CN112913881A - Biscuit processing cream filling device for food processing - Google Patents

Abstract

The invention relates to a filling device, in particular to a biscuit processing cream filling device for food processing. The technical problem is to provide a biscuit processing cream filling device for automatically extruding cream into biscuits, saving time and labor and improving working efficiency. According to the technical scheme, the biscuit processing cream filling device for food processing comprises a bottom plate, a first support frame, a first fixing block, a rotating mechanism and a material extruding mechanism, wherein the first support frame is arranged on the right front side of the top of the bottom plate, the first fixing block is arranged on the left side of the bottom plate, the rotating mechanism is connected between the left side of the bottom plate and the rear sides of the top of the first fixing block and the top of the first support frame, and the material extruding mechanism is arranged on the front side of the first support frame. By arranging the material pushing mechanism, the biscuits can be collected in a centralized manner, people do not need to keep the equipment all the time, the equipment is charged and discharged, the time of the people is saved, and the working efficiency is improved.

Description

Biscuit processing cream filling device for food processing

Technical Field

The invention relates to a filling device, in particular to a biscuit processing cream filling device for food processing.

Background

The biscuit is a snack which is loved to eat by many people and is suitable for people of all ages, the biscuit is of various types and brands, such as famous flourishing snow biscuits and Oeliao biscuits, which are famous cookies, a plurality of sandwich biscuits, such as jam, frosting, butter and the like, are also available on the market, residents can manually make the cookies at home, the manual cookie making process is of various and time-consuming, if the same making method is put into a factory, the step of extruding cream by light is a step which needs a large amount of manpower to be consumed to execute, and the working efficiency is low.

Therefore, it is necessary to develop a device for filling cream for biscuit processing, which can independently squeeze cream for biscuits, save time and labor, and improve work efficiency.

Disclosure of Invention

In order to overcome the defects of time and labor waste and low working efficiency of manual cream extrusion and the technical problem, the biscuit processing cream filling device for food processing is provided, which can independently extrude cream for biscuits, is time-saving and labor-saving and can improve the working efficiency.

The technical scheme is as follows, a biscuit processing cream filling device for food processing comprises:

the support comprises a bottom plate and a first support frame, wherein the first support frame is arranged on one side of the bottom plate;

the first fixing block is arranged on one side of the bottom plate;

the rotating mechanism is connected between one side of the bottom plate and one side of the first fixed block and one side of the first support frame;

the material extruding mechanism is arranged on one side of the first support frame.

Preferably, the rotating mechanism includes:

the rotating frame is rotatably connected to one side of the first support frame;

4 material placing plates are uniformly arranged on one side of the rotating frame;

the motor is arranged on one side of the bottom plate and is positioned inside the first fixing block;

one side of the first fixing block is rotatably connected with a second rotating shaft, and one side of the second rotating shaft is connected with the motor;

the middle part of the second rotating shaft is connected with a first gear lacking wheel;

one side of the first fixed block is rotatably connected with a first rotating shaft;

one side of the first rotating shaft is connected with a full gear which is meshed with the first gear lacking;

and a first transmission assembly is connected between one side of the first rotating shaft and one side of the rotating frame.

Preferably, the material extruding mechanism comprises:

the first fixing frame is connected between two sides of the first supporting frame;

the first blanking box is arranged on one side of the first fixing frame;

one side of the first support frame is connected with a lower pressure rod in a sliding manner;

the first spring is connected between one side of the lower pressing rod and one side of the first support frame;

the telescopic lower pressing block is arranged on one side of the lower pressing rod;

and a second spring is arranged between one side of the telescopic lower pressing block and one side of the lower pressing rod, and the second spring is sleeved on one side of the telescopic lower pressing block.

Preferably, the reciprocating mechanism further comprises a reciprocating mechanism, and the reciprocating mechanism comprises:

one side of the bottom plate is rotatably connected with a third rotating shaft;

the second transmission assembly is connected between one side of the third rotating shaft and one side of the second rotating shaft;

one side of the first support frame is rotatably connected with the fourth rotating shaft;

a third transmission assembly is connected between one side of the fourth rotating shaft and one side of the third rotating shaft;

one side of the first support frame is rotatably connected with a fifth rotating shaft, and the fifth rotating shaft is positioned on one side of the fourth rotating shaft;

a bevel gear set is connected between one side of the fifth rotating shaft and one side of the fourth rotating shaft;

one side of the fifth rotating shaft is connected with a second gear;

the rack is connected to one side of the first support frame in a sliding mode, and the top of the rack is connected with one side of the lower pressing rod.

Preferably, still including unloading mechanism, unloading mechanism is including:

one side of the bottom plate is provided with a second support frame;

4 rotating blocks are uniformly arranged on one side of the rotating frame;

a second blanking box is arranged on one side of the second support frame;

one side of the first pushing frame is connected with the second support frame in a sliding mode, and one side of the first pushing frame slides on one side of the second blanking box;

the middle part of the first pushing frame is provided with a first telescopic assembly which is connected with the second supporting frame in a sliding way;

one side of the second support frame is rotatably connected with the sixth rotating shaft;

one side of the sixth rotating shaft is connected with a first swinging rod, one side of the first swinging rod is in contact with one side of the first pushing frame, and the bottom of the first swinging rod is in contact with one side of the second supporting frame;

one side of the first swinging rod is connected with a seventh rotating shaft;

one side of the second blanking box is connected with the swing frame in a sliding manner;

2 third springs are connected between one side of the swing frame and one side of the second blanking box;

an eighth rotating shaft is arranged on one side of the swing frame;

and the pushing rod is rotatably connected between one side of the eighth rotating shaft and one side of the seventh rotating shaft.

Preferably, the device further comprises a pulling-out mechanism, wherein the pulling-out mechanism comprises:

the first lower pressing block is arranged on one side of the lower pressing rod;

a first sliding sleeve is arranged on one side of the first fixing frame;

one side of the first sliding sleeve is connected with the extrusion block in a sliding manner;

a second telescopic component is connected between one side of the extrusion block and the top of the first sliding sleeve and sleeved on one side of the extrusion block;

one side of the extrusion block is provided with a first wedge block;

one side of the material blocking block slides on one side of the first blanking box;

one side of the material blocking block is provided with a second wedge-shaped block which is contacted with the first wedge-shaped block;

and a fourth spring is connected between one side of the material blocking block and one side of the first sliding sleeve, and the fourth spring is sleeved on one side of the material blocking block.

Preferably, the device further comprises a pushing mechanism, wherein the pushing mechanism comprises:

a second sliding sleeve is arranged on one side of the bottom plate;

a blanking frame is arranged on one side of the second sliding sleeve;

the second pushing frame is connected between the two sides of the second sliding sleeve in a sliding manner;

the fifth springs are connected between the two sides of the second pushing frame and one side of the second sliding sleeve and are respectively sleeved on one side of the second pushing frame;

the roller is rotatably connected to one side of the second pushing frame;

and one side of the lower pressing rod of the third wedge block is connected with the third wedge block, and the third wedge block is positioned on one side of the roller.

Preferably, the second baiting box is in the shape of a hollow cylinder.

The invention has the following advantages: by arranging the material pushing mechanism, the biscuits can be collected in a centralized manner, people do not need to keep the equipment all the time, the equipment is charged and discharged, the time of the people is saved, and the working efficiency is improved; through being equipped with reciprocating mechanism for this equipment can extrude cream by oneself, need not people's manual extrusion, can reduce people's intensity of labour.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 3 is a schematic perspective view of the material extruding mechanism of the present invention.

Fig. 4 is a schematic perspective view of the reciprocating mechanism of the present invention.

Fig. 5 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 6 is a perspective view of the drawing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pushing mechanism of the present invention.

Description of reference numerals: 1_ bottom plate, 2_ first support frame, 3_ first fixed block, 4_ rotating mechanism, 41_ rotating frame, 42_ discharging plate, 43_ first transmission component, 44_ first rotating shaft, 45_ full gear, 46_ second rotating shaft, 47_ first gear lacking, 48_ motor, 5_ extruding mechanism, 51_ first fixed frame, 52_ lower pressing rod, 53_ first spring, 54_ telescopic lower pressing block, 55_ first material discharging box, 56_ second spring, 6_ reciprocating mechanism, 61_ second transmission component, 62_ third rotating shaft, 63_ third transmission component, 64_ fourth rotating shaft, 65_ bevel gear group, 66_ fifth rotating shaft, 67_ second gear lacking, 68_ rack, 7_ discharging mechanism, 71_ second support frame, 72_ rotating block, 73_ first pushing frame, 74_ first telescopic component, 75_ second material discharging box, 76_ sixth rotating shaft, 77_ first swinging rod, 78_ seventh rotating shaft, 79_ pushing rod, 710_ eighth rotating shaft, 711_ swinging frame, 712_ third spring, 8_ pulling mechanism, 81_ first pressing block, 82_ extruding block, 83_ second telescopic component, 84_ first sliding sleeve, 85_ first wedge block, 86_ second wedge block, 87_ fourth spring, 88_ blocking block, 9_ pushing mechanism, 91_ third wedge block, 92_ roller, 93_ second pushing frame, 94_ fifth spring, 95_ second sliding sleeve and 96_ blanking frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Example 1

The utility model provides a biscuit processing cream filling device for food processing, as shown in figure 1, including bottom plate 1, first support frame 2, first fixed block 3, rotary mechanism 4 and crowded material mechanism 5, bottom plate 1 top right front side is equipped with first support frame 2, and bottom plate 1 left side is equipped with first fixed block 3, is connected with rotary mechanism 4 between bottom plate 1 left side and first fixed block 3 and the first support frame 2 top rear side, and first support frame 2 front side is equipped with crowded material mechanism 5.

When people need to extrude cream on biscuits, the biscuits are firstly placed on the rotating mechanism 4, the cream is filled in the extruding mechanism 5, the rotating mechanism 4 is started, the biscuits are driven by the rotating mechanism 4 to move to the position below the extruding mechanism 5, the cream is extruded on the biscuits by the extruding mechanism 5, the rotating mechanism 4 is closed after the biscuit is extruded, and people can take away the biscuits extruded with the cream.

Example 2

On the basis of the embodiment 1, as shown in fig. 2 to 7, the rotating mechanism 4 comprises a rotating frame 41, a material discharging plate 42, a first transmission assembly 43, a first rotating shaft 44, full gear 45, second pivot 46, first lack gear 47 and motor 48, 2 top rear side rotation of first support frame is connected with rotating turret 41, rotating turret 41 top evenly is equipped with 4 blowing boards 42, 1 left side of bottom plate is equipped with motor 48, motor 48 is located inside 3 first fixed blocks, 3 middle part rotary types of first fixed block are connected with second pivot 46, second pivot 46 bottom and motor 48's output shaft, second pivot 46 middle part is connected with first lack gear 47, 3 upper portion rear side rotation of first fixed block are connected with first pivot 44, first pivot 44 downside is connected with full gear 45, full gear 45 and the meshing of first lack gear 47, be connected with first transmission assembly 43 between first pivot 44 upper portion and the rotating turret 41 downside.

People put the biscuit on blowing board 42, motor 48 is started, motor 48 drives second pivot 46 and then drives first scarce gear 47 to rotate, when first scarce gear 47 rotates to mesh with full gear 45, drive first pivot 44 to rotate, and then drive first drive assembly 43 to rotate, first drive assembly 43 drives rotating turret 41 to rotate and then drive blowing board 42, make blowing board 42 take the biscuit to crowded material mechanism 5 parts below, first scarce gear 47 just separates with full gear 45 this moment, crowded material mechanism 5 parts squeezes cream on the biscuit, close rotary mechanism 4 parts after accomplishing, people take away the biscuit that has crowded cream.

The material extruding mechanism 5 comprises a first fixing frame 51, a lower pressing rod 52, a first spring 53, a second spring 56, a telescopic lower pressing block 54 and a first lower material box 55, wherein the first fixing frame 51 is connected between the left side and the right side of the middle of the first support frame 2, the first lower material box 55 is arranged inside the first fixing frame 51, the lower pressing rod 52 is connected on the upper portion of the first support frame 2 in a sliding mode, the first spring 53 is connected between the front side of the bottom of the lower pressing rod 52 and the inner side of the upper portion of the first support frame 2, the telescopic lower pressing block 54 is arranged on the rear side of the bottom of the lower pressing rod 52, the second spring 56 is arranged between the lower side of the telescopic lower pressing block 54 and the rear side of the bottom of the lower.

People pack cream into first feed box 55, people manually block first feed box 55 bottom with the baffle, prevent that cream from spilling, when the biscuit moves to first feed box 55 below, people manually press depression bar 52 down, first spring 53 compresses this moment, drive flexible lower briquetting 54 and move down, people manually take the baffle away, flexible lower briquetting 54 extrudes cream to the biscuit, when flexible lower briquetting 54 moves to first feed box 55 bottom, lower depression bar 52 continues to move down, second spring 56 compresses this moment, after the extrusion, people block first feed box 55 bottom with the baffle again, loosen lower depression bar 52 again, first spring 53 is tensile this moment, drive depression bar 52 and move up and reset, and then drive flexible lower briquetting 54 and move up and reset, second spring 56 is tensile this moment, drive flexible lower briquetting 54 and move down and reset.

The reciprocating mechanism 6 is further included, the reciprocating mechanism 6 includes a second transmission assembly 61, a third rotating shaft 62, a third transmission assembly 63, a fourth rotating shaft 64, a bevel gear set 65, a fifth rotating shaft 66, a second gear-lacking 67 and a rack 68, the left front side of the bottom plate 1 is rotatably connected with the third rotating shaft 62, the second transmission assembly 61 is connected between the upper part of the third rotating shaft 62 and the upper part of the second rotating shaft 46, the fourth rotating shaft 64 is rotatably connected with the front side of the first support frame 2, the third transmission assembly 63 is connected between the middle part of the fourth rotating shaft 64 and the middle part of the third rotating shaft 62, the fifth rotating shaft 66 is rotatably connected with the fifth rotating shaft 66, the fifth rotating shaft 66 is positioned at the front side of the fourth rotating shaft 64, the bevel gear set 65 is connected between the rear side of the fifth rotating shaft 66 and the upper part of the fourth rotating shaft 64, the front side of the fifth rotating shaft 66 is connected with the second gear-lacking 67, the middle part, the top of rack 68 is attached to the bottom front side of lower press bar 52.

When the biscuits move to the lower part of the first lower material box 55, the second rotating shaft 46 rotates to drive the second transmission assembly 61 and further drive the third rotating shaft 62 to rotate, the third rotating shaft 62 drives the third transmission assembly 63 and further drive the fourth rotating shaft 64 to rotate, the fourth rotating shaft 64 drives the bevel gear set 65 and further drive the fifth rotating shaft 66 to rotate, the fifth rotating shaft 66 drives the second missing gear 67 to rotate, when the second missing gear 67 rotates to be meshed with the rack 68, the rack 68 is driven to move downwards, and the lower pressing rod 52 is driven to move downwards, so that the telescopic lower pressing block 54 extrudes cream onto the biscuits, when the second missing gear 67 rotates to be separated from the rack 68, the lower pressing rod 52 moves upwards to reset, and drives the rack 68 to move upwards to reset, and simultaneously drives the telescopic lower pressing block 54 to move upwards to reset.

The blanking mechanism 7 comprises a second supporting frame 71, a rotating block 72, a first pushing frame 73, a first telescopic assembly 74, a second blanking box 75, a sixth rotating shaft 76, a first swinging rod 77, a seventh rotating shaft 78, a pushing rod 79, an eighth rotating shaft 710, a swinging frame 711 and a third spring 712, wherein the second supporting frame 71 is arranged on the right rear side of the bottom plate 1, 4 rotating blocks 72 are uniformly arranged on the upper portion of the rotating frame 41, the second blanking box 75 is arranged on the front side of the upper portion of the second supporting frame 71, the first pushing frame 73 is connected on the upper portion of the second supporting frame 71 in a sliding manner, the first telescopic assembly 74 is arranged in the middle of the first pushing frame 73 and is connected with the second supporting frame 71 in a sliding manner, the front side of the upper portion of the first pushing frame 73 slides on the rear side of the lower portion of the second blanking box 75, the front side of the upper portion of the second supporting frame 71 is connected with the sixth rotating shaft 76 in a sliding manner, the middle of the sixth rotating shaft 76 is connected with the, the left side of the first swinging rod 77 is in contact with the right front side of the upper part of the first pushing frame 73, the bottom of the first swinging rod 77 is in contact with the front side of the upper part of the second supporting frame 71, the right side of the first swinging rod 77 is connected with a seventh rotating shaft 78, the front side of the lower part of the second discharging box 75 is in sliding connection with a swinging frame 711, 2 third springs 712 are connected between the rear side of the upper left part of the swinging frame 711 and the front side of the lower part of the second discharging box 75, an eighth rotating shaft 710 is arranged on the right side of the swinging frame 711, and the pushing rod 79 is rotatably connected between the middle part of the eighth rotating shaft 710.

When the rotary block 72 rotates to contact with the lower side of the first pushing frame 73, the material discharging plate 42 just moves to the lower side of the second blanking box 75, the rotary block 72 drives the first pushing frame 73 to move backwards so as to drive the first telescopic component 74 to move backwards, the first telescopic component 74 compresses, the first pushing frame 73 drives the first swinging rod 77 to rotate, the first swinging rod 77 drives the pushing rod 79 to move forwards so as to drive the swinging frame 711 to move forwards, the third spring 712 stretches so as to enable the biscuits to fall onto the material discharging plate 42, and when the rotary block 72 is separated from the lower side of the first pushing frame 73, the first telescopic component 74 stretches to drive the first pushing frame 73 to move forwards and reset, at this time, the third spring 712 contracts to drive the swing frame 711 to move backward and return, and further drive the push rod 79 to move backward, and further drive the first swing rod 77 to rotate and return, and the biscuits are blocked again by the rear side of the swing frame 711 and the front side of the upper part of the first push frame 73.

The drawing mechanism 8 comprises a first lower pressing block 81, an extrusion block 82, a second telescopic assembly 83, a first sliding sleeve 84, a first wedge block 85, a second wedge block 86, a fourth spring 87 and a material blocking block 88, wherein the first lower pressing block 81 is arranged on the rear side of a lower pressing rod 52, the first sliding sleeve 84 is arranged on the rear side of a first fixing frame 51, the extrusion block 82 is connected on the upper portion of the first sliding sleeve 84 in a sliding mode, the second telescopic assembly 83 is connected between the upper portion of the extrusion block 82 and the top of the first sliding sleeve 84, the second telescopic assembly 83 is sleeved on the upper portion of the extrusion block 82, the first wedge block 85 is arranged at the bottom of the extrusion block 82, the material blocking block 88 is connected on the lower side of the first sliding sleeve 84 in a sliding mode, the front portion of the material blocking block 88 slides on the lower side of the rear portion of the first material box 55, the second wedge block 86 is arranged on the top of the rear side of the material blocking block 88, the second wedge block 86 is in contact with the first wedge, the fourth spring 87 is sleeved at the rear part of the material blocking block 88.

When the biscuits move to the lower part of the first blanking box 55, the lower pressure rod 52 moves downwards to drive the first lower pressure block 81 to move downwards, when the first lower pressure block 81 moves to be in contact with the extrusion block 82, the extrusion block 82 is driven to move downwards, the second telescopic component 83 compresses at the moment, the first wedge-shaped block 85 is driven to move downwards, the first wedge-shaped block 85 drives the second wedge-shaped block 86 to move backwards, the second wedge-shaped block 86 drives the material blocking block 88 to move backwards, the fourth spring 87 stretches at the moment, the material blocking block 88 leaves the lower side of the first blanking box 55, the butter is extruded onto the biscuits, when the lower pressure rod 52 moves upwards to reset, the first lower pressure block 81 is driven to move upwards to separate the first lower pressure block 81 from the extrusion block 82, the second telescopic component 83 stretches at the moment, the extrusion block 82 and the first wedge-shaped block 85 are driven to move upwards to reset, when the first wedge-shaped block 85 is separated from the second wedge-shaped block 86, at the moment, the fourth spring 87 contracts to drive the material blocking block 88 to move forwards and reset, so that the material blocking block 88 blocks the lower side of the first discharging box 55 again to prevent cream from continuously flowing out.

The pushing device is characterized by further comprising a pushing mechanism 9, the pushing mechanism 9 comprises a third wedge-shaped block 91, rollers 92, a second pushing frame 93, fifth springs 94, a second sliding sleeve 95 and a blanking frame 96, the left side of the bottom plate 1 is provided with the second sliding sleeve 95, the upper portion of the second sliding sleeve 95 is provided with the blanking frame 96, the second pushing frame 93 is connected between the front side and the rear side of the upper portion of the second sliding sleeve 95 in a sliding mode, the fifth springs 94 are connected between the left side and the right side of the lower side of the second pushing frame 93 and the right side of the upper portion of the second sliding sleeve 95, the fifth springs 94 are respectively sleeved on the left lower portion of the second pushing frame 93, the front side of the second pushing frame 93 is rotatably connected with the rollers 92, the left rear side of the lower pressing rod 52 is connected with the third wedge-shaped.

When the biscuit that has crowded cream rotates second pushing frame 93 left side, lower depression bar 52 moves down and drives third wedge-shaped block 91 and move down, when third wedge-shaped block 91 moves to and contacts with gyro wheel 92, drive second pushing frame 93 and move left, fifth spring 94 compression this moment, second pushing frame 93 is with biscuit propelling movement to unloading frame 96 on, the biscuit slides from unloading frame 96 to the plate that people prepared in, when depression bar 52 moves up and resets down, drive third wedge-shaped block 91 and move up, make third wedge-shaped block 91 and gyro wheel 92 separation, fifth spring 94 is tensile this moment, drive second pushing frame 93 and move right and reset, people take the biscuit away can.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A biscuit processing cream filling device for food processing is characterized by comprising:

the device comprises a bottom plate (1) and a first support frame (2), wherein the first support frame (2) is arranged on one side of the bottom plate (1);

the first fixing block (3) is arranged on one side of the bottom plate (1);

the rotating mechanism (4) is connected between one side of the bottom plate (1) and one sides of the first fixed block (3) and the first support frame (2);

the material extruding mechanism (5) is arranged on one side of the first support frame (2).

2. A cream filling apparatus for biscuit processing for food processing according to claim 1, wherein the rotating mechanism (4) comprises:

the rotating frame (41) is rotatably connected to one side of the first support frame (2);

4 material placing plates (42) are uniformly arranged on one side of the rotating frame (41);

the motor (48) is arranged on one side of the bottom plate (1), and the motor (48) is positioned inside the first fixing block (3);

one side of the first fixing block (3) is rotatably connected with the second rotating shaft (46), and one side of the second rotating shaft (46) is connected with the motor (48);

the middle part of the second rotating shaft (46) is connected with a first gear lack (47);

a first rotating shaft (44), wherein one side of the first fixed block (3) is rotatably connected with the first rotating shaft (44);

the full gear (45) is connected to one side of the first rotating shaft (44), and the full gear (45) is meshed with the first gear lacking wheel (47);

and a first transmission assembly (43) is connected between one side of the first rotating shaft (44) and one side of the rotating frame (41).

3. A cream filling apparatus for biscuit processing for food processing according to claim 2, wherein the extruding means (5) comprises:

the first fixing frame (51) is connected between two sides of the first supporting frame (2);

a first blanking box (55), wherein one side of the first fixing frame (51) is provided with the first blanking box (55);

a lower pressure rod (52), wherein one side of the first support frame (2) is connected with the lower pressure rod (52) in a sliding way;

the first spring (53) is connected between one side of the lower press rod (52) and one side of the first support frame (2);

a telescopic lower pressing block (54), wherein one side of the lower pressing rod (52) is provided with the telescopic lower pressing block (54);

and a second spring (56) is arranged between one side of the telescopic lower pressing block (54) and one side of the lower pressing rod (52), and the second spring (56) is sleeved on one side of the telescopic lower pressing block (54).

4. A cream filling apparatus for biscuit processing for food processing according to claim 3, further comprising a reciprocating mechanism (6), wherein the reciprocating mechanism (6) comprises:

a third rotating shaft (62), wherein one side of the bottom plate (1) is rotatably connected with the third rotating shaft (62);

a second transmission assembly (61), wherein a second transmission assembly (61) is connected between one side of the third rotating shaft (62) and one side of the second rotating shaft (46);

a fourth rotating shaft (64), wherein one side of the first support frame (2) is rotatably connected with the fourth rotating shaft (64);

a third transmission assembly (63), wherein a third transmission assembly (63) is connected between one side of the fourth rotating shaft (64) and one side of the third rotating shaft (62);

a fifth rotating shaft (66), wherein one side of the first support frame (2) is rotatably connected with the fifth rotating shaft (66), and the fifth rotating shaft (66) is positioned on one side of the fourth rotating shaft (64);

a bevel gear set (65) is connected between one side of the fifth rotating shaft (66) and one side of the fourth rotating shaft (64);

one side of the fifth rotating shaft (66) is connected with the second gear lack (67);

the rack (68) is connected to one side of the first support frame (2) in a sliding mode, and the top of the rack (68) is connected with one side of the lower pressing rod (52).

5. A biscuit processing cream filling apparatus for food processing according to claim 4, characterized in that it further comprises a blanking mechanism (7), the blanking mechanism (7) comprising:

a second support frame (71), wherein one side of the bottom plate (1) is provided with the second support frame (71);

4 rotating blocks (72) are uniformly arranged on one side of the rotating frame (41);

a second blanking box (75), wherein one side of the second support frame (71) is provided with the second blanking box (75);

the first pushing frame (73) is connected to one side of the second supporting frame (71) in a sliding mode, and one side of the first pushing frame (73) slides on one side of the second discharging box (75);

the middle part of the first pushing frame (73) is provided with a first telescopic assembly (74), and the first telescopic assembly (74) is connected with the second supporting frame (71) in a sliding manner;

a sixth rotating shaft (76), wherein one side of the second supporting frame (71) is rotatably connected with the sixth rotating shaft (76);

one side of the sixth rotating shaft (76) is connected with a first swinging rod (77), one side of the first swinging rod (77) is contacted with one side of the first pushing frame (73), and the bottom of the first swinging rod (77) is contacted with one side of the second supporting frame (71);

a seventh rotating shaft (78), wherein one side of the first swinging rod (77) is connected with the seventh rotating shaft (78);

the swinging frame (711) is connected to one side of the second discharging box (75) in a sliding manner;

a third spring (712), wherein 2 third springs (712) are connected between one side of the swing frame (711) and one side of the second blanking box (75);

an eighth rotating shaft (710), wherein the eighth rotating shaft (710) is arranged at one side of the swinging frame (711);

the pushing rod (79) is rotatably connected between one side of the eighth rotating shaft (710) and one side of the seventh rotating shaft (78).

6. A cream filler for biscuit processing for food processing according to claim 5, further comprising a pulling-out mechanism (8), wherein the pulling-out mechanism (8) comprises:

a first lower pressing block (81), wherein one side of the lower pressing rod (52) is provided with the first lower pressing block (81);

a first sliding sleeve (84), wherein one side of the first fixing frame (51) is provided with the first sliding sleeve (84);

the extrusion block (82) is connected with one side of the first sliding sleeve (84) in a sliding manner;

a second telescopic component (83), wherein the second telescopic component (83) is connected between one side of the extrusion block (82) and the top of the first sliding sleeve (84), and the second telescopic component (83) is sleeved on one side of the extrusion block (82);

the first wedge block (85) is arranged on one side of the extrusion block (82);

the material blocking block (88) is connected to one side of the first sliding sleeve (84) in a sliding mode, and one side of the material blocking block (88) slides on one side of the first blanking box (55);

a second wedge-shaped block (86) is arranged on one side of the material blocking block (88), and the second wedge-shaped block (86) is in contact with the first wedge-shaped block (85);

a fourth spring (87), a fourth spring (87) is connected between one side of the material blocking block (88) and one side of the first sliding sleeve (84), and the fourth spring (87) is sleeved on one side of the material blocking block (88).

7. The cream filling apparatus for biscuit processing for food processing according to claim 6, further comprising a pushing mechanism (9), wherein the pushing mechanism (9) comprises:

a second sliding sleeve (95), wherein one side of the bottom plate (1) is provided with the second sliding sleeve (95);

a blanking frame (96), wherein the blanking frame (96) is arranged on one side of the second sliding sleeve (95);

the second pushing frame (93) is connected between the two sides of the second sliding sleeve (95) in a sliding manner;

the fifth springs (94) are connected between the two sides of the second pushing frame (93) and one side of the second sliding sleeve (95), and the fifth springs (94) are respectively sleeved on one side of the second pushing frame (93);

the roller (92) is rotatably connected to one side of the second pushing frame (93);

and one side of the lower pressing rod (52) is connected with a third wedge block (91), and the third wedge block (91) is positioned on one side of the roller (92).

8. A cream filler for biscuit processing for food processing according to claim 5, wherein the second hopper (75) is in the shape of a hollow cylinder.

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