CN214593905U - Full-automatic cake former - Google Patents

Abstract

The application relates to full-automatic cake forming equipment which comprises a material storage mechanism, a feeding mechanism and a forming mechanism; the feeding mechanism comprises a feeding platform, the storage mechanism comprises a storage box, and a discharge hole is formed in the lower side of the storage box; the feeding mechanism comprises a feeding cylinder and a feeding barrel, the forming mechanism comprises a conveying assembly and a forming assembly, the conveying assembly comprises a conveying platform and a conveying belt, the forming assembly comprises a forming support, an upper die unit and a lower die unit, the upper die unit comprises a forming upper template, and the lower die unit comprises a forming lower template; the lower side of the molding lower template is provided with a material receiving disc which is positioned on the conveying belt. The raw materials drops in a feeding section of thick bamboo, and a feeding section of thick bamboo makes the raw materials enter into the shaping lower bolster in, and the shaping cope match-plate pattern is pressed to the shaping lower bolster, makes the raw materials shaping become the cake, then lifts up the shaping lower bolster, stays the cake on take-up (stock) pan, and the conveyer belt is taken away the take-up (stock) pan. This application has the automation that realizes the cake shaping, promotes production efficiency's effect.

Description

Full-automatic cake former

Technical Field

The application relates to the technical field of cake forming, in particular to full-automatic cake forming equipment.

Background

The cake is a kind of food, and is made up by using flour or rice flour, water, sugar, oil and fat, egg and milk as main raw material, adding various auxiliary materials, stuffing and flavouring material, mixing them, primary-making and forming, then steaming, roasting, frying and stir-frying.

The model need be put into to the cake in the preparation, makes the cake shaping through the mode of pressing, and present cake shaping mostly is the manual work put into the cake in the lower mould that is prefabricated, then presses through the handheld mould of manual work, leads to efficiency lower, is difficult to adapt to large-scale production.

In view of the above-mentioned related technologies, the inventors consider that the existing cakes have the defects of low efficiency and difficulty in adapting to mass production by means of manual forming.

SUMMERY OF THE UTILITY MODEL

In order to promote the fashioned efficiency of cake, this application provides a full-automatic cake former.

The application provides a full-automatic cake former adopts following technical scheme:

a full-automatic cake forming device comprises a material storage mechanism, a feeding mechanism arranged on the lower side of the material storage mechanism and a forming mechanism arranged on one side of the feeding mechanism; the feeding mechanism comprises a feeding platform; the material storage mechanism comprises a material storage frame arranged on the feeding platform and a material storage box arranged on the material storage frame, wherein the upper side of the material storage box is open, the lower side of the material storage box is provided with a discharge hole, and the discharge hole is provided with a discharge baffle which is in sliding connection with the material storage box and is used for sealing and opening the discharge hole; the feeding mechanism further comprises a feeding cylinder arranged on the feeding platform and a feeding cylinder arranged at the end part of a piston rod of the feeding cylinder, the feeding cylinder is arranged in a penetrating manner along the vertical direction, the lower side of the feeding cylinder is abutted against the feeding platform, and the feeding cylinder is positioned below a discharge port of the storage box when receiving materials; the forming mechanism is positioned on one side, away from the feeding cylinder, of the feeding cylinder, the forming mechanism comprises a conveying assembly and a forming assembly arranged on the conveying assembly, the conveying assembly comprises a conveying platform and a conveying belt arranged on the conveying platform, the forming assembly comprises a forming support arranged on the conveying platform, an upper die unit arranged on the forming support and a lower die unit arranged on the forming support, the upper die unit comprises a forming upper template, the lower die unit comprises a forming lower template, and the forming lower template is positioned below the forming upper template; and a material receiving disc is arranged on the lower side of the molding lower template and is positioned on the conveying belt.

By adopting the technical scheme, the discharge baffle is operated, the discharge hole is opened, the raw materials fall into the feeding cylinder, and then the discharge baffle is operated to close the discharge hole; then feeding cylinder promotes a feeding section of thick bamboo to forming mechanism's shaping lower bolster on, make the raw materials in the feeding section of thick bamboo enter into the shaping lower bolster in, on the take-up (stock) pan, then feeding cylinder drives a feeding section of thick bamboo and withdraws, the shaping upper die plate presses to the shaping lower bolster, makes the raw materials shaping become the cake, then lifts up the shaping lower bolster, stays the take-up (stock) pan with the cake on, lets the conveyer belt take away take-up (stock) pan and cake, realizes the fashioned automation of cake, has promoted production efficiency.

Optionally, a discharging cylinder is arranged on the storage rack, and the end part of a piston rod of the discharging cylinder is fixedly connected with the discharging baffle.

Through adopting above-mentioned technical scheme, ejection of compact cylinder action drives ejection of compact baffle and opens and sealed discharge gate, promotes the automation, and then promotes production efficiency.

Optionally, a feeding rotating shaft which is rotatably connected with two opposite side walls of the feeding cylinder is arranged in the feeding cylinder, and a feeding rotating frame which drives the raw materials to shake is arranged on the feeding rotating shaft.

Through adopting above-mentioned technical scheme, the feeding pivot rotates and drives the rotation of feeding revolving rack, makes the raw materials not hard up, enters into the shaping lower bolster more easily, promotes the shaping efficiency.

Optionally, at least two feeding rotating shafts and at least two feeding rotating frames are arranged in the feeding cylinder.

Through adopting above-mentioned technical scheme, two feeding pivots and feeding revolving rack further promote feeding efficiency.

Optionally, the feeding barrel is provided with a feeding brush on the upper side of the side wall far away from one side of the feeding cylinder.

Through adopting above-mentioned technical scheme, the feeding brush when accompanying the motion of a feeding section of thick bamboo, the shaping cope match-plate pattern is brushed to the feeding brush, clears up the shaping cope match-plate pattern, makes the shaping cope match-plate pattern can keep clean, prevents the adhesion of shaping cope match-plate pattern and raw materials as far as possible.

Optionally, go up the mould unit and still including locating the mould cylinder on the shaping support, the piston rod of mould cylinder is vertical downwards in the shaping, the tailpiece of the piston rod portion of mould cylinder is equipped with the shaping upper die base in the shaping, the shaping cope match-plate pattern can be dismantled and connect on the shaping upper die base.

Through adopting above-mentioned technical scheme, the shaping goes up the mould cylinder and drives the motion of shaping upper die base, drives the motion of shaping cope match-plate pattern, conveniently carries out cake contour machining, and the shaping cope match-plate pattern is removable, can adapt to the cake shaping of different shapes.

Optionally, the lower die unit further comprises a lower forming die cylinder arranged on the forming support and a lower forming die arranged at the end of a piston rod of the lower forming die cylinder, one side of the lower forming die cylinder away from the lower forming die is provided with a lower forming die rod, the lower forming die rod penetrates through the upper forming die base and is in sliding connection with the upper forming die base, one end of the lower forming die rod away from the lower forming die is provided with a lower forming die base, and the lower forming die plate is detachably connected to the lower forming die base.

Through adopting above-mentioned technical scheme, the module action under the shaping is driven to shaping lower mould cylinder, then the module drives the action of shaping lower mould pole under the shaping, then drives the action of shaping die holder, and during the messenger shaping, the feeding shaping of being convenient for is carried out with the upper surface parallel and level of feeding platform to shaping lower bolster, raises the shaping die holder after the shaping, makes the conveyer belt drive and connects the flitch to take out the cake after the shaping smoothly, carries out next shaping again.

Optionally, a storage tray rack for storing the receiving trays is arranged on one side of the forming mechanism, the storage tray rack is fixed on the conveying platform, and the distance between one side of the storage tray rack close to the forming mechanism and the conveying belt is larger than the thickness of one receiving tray and smaller than the thickness of two receiving trays.

Through adopting above-mentioned technical scheme, make the take-up (stock) pan can be driven by the conveyer belt and enter into the shaping structure and connect the material to can only advance a take-up (stock) pan once, promote automation, raise the efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. from feeding to the shaping, the conveying of shaping back cake goes out again, and accessible machinery goes on automatically as far as possible, promotes the automation in the cake shaping process, has reduced the labour, has promoted production efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of a full-automatic cake forming device in the embodiment of the application.

Fig. 2 is an explosion schematic diagram of a full-automatic pastry forming device in the embodiment of the application.

Description of reference numerals: 1. a material storage mechanism; 11. a storage rack; 12. a material storage box; 121. a discharge port; 13. a discharge baffle; 14. a discharging cylinder; 2. a feeding mechanism; 21. a feeding platform; 22. a feed cylinder; 23. a feeding cylinder; 24. a feeding rotating shaft; 25. a feeding rotating frame; 26. a feeding brush; 3. a molding mechanism; 31. a transfer assembly; 311. a transfer platform; 312. a conveyor belt; 32. a molding assembly; 321. forming a bracket; 3211. forming a stand column; 3212. forming a support plate; 322. an upper die unit; 3221. forming an upper template; 3222. forming an upper die cylinder; 3223. forming an upper die holder; 323. a lower die unit; 3231. forming a lower template; 3232. forming a lower die cylinder; 3233. forming a lower module; 3234. forming a lower mold rod; 3235. forming a lower die holder; 4. a take-up pan; 5. a storage tray frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a full-automatic cake forming machine.

Referring to fig. 1, a full-automatic cake forming machine comprises a material storage mechanism 1, a feeding mechanism 2 and a forming mechanism 3; the feeding mechanism 2 takes the raw materials from the storage mechanism 1 and feeds the raw materials into the forming mechanism 3, and the raw materials are formed into cakes in the forming mechanism 3. The cake forming is automated, and the production efficiency is improved.

Referring to fig. 1 and 2, in order to automatically feed the raw material in the storage mechanism 1 to the feeding mechanism 2, the storage mechanism 1 includes a storage rack 11, a storage box 12, a discharge baffle 13 and a discharge cylinder 14. On feed mechanism 2 was located to storage frame 11, storage case 12 passed through welded fastening on storage frame 11, storage case 12 was the opening setting along vertical direction upside, be convenient for the raw materials put into storage case 12, storage case 12 has seted up discharge gate 121 along vertical direction downside, discharge baffle 13 is located storage case 12's discharge gate 121 department, discharge baffle 13 one end inlays to be located in storage case 12 and with storage case 12 sliding connection, slip discharge baffle 13, can make discharge baffle 13 block and open discharge gate 121. In order to automatically drive the discharging baffle 13, the discharging cylinder 14 is fixed on the storage rack 11, and a piston rod of the discharging cylinder 14 is fixedly connected with the discharging baffle 13 through a bolt. The action of the discharging cylinder 14 can drive the discharging baffle 13 to open and close the discharging hole 121, when the discharging hole 121 is opened, the raw material in the storage box 12 is discharged from the discharging hole 121, and the discharging hole 121 is closed by the discharging baffle 13 after being discharged enough. Raw materials in the storage box 12 can be automatically discharged to the feeding mechanism 2, so that the automation and the efficiency are improved.

For better feeding of the feeding mechanism 2, the feeding mechanism 2 includes a feeding platform 21, a feeding cylinder 22, a feeding cylinder 23, and a feeding rotating shaft 24. The feeding mechanism 2 is arranged on the lower side of the storage mechanism 1, and the storage frame 11 of the storage mechanism 1 is fixed on the feeding platform 21 through welding. Feeding cylinder 22 passes through the bolt fastening on feeding platform 21, and feeding cylinder 23 is fixed in feeding cylinder 22 piston rod tip through threaded connection, and feeding cylinder 23 initial position is located the discharge gate 121 below of storage case 12, and feeding cylinder 23 is to link up the setting along the both ends of vertical direction and is convenient for connect the material and the ejection of compact, and feeding cylinder 23 is along vertical direction downside butt on feeding platform 21. The feeding cylinder 22 is positioned at one side of the feeding cylinder 23 far away from the forming mechanism 3, so that the feeding cylinder 22 can push the feeding cylinder 23 to move back and forth to the forming mechanism 3. Two feeding rotating shafts 24 are arranged, and a feeding rotating frame 25 is fixedly welded on each feeding rotating shaft 24; the feeding rotating shafts 24 can be driven to rotate by a servo motor, and the two feeding rotating shafts 24 can be mutually driven by gears and chains; the feeding rotating shaft 24 is rotatably connected with two inner side walls of the feeding cylinder 23. The feeding rotating shaft 24 rotates to drive the feeding rotating frame 25 to rotate, so that the raw materials are loosened, and feeding is facilitated.

In order to make the cake product be formed automatically as much as possible, the forming mechanism 3 includes a conveying assembly 31 and a forming assembly 32, the conveying assembly 31 includes a conveying platform 311 and a conveying belt 312, and the forming assembly 32 includes a forming support 321, an upper die unit 322 and a lower die unit 323. The conveying platform 311 is disposed on one side of the feeding platform 21, and the conveyor belt 312 is rotatably connected to the conveying platform 311. The forming support 321 includes forming columns 3211 and forming support plates 3212, the forming columns 3211 are provided with 4 pieces of material which are fixed on the conveying platform 311 by welding, and the forming support plates 3212 are fixed on the forming columns 3211 by welding.

The upper die unit 322 includes a forming upper die plate 3221, a forming upper die cylinder 3222, and a forming upper die base 3223. The forming upper die holder 3223 is located below the forming support plate 3212, and the forming upper die holder 3223 is provided with holes which are sleeved on the 4 forming pillars 3211 and are connected with the forming pillars 3211 in a sliding manner in the vertical direction. The upper forming die cylinder 3222 is fixed to the forming support plate 3212 by bolts, a piston rod of the upper forming die cylinder 3222 penetrates through the forming support plate 3212 to be fixedly connected with the upper forming die holder 3223 by threads, the piston rod of the upper forming die cylinder 3222 is slidably connected with the forming support plate 3212, the upper forming die plate 3221 is located on one side of the upper forming die holder 3223 away from the forming support plate 3212, and the upper forming die plate 3221 is fixedly connected with the upper forming die holder 3223 by bolts, so that the upper forming die plate 3221 is convenient to replace.

The lower die unit 323 comprises a forming lower die plate 3231, a forming lower die cylinder 3232, a forming lower die block 3233, a forming lower die rod 3234 and a forming lower die seat 3235; shaping lower mould cylinder 3232 is fixed on shaping backup pad 3212 through the bolt, shaping lower mould cylinder 3232 piston rod passes shaping backup pad 3212 and with shaping backup pad 3212 sliding connection, shaping lower module 3233 is through the piston rod end of screw thread fixed connection in shaping lower mould cylinder 3232, shaping lower module 3233 is located between shaping upper die base 3223 and shaping backup pad 3212, shaping lower module pole 3234 is equipped with two, shaping lower module pole 3234 passes through screw thread fixed connection with shaping lower module 3233, shaping lower module pole 3234 sets up along vertical direction, shaping lower module pole 3234 passes shaping upper die base 3223 and with shaping upper die base 3223 sliding connection. The molding lower die holder 3235 is located on one side of the molding upper die holder 3223 away from the molding support plate 3212, and the molding lower die holder 3235 is fixedly connected with one end, away from the molding lower die block 3233, of the molding lower die rod 3234 through a thread. The lower molding plate 3231 is fixedly connected to the lower molding base 3235 by bolts, so that the lower molding plate 3231 can be replaced. Two groups of lower molding cylinders 3232, lower molding blocks 3233 and lower molding rods 3234 are respectively arranged on two sides of the upper molding cylinder 3222.

The molding device also comprises a receiving tray 4, and the receiving tray 4 is placed on the conveyor belt 312 at the lower side of the molding lower template 3231.

In the initial position, one side of the lower molding plate 3231 close to the receiving tray 4 abuts against the receiving tray 4, and one side of the lower molding plate 3231 far from the receiving tray 4 and the feeding platform 21 are located on the same horizontal plane. Then the feeding cylinder 22 pushes the feeding cylinder 23 to the lower molding plate 3231, and the raw materials are leaked to the material receiving disc 4 in the lower molding plate 3231; then, the upper molding cylinder 3222 drives the upper molding seat 3223 and the upper molding plate 3221 to descend and press the lower molding plate 3231, so that the raw materials are compacted to form cakes, the lower molding cylinder 3232 drives the lower molding seat 3235 to rise, the formed cakes are left on the material receiving disc 4, and then the material receiving disc 4 is conveyed away by the conveyor belt 312. Make the cake automatic molding, promote shaping efficiency, promote production efficiency.

The upper molding plate 3221 is easy to adhere raw materials when forming cakes, and in order to clean the upper molding plate 3221 incidentally in the feeding process, the feeding mechanism 2 further comprises a feeding hairbrush 26, and the feeding hairbrush 26 is welded and fixed on the upper side of the side wall of the feeding cylinder 23 far away from the feeding cylinder 22. Make a feeding section of thick bamboo 23 when the feeding, feeding brush 26 clears up shaping cope match-plate pattern 3221 repeatedly, makes shaping cope match-plate pattern 3221 keep clean and tidy, reduces the adhesion, promotes the shaping effect.

In order to enable the forming mechanism 3 to continuously and automatically receive materials, a storage tray frame 5 is arranged on one side of the forming assembly 32, the storage tray frame 5 is fixed on the conveying platform 311 through welding, a plurality of receiving trays 4 are placed in the storage tray frame 5, the receiving trays 4 are abutted to the conveying belt 312, the distance between the side wall of one side, close to the forming assembly 32, of the storage tray frame 5 and the conveying belt is larger than the thickness of one receiving tray 4 and smaller than the thickness of two receiving trays 4, and the receiving trays 4 can be moved to the lower side of the forming lower template 3231 by the conveying belt 312 to receive the materials. Promote the shaping to connecing the automation of the ejection of compact, promote production efficiency.

The implementation principle of the full-automatic cake forming equipment in the embodiment of the application is as follows:

first, material loading, ejection of compact cylinder 14 action can drive ejection of compact baffle 13 and open and close discharge gate 121, and when discharge gate 121 opened, the raw materials in storage case 12 was discharged to feed cylinder 23 in from discharge gate 121, and it is closed by ejection of compact baffle 13 to have arranged enough back discharge gate 121. The automation and the efficiency are improved.

Second step, the feeding, feeding cylinder 22 promote a feeding section of thick bamboo 23 to shaping lower bolster 3231 on, the raw materials leaks on shaping lower bolster 3231 inscription charging tray 4, then feeding cylinder 22 drives a feeding section of thick bamboo 23 and withdraws, and reciprocating motion is many times, makes the raw materials fully enter into in the shaping lower bolster 3231, promotes the automation, promotes production efficiency.

And thirdly, forming, namely, an upper forming die cylinder 3222 drives an upper forming die seat 3223 and an upper forming die plate 3221 to descend and press a lower forming die plate 3231, so that the raw materials are compacted to form the cakes.

And fourthly, discharging, wherein the forming lower die cylinder 3232 drives the forming lower die holder 3235 to lift to leave formed cakes on the material receiving disc 4, and then the material receiving disc 4 is conveyed away by the conveyor belt 312. Make the cake automatic molding, promote shaping efficiency, promote production efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a full-automatic cake former which characterized in that: comprises a material storage mechanism (1), a feeding mechanism (2) arranged on the lower side of the material storage mechanism (1) and a forming mechanism (3) arranged on one side of the feeding mechanism (2); the feeding mechanism (2) comprises a feeding platform (21); the storage mechanism (1) comprises a storage rack (11) arranged on a feeding platform (21) and a storage box (12) arranged on the storage rack (11), wherein the upper side of the storage box (12) is open, a discharge hole (121) is formed in the lower side of the storage box (12), and a discharge baffle (13) which is connected with the storage box (12) in a sliding manner and used for sealing and opening the discharge hole (121) is arranged at the discharge hole (121); the feeding mechanism (2) further comprises a feeding cylinder (22) arranged on the feeding platform (21) and a feeding cylinder (23) arranged at the end part of a piston rod of the feeding cylinder (22), the feeding cylinder (23) is arranged in a penetrating manner along the vertical direction, the lower side of the feeding cylinder is abutted against the feeding platform (21), and the feeding cylinder (23) is positioned below a discharge hole (121) of the storage box (12) when receiving materials; the forming mechanism (3) is located on one side, away from the feeding cylinder (22), of the feeding barrel (23), the forming mechanism (3) comprises a conveying assembly (31) and a forming assembly (32) arranged on the conveying assembly (31), the conveying assembly (31) comprises a conveying platform (311) and a conveying belt (312) arranged on the conveying platform (311), the forming assembly (32) comprises a forming support (321) arranged on the conveying platform (311), an upper die unit (322) arranged on the forming support (321) and a lower die unit (323) arranged on the forming support (321), the upper die unit (322) comprises a forming upper die plate (3221), the lower die unit (323) comprises a forming lower die plate (3231), and the forming lower die plate (3231) is located below the forming upper die plate (3221); and a material receiving disc (4) is arranged on the lower side of the molding lower template (3231), and the material receiving disc (4) is positioned on the conveyor belt (312).

2. The full-automatic cake forming device according to claim 1, wherein: the material storage rack (11) is provided with a discharging cylinder (14), and the end part of a piston rod of the discharging cylinder (14) is fixedly connected with a discharging baffle (13).

3. The full-automatic cake forming device according to claim 1, wherein: the feeding barrel (23) is internally provided with a feeding rotating shaft (24) which is rotatably connected with two opposite side walls of the feeding barrel (23), and the feeding rotating shaft (24) is provided with a feeding rotating frame (25) for driving raw materials to shake.

4. The full-automatic cake forming device according to claim 3, wherein: at least two feeding rotating shafts (24) and at least two feeding rotating frames (25) are arranged in the feeding cylinder (23).

5. The full-automatic cake forming device according to claim 4, wherein: and a feeding hairbrush (26) is arranged on the upper side of the side wall of the feeding cylinder (23) far away from one side of the feeding cylinder (22).

6. The full-automatic cake forming device according to claim 1, wherein: go up mould unit (322) still including locating mould cylinder (3222) in the shaping on shaping support (321), the piston rod of mould cylinder (3222) is vertical downwards in the shaping, the piston rod tip of mould cylinder (3222) is equipped with shaping upper die base (3223) in the shaping, shaping cope match-plate pattern (3221) can be dismantled and connect on shaping upper die base (3223).

7. The full-automatic cake forming device according to claim 6, wherein: lower mould unit (323) is still including locating shaping lower mould cylinder (3232) on shaping support (321) and locating shaping lower mould cylinder (3232) piston rod end's shaping lower module (3233), one side that shaping lower mould cylinder (3232) was kept away from in shaping lower module (3233) is equipped with shaping lower mould pole (3234), shaping lower mould pole (3234) pass shaping upper die base (3223) and with shaping upper die base (3223) sliding connection, the one end that shaping lower module (3233) was kept away from in shaping lower mould pole (3234) is equipped with shaping die holder (3235), shaping lower bolster (3231) can be dismantled and connect on shaping die holder (3235).

8. The full-automatic cake forming device according to claim 7, wherein: the forming mechanism (3) is characterized in that a storage tray rack (5) used for storing the receiving trays (4) is arranged on one side of the forming mechanism (3), the storage tray rack (5) is fixed on the conveying platform (311), and the distance between one side, close to the forming mechanism (3), of the storage tray rack (5) and the conveying belt (312) is larger than the thickness of one receiving tray (4) and smaller than the thickness of two receiving trays (4).

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