215 in a circular groove structure, and when the conveying switch 1210 is in a blocking state, the mounting groove 1215 can be coaxially arranged with the discharging hole 134.

The upper orifice of the delivery hole 1213 is provided with a built-in step, and the inner circle surface of the built-in step extends downwards coaxially with a guide sliding sleeve 1214.

The conveying assembly is arranged in the conveying hole 1213 and comprises a conveying head 1216 and a return spring 1217, the conveying head 1216 is of a circular cylinder structure which is coaxially arranged with the conveying hole 1213 and is provided with openings at the upper end and the lower end, the conveying head 1216 can be divided into two parts along the axial direction of the conveying head 1216 and is respectively a cylindrical section and a circular truncated cone section, the cylindrical section is coaxially sleeved inside the guide sliding sleeve 1214 and forms sliding guide fit, the horizontal cross-sectional area of the circular truncated cone section is gradually increased from bottom to top, and the circular truncated cone section is coaxially fixed at the bottom end of the cylindrical section.

The return spring 1217 is sleeved outside the cylindrical section of the delivery head 1216, one end of the return spring 1217 is fixedly connected with a built-in step arranged at the upper orifice of the delivery hole 1213, the other end of the return spring 1217 is fixedly connected with the top end of the circular truncated cone section of the delivery head 1216, and the elastic force of the return spring 1217 drives the delivery head 1216 to move downward integrally.

The mounting groove 1215 can be divided into two parts along the depth direction of the mounting groove 1215, and the two parts are respectively a mounting section arranged on the lower end surface of the switching block 1211 and an avoiding section arranged at the bottom of the mounting section.

The plugging assembly is arranged in a mounting groove 1215, the plugging assembly comprises a plugging head 1218 and a plugging spring 1219, the plugging head 1218 and the mounting groove 1215 are coaxially arranged, the plugging head 1218 can be divided into two parts along the self axial direction and respectively comprises a guide section and a plugging section, the guide section is a circular cylinder structure with openings at the upper end and the lower end, the guide section is movably sleeved in a dodging section of the mounting groove 1215 and forms sliding guide fit, the plugging section is a circular truncated cone-shaped block structure with the horizontal cross section area increasing from bottom to top, and the plugging block is coaxially fixed at the bottom end of the guide section.

The blocking spring 1219 is sleeved in the guiding section of the blocking head 1218, one end of the blocking spring 1219 is fixedly connected to the bottom of the avoiding section of the mounting groove 1215, and the other end of the blocking spring 1219 is fixedly connected to the blocking section of the blocking head 1218, and when the blocking head 1218 is driven by the elastic force of the blocking spring 1219 to move downward and the blocking spring 1219 is in a normal state, the bottom end of the blocking head 1218 and the lower orifice of the discharge hole 134 are located in the same horizontal plane and the bottom end of the blocking head 1218 can also seal the lower orifice of the discharge hole 134.

Preferably, in order to better seal the lower orifice of the discharge hole 134 by the bottom end of the sealing cap 1218, the discharge hole 134 has a circular truncated cone hole structure correspondingly matched with the sealing section of the sealing cap 1218.

The working process of the delivery switch 1210 is specifically as follows: in the process, because the conveying head 1216 and the part of the sealing head 1218 facing the discharging hole 134 are both in a truncated cone-shaped structure and the return springs 1217 and 1219, when the conveying head 1216 is located in the discharging hole 134, the conveying switch 1210 is switched to the conveying state, and when the sealing head 1218 is located in the discharging hole 134, the conveying switch 1210 is switched to the sealing state.

The conveying power member 1220 includes a conveying motor 1221, an output shaft of the conveying motor 1221 is axially parallel to an axial direction of the switching screw 1212, and the conveying motor 1221 is fixedly mounted on an upper end surface of the mounting end cap 132.

A first power transmission member 1222 is arranged between the power output end of the conveying motor 1221 and the power input end of any one switching screw 1212 of the two switching screw 1212 groups, and the first power transmission member 1222 is in power connection transmission with the first power transmission member 1222, a second power transmission member 1223 is arranged between the power input ends of the two switching screw 1212 groups, and the second power transmission member 1223 is in power connection transmission with the second power transmission member 1223.

The conveying motor 1221 operates and drives the two groups of switching screw rods 1212 to synchronously rotate around the axial direction of the conveying motor through the cooperation of the first power transmission member 1222 and the second power transmission member 1213, so that the motion state of the conveying switch 1210 is changed.

More preferably, the vibrator 140 is disposed on the upper end surface of the mounting plate 130 in order to uniformly drop the confectionery material in the hopper 110 into the conveying mechanism 120 and finally into the compression molding apparatus 200.

The compression molding apparatus 200 includes a holder housing 210 and a compression molding mechanism 220, wherein the compression molding mechanism 220 is installed in the holder housing 210, and the compression molding mechanism 220 is used for compression molding the cake raw material into a square column structure.

Bearing casing 210 include the shell body, the shell body is ring shape block structure, the one end of shell body is stiff end, the other end is the installation end, the installation end of shell body is provided with the holding tank and switches on between the interior anchor ring of holding tank and shell body.

The shell body be provided with two sets ofly and be shell body one 211, shell body two 214 respectively, coaxial fixed connection between the stiff end of shell body one 211 and the lower terminal surface of mounting panel 130 and set up the holding tank that sets up in shell body one 211 installation end be holding tank one 212, the stiff end of shell body one 211 still coaxial be provided with the support groove that holds that is the circular slot structure.

The mounting end of the second outer housing 214 and the mounting end of the first outer housing 211 are coaxially and fixedly connected, and the accommodating groove disposed at the mounting end of the second outer housing 214 is a second accommodating groove 215, and the first accommodating groove 212 and the second accommodating groove 215 together form an accommodating area for supporting the housing 210.

The upper end face of the mounting plate 130 is further provided with a fixing frame 216, the outer circular face of the first outer shell 211 is provided with a connecting frame 213, the connecting frame 213 is a rectangular shell structure with openings at two ends, one opening end of the connecting frame 213 is fixedly connected with the outer circular face of the first outer shell 211, the outer circular face of the first outer shell 211 is further provided with a connecting hole used for communicating the support groove with the connecting frame 213, and the fixing frame 216 and the connecting frame 213 are both located on one side of the mounting plate 130.

The compression molding mechanism 220 includes a compression member 2210, a compression driving member for driving the compression member 2210 to compression-mold the confectionery material into a square columnar structure.

The compression driving member comprises a compression driving assembly 2220 and a compression power assembly 2230, wherein the compression driving assembly 2220 is used for driving the compression member 2210 to operate, and the compression power assembly 2230 is used for providing power for the operation of the compression driving assembly 2220.

The compression driving component 2220 is arranged in the accommodating area of the bearing shell 210, the compression driving component 2220 comprises a driving part, the driving part comprises a driving shaft 2221 and a compression screw rod 2222, the driving shaft 2221 is vertically movably arranged in the accommodating area of the bearing shell 210 and can rotate around the shaft, the top end of the driving shaft 2221 penetrates through the groove bottom of the accommodating groove I212 and is positioned in a bearing bracket arranged at the fixed end of the outer shell I211, and the compression screw rod 2222 is horizontally movably arranged in the accommodating area of the bearing shell 210 and can rotate around the shaft.

A first power connecting part 2223 is arranged between the driving shaft 2221 and the compression screw 2222, and power connection and transmission are performed between the driving shaft 2221 and the compression screw 2223 through the first power connecting part 2223, specifically, the first power connecting part 2223 is of a worm and gear transmission structure.

The four sets of drive members are arranged in four points, and the areas between the compression screws 2222 of the four sets of drive members form a mounting area having a square configuration and are concentric with the support housing 210.

The compression power assembly 2230 comprises a compression motor 2231 and a transmission shaft 2232, wherein the compression motor 2231 is vertically and fixedly mounted on the fixed frame 216, the transmission shaft 2232 is vertically and movably mounted on the connecting frame 213 and can rotate around the axial direction of the compression motor 2231, a power connecting piece II 2233 is arranged between the compression motor 2231 and the transmission shaft 2232, and power is connected and transmitted between the compression motor 2231 and the transmission shaft 2232 through the power connecting piece II 2233, specifically, the power connecting piece II 2233 is a speed reduction straight gear transmission structure.

A third power connecting part is arranged between the transmission shaft 2232 and the driving shafts 2221 of the four groups of driving parts, specifically, the third power connecting part comprises an input spur gear 2234, a transmission gear ring 2235 and an output spur gear 2236, the transmission gear ring 2235 is coaxially and movably installed in a bearing groove arranged at the fixed end of the first outer shell 211 and can rotate around the axial direction of the third power connecting part, both the inner ring and the outer ring of the transmission gear ring 2235 are provided with meshing teeth, the input spur gear 2234 is coaxially and fixedly installed outside the transmission shaft 2232 and the input spur gear 2234 and the outer ring of the transmission gear ring 2235 are meshed with each other, the output spur gear 2236 is coaxially and fixedly installed outside the top end of the driving shaft 2221 of the driving part and the output spur gear 2236 and the inner ring of the transmission gear ring 2235 are meshed with each other, and the output spur.

The motion process of the compression driving component is represented as follows: the compression motor 2232 operates and drives the transmission shaft 2232 to rotate around the self axial direction through the second power connection part 2233, the transmission shaft 2232 rotates and drives the driving shafts 2221 of the four groups of driving components to synchronously rotate around the self axial direction through the third power connection part, and the driving shafts 2221 rotate and drive the compression screw rods 2222 of the four groups of driving components to synchronously rotate around the self axial direction through the first power connection part 2223.

The compression members 2210 are disposed in the inner circumferential surface of the holder case 210, and the compression members 2210 include compression elements, which are coupled to the compression screw 2222 of the driving part, and four sets of the compression elements are correspondingly disposed.

The compression assembly comprises a compression block 2211, the horizontal included angle between the compression block 2211 and a compression screw 2222 of a corresponding driving part is forty-five degrees, a connecting lug 2212 is arranged on the side face, facing the compression screw 2222 of the corresponding driving part, of the compression block 2211, the connecting lug 2212 is movably connected with the compression screw 2222 of the corresponding driving part through a nut, and the compression screw 2222 rotates around the self axial direction and can pull the compression block 2211 to displace along the axial direction of the compression screw 2222.

The area between the compression blocks 2211 of the four compression assemblies is a square compression area and the compression area is concentric with the supporting shell 210, the compression screw 2222 of the four driving parts rotates around the self axial direction and can pull the compression area of the compression member 2210 to change, and the compression area of the compression member 2210 always keeps a square structure which is concentric with the supporting shell 210.

The working process of compression member 2210 is embodied as follows: the compression screw 2222 rotates around itself and pulls the compression block 2211 to displace along the axial direction of the compression screw 2222, so that the area of the compression member 2210 changes and the compression area always keeps a square structure with the same center line of the bearing shell 210.

The cake receiving device 300 is located below the molding and compressing device 200, the cake receiving device 200 includes a fixed housing 310, a discharge switch 320, and a storage case 330, the movement state of the discharge switch 320 can be divided into a closed state for closing the lower opening of the compression region of the compression member 2210 and an open state for releasing the closing of the lower opening of the compression region of the compression member 2210, and the storage case 330 is used for receiving molded cakes which fall downward through the discharge switch 320 in the open state.

The fixed shell 310 is a rectangular shell, the upper end face of the fixed shell 310 is fixedly connected with the end face of the fixed end of the second shell 214 of the bearing shell 210, the fixed shell 310 and the second shell 214 share a center line, and a discharge opening 311 is formed in the middle of the upper end face of the fixed shell 310.

A drawing opening is formed in the side face of the fixed shell 310, the storage box 330 is arranged in the fixed shell 310, the end part of the storage box 330 provided with the handle is positioned on the drawing opening, and the storage box 330 is in sliding guide fit with the drawing opening; the worker can take out/put back the storage box 330 by pushing and pulling the handle.

The discharging switch 320 comprises a discharging power member and a closing member, wherein the closing member is used for closing/unsealing the lower opening of the compression area of the compression member 2210, and the discharging power member is used for providing power for the operation of the closing member.

The sealing member is arranged in the fixed shell 310 and is also positioned between the discharge opening 311 and the storage box 330, the sealing member comprises a discharge screw rod 322 and a sealing plate 325, the discharge screw rod 322 is horizontally and movably arranged in the fixed shell 310 and can rotate around the axial direction of the discharge screw rod, the discharge screw rod 322 can be divided into two parts along the axial direction of the discharge screw rod and is a first thread section and a second thread section respectively, the screwing direction of the first thread section is opposite to that of the second thread section, and the power input end of the discharge screw rod 322 penetrates through the side wall of the fixed shell 310 and is positioned outside the fixed shell 310.

The shrouding 325 on be provided with the cover and establish the hole and overlap and establish downthehole screw that is provided with to the shrouding 325 passes through the screw and installs in ejection of compact lead screw 322's outside, the up end of shrouding 325 is located same horizontal plane with the lower drill way of discharge opening 311, the shrouding 325 is provided with two sets ofly and a set of shrouding 325 is connected with ejection of compact lead screw 325's screw thread section one, another group shrouding 325 is connected with ejection of compact lead screw 325's screw thread section two, ejection of compact lead screw 325 is around self axial rotation and can pull two sets of shro.

Preferably, the discharging screw rods 322 are provided with two sets, and the sleeving holes arranged on the sealing plate 325 are correspondingly provided with two sets.

The discharging power component comprises a discharging motor 321, an output shaft of the discharging motor 321 is axially parallel to the axial direction of the discharging screw rod 322, and the discharging motor 321 is fixedly installed on the upper end surface of the fixed shell 310.

A power transmission member three 323 is arranged between the power output end of the discharging motor 321 and the power input end of any one group of discharging screw rods 322 in the two groups of discharging screw rods 322, and the power transmission member three 323 is connected and transmitted with the power input end of the two groups of discharging screw rods 322 through the power transmission member three 323, a power transmission member four 324 is arranged between the power input ends of the two groups of discharging screw rods 322, and the power transmission member four 324 is connected and transmitted with the power transmission member four 324 through the power transmission member four 324, specifically, the power transmission member three 323 is a speed reducing belt transmission structure, and the power transmission member four 324 is a belt transmission structure with a transmission.

The working process of the cake receiving device 300 is embodied as follows: the discharging motor 321 operates and drives the two groups of discharging screw rods 322 to synchronously rotate around the self axial direction through the matching of the power transmission component three 323 and the power transmission component four 324, the discharging screw rods 322 rotate and pull the two groups of sealing plates 325 to move away from or close to each other, in the process of the movement of the two groups of sealing plates 325 away from each other, the discharging opening 311 is opened, the discharging switch 320 is switched to be in an open state, and the square column-shaped cakes compressed and formed by the compression forming device 200 fall downwards into the storage box 330; during the movement of the two closing plates 325 approaching each other, the discharge opening 311 is closed, and the discharge switch 320 is switched to the closed state.

More specifically, the upper end surface of the compression block 2211 of the compression member 2210 contacts with the lower end surface of the mounting plate 130, and the lower end surface of the compression block 2211 passes through the discharge opening 311 and can contact with the upper end surface of the sealing plate 325; it is significant that, in the process of compression molding of the cake raw material by the compression member 2210, there is no gap between the upper opening of the compression region of the compression member 2210 and the mounting plate 130, and between the lower opening and the sealing plate 325, and if there is a gap, not only the cake raw material in the gap is not compressed, but also both ends of the molded cake are not compressed tightly, resulting in poor quality.

In actual operation, the feeding power member 1220 operates to place the feeding switch 1210 in a feeding state, and at the same time, the discharging power member operates to place the discharging switch 320 in a closed state, and at the same time, the compression driving member operates to enlarge the compression area of the compression member 2210;

subsequently, the worker pours the cake raw material into the feed hopper 110, and the cake raw material in the feed hopper 110 drops into the compression region of the compression member 2210 through the feed holes 133 provided on the mounting end cap 132, the delivery holes 1213 provided on the switching hole 1211, the delivery head 1216, the discharge hole 134 provided on the mounting plate 130;

when the amount of the cake material dropped into the compression area of the compression member 2210 is required for the primary compression molding, the conveying power member 1220 is operated to close the conveying switch 1210;

subsequently, the compression driving member operates and the area of the compression region of the compression member 2210 becomes small, i.e., compression molding of the confectionery raw material is started;

after compression molding is completed, the compression driving member operates and the area of the compression member 2210 is enlarged;

then, the discharging power member operates and turns on the discharging switch 320, and the molded pastry falls into the storage box 330;

subsequently, the feeding power member 1220 is operated to set the feeding switch 1210 in the feeding state, and at the same time, the discharging power member is operated to set the discharging switch 320 in the off state, and the above-mentioned compression molding process is continued, and so on.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.