Automatic production equipment for meat ball products
阅读说明:本技术 肉丸制品自动生产设备 (Automatic production equipment for meat ball products ) 是由 林烈和 于 2020-07-24 设计创作,主要内容包括:本发明提供了一种肉丸制品自动生产设备,包括绞肉筒、绞刀组件、驱动组件、前置组件及成型组件。绞刀组件包括绞龙刀轴、切刀板及出馅孔板。绞肉筒与切刀板转动连接,切刀板与出馅孔板连接。驱动组件包括第一驱动电机与第二驱动电机,第一驱动电机与绞龙刀轴驱动连接,第二驱动电机与切刀板驱动连接。前置组件包括搅拌箱、挡插板、转动杆、转动驱动件、往复驱动件、若干切割单元及若干搅拌单元。转动杆与搅拌箱转动且滑动连接。转动驱动件与转动杆驱动连接。往复驱动件与转动驱动件驱动连接。各切割单元与各搅拌单元交错设置,切割单元包括若干切割刀,搅拌单元包括若干搅拌棍。上述生产设备提升了肉丸制品生产效率。(The invention provides automatic production equipment for meat ball products, which comprises a meat grinding cylinder, a reamer component, a driving component, a front component and a forming component. The reamer component comprises a packing auger cutter shaft, a cutter plate and a stuffing outlet plate. The meat grinding cylinder is rotationally connected with the cutter plate, and the cutter plate is connected with the stuffing outlet plate. The driving assembly comprises a first driving motor and a second driving motor, the first driving motor is in driving connection with the auger cutter shaft, and the second driving motor is in driving connection with the cutter plate. The front assembly comprises a stirring box, a blocking inserting plate, a rotating rod, a rotating driving part, a reciprocating driving part, a plurality of cutting units and a plurality of stirring units. The dwang rotates and sliding connection with the agitator tank. The rotation driving part is in driving connection with the rotating rod. The reciprocating driving piece is in driving connection with the rotating driving piece. Each cutting unit and each stirring unit are crisscross to be set up, and the cutting unit includes a plurality of cutting knives, and the stirring unit includes a plurality of puddlers. The production equipment improves the production efficiency of the meat ball products.)
1. An automatic production apparatus for meat ball products, comprising: the meat grinder comprises a meat grinding drum, a cutter component, a driving component, a front component and a forming component;
the reamer component comprises a packing auger cutter shaft, a cutter plate and a stuffing outlet plate; the meat mincing barrel is provided with a meat mincing channel, and the auger cutter shaft is accommodated in the meat mincing channel; the feed hopper is arranged at the input end of the meat mincing passage of the meat mincing barrel, and the meat mincing barrel is rotatably connected with the cutter plate at the output end of the meat mincing passage; the cutter plate is provided with a cutter blade, and one surface of the cutter plate, which is back to the meat mincing barrel, is connected with the stuffing outlet plate;
the driving assembly comprises a first driving motor and a second driving motor, and the first driving motor and the second driving motor are respectively arranged on the meat grinding drum; the first driving motor is in driving connection with the auger cutter shaft, and the second driving motor is in driving connection with the cutter plate;
the front-mounted assembly comprises a stirring box, a blocking and inserting plate, a rotating rod, a rotating driving part, a reciprocating driving part, a plurality of cutting units and a plurality of stirring units; the output end of the stirring box is communicated with the feed hopper, the output end of the stirring box is provided with a slot, and the baffle inserting plate is inserted into the slot and is connected with the stirring box; the rotating rod penetrates through the box walls on the two sides of the stirring box and is in rotating and sliding connection with the stirring box; the rotating driving piece is in driving connection with the rotating rod; the reciprocating driving part is in driving connection with the rotating driving part and is used for driving the rotating rod to reciprocate; each cutting unit and each stirring unit are arranged on the rotating rod in a staggered mode and are contained in the stirring box; the cutting unit comprises a plurality of cutting knives, and each cutting knife is arranged on the rotating rod in a surrounding manner; the stirring unit comprises a plurality of stirring rods, and the stirring rods are arranged on the rotating rod in a surrounding manner;
the molding assembly comprises a discharge barrel, a first molding die and a second molding die; the input end of the discharging cylinder is communicated with the stuffing outlet hole plate, the stuffing outlet hole plate is rotationally connected with the discharging cylinder, and the bottom of the discharging cylinder is provided with a supporting base; the first forming die is of a round cake-shaped structure with a hollow middle area, and one surface of the first forming die is provided with a plurality of first forming grooves; the second forming die is of a round cake-shaped structure with a hollow middle area, and one surface of the second forming die is provided with a plurality of second forming grooves; the second forming die is abutted against the first forming die, and each second forming groove is correspondingly communicated with one first forming groove; the first forming groove and the second forming groove are both hemispherical grooves, and the side wall of the second forming die is rotationally connected with the side wall of the first forming die; the discharging barrel is inserted into the first forming die and the second forming die in a sliding mode, a plurality of output holes are uniformly formed in the side wall, far away from one end of the stuffing outlet hole plate, of the discharging barrel around the shaft core, and each output hole is communicated with one first forming groove.
2. An automatic production facility for meat ball products as claimed in claim 1 wherein the input end of the mixing box is provided with a dispensing hopper.
3. An automatic production device for meat ball products as claimed in claim 1, characterized in that a first bearing is arranged on one side wall of the mixing box, and the rotating rod is inserted in the first bearing.
4. An automatic production plant of meat ball products according to claim 3, characterized in that the other side wall of said mixing tank is provided with a second bearing in which said rotating rod is inserted.
5. An automated meat pellet production facility as claimed in claim 4 wherein said first bearing is a ball bearing.
6. An automated meat pellet production apparatus as claimed in claim 5, wherein said second bearing is a ball bearing.
7. An automatic production plant for meat ball products according to claim 1, characterized in that two sets of said cutting units are provided; two groups of stirring units are arranged.
8. An automatic production apparatus for meat ball products as claimed in claim 7 wherein said cutting unit comprises four of said cutting knives; the stirring unit comprises four stirring rods.
9. An automatic production plant for meat ball products as claimed in claim 1, characterised in that said retaining and inserting plate is provided with a handle.
10. An automatic production apparatus for meat ball products as recited in claim 9, wherein said handle is of a ring-like configuration.
Technical Field
The invention relates to the technical field of production of meat ball products, in particular to automatic production equipment of meat ball products.
Background
The meat ball product is a semi-finished product in a spherical shape which is prepared by using livestock and poultry meat as a main raw material and carrying out processing treatment such as mincing, cutting, stirring and the like. Traditionally, meat pieces are cut into small pieces and the pieces are minced to obtain a mashed meat filling. Then manually kneading the meat paste stuffing into a ball shape to form the meat ball. Such as beef meatballs, pork meatballs, chicken meatballs, and the like. Because the meat ball product is pliable and tough, the meat ball product has very good taste and is popular with the food lovers.
However, in the conventional process for making meat ball products, either the cutting and stirring of raw meat materials or the forming of mashed meat stuffing are mostly done manually. The labor cost is high, and the reduction of the production cost of enterprises is not facilitated. In addition, the traditional method has low processing speed and low production efficiency, and cannot meet the requirement of high-efficiency production of the current enterprises.
Disclosure of Invention
Therefore, it is necessary to provide an automatic production device for meat ball products, aiming at the technical problem of low production and manufacturing efficiency of meat ball products.
An automatic production apparatus for meat ball products, comprising: a meat grinder, a reamer component, a driving component, a front component and a forming component. The reamer component comprises a packing auger cutter shaft, a cutter plate and a stuffing outlet hole plate. The meat mincing barrel is provided with a meat mincing channel, and the auger cutter shaft is contained in the meat mincing channel. The meat mincing barrel is provided with a feed hopper at the input end of the meat mincing channel, and the meat mincing barrel is connected with the output end of the meat mincing channel and the cutter plate in a rotating manner. The cutter plate is provided with a cutter blade, and one surface of the cutter plate, which is back to the meat mincing barrel, is connected with the stuffing outlet plate. The drive assembly comprises a first drive motor and a second drive motor, and the first drive motor and the second drive motor are respectively arranged on the meat grinding drum. The first driving motor is in driving connection with the auger cutter shaft, and the second driving motor is in driving connection with the cutting knife plate. Leading subassembly includes agitator tank, fender picture peg, dwang, rotation driving piece, reciprocating drive spare, a plurality of cutting unit and a plurality of stirring unit. The output of agitator tank with the feeder hopper intercommunication, the slot has been seted up to the output department of agitator tank, keep off the picture peg and insert in the slot and with the agitator tank is connected. The dwang runs through the both sides tank wall of agitator tank, and with the agitator tank rotates and sliding connection. The rotation driving part is in driving connection with the rotation rod. The reciprocating driving part is in driving connection with the rotating driving part, and the reciprocating driving part is used for driving the rotating rod to perform reciprocating motion. Each cutting unit and each stirring unit are arranged on the rotating rod in a staggered mode and contained in the stirring box. The cutting unit comprises a plurality of cutting knives, and the cutting knives are arranged on the rotating rod in a surrounding mode. The stirring unit comprises a plurality of stirring rods, and the stirring rods are arranged on the rotating rod in a surrounding mode. The molding assembly comprises a discharge barrel, a first molding die and a second molding die. The input end of the discharge cylinder is communicated with the stuffing outlet hole plate, the stuffing outlet hole plate is rotatably connected with the discharge cylinder, and the bottom of the discharge cylinder is provided with a supporting base. The first forming die is of a round cake-shaped structure with a hollow middle area, and a plurality of first forming grooves are formed in one surface of the first forming die. The second forming die is of a round cake-shaped structure with a hollow middle area, and a plurality of second forming grooves are formed in one surface of the second forming die. The second forming die is abutted against the first forming die, and each second forming groove is correspondingly communicated with one first forming groove. The first forming groove and the second forming groove are both hemispherical grooves, and the side wall of the second forming die is rotatably connected with the side wall of the first forming die. The discharging barrel is inserted into the first forming die and the second forming die in a sliding mode, a plurality of output holes are uniformly formed in the side wall, far away from one end of the stuffing outlet hole plate, of the discharging barrel around the shaft core, and each output hole is communicated with one first forming groove.
In one embodiment, the input end of the stirring box is provided with a throwing hopper.
In one embodiment, a first bearing is arranged on one side wall of the stirring box, and the rotating rod is inserted into the first bearing.
In one embodiment, the other side wall of the stirring box is provided with a second bearing, and the rotating rod is inserted into the second bearing.
In one embodiment, the first bearing is a ball bearing.
In one embodiment, the second bearing is a ball bearing.
In one embodiment, two sets of said cutting units are provided. Two groups of stirring units are arranged.
In one embodiment, the cutting unit comprises four cutting knives. The stirring unit comprises four stirring rods.
In one embodiment, the retainer plate is provided with a handle.
In one embodiment, the handle is of a ring-shaped configuration.
According to the automatic production equipment for the meat ball products, the massive raw meat and the flavoring agent are put into the input end of the stirring box, so that the cutting operation and the stirring operation are carried out under the action of each cutting unit and each stirring unit. The rotating rod is driven to rotate by rotating the driving piece, so that each cutting knife and each stirring rod are driven to cut and stir. The driving piece is driven to rotate by the reciprocating driving piece to carry out reciprocating motion, so that the rotating rod can reciprocate along the axial direction, and the cutting and stirring effects of each cutting knife and each stirring rod are enhanced. And each raw meat block subjected to pretreatment enters the feed hopper by taking the blocking insertion plate out of the slot. Raw material meat blocks enter a meat mincing channel of the meat mincing barrel through a feed hopper, and under the driving action of a first driving motor, an auger cutter shaft rotates to ream and cut the raw material meat blocks and push the raw material meat blocks to a cutting knife plate. Under the driving action of the second driving motor, the cutter plate and the stuffing outlet plate rotate together at high speed, the raw meat blocks pass through the cutter plate and are cut by the cutter blade, and then the raw meat blocks pass through the stuffing outlet plate and are extruded out of the holes of the stuffing outlet plate, so that muddy meat stuffing is formed. The rotary cutting of the cutting edge and the rotary propulsion of the auger cutter shaft are respectively completed under the driving action of the second driving motor and the first driving motor, so that the stepped adjustment of the discharging speed and the cutting fineness of the minced meat is realized. The muddy meat stuffing enters the discharging barrel, is stacked and extruded and then enters the first forming grooves and the second forming grooves through the output holes, and under the shaping action of the first forming dies and the second forming dies, the muddy meat stuffing forms spherical meat balls. At the moment, the first forming die and the second forming die are pushed synchronously, so that the first forming die and the second forming die slide for a certain distance on the discharging barrel, the discharging barrel does not support the second forming die any more, the output holes are not communicated with the first forming groove any more, and the inner wall of the first forming die blocks the output holes. By utilizing the rotary connection relationship between the second forming die and the first forming die, a user can take out the spherical meatballs after pulling the second forming die. The automatic production equipment for the meat ball products greatly improves the production and manufacturing efficiency of the meat ball products.
Drawings
FIG. 1 is a schematic diagram of an automatic production apparatus for a meat pellet product according to one embodiment;
FIG. 2 is a schematic sectional view of a part of the structure of an automatic production apparatus for meat ball products in one embodiment;
FIG. 3 is a sectional view showing another structure of an automatic production apparatus for meat ball products in one embodiment;
FIG. 4 is an enlarged schematic view of the structure of the M section of the automatic production apparatus for meat ball products in the embodiment shown in FIG. 3;
FIG. 5 is a schematic sectional view of a part of the automatic production apparatus for meat ball products in another embodiment;
FIG. 6 is a schematic sectional view showing still another structure of an automatic production apparatus for meat ball products in one embodiment;
FIG. 7 is an enlarged schematic view of the structure of the portion N of the automatic production apparatus for meat ball products in the embodiment shown in FIG. 6;
fig. 8 is a schematic view showing a partially developed structure of an automatic production apparatus for meat ball products in one embodiment.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
Referring to fig. 1 to 8, the present invention provides an automatic production apparatus 10 for meat ball products, wherein the automatic production apparatus 10 for meat ball products comprises: a meat grinder 100, a reamer assembly 200, a drive assembly 300, a lead assembly 400, and a forming assembly 500. The reamer assembly 200 includes a auger shaft 210, a
The automatic production apparatus 10 for meat ball products performs the cutting operation and the mixing operation by the cutting units 460 and the mixing units 470 by feeding the raw meat and the seasoning agent in the form of chunks into the input end of the mixing box 410. The rotating rod 430 is driven to rotate by rotating the driving member 440, so as to drive the cutting blades 461 and the stirring rods 471 to perform cutting and stirring operations. The reciprocating driving member 450 drives the rotating driving member 440 to reciprocate, so that the rotating rod 430 reciprocates axially, thereby enhancing the cutting and stirring effects of the cutting blades 461 and the stirring rods 471. Each raw meat piece that has been previously processed is introduced into the hopper 120 by removing the insert plate 420 from the slot 411. The raw meat blocks enter the meat mincing channel 110 of the meat mincing barrel 100 through the feed hopper 120, and the auger cutter shaft 210 rotates under the driving action of the first driving motor 310 to ream and cut the raw meat blocks and push the raw meat blocks to the
The pre-processing unit 400 is used to perform pre-processing, and the pre-processing unit 400 cuts each raw meat in a large block shape into a raw meat block in a small block shape, and sufficiently stirs the raw meat block and each seasoning. The agitation tank 410 is a main body member, and cutting and agitation work is performed in the agitation tank 410. To facilitate the dispensing of chunks of each raw meat and flavoring agent, in one embodiment, the input end of the blender jar 410 is provided with a dispensing hopper 480. Therefore, the raw material feeding work of the user is facilitated. The rotational driving member 440 serves to drive the rotation lever 430 to rotate. In one embodiment, the rotational drive 440 is a motor. The reciprocating driver 450 serves to drive the rotating rod 430 to reciprocate axially. In one embodiment, the reciprocating drive 450 is a rodless cylinder. In another embodiment, the reciprocating drive 450 is a lead screw motor. The rotating lever 430 serves to carry the respective cutting units 460 and the respective stirring units 470. Each cutting unit 460 is used to complete the cutting operation and each stirring unit 470 is used to complete the stirring operation. The cutting units 460 and the stirring units 470 are alternately disposed on the rotating rod 430. In one embodiment, two sets of cutting units 460 are provided. Two sets of stirring units 470 are provided. Further, the cutting unit 460 includes four cutting blades 461. The stirring unit 470 includes four stirring rods 471. As the rotating rod 430 rotates and reciprocates, the cutting blades 461 and the stirring rods 471 perform cutting and stirring operations. The baffle plate 420 is used for blocking the output end of the stirring tank 410. After the cutting and stirring work is sufficiently performed, the raw meat pieces subjected to the preliminary treatment can be fed into the feed hopper 120 by removing the inserting plate 420 from the slot 411.
It should be noted that the rotating rod 430 penetrates through both side walls of the stirring tank 410 and is rotatably and slidably connected to the stirring tank 410. That is, the rotating rod 430 is movably connected with the agitating tank 410. In order to ensure the stability of the rotation relationship and the flow property, in one embodiment, a first bearing 412 is disposed on one side wall of the stirring tank 410, and the rotation rod 430 is inserted into the first bearing 412. Specifically, in one embodiment, the first bearing 412 is a ball bearing. Further, in one of the embodiments, the other side wall of the agitation tank 410 is provided with a second bearing 413, and the rotation lever 430 is inserted in the second bearing 413. Specifically, in one embodiment, the second bearing 413 is a ball bearing. The provision of the first bearing 412 and the second bearing 413 enhances the support stability of the rotation lever 430 and enhances the rotation effect of the rotation lever 430. It should be noted that the rotating rod 430 is also axially slidably connected to the first bearing 412 and the second bearing 413. That is, the rotating lever 430 is axially slidable in the first bearing 412 and the second bearing 413. Thus, the rotational stability and the smoothness of the rotation lever 430 are enhanced, and the operational stability of the front module 400 is ensured.
To facilitate the user's pulling on the retainer plate 420, in one embodiment, the retainer plate 420 is provided with a handle 421. Specifically, the handle 421 has a ring-shaped structure. The arrangement of handle 421 provides a point of force for the user to apply to pull patch panel 420. Therefore, the pulling convenience of the blocking and inserting plate 420 is improved.
The meat grinder 100 serves as a main framework, and the meat grinder 100 supports and mounts the cutter assembly 200 and the driving assembly 300. The meat material pieces are fed through the feed hopper 120 into the meat grinder 100, are ground in the meat grinder passage 110 and move towards the output end of the meat grinder passage 110. The reamer assembly 200 is used to perform the stirring and cutting work. The auger cutter shaft 210 cuts and pushes the raw meat pieces, and the
It should be noted that the meat grinder 100 is rotatably connected to the
In order to facilitate the second driving motor 320 to drive the
In order to further enhance the cutting fineness of the raw meat piece, in one embodiment, the reamer assembly 200 further comprises a reinforcing
The forming assembly 500 is used to shape the mashed meat to form spherical meat balls. The discharging
It should be noted that the discharging
In order to improve the supporting and stabilizing effect of the supporting
After the muddy flesh stuffing forms spherical meat balls under the shaping action of the
In order to prevent the first forming
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
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