CN112960158A - Mechanical processing equipment and method for absorbable jelly drink - Google Patents

Abstract

The invention discloses mechanical processing equipment for a suckable jelly beverage, which comprises a conveying mechanism, a processing mechanism, an exhaust mechanism and a nozzle sealing mechanism, wherein the processing mechanism and the nozzle sealing mechanism are sequentially arranged on the side edge of the conveying mechanism along the conveying direction of the conveying mechanism, the exhaust mechanism is arranged between the processing mechanism and the conveying mechanism, and the exhaust mechanism is arranged below a discharge hole of the processing mechanism. Compared with the prior art, the invention can avoid the generation of bubbles, improve the quality of products and simultaneously improve the production efficiency of the products. The invention also provides a method comprising, vacuum stirring a material; sieving the powder; exhausting; compressing and conveying; and the jelly is injected to reduce the pressing force on the suction nozzle bag. Drying; sleeving a sealing cover; and (6) sealing the cover and performing hot pressing. Compared with the prior art, the method can avoid bubbles in the product, and simultaneously greatly improves the production efficiency and the product quality.

Description

Mechanical processing equipment and method for absorbable jelly drink

Technical Field

The invention relates to the technical field of jelly production equipment, in particular to mechanical processing equipment and a method for a suckable jelly drink.

Background

Jelly is a kind of western sweet food in the form of semisolid made of edible gelatin with water, sugar and fruit juice, and is popular among children and teenagers.

The existing jelly production mainly comprises the steps of stirring and processing raw materials, and then quantitatively injecting the processed jelly finished product into a suction nozzle bag. Because the raw materials can be mixed with air during stirring, and a large amount of air also exists in the suction nozzle bag, a large amount of bubbles can be generated in the suction nozzle bag when the jelly is injected into the suction nozzle bag, and the product appearance is influenced. If the bubbles are too much, partial jelly overflows the suction nozzle bag, so that the suction nozzle of the suction nozzle bag needs to be cleaned, the production efficiency is greatly reduced, the weight of each bag of jelly is uneven, and the good rate of products is influenced.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

The invention mainly aims to provide mechanical processing equipment and method for a absorbable jelly drink, which can avoid bubbles generated during jelly injection, improve the quality of products and improve the production efficiency of the products.

In order to achieve the above purpose, the solution of the invention is:

the utility model provides a mechanized processing equipment of jelly drink can inhale, wherein, includes conveying mechanism, processing agency, exhaust mechanism and seal mouth mechanism, processing agency and seal mouth mechanism arrange in proper order along conveying mechanism's direction of delivery and establish the side at conveying mechanism, exhaust mechanism establishes between processing agency and conveying mechanism, and exhaust mechanism establishes the discharge gate below at processing mechanism.

Furthermore, the exhaust mechanism comprises a compression mechanism and a pressing mechanism which are sequentially arranged along the feeding direction of the conveying mechanism.

Furthermore, the compression mechanism comprises compression conveying belts which are symmetrically and vertically arranged, and the compression conveying belts gradually approach to form vertical compression holes along the feeding direction of the conveying mechanism.

Further, hold-down mechanism compresses tightly the conveyer belt and connects the resetting means who compresses tightly the frame and compress tightly the conveyer belt including compressing tightly the frame, compress tightly the frame and establish the below at the machining mechanism discharge end, it is vertical in the compressor frame to compress tightly the conveyer belt symmetry, compress tightly parallel arrangement between the conveyer belt and form the transfer passage who supplies the suction nozzle bag to pass through, transfer passage and vertical compression hole intercommunication, resetting means can drive and compress tightly and keep away from each other between the conveyer belt.

Further, compress tightly the conveyer belt and include the first conveyer belt that compresses tightly that sets gradually along conveying mechanism's pay-off direction, the second compresses tightly the conveyer belt and the third compresses tightly the conveyer belt, resetting means is including driving the first conveyer belt that compresses tightly respectively, and the second compresses tightly first resetting means, second resetting means and the third resetting means that compresses tightly the conveyer belt.

Furthermore, the resetting device is a pneumatic cylinder body, the pneumatic cylinder body is horizontally arranged on the pressing rack, and a piston rod of the pneumatic cylinder body is connected with the pressing conveying belt.

Furthermore, the reset device is a spring, one end of the spring abuts against the pressing rack, and the other end of the spring abuts against the pressing conveying belt.

Further, the processing mechanism is including processing the box, the agitator, agitating unit, air exhaust device and injection apparatus, the agitator is established in the processing box, agitating unit establishes in the agitator, air exhaust device establishes on the processing box and air exhaust device's the end of bleeding stretches into in the agitator, the lower extreme of agitator is equipped with the discharge gate, the discharge gate is connected with injection apparatus's feed end, injection apparatus has the injection nozzle of establishing in conveying mechanism top.

Further, still be equipped with sieve powder mechanism in the discharge gate, sieve powder mechanism includes a plurality of sieve powder board and sieve powder board drive arrangement, sieve powder board and parallel arrangement from top to bottom each other, be equipped with a plurality of sieve powder hole on the sieve powder board, sieve powder hole lateral extension, sieve powder board drive arrangement establishes on the lateral wall of discharge gate to drive sieve powder board horizontal movement.

Furthermore, the stirring device comprises a stirring shaft, and stirring blades extending along the radial direction of the stirring shaft are uniformly arranged on the outer circumferential surface of the stirring shaft.

Further, the stirring blades are obliquely arranged.

Further, the cross section of the stirring blade is arc-shaped, and the curved surface of the stirring blade faces the rotation direction of the stirring shaft.

Further, conveying mechanism includes the transport frame, the delivery track, carries the slider, carries clamping jaw and carries slider actuating mechanism, carry the delivery track level sets up in the transport frame, carry slider and delivery track sliding connection, carry the clamping jaw to establish on carrying the slider, carry slider actuating mechanism to establish on the transport frame and drive and carry the slider motion.

Further, the inner side wall of the conveying clamping jaw is provided with an arc-shaped groove matched with the suction nozzle.

Further, seal mouth mechanism includes the seal mouth conveyer belt, seal mouth clamping jaw mechanism and hot pressing mechanism, seal mouth conveyer belt and hot pressing mechanism set gradually the side at the seal mouth conveyer belt along conveying mechanism's pay-off direction, seal mouth clamping jaw mechanism establishes the discharge end at the seal mouth conveyer belt.

Further, seal mouth clamping jaw mechanism includes the gripper frame, the seal mouth clamping jaw, axis of rotation and rotation drive arrangement, the gripper frame is established at the discharge end of seal mouth conveyer belt, the axis of rotation rotates with the gripper frame to be connected, rotation drive arrangement is connected and drive axis of rotation with the axis of rotation and is rotated, the seal mouth clamping jaw is established in the axis of rotation.

Further, the rotation driving device is a driving motor.

Further, hot pressing mechanism includes hot pressing frame, hot pressing head and hot pressing head drive arrangement, the hot pressing frame is established on conveying mechanism, hot pressing head drive arrangement symmetry sets up in the hot pressing frame, the hot pressing head is connected with hot pressing head drive arrangement's power take off end.

Furthermore, a concave groove matched with the suction nozzle is formed in the side wall of the hot pressing head.

Further, still including establishing the stoving mechanism between processing mechanism and the mouth sealing mechanism, stoving mechanism includes the drying device of symmetry setting in conveying mechanism both sides.

A method based on the mechanical processing equipment of the absorbable jelly drink comprises the following steps:

(1) adding the material into a processing mechanism for vacuum stirring;

(2) fully sieving large powder in the material;

(3) completely exhausting the air in the suction nozzle bag;

(4) compressing the suction nozzle bag and conveying the suction nozzle bag to an injection device;

(5) the jelly is poured into the suction nozzle bag while the pressing force on the suction nozzle bag is slowly reduced.

(6) Drying the suction nozzle of the suction nozzle bag;

(7) sleeving a sealing cover on the suction nozzle through a sealing nozzle clamping jaw;

(8) and carrying out hot pressing on the sealing cover through a hot pressing mechanism.

After the structure is adopted, the conveying mechanism clamps the suction nozzle bag to convey during working, the exhaust mechanism extrudes the suction nozzle bag to exhaust air in the suction nozzle bag when passing through the exhaust mechanism, the processing mechanism performs vacuum processing and stirring on raw materials, a finished product is injected into the suction nozzle bag, and finally the nozzle sealing mechanism seals a suction nozzle of the suction nozzle bag.

Compared with the prior art, the invention has the advantages that the air can be emptied before the jelly is injected into the suction nozzle bag, so that a large amount of bubbles generated in the suction nozzle bag during injection are avoided, the product is more attractive, the jelly can be effectively prevented from overflowing, and the product yield is improved.

Drawings

Fig. 1 is a perspective view of the external structure of the present invention.

Fig. 2 is a perspective view of another external structure of the present invention.

Fig. 3 is a schematic structural plan view of the exhaust mechanism.

Fig. 4 is a partially enlarged view of the area a in fig. 2.

Fig. 5 is a schematic sectional structure view of the processing mechanism.

Fig. 6 is a schematic structural diagram of the powder sieving mechanism.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1-6, a mechanical processing device for a jelly drink comprises a conveying mechanism 1, a processing mechanism 2, an exhaust mechanism 3 and a sealing mechanism 4, wherein the processing mechanism 2 and the sealing mechanism 4 are sequentially arranged at the side of the conveying mechanism 1 along the conveying direction of the conveying mechanism 1, the exhaust mechanism 3 is arranged between the processing mechanism 2 and the conveying mechanism 1, and the exhaust mechanism 3 is arranged below a discharge hole 221 of the processing mechanism 2.

After the structure is adopted, in operation, the conveying mechanism 1 clamps the suction nozzle bag 51 for conveying, when the suction nozzle bag passes through the exhaust mechanism 3, the exhaust mechanism 3 extrudes the suction nozzle bag 51 to exhaust air in the suction nozzle bag 51, the processing mechanism 2 performs vacuum processing and stirring on raw materials, a finished product is injected into the suction nozzle bag 51, and finally the nozzle sealing mechanism 4 seals a suction nozzle of the suction nozzle bag 51.

Compared with the prior art, the invention has the advantages that the air can be emptied before the jelly is injected into the suction nozzle bag 51, a large amount of bubbles generated in the suction nozzle bag 51 during injection are avoided, the product is more beautiful, the jelly can be effectively prevented from overflowing, the amount of the jelly in the suction nozzle bag 51 after injection is the same, and the excellent rate of the product is improved.

Preferably, the exhaust mechanism 3 comprises a compression mechanism and a pressing mechanism which are arranged in sequence along the feeding direction of the conveying mechanism 1. With the above structure, the compressing mechanism compresses and compresses the nozzle bag 51 to completely discharge the air in the bag, and the compressing mechanism holds the nozzle bag 51 in a compressed state and conveys the nozzle bag to the processing mechanism 2. When the processing mechanism 2 injects the jelly into the nozzle bag 51, the pressing mechanism gradually reduces the pressing force to ensure that the nozzle bag 51 slowly expands while injecting the jelly, so that air is prevented from entering the nozzle bag 51 to generate bubbles, and the product quality is improved.

Preferably, the compressing mechanism comprises a compression conveyer belt 31 which is symmetrically and vertically arranged, and the compression conveyer belt 31 is gradually close to form a vertical compression hole 32 along the feeding direction of the conveyer mechanism 1. After adopting the above structure, the bag portion of the nozzle bag 51 enters the compressing mechanism and is continuously conveyed to the vertical compressing hole 32, and the compressing conveyer belt 31 continuously extrudes the side wall of the bag portion of the nozzle bag 51, thereby compressing the bag portion and exhausting air. In addition, in the forward conveying process of the suction nozzle bag 51, the compression conveying belt 31 rotates towards the feeding direction of the conveying mechanism 1, so that the compression conveying belt 31 is always attached to the side wall of the bag part, and the bag part is effectively prevented from being rubbed with the compression conveying belt 31 to generate scratches.

Preferably, the pressing mechanism comprises a pressing frame 33, a pressing conveyer belt 34 and a resetting device 35 connected with the pressing frame 33 and the pressing conveyer belt 34, the pressing frame 33 is arranged below the discharge end of the processing mechanism 2, the pressing conveyer belt 34 is symmetrical and vertical to the compressor frame, a conveying channel for the suction nozzle bag 51 to pass through is formed between the pressing conveyer belts 34 in a parallel mode, the conveying channel is communicated with the vertical compression holes 32, the width of the conveying channel is the same as that of the vertical compression holes 32, and the resetting device 35 can drive the pressing conveyer belts 34 to be far away from each other. After the structure is adopted, the compressed suction nozzle bag 51 enters the conveying channel through the vertical compression hole 32, the compression conveying belt 34 can abut against the side wall of the compression bag part, the suction nozzle bag 51 is kept in a compressed state, and air is prevented from entering the suction nozzle bag 51. And the rotating direction and the conveying speed of the pressing conveying belt 34 are the same as the feeding direction and the feeding speed of the conveying mechanism 1, so that the pressing conveying belt 34 is always attached to the side wall of the bag part, and the bag part is effectively prevented from being scratched due to friction with the pressing conveying belt 34. When jelly is poured into the suction nozzle bag 51, the reset device 35 drives the pressing conveyer belts 34 on the two sides of the bag part to be away from each other slowly, and the suction nozzle bag 51 can expand gradually along with the pouring amount while pouring the jelly, so that air can be effectively prevented from entering the suction nozzle bag 51 in the process of pouring the jelly, and no bubbles are generated in the suction nozzle bag 51.

Preferably, the pressing conveyer belt 34 includes a first pressing conveyer belt, a second pressing conveyer belt and a third pressing conveyer belt sequentially arranged along the feeding direction of the conveying mechanism 1, and the resetting device 35 includes a first resetting device, a second resetting device and a third resetting device for respectively driving the first pressing conveyer belt, the second pressing conveyer belt and the third pressing conveyer belt. After adopting above-mentioned structure, first resetting means and second resetting means drive first compress tightly the conveyer belt and the second compresses tightly the conveyer belt and laminate each other and compress tightly suction nozzle bag 51, avoid the air to get into in the bag, and the third resetting means drives and drives first compress tightly the conveyer belt and separate gradually when jelly pours into suction nozzle bag 51, make more jellies of suction nozzle can pouring into to avoid the jelly to spill over.

Preferably, as an embodiment of the present invention, the resetting device 35 is a pneumatic cylinder, the pneumatic cylinder is horizontally disposed on the pressing frame 33, and a piston rod of the pneumatic cylinder is connected to the pressing conveyor belt 34. By adopting the structure, the reset device 35 is driven more closely and flexibly, and the adjustment precision is high.

Preferably, as another embodiment of the present invention, the restoring device 35 is a spring, one end of which abuts against the pressing frame 33 and the other end of which abuts against the pressing belt 34. By adopting the structure, the reset device 35 has simpler structure, lower price cost and convenient maintenance and replacement.

Preferably, the processing mechanism 2 includes a processing box 21, an agitating barrel 22, an agitating device, an air extractor 23 and an injection device 24, the agitating barrel 22 is disposed in the processing box 21, the agitating device is disposed in the agitating barrel 22, the air extractor 23 is disposed on the processing box 21, an air extraction end of the air extractor 23 extends into the agitating barrel 22, a discharge port 221 is disposed at a lower end of the agitating barrel 22, the discharge port 221 is connected with a feed end of the injection device 24, and the injection device 24 has an injection nozzle 241 disposed above the conveying mechanism 1. After the structure is adopted, the raw materials are added into the stirring barrel 22, the stirring device can fully stir the raw materials, the stirred jelly enters the injection device 24 from the discharge port 221, and the injection device 24 injects the jelly into the suction nozzle bag 51 through the injection nozzle 241. Before the stirring, the air extractor 23 extracts the air in the stirring barrel 22, so as to prevent the generation of bubbles during the stirring process and prevent the bubbles from being injected into the suction nozzle bag 51.

Preferably, since the raw material contains a large amount of powder and particles, some of the powder and particles are not easily stirred after agglomeration, so that the powder can be sufficiently stirred. Still be equipped with sieve powder mechanism in discharge gate 221, sieve powder mechanism includes a plurality of sieve powder board 251 and sieve powder board drive arrangement 252, sieve powder board 251 mutual upper and lower and parallel arrangement, be equipped with a plurality of sieve powder hole 253 on sieve powder board 251, sieve powder hole 253 transversely extends, sieve powder board drive arrangement 252 establishes on the lateral wall of discharge gate 221 to drive sieve powder board 251 horizontal motion. After adopting the above structure, powder screening plate driving device 252 drives powder screening plate 251 to make continuous reciprocating motion, so that powder blocks are continuously vibrated, stirred and dispersed on powder screening plate 251, and the dispersed powder blocks enter injection device 24 through powder screening holes 253 and discharge holes, so that the material ratio is more uniform and stable.

Preferably, the stirring device includes a stirring shaft 261, and stirring blades 262 extending in a radial direction of the stirring shaft 261 are uniformly provided on an outer circumferential surface of the stirring shaft 261. After adopting above-mentioned structure for agitating unit stirring is more even.

Preferably, the agitating blade 262 is obliquely disposed. The agitating blades 262 are gradually inclined from top to bottom toward the rotation direction of the agitating shaft 261. With the above configuration, the resistance received by the stirring blade 262 during stirring can be reduced.

Preferably, the cross section of the agitating blade 262 is arc-shaped, and the curved surface of the agitating blade 262 faces the rotation direction of the agitating shaft 261. After adopting the above structure, the stirring blade 262 can generate an upward stirring force in the stirring process, so that the material is stirred more uniformly and sufficiently.

Preferably, the conveying mechanism 1 comprises a conveying rack 11, a conveying rail 12, a conveying slider 13, a conveying clamping jaw 14 and a conveying slider 13 driving mechanism, wherein the conveying rail 12 is horizontally arranged on the conveying rack 11, the conveying slider 13 is slidably connected with the conveying rail 12, the conveying clamping jaw 14 is arranged on the conveying slider 13, and the conveying slider 13 driving mechanism is arranged on the conveying rack 11 and drives the conveying slider 13 to move. The specific driving mechanism for the conveying sliding block 13 can adopt a driving structure that a motor is connected with a chain belt, the conveying sliding block 13 is connected with the chain belt, and the motor drives the chain belt to move and simultaneously drives the conveying sliding block 13 to slide along the conveying track 12.

Preferably, the inner side walls of the transport jaw 14 have an arc-shaped slot for cooperation with the suction nozzle. With the structure, the conveying clamping jaws 14 can clamp the suction nozzle bag 51 more firmly.

Preferably, the sealing mechanism 4 includes a sealing conveyer belt 41, a sealing clamping jaw mechanism and a hot pressing mechanism, the sealing conveyer belt 41 and the hot pressing mechanism are sequentially arranged on the side of the sealing conveyer belt 41 along the feeding direction of the conveyer mechanism 1, and the sealing clamping jaw mechanism is arranged at the discharging end of the sealing conveyer belt 41. After the conveying mechanism 1 conveys the suction nozzle bag 51 to the side edge of the nozzle sealing conveying belt 41, the nozzle sealing clamping jaw mechanism clamps and sleeves the sealing cover 52 on the nozzle sealing conveying belt 41 on the suction nozzle, then the conveying mechanism 1 continues to convey the suction nozzle bag 51 to the hot-pressing mechanism, and the hot-pressing mechanism fixes the sealing cover 52 and the suction nozzle in a hot-pressing manner. After adopting above-mentioned structure, can carry out automatic installation closing cap 52 to the suction nozzle, improve work efficiency, reduce labour cost.

Preferably, the nozzle sealing clamping jaw mechanism comprises a clamping jaw frame 42, a nozzle sealing clamping jaw 43, a rotating shaft 44 and a rotation driving device, wherein the clamping jaw frame 42 is arranged at the discharge end of the nozzle sealing conveying belt 41, the rotating shaft 44 is rotatably connected with the clamping jaw frame 42, the rotation driving device is connected with the rotating shaft 44 and drives the rotating shaft 44 to rotate, and the nozzle sealing clamping jaw 43 is arranged on the rotating shaft 44. With the above structure, the rotation driving device drives the rotation shaft 44 to rotate, thereby driving the mouth-sealing clamping jaw 43 to move.

Preferably, the rotation driving device is a driving motor, so that the cost is low and the maintenance is convenient.

Preferably, the hot pressing mechanism includes a hot pressing frame 45, a hot pressing head 46 and a hot pressing head driving device 47, the hot pressing frame 45 is disposed on the conveying mechanism 1, the hot pressing head driving device 47 is symmetrically disposed on the hot pressing frame 45, and the hot pressing head 46 is connected to a power output end of the hot pressing head driving device 47. With the above structure, when the nozzle bag 51 is conveyed to the lower side of the hot-pressing mechanism, the hot-pressing head driving device 47 drives the hot-pressing heads 46 to approach each other to perform hot-pressing on the cap 52.

Preferably, the side wall of the hot pressing head 46 is provided with a concave groove matched with the suction nozzle, and by adopting the structure, the hot pressing head 46 is more matched with the contour of the suction nozzle, so that the hot pressing efficiency and the hot pressing quality are improved.

Preferably, the device further comprises a drying mechanism 6 arranged between the processing mechanism 2 and the mouth sealing mechanism 4, and the drying mechanism 6 comprises drying devices symmetrically arranged on two sides of the conveying mechanism 1. Adopt above-mentioned structure, drying equipment can dry to the suction nozzle, avoids jelly to pour into suction nozzle bag 51 back part jelly into and remains on the suction nozzle, makes the product cleaner health, further improves product quality.

A method based on the mechanical processing equipment of the absorbable jelly drink comprises the following steps:

(1) adding the material into the processing mechanism 2 for vacuum stirring;

(2) fully sieving large powder in the material;

(3) completely exhausting the air in the nozzle bag 51;

(4) compressing the nozzle bag 51 and delivering to the injection device 24;

(5) jelly is poured into the nozzle bag 51 while gradually reducing the pressing force against the nozzle bag 51.

(6) Drying the suction nozzle of the suction nozzle bag 51;

(7) the sealing cover 52 is sleeved on the suction nozzle through the sealing nozzle clamping jaw 43;

(8) the cap 52 is hot pressed by a hot press mechanism.

By adopting the method, bubbles generated in the product can be avoided, and meanwhile, the production efficiency and the product quality are greatly improved.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. The utility model provides a but mechanical processing equipment of jelly drink which characterized in that, includes conveying mechanism, processing agency, exhaust mechanism and seal mouth mechanism, processing agency and seal mouth mechanism arrange in proper order along conveying mechanism's direction of delivery and establish the side at conveying mechanism, exhaust mechanism establishes between processing agency and conveying mechanism, and exhaust mechanism establishes the discharge gate below at processing mechanism.

2. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 1, wherein the air exhaust mechanism comprises a compressing mechanism and a compacting mechanism which are arranged in sequence along the feeding direction of the conveying mechanism.

3. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 2, wherein the compressing mechanism comprises symmetrical and vertically arranged compressing conveyer belts, and the compressing conveyer belts are gradually close to form vertical compressing holes along the feeding direction of the conveying mechanism.

4. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 3, wherein the compressing mechanism comprises a compressing frame, a compressing conveyer belt and a resetting device for connecting the compressing frame and the compressing conveyer belt, the compressing frame is arranged below the discharge end of the processing mechanism, the compressing conveyer belt is symmetrical and vertical to the compressor frame, the compressing conveyer belts are arranged in parallel to form a conveying channel for the suction nozzle bag to pass through, the conveying channel is communicated with the vertical compression holes, and the resetting device can drive the compressing conveyer belts to be away from each other.

5. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 4, wherein the compressing conveyer belt comprises a first compressing conveyer belt, a second compressing conveyer belt and a third compressing conveyer belt which are arranged in sequence along the feeding direction of the conveyer mechanism, and the resetting device comprises a first resetting device, a second resetting device and a third resetting device which respectively drive the first compressing conveyer belt, the second compressing conveyer belt and the third compressing conveyer belt.

6. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 5, wherein the resetting device is a pneumatic cylinder, the pneumatic cylinder is horizontally arranged on the compacting frame, and a piston rod of the pneumatic cylinder is connected with the compacting conveyer belt.

7. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 5, wherein the return means is a spring, one end of which abuts against the pressing frame and the other end abuts against the pressing conveyor belt.

8. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 1, wherein the processing mechanism comprises a processing box, a stirring barrel, a stirring device, an air extractor and an injection device, the stirring barrel is arranged in the processing box, the stirring device is arranged in the stirring barrel, the air extractor is arranged on the processing box, the air extraction end of the air extractor extends into the stirring barrel, the lower end of the stirring barrel is provided with a discharge hole, the discharge hole is connected with the feed end of the injection device, and the injection device is provided with an injection nozzle arranged above the conveying mechanism.

9. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 8, wherein the powder sieving mechanism is further disposed in the discharge port, the powder sieving mechanism comprises a plurality of powder sieving plates and a powder sieving plate driving device, the powder sieving plates are disposed in parallel and vertically, the powder sieving plates are provided with a plurality of powder sieving holes, the powder sieving holes extend transversely, and the powder sieving plate driving device is disposed on the side wall of the discharge port and drives the powder sieving plates to move horizontally.

10. The mechanical processing equipment for the absorbable jelly drink as claimed in claim 8, wherein the stirring device comprises a stirring shaft, and stirring blades extending along the radial direction of the stirring shaft are uniformly arranged on the outer circumferential surface of the stirring shaft.

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