阅读说明：本技术 一种食材制作装置 (Food material making device ) 是由 龚翔 于 2019-12-04 设计创作，主要内容包括：本发明涉及一种食材制作装置,包括机架,其特点在于还包括升降板、打果胶机构、升降机构和匀液机构；升降板处于机架上,在机架上固定有带材料投放口的承托板；升降机构安装在机架上,其动作部位与升降板连接；打果胶机构包括果胶搅拌器和滤杯,滤杯安装在材料投放口中,滤杯的下部穿过材料投放口插入至升降板与承托板之间；果胶搅拌器安装在承托板上,其用于执行搅拌的部位处在滤杯内部；匀液机构安装在承托板上,该匀液机构包括进液管、出液管和匀液泵,进液管的进液口处于承托板与升降板之间,出液管的出液口朝向滤杯内出液设置。本发明具有结构简单、设计合理、自动化程度高,安全卫生,且利于降低食物生产成本,提高效益等特点。(The invention relates to a food material making device, which comprises a rack and is characterized by also comprising a lifting plate, a pectin beating mechanism, a lifting mechanism and a liquid homogenizing mechanism; the lifting plate is positioned on the frame, and a bearing plate with a material feeding port is fixed on the frame; the lifting mechanism is arranged on the frame, and the action part of the lifting mechanism is connected with the lifting plate; the pectin beating mechanism comprises a pectin stirrer and a filter cup, the filter cup is arranged in the material feeding port, and the lower part of the filter cup penetrates through the material feeding port and is inserted between the lifting plate and the bearing plate; the pectin stirrer is arranged on the bearing plate, and the part of the pectin stirrer for stirring is positioned in the filter bowl; the liquid homogenizing mechanism is installed on the bearing plate and comprises a liquid inlet pipe, a liquid outlet pipe and a liquid homogenizing pump, wherein the liquid inlet of the liquid inlet pipe is positioned between the bearing plate and the lifting plate, and the liquid outlet of the liquid outlet pipe is arranged towards the liquid outlet in the filter cup. The invention has the characteristics of simple structure, reasonable design, high automation degree, safety, sanitation, contribution to reducing the production cost of food, improvement on benefits and the like.)

1. The utility model provides a eat material making devices, includes the frame, its characterized in that: the device also comprises a lifting plate, a pectin beating mechanism, a lifting mechanism and a liquid homogenizing mechanism; the lifting plate is positioned on the rack, a bearing plate is also fixed on the rack, the bearing plate is positioned above the lifting plate, and a material feeding port is formed in the bearing plate; the lifting mechanism is arranged on the frame, and the action part of the lifting mechanism is connected with the lifting plate so that the lifting plate can do lifting motion relative to the bearing plate; the pectin beating mechanism comprises a pectin stirrer and a filter cup, the filter cup is detachably arranged in the material feeding port, and the lower part of the filter cup penetrates through the material feeding port and is inserted between the lifting plate and the bearing plate; the pectin stirrer is arranged on the bearing plate, and the part of the pectin stirrer for stirring is positioned in the filter bowl; the liquid homogenizing mechanism is arranged on the bearing plate and comprises a liquid inlet pipe, a liquid outlet pipe and a liquid homogenizing pump for connecting the liquid inlet pipe and the liquid outlet pipe together, a liquid inlet of the liquid inlet pipe is arranged between the bearing plate and the lifting plate, and a liquid outlet of the liquid outlet pipe is arranged towards the interior of the filter cup for discharging liquid.

2. Food material making apparatus as claimed in claim 1, wherein: the liquid inlet pipes of the liquid homogenizing mechanism are at least 4, the liquid inlet pipes are distributed on a bearing plate of the rack in a rectangular array mode, the material feeding ports are located in an enclosure formed by enclosing the liquid inlet pipes, and liquid outlets of the liquid inlet pipes are communicated with the liquid homogenizing pump.

3. Food material making apparatus as claimed in claim 1, wherein: the device also comprises at least one coagulant stirrer, and at least one coagulant stirring inlet is formed on the bearing plate; the coagulant stirrer is mounted on the bearing plate, and a part for stirring extends into the space between the lifting plate and the bearing plate through the coagulant stirring inlet.

4. Food material making apparatus as claimed in claim 3, wherein: the coagulant stirrers comprise at least 2, and the coagulant stirrers are arranged in a circular array around the center of the support plate.

5. Food material making apparatus as claimed in claim 3 or 4, wherein: the liquid agent conveying mechanism is arranged on the rack and comprises liquid agent inlet pipes, liquid agent outlet pipes at least equal to the quantity of the coagulant stirrers and a liquid agent pump for connecting the liquid agent inlet pipes and the liquid agent outlet pipes; a coagulant mixer is used in cooperation with at least one liquid outlet pipe, and a liquid outlet of the liquid outlet pipe is arranged close to and facing a stirring execution part of the coagulant mixer.

6. Food material making apparatus as claimed in claim 1, wherein: a part of area of the side surface of the filter bowl is provided with filter holes, and the other part of area of the side surface of the filter bowl is not provided with filter holes; the filter holes on the side surfaces of the filter cups are all positioned in the area of the filter cups close to the lifting plate, and the area of the side surfaces of the filter cups far away from the lifting plate is not provided with the filter holes.

7. Food material making apparatus as claimed in claim 1, wherein: still be formed with first installation position on the bearing plate, the pectin agitator is installed in first installation position, is equipped with 2 first elastic positioning spare that are the symmetry and set up in first installation position, is formed with on the pectin agitator to cooperate the first draw-in groove that clamps the location with 2 first elastic positioning spare.

8. Food material making apparatus as claimed in claim 3 or 4, wherein: the bearing plate is also provided with second mounting positions with the same number as the coagulant stirrers, the coagulant stirrers are correspondingly mounted in the second mounting positions, the second mounting positions are provided with 2 second elastic positioning pieces which are symmetrically arranged, and the coagulant stirrer is provided with second clamping grooves which are matched with the 2 second elastic positioning pieces and clamped and positioned.

9. Food material making apparatus as claimed in claim 1, wherein: the side of the lifting plate facing the bearing plate is fixed with a container positioning piece, and a positioning surrounding edge with an opening at one side is formed on the container positioning piece.

10. Food material making apparatus as claimed in claim 5, wherein: the main control module is arranged on the frame and is electrically connected with the lifting mechanism, the liquid homogenizing pump, the pectin stirrer, the coagulant stirrer and the liquid pump.

Technical Field

The invention relates to a food material making device, in particular to a full-automatic food material making device with the working procedures of kneading, adding auxiliary materials, mixing and the like.

Background

The ice powder is a summer health food for diminishing inflammation, promoting urination, relieving summer heat and quenching thirst, and is popular with people because of smoothness, transparency, coolness, delicacy and low price.

One of the methods for preparing ice powder at present is as follows: wrapping the seeds of the nicandra physaloides (namely the seeds of the ice powder fruit, namely the ice powder seeds) with gauze, forcibly kneading in water, adding a small amount of lime water after the pectin in the seeds is separated into the water, and standing at normal temperature for two or three hours, wherein the juice solidified into blocks is the ice powder.

However, the above manufacturing processes are almost all operated by hands at present, take up a long time of personnel, have high requirements for the operating skill of personnel, and have poor product consistency, thus being not beneficial to commercial production.

Therefore, a new automatic food material making device is needed to fill the blank in the aspect, reduce the production cost and improve the benefit.

Disclosure of Invention

The invention aims to provide a food material making device which has the advantages of simple structure, reasonable design, high automation degree, safety, sanitation, contribution to reducing the production cost of food, improvement on benefits and the like.

The technical scheme of the invention is realized as follows: a food material making device comprises a frame, and is characterized by also comprising a lifting plate, a pectin beating mechanism, a lifting mechanism and a liquid homogenizing mechanism; the lifting plate is positioned on the rack, a bearing plate is also fixed on the rack, the bearing plate is positioned above the lifting plate, and a material feeding port is formed in the bearing plate; the lifting mechanism is arranged on the frame, and the action part of the lifting mechanism is connected with the lifting plate so that the lifting plate can do lifting motion relative to the bearing plate; the pectin beating mechanism comprises a pectin stirrer and a filter cup, the filter cup is detachably arranged in the material feeding port, and the lower part of the filter cup penetrates through the material feeding port and is inserted between the lifting plate and the bearing plate; the pectin stirrer is arranged on the bearing plate, and the part of the pectin stirrer for stirring is positioned in the filter bowl; the liquid homogenizing mechanism is arranged on the bearing plate and comprises a liquid inlet pipe, a liquid outlet pipe and a liquid homogenizing pump for connecting the liquid inlet pipe and the liquid outlet pipe together, a liquid inlet of the liquid inlet pipe is arranged between the bearing plate and the lifting plate, and a liquid outlet of the liquid outlet pipe is arranged towards the interior of the filter cup for discharging liquid.

The working principle of the invention is as follows: a container filled with liquid is placed above the lifting plate in advance, wherein the liquid can be water or juice and other liquid used for making food materials, and the lifting plate is lifted, so that the lower part of the filter cup and the liquid inlet of the liquid inlet pipe are immersed into the liquid in the container. The raw material is placed in a filter bowl and then a pectin stirrer stirs the raw material through the site where the stirring is performed. Because the raw material is in the filter bowl, and the liquid enters the filter bowl through the filter hole of the filter bowl, the stirring effect on the raw material is similar to the effect of putting the raw material into the liquid and kneading the raw material, so that the raw material can quickly release juice and be mixed into the liquid in the container. The liquid homogenizing mechanism is used for realizing water circulation, the liquid homogenizing pump sucks liquid in the container through the liquid inlet pipe and then injects the liquid into the filter cup again through the liquid outlet pipe, and the returned liquid is stirred by the pectin stirrer again, so that the juice of the raw materials and the liquid are mixed more uniformly.

Furthermore, the liquid inlet pipes of the liquid homogenizing mechanism are at least 4, the liquid inlet pipes are distributed on a bearing plate of the rack in a rectangular array mode, the material feeding port is located in an enclosing ring formed by enclosing the liquid inlet pipes, and the liquid outlet of each liquid inlet pipe is communicated with the liquid homogenizing pump.

Still further, the present invention further comprises at least one coagulant mixer, at least one coagulant mixer inlet port being formed on the support plate; the coagulant stirrer is mounted on the bearing plate, and a part for stirring extends into the space between the lifting plate and the bearing plate through the coagulant stirring inlet.

Still further, the coagulant agitator comprises at least 2, the coagulant agitators arranged in a circular array about the center of the support plate.

Still further, the invention also comprises a liquid agent conveying mechanism, wherein the liquid agent conveying mechanism is arranged on the rack and comprises a liquid agent inlet pipe, liquid agent outlet pipes which are at least equal to the quantity of the coagulant stirrers, and a liquid agent pump which connects the liquid agent inlet pipe and the liquid agent outlet pipes; a coagulant mixer is used in cooperation with at least one liquid outlet pipe, and a liquid outlet of the liquid outlet pipe is arranged close to and facing a stirring execution part of the coagulant mixer.

The invention has the beneficial effects that: the invention has the advantages of simple structure, reasonable design, high automation degree, safety, sanitation, contribution to reducing the production cost of food, improvement on benefits and the like.

Drawings

FIG. 1 is a schematic view of one embodiment (with a container).

FIG. 2 is a schematic structural view of the shielding case removed according to the embodiment.

Fig. 3 is a second schematic structural diagram of the embodiment.

Fig. 4 is a schematic top view of the embodiment.

Fig. 5 is a schematic view of a connection structure of the frame, the lifting plate and the lifting mechanism of the embodiment.

FIG. 6 is a schematic structural view of the liquid inlet pipe and the liquid outlet pipe of the embodiment after being mounted on the support plate.

Fig. 7 is a schematic structural diagram of a pectin stirrer in an example.

FIG. 8 is a schematic structural view of a filter bowl in the example.

Description of reference numerals: 1-a frame; 11-a support plate; 12-a material input port; 13-coagulant agitation inlet; 14-a base plate; 15-a first mounting location; 16-a first resilient positioning element; 17-a second mounting location; 18-a second resilient positioning element; 19-mounting a plate; 2-lifting plate; 3-a pectin beating mechanism; 31-a pectin stirrer; 311-a first card slot; 312-a stir bar; 32-a filter bowl; 321-filter pores; 322-flanging; 4-a lifting mechanism; 41-electric push rod device; 42-guide posts; 43-a guide sleeve; 44-a connector; 5-liquid homogenizing mechanism; 51-a liquid inlet pipe; 52-a liquid outlet pipe; 53-homogenizing pump; 6-coagulant mixer; 61-a second card slot; 7-liquid agent conveying mechanism; 71-liquid feeding agent pipe; 72-liquid agent outlet pipe; 73-liquid agent pump; 8-a container positioning element; 81-positioning a surrounding edge; 9-shielding case; 10-a main control module; 20-a circuit cover case; 30-a power switch; 40-pectin stirrer socket; 50-coagulant blender socket; 60-container.

Detailed Description

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, the food material making apparatus of the present embodiment includes a frame 1, a lifting plate 2, a pectin applying mechanism 3, a lifting mechanism 4, and a liquid homogenizing mechanism 5; the lifting plate 2 is arranged on the machine frame 1, a bearing plate 11 is further fixed on the machine frame 1, the bearing plate 11 is arranged above the lifting plate 2, a material feeding port 12 is formed in the bearing plate 11, and the material feeding port 12 is arranged in the center of the bearing plate 11; the lifting mechanism 4 is installed on the frame 1, the action part of the lifting mechanism 4 is connected with the lifting plate 2 so that the lifting plate 2 can do lifting motion relative to the bearing plate 22, the lifting mechanism 4 comprises 2 electric push rod devices 41, 4 guide posts 42, 4 guide sleeves 43 and 2 connecting pieces 44, a bottom plate 14 is further fixed on the frame 1, the bottom plate 14 is located below the lifting plate 2, the 4 guide posts 42 are respectively fixed between the bearing plate 11 and the bottom plate 14, the 4 guide sleeves 43 are correspondingly fixed on 4 corners of the lifting plate 2, the 4 guide sleeves 43 are further correspondingly sleeved on the 4 guide posts 42, the bottoms of the electric push rod devices 41 are respectively fixed on the bottom plate 14 and correspondingly distributed on two sides of the lifting plate 2, the action parts of the electric push rod devices 41 are respectively provided with the connecting pieces 44, and the connecting pieces 44 are connected with the lifting plate 2. When the lifting plate 2 needs to do lifting movement, the 2 electric push rod devices 41 act simultaneously and extend out or retract simultaneously, so that the lifting plate 2 does lifting movement up and down along the guide post 42; the pectin adding mechanism 3 comprises a pectin stirrer 31 and a filter cup 32, the filter cup 32 is detachably arranged in the material feeding port 12, an outward flange 322 is arranged at the cup mouth of the filter cup 32, when the filter cup 32 is placed into the material feeding port 12 from top to bottom, the outward flange 322 of the filter cup 32 can be blocked by the edge of the material feeding port 12, so that the filter cup 32 and the bearing plate 11 are installed, and the lower part of the filter cup 32 penetrates through the material feeding port 12 and is inserted between the lifting plate 2 and the bearing plate 11; the pectin stirrer 31 is arranged on the supporting plate 11, the part for stirring is positioned in the filter cup 32, the pectin stirrer 31 is a device which is similar to an egg beater structure, and the pectin stirrer 31 is of a double-shaft type and is provided with 2 stirring rods 312; the liquid homogenizing mechanism 5 is installed on the bearing plate 11, the liquid homogenizing mechanism 5 comprises a liquid inlet pipe 51, a liquid outlet pipe 52 and a liquid homogenizing pump 53 which connects the liquid inlet pipe 51 and the liquid outlet pipe 52 together, a liquid inlet of the liquid inlet pipe 51 is arranged between the bearing plate 11 and the lifting plate 2, and a liquid outlet of the liquid outlet pipe 52 is arranged towards the interior of the filter cup 32. When the food processor is used, a container 60 containing liquid, such as water or fruit juice, is placed on the lifting plate 2 in advance, the lifting plate 2 is lifted, and the lower portion of the filter cup 32 and the liquid inlet of the liquid inlet pipe 51 are immersed in the liquid in the container 60. The raw material is put into the filter bowl 32 and then the pectin stirrer 31 stirs the raw material through the portion where the stirring is performed. Since the raw material is in the bowl 32 and the liquid is introduced into the bowl 32 through the outlet 321 of the bowl 32, the agitation of the raw material is similar to the kneading of the raw material into the liquid, thereby allowing the raw material to be rapidly released and mixed into the liquid in the container 60. The liquid homogenizing mechanism 5 is used for realizing water circulation, the liquid homogenizing pump 53 sucks the liquid in the container 60 through the liquid inlet pipe 51, and then the liquid is re-injected into the filter cup 32 through the liquid outlet pipe 52, so that the returned liquid is stirred by the pectin stirrer 31 again, and the juice of the raw material and the liquid are mixed more uniformly. The invention has the advantages of simple structure, reasonable design, high automation degree, safety, sanitation, contribution to reducing the production cost of food, improvement on benefits and the like.

In order to make the structure of the liquid homogenizing mechanism 5 more reasonable, as shown in fig. 6, there are 4 liquid inlet pipes 51 of the liquid homogenizing mechanism 5, these liquid inlet pipes 51 are arranged on the supporting plate 11 of the frame 1 in a rectangular array distribution, during assembly, the upper part of the liquid inlet pipe 51 is fixed on the bearing plate 11 through a fixing part, the liquid inlet pipe 51 is vertically arranged between the bearing plate 11 and the lifting plate 2, the material feeding port 12 is arranged in an enclosure formed by enclosing the liquid inlet pipe 51, the liquid outlet of each liquid inlet pipe 51 is communicated with the homogenizing pump 53, specifically, after the liquid outlets of 4 liquid inlet pipes 51 are communicated through a pipeline structure (the pipeline structure is not shown in fig. 6), the pipeline structure is communicated with the liquid inlet of the homogenizing pump 53, the pipeline structure comprises a plurality of water pipes and a plurality of connectors, so that the connected water pipes are simpler, and the complicated structure of the water pipes is avoided. By the design, the pectin stirrer 31 can stir and glue the materials in the filter bowl 32, and simultaneously, the liquid at four corners which is difficult to reach by the pectin in the inner cavity of the container 60 is injected into the filter bowl 32 under the action of the liquid homogenizing mechanism 5, and the pectin is mixed with the pectin in the filter bowl 32 again and then enters the container 60, so that the pectin in the container 60 is distributed more uniformly.

In order to make the food material making device do not need to be stirred manually after the coagulant is added, the food material making device is more automated, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 6, the food material making device further comprises at least one coagulant stirrer 6, and at least one coagulant stirring inlet 13 is formed on the supporting plate 11; the coagulant stirrer 6 is mounted on the support plate 11, a part for performing stirring extends between the lifting plate 2 and the support plate 11 through a coagulant stirring inlet 13, the coagulant stirrer 6 is basically the same as the pectin stirrer 31 and is of a double-shaft type with a structure of 2 stirring rods, and the coagulant stirrer 6 is different from the pectin stirrer 31 in that: the stirring positions among the 2 stirring rods on the coagulant stirrer 6 are arranged in a vertically staggered manner, so that the coagulant stirrer 6 can stir the upper layer liquid close to the liquid surface of the container when stirring the coagulant and can also stir the lower layer liquid close to the bottom surface of the container, the distribution of the coagulant is more uniform, the quality of the prepared food is better, and the mouthfeel is better.

In order to make the condensing agent stir more uniformly and make the quality of the food better, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 6, the number of the coagulant stirrers 6 of the embodiment is 2, 2 coagulant stirring inlets 13 are correspondingly formed on the bearing plate 11, and 2 coagulant stirrers 6 are arranged in a circular array around the center of the bearing plate 11.

In order to realize automatic conveying of the coagulant, the food material manufacturing device is further optimized, as shown in fig. 2, fig. 3, fig. 4 and fig. 6, the food material manufacturing device further comprises a liquid conveying mechanism 7, the liquid conveying mechanism 7 is mounted on the rack 1, the liquid conveying mechanism 7 comprises liquid inlet pipes 71, liquid outlet pipes 72 at least as many as the coagulant stirrers 6, and liquid pumps 73 connecting the liquid inlet pipes 71 and the liquid outlet pipes 72 together, the liquid outlet pipes 72 are fixed on the bottom surface of the support plate 11, the liquid outlet pipes 72 of the embodiment have two, the 2 liquid outlet pipes 72 are communicated with the liquid conveying mechanism 7 through a joint and a pipe fitting penetrating through the support plate 11 from the bottom surface of the support plate 11, each liquid outlet pipe 72 is formed with a liquid outlet, one coagulant stirrer 6 is used in cooperation with at least one liquid outlet pipe 72, and the liquid outlet of the liquid outlet pipe 72 is close to a stirring execution part of the coagulant stirrer 6 and faces the coagulant stirrer 6 the direction of the stirring part is arranged to discharge liquid. The liquid inlet of the liquid inlet pipe 71 is positioned outside the rack 1, a barrel body filled with coagulant is placed beside the rack 1 during operation, and then the liquid inlet of the liquid inlet pipe 71 is inserted into the barrel body.

In order to make the structure of the filter bowl 32 more reasonable, as shown in fig. 8, a part of the side surface of the filter bowl 32 is provided with filter holes 321, and another part of the side surface of the filter bowl 32 is not provided with the filter holes 321; the filter holes 321 on the side of the filter bowl 32 are all located in the area of the filter bowl 32 close to the lifting plate 2, while the area of the side of the filter bowl 32 remote from the lifting plate 2 is not provided with filter holes 321, so that the area provided with filter holes 321 and the area not provided with filter holes 321 form a visual boundary. When the level of liquid in the container 60 is above the dividing line, a significant portion of the bubbles will be concentrated in the filter cup 32, thus resulting in only a small amount of bubbles or even no bubbles in the liquid.

In order to more conveniently and rapidly mount the pectin stirrer 31 on the supporting plate 11, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 7, a first mounting position 15 is further formed on the supporting plate 11, the pectin stirrer 31 is mounted in the first mounting position 15, 2 first elastic positioning members 16 are symmetrically arranged in the first mounting position 15, and a first clamping groove 311 is formed on the pectin stirrer 31 and is in clamping positioning with the 2 first elastic positioning members 16. First elastic positioning element 16 is the round pin axle that can carry out axis direction elastic deformation, fixes on bearing plate 11 in the bottom of round pin axle, is formed with the clamping head at the top of round pin axle, be formed with on the afterbody of pectin agitator 31 first draw-in groove 311, the afterbody of pectin agitator 31 is gone into to first installation position 15 and is located between 2 first elastic positioning element 16, and first draw-in groove 311 looks clamping is in the same place on first elastic positioning element 16 and the afterbody of pectin agitator 31.

In order to make the coagulant stirrer 6 more conveniently and quickly mounted on the supporting plate 11, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the supporting plate 11 is further provided with 2 second mounting positions 17 with the same number as the coagulant stirrers, the second mounting positions 17 in the embodiment are arranged in a circular array around the center of the supporting plate 11, the second mounting positions 17 are communicated with the first mounting positions 15, the coagulant stirrer 6 is correspondingly mounted in the second mounting positions 17, 2 second elastic positioning members 18 which are symmetrically arranged are arranged in the second mounting positions 17, and second clamping grooves 61 which are matched with the 2 second elastic positioning members 18 and clamped and positioned are formed on the coagulant stirrer 6. The structure of the second elastic positioning piece 18 is the same as that of the first elastic positioning piece 16, the second clamping groove 61 is formed on the tail part of the coagulant stirrer 6, the tail part of the coagulant stirrer 6 is clamped into the second mounting position 17 and is positioned among the 2 second elastic positioning pieces 18, and the second elastic positioning piece 18 is clamped with the second clamping groove 61 on the tail part of the coagulant stirrer 6.

In order to make the food material manufacturing apparatus more convenient to place the container 60 on the lifting plate 2 when in use, as shown in fig. 1 and fig. 2, the side of the lifting plate 2 facing the supporting plate 11 is fixed with the container positioning member 8, the container positioning member 8 is formed with a positioning surrounding edge 81 with one open side, and in order to avoid the electric push rod device 41 of the lifting mechanism from blocking the opening of the positioning surrounding edge 81, the opening of the positioning surrounding edge 81 is towards the edge of the lifting plate 2 which is not connected with the electric push rod device when in installation.

In order to further improve the grade of the food material making device, as shown in fig. 1, 2, 3 and 4, the food material making device further comprises a shielding case 9, the shielding case 9 is mounted on the supporting plate 11, and the homogenizing pump 53 and the liquid pump 73 are both mounted in the shielding case 9, so that the shielding case 9 can hide the homogenizing pump 53 and the liquid pump 73.

In order to realize the automatic control of the food material preparation apparatus, as shown in fig. 3, a mounting plate 19 is further mounted on the frame 1, a main control module mounting position is formed on the mounting plate 19, a main control module 10 is mounted on the main control module mounting position, and the main control module 10 is electrically connected to the lifting mechanism 4, the homogenizing pump 53, the pectin stirrer 31, the coagulant stirrer 6, and the liquid agent pump 73.

In order to make the structure of the food material making device more reasonable, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, a circuit cover shell 20 is further installed on the top surface of the supporting plate 11, a power switch 30 for controlling the main control module 10 to be turned on or turned off, a pectin stirrer socket 40 for supplying pectin stirrer 31 to supply electricity and 2 coagulant stirrer sockets 50 for supplying coagulant stirrer 6 to supply electricity are arranged on the circuit cover shell 20, a circuit structure is arranged in the circuit cover shell 20, and the circuit cover shell 20 and the shielding housing 9 are arranged oppositely, so that water and electricity separation is realized, and the safety of the food material making device is improved.

As shown in fig. 1 to 8, the present embodiment describes one of the work flows of the food material making apparatus by taking making ice powder as an example.

S1: placing a container 60 with a proper amount of drinking water on a lifting plate 2 at an initial position close to the bottom of a rack 1, pressing a power switch 30 for controlling the master control module 10 to be started, controlling the master control device 10 to start a lifting mechanism 4 so that the lifting plate 2 is lifted to reach a preset position, preparing a barrel body with a coagulant, wherein the coagulant is edible lime water, and inserting a liquid inlet of a liquid inlet pipe 71 of a liquid agent conveying mechanism 7 into the barrel body;

s2: if the filter cup 32 is arranged in the material feeding port 12, the filter holes 321 of the filter cup 32 are all below the drinking water level, if the filter holes 321 of the filter cup 32 are not below the drinking water level, drinking water can be added into the material feeding port 12 again or the lifting plate 2 is controlled to be lifted for a certain extent again until the filter holes 321 of the filter cup 32 are below the drinking water level, and a certain amount of ice powder seeds are put into the filter cup 32;

s3: mounting the pectin stirrer 31 in the first mounting location 15 with the plug of the pectin stirrer 31 plugged into the pectin stirrer socket 40, mounting the coagulant stirrer 6 in the second mounting location 17 with the plug of the coagulant stirrer 6 plugged into the coagulant stirrer socket 50;

s4: the main control module 10 is controlled to enable the pectin stirrer 31 to start rubbing the ice powder seeds for a period of time so as to obtain a mixed solution of ice powder seed juice and drinking water; during start-up of the pectin stirrer 31: the main control module 10 also controls the liquid homogenizing pump 53 of the liquid homogenizing mechanism 5 to start at the same time, the pectin stirrer 31 pours the liquid on the four corners of the container 60 into the filter cup 32 while beating the pectin, and water circulation is realized to ensure that the pectin is more uniformly distributed in the container 60, so as to obtain a mixed liquid of the ice powder seed juice and the drinking water;

s5: after kneading, the main control module 10 controls the liquid agent pump 73 of the liquid agent conveying mechanism 7 to start, so that the liquid agent pump 73 flows the coagulant in the external barrel body to the container 60 through the liquid agent outlet pipe 72, and the liquid agent outlet pipe 72 is used for discharging liquid towards the stirring part of the coagulant stirrer 6; during this time: the main control module 10 controls 2 coagulator mixers 6 to start at the same time, so that the edible lime water is fully, uniformly and quickly mixed into the mixed liquid in S4;

s6: the main control module 10 controls the lifting mechanism 4 to start to enable the lifting plate 2 to descend, after the lifting plate 2 descends to the proper position, a worker takes the container 60 off the lifting plate 2, and then the liquid in the container 60 is still solidified into jelly.

The description is only a preferred embodiment of the invention, and all technical equivalents which come within the spirit and scope of the invention are intended to be protected.