CN108578255B

CN108578255B - Production equipment of canthus subsides

Info

Publication number: CN108578255B
Application number: CN201810398865.6A
Authority: CN
Inventors: 王明娣; 陈添禹; 刘卫兵; 刘凯; 倪超; 刘金聪; 张文杰; 潘煜
Original assignee: Suzhou University
Current assignee: Suzhou University
Priority date: 2018-04-28
Filing date: 2018-04-28
Publication date: 2023-07-04
Anticipated expiration: 2038-04-28
Also published as: CN108578255A

Abstract

The invention discloses a production device of a corner patch, which comprises a forming device, a drying device and a transfer device arranged between the forming device and the drying device, wherein the forming device comprises an input component for inputting protein liquid, an output needle connected with the input component and an adjusting component positioned below the output needle and used for setting a mould, and the drying device comprises a drying box body, a heating component arranged in the drying box body and a circulating component for driving air flow to circulate in the drying box body. The production efficiency of the canthus paste is improved.

Description

Production equipment of canthus subsides

Technical Field

The invention relates to a production device of an eye corner patch.

Background

The canthus patch is a protein film made of protein liquid (a protein mixed liquid) and is used for applying the canthus and maintaining the skin around eyes. Are currently being accepted and used more and more.

At present, a quantitative protein liquid is generally dripped on a mould when the canthus stick is produced, and the quantitative protein liquid is unfolded into a film on the mould and then dried to form a product.

The existing production equipment is generally divided into two parts of canthus paste forming equipment and drying equipment for drying formed canthus, the formed canthus paste is fed into the drying equipment for drying by manpower in the middle of the two equipment, and the efficiency is low.

Disclosure of Invention

The invention aims to provide production equipment for canthus paste with higher production efficiency.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a production facility that canthus subsides, includes forming device and drying device, and set up forming device with transfer device between the drying device, forming device is including the input subassembly that is used for the input protein liquid, connect the output needle of input subassembly and be located the regulation subassembly that is used for setting up the mould below the output needle, the regulation subassembly drive the mould removes in the horizontal direction, drying device includes the stoving box, sets up heating element and the drive air current in the stoving box are in the circulation subassembly of stoving box internal circulation, the stoving box has feed inlet and discharge gate, feed inlet and discharge gate set up respectively the both sides that stoving box upper portion is relative, feed inlet and discharge gate all are provided with cylinder control switching's dodge gate.

Preferably, the adjusting assembly comprises a base fixedly arranged and a bearing platform arranged on the base and capable of moving in the horizontal direction relative to the base.

Further preferably, the mold is horizontally arranged on the bearing platform, and the bearing platform is further provided with an air cylinder for pushing out the mold.

Preferably, the forming device further comprises a closed forming chamber and a vacuum pump connected with the forming chamber and used for extracting gas in the forming chamber, and the output needle, the adjusting assembly and the die are arranged in the forming chamber.

Still preferably, a finishing tube for temporarily storing the protein liquid is further disposed between the input assembly and the output needles, the finishing tube is connected with the input assembly through a conveying tube, the finishing tube is horizontally disposed, the output needles are plural, and the plural output needles are disposed on the finishing tube in parallel.

Preferably, the forming device further comprises a blowing pipe which is arranged above the liquid outlet end of the output needle and blows downwards, and the blowing pipe blows the protein liquid drops into the mould after the output needle drops the protein liquid drops.

Preferably, the output needle is obliquely arranged at an inclination angle of 40-50 degrees with the horizontal plane.

Preferably, three baffles with a plurality of through holes on the surfaces are vertically arranged in the drying box body, and the three baffles divide the drying box body into a mixing area, a first drying area, a second drying area and a recycling area in sequence.

Preferably, the circulation subassembly sets up the lower part of stoving box, the circulation subassembly has and is located the air intake of box one side with be located the air outlet of box opposite side, the heating subassembly includes first hot plate and second hot plate, first hot plate is from reaching the air outlet upwards extension setting, the second hot plate is from the top downwardly extending setting of box, first hot plate the second hot plate with the inner wall of stoving box encloses into the heating channel of falling U type.

Still preferably, the drying device further includes a die provided with a corner piece, a first conveying device for conveying the die from top to bottom in the drying box, a second conveying device for removing the die from the lower part of the first conveying device and conveying the die horizontally, a third conveying device for removing the die from the rear part of the second conveying device and conveying the die from bottom to top, and a pushing device provided at the upper part of the third conveying device for pushing the die out of the drying box.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the invention integrates the forming device and the drying device, and the transfer device is arranged between the forming device and the drying device, so that the cornea formed by the forming device can be fed into the drying device for drying in a running water way. The production efficiency of the canthus paste is improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is a schematic view of the output needle and the insufflation tube;

FIG. 3 is a schematic top view of the output pin;

FIG. 4 is a schematic diagram of a conventional output needle drop;

FIG. 5 is a schematic illustration of an exemplary output needle drop;

FIG. 6 is a schematic view of the first conveying device;

fig. 7 is a schematic structural view of a third conveying device.

In the above figures: 1. a forming device; 11. an input assembly; 12. an output needle; 13. an adjustment assembly; 14. a forming chamber; 15. a vacuum pump; 16. an air blowing pipe; 17. a finishing tube; 18. a frame; 19. a mold; 2. a drying device; 21. drying the box body; 21a, a feed inlet; 21b, a discharge hole; 22. a heating assembly; 22a, a first heating plate; 22b, a second heating plate; 23. a circulation assembly; 24. a heating channel; 25. a baffle; 26a, mixing zone; 26b, a first drying zone; 26c, a second drying area; 26d, a recovery area; 27. a first conveying device; 27a, a first carriage; 27b, a first conveyor belt; 27c, a first support frame; 28. a second conveying device; 28a, a second carriage; 28b, a second conveyor belt; 29. a third conveying device; 29a, a third carriage; 29b, a third conveyor belt; 29c, a third support frame; 3. and a transfer device.

Description of the embodiments

The invention is further described below with reference to an embodiment shown in the drawings in which:

referring to fig. 1, an apparatus for producing a canthus paste for shaping and drying a protein liquid to produce a canthus paste includes a shaping device 1 and a drying device 2, and a transfer device 3 provided between the shaping device 1 and the drying device 2. The protein liquid in this example is a mixed liquid in which protein and other solutions are mixed.

The forming device 1 comprises an input assembly 11 for inputting protein liquid, an output needle 12 connected with the input assembly 11, an adjusting assembly 13 positioned below the output needle 12 and used for arranging a mould 19, a closed forming chamber 14 and a vacuum pump 15 connected with the forming chamber 14 and used for extracting gas in the forming chamber 14, wherein the output needle 12 and the adjusting assembly 13 are arranged in the forming chamber 14, and the adjusting assembly 13 drives the mould 19 to move in the horizontal direction.

The adjusting assembly 13 comprises a base fixedly arranged and a bearing platform which is arranged on the base and can move in the horizontal direction relative to the base. The mould 19 is arranged horizontally on a carrying platform, on which there is also arranged an air cylinder for pushing the mould out of the forming chamber 14.

In this embodiment, the mold 19 is provided with a plurality of receiving units capable of placing the corner pieces, the middle adjusting assembly 13 drives the mold 19 to move in the horizontal direction, and the positions of the mold 19 are adjusted so that the receiving units at different positions on the mold 19 are positioned right below the output needle 12 to receive the protein liquid dropped from the output needle 12.

Referring to fig. 2 and 5, a blowing pipe 16 for blowing gas vertically downward is further provided in the forming chamber 14, the output needle 12 has a liquid inlet end at an upper portion thereof and a liquid outlet end at a lower end portion thereof, and the blowing pipe 16 is provided at an upper portion of the liquid outlet end. After the output needle 12 drops out the protein droplets, the air blowing pipe 16 blows the protein droplets down into the mold 19, and spreads the protein droplets into a film shape in the mold 19 by the blown air flow.

Specifically, the output needle 12 is disposed obliquely, and the inclination angle of the output needle 12 with respect to the horizontal plane is 40 ° -50 °. The air blowing pipe 16 is vertically arranged right above the liquid outlet end of the output needle 12. The air blowing pipes 16 blow down air flow at intervals, and after the protein liquid outputted from the needle head of the output needle 12 is gathered to a predetermined size at the liquid outlet end, the air blowing pipes 16 blow down air flow, blow the protein liquid droplets onto the mold 19, and spread the protein liquid droplets into a film shape in the mold 19 by the air flow. In the prior art, the output needle 12 is usually used to directly drop the protein liquid, as shown in fig. 4, when the protein liquid drops on the mold, the protein liquid is gathered into a bulk shape, and a scraping plate is needed to scrape the protein liquid.

The production method of the canthus paste in the embodiment comprises the following steps:

1) Outputting the protein droplets through the output needle 12 such that the protein droplets hang on the output needle 12;

2) The air blowing pipe 16 blows air downwards to blow protein liquid drops onto the mould 19, so as to form a protein liquid film;

3) And drying the protein liquid film and taking down to obtain the protein film.

In this embodiment, the input assembly 11 is a peristaltic pump for quantitatively inputting protein liquid at intervals, the peristaltic pump conveys the protein liquid in the external storage container to the forming chamber 14 through a pipeline, and the peristaltic pump alternately extrudes and releases the pumped fluid through an elastic conveying hose, so that the peristaltic pump has the advantages of being rapid, continuous and stable, and the peristaltic pump has the technical effect of accurately outputting protein liquid when the amount of liquid pumped by peristaltic pump is fixed each time.

Referring to fig. 3, a finishing tube 17 for temporarily storing protein liquid is further provided between the input assembly 11 and the output needle 12, and the finishing tube 17 is connected to the input assembly 11 through a delivery tube. The arrangement pipe 17 is horizontally arranged, a plurality of output needles 12 are arranged, and a plurality of output needles 12 are arranged on the arrangement pipe 17 in parallel.

The vacuum pump 15 creates a negative pressure in the forming chamber 14 to cooperate with the peristaltic pump so that the protein liquid can flow evenly out of the output needle 12. The molding chamber 14 is provided with a sealing door for inserting or extracting the mold 19. After the mold 19 is inserted or removed, the closing door closes the molding chamber 14 again, and a stable negative pressure is generated in the molding chamber 14 by the vacuum pump 15.

Referring to fig. 1, the forming apparatus 1 further includes a frame 18, and the input assembly 11, the forming chamber 14, and the vacuum pump 15 are disposed on the frame 18. The forming chamber 14 is provided at an upper portion of the frame 18, and the input assembly 11 and the vacuum pump 15 are provided at a lower portion of the forming chamber 14. The frame 18 in this embodiment is connected to both the drying device 2 and the transfer device 3.

In this embodiment, the drying device 2 includes a drying box 21, a heating assembly 22 disposed in the drying box 21, and a circulation assembly 23 for circulating a driving air flow in the drying box 21, where the circulation assembly 23 is disposed at a lower portion of the drying box 21, the circulation assembly 23 has an air inlet located at one side of the box and an air outlet located at the other side of the box, the heating assembly 22 includes a first heating plate 22a and a second heating plate 22b, the first heating plate 22a extends upward from the air outlet, the second heating plate 22b extends downward from a top of the box, and the first heating plate 22a, the second heating plate 22b, and an inner wall of the drying box 21 enclose an inverted U-shaped heating channel 24. The air outlet of the heating channel 24 is located at the bottom of the drying box 21, and the hot air coming out of the air outlet moves upwards to make the hot air flow passing through the drying box 21 more uniform.

Three baffles 25 having a plurality of through holes on the surface are vertically provided in the drying box 21, and the three baffles 25 divide the drying box 21 into a mixing region 26a, a first drying region 26b, a second drying region 26c, and a recovery region 26d in order. The through holes on the baffle 25 are rectangular holes horizontally arranged on the baffle 25. Through the baffle 25, the air flow heated by the heating plate can be uniformly mixed in the mixing area 26a and then horizontally flows to the first drying area 26b, so that the temperature of the drying air flow is more uniform. Meanwhile, the first drying area 26b, the second drying area 26c and the recovery area 26d are separated through the baffle 25, so that the temperature in the first drying area 26b is higher than that in the second drying area 26c, the temperature in the second drying area 26c is higher than that in the recovery area 26d, the corner of the eye is firstly dried at a low temperature through the second drying area 26c and then dried at a high temperature through the first drying area 26b, and the utilization rate of heat energy is improved.

The circulation assembly 23 includes a circulation passage 23a provided at a lower portion of the drying box 21, and a fan 23b and a dehumidifying device 23c provided in the circulation passage 23 a. The dehumidifying device 23c can remove moisture in the closed drying box 21, thereby improving drying efficiency.

The drying box 21 has a feed port 211 and a discharge port 212, and the feed port 211 and the discharge port 212 are respectively provided at opposite sides of the upper portion of the drying box 21. The feed inlet 211 and the discharge outlet 212 are both provided with movable doors for controlling opening and closing of the air cylinders.

The drying apparatus 2 further includes a drying and conveying means provided in the drying box 21, including a mold 19 provided with a corner piece, a first conveying means 27 for conveying the mold 19 from top to bottom in a second drying area 26c, a second conveying means 28 for removing the mold 19 from the lower portion of the first conveying means 27 and conveying it horizontally, a third conveying means 29 for removing the mold 19 from the rear portion of the second conveying means 28 and conveying it from bottom to top in a first drying area 26b, and a horizontally provided cylinder provided in the upper portion of the third conveying means 29 for pushing the mold 19 out of the drying box 21.

Referring to fig. 6, the first conveying device 27 includes a first conveying frame 27a vertically disposed, first conveying belts 27b rotatably disposed at both sides of the first conveying frame 27a, respectively, and first supporting frames 27c disposed on the first conveying belts 27b for supporting the molds 19. The first supporting frame 27c is a pallet rotatably provided on the first conveyor belt 27 b.

The second conveyor 28 includes a horizontal second carriage 28a and a second conveyor belt 28b rotatably disposed on the second carriage 28 a.

Referring to fig. 7, the third conveying device 29 includes a third conveying frame 29a vertically disposed, third conveying belts 29b rotatably disposed on both sides of the third conveying frame 29a, respectively, and third supporting frames 29c disposed on the third conveying belts 29b for supporting the molds 19. The third supporting frame 29c is a pallet rotatably provided on the third conveyor belt 29 b.

The first conveyor 27 is provided at the front of the second conveyor 28, the third conveyor 29 is provided at the rear of the second conveyor 28, and the first conveyor 27 and the third conveyor 29 are connected to the sides of the second conveyor 28, respectively.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The utility model provides a production facility of canthus subsides which characterized in that: comprises a forming device, a drying device and a transfer device arranged between the forming device and the drying device, wherein the forming device comprises an input component for inputting protein liquid, an output needle connected with the input component and an adjusting component positioned below the output needle and used for setting a mould, the adjusting component drives the mould to move in the horizontal direction, the drying device comprises a drying box body, a heating component arranged in the drying box body and a circulating component for driving air flow to circulate in the drying box body, the drying box body is provided with a feed inlet and a discharge outlet, the feed inlet and the discharge outlet are respectively arranged on two opposite sides of the upper part of the drying box body, the feed inlet and the discharge outlet are both provided with movable doors for controlling opening and closing by air cylinders,

wherein the adjusting component comprises a base fixedly arranged, a bearing platform arranged on the base and capable of moving in the horizontal direction relative to the base, the die is horizontally arranged on the bearing platform, a cylinder for pushing out the die is also arranged on the bearing platform,

the forming device also comprises a sealed forming chamber and a vacuum pump connected with the forming chamber and used for extracting gas in the forming chamber, the output needles, the adjusting component and the die are arranged in the forming chamber, a tidying pipe used for temporarily storing protein liquid is further arranged between the input component and the output needles, the tidying pipe is connected with the input component through a conveying pipe, the tidying pipe is horizontally arranged, a plurality of output needles are arranged on the tidying pipe in parallel,

the forming device further comprises a blowing pipe which is arranged above the liquid outlet end of the output needle and blows downwards, and the blowing pipe blows the protein liquid drops into the die after the protein liquid drops are dropped out by the output needle.

2. The apparatus for producing an eye-corner patch according to claim 1, wherein: the output needle and the horizontal surface are obliquely arranged at an inclined angle of 40-50 degrees.

3. The apparatus for producing an eye-corner patch according to claim 1, wherein: three baffles with a plurality of through holes are vertically arranged in the drying box body, and the three baffles divide the drying box body into a mixing area, a first drying area, a second drying area and a recycling area in sequence.

4. The apparatus for producing an eye-corner patch according to claim 1, wherein: the circulation subassembly sets up the lower part of stoving box, the circulation subassembly has and is located the air intake of box one side with be located the air outlet of box opposite side, heating element includes first hot plate and second hot plate, first hot plate is from reaching the air outlet upward extension setting, the second hot plate is from the top downwardly extending setting of box, first hot plate the second hot plate with the inner wall of stoving box encloses into the heating channel of falling U type.

5. The apparatus for producing an eye-corner patch according to claim 4, wherein: the drying device further comprises a die provided with a corner piece, a first conveying device for conveying the die in the drying box body from top to bottom, a second conveying device for conveying the die from the lower part of the first conveying device to the horizontal direction, a third conveying device for taking the die from the rear part of the second conveying device and conveying the die from bottom to top, and a pushing device arranged on the upper part of the third conveying device and used for pushing the die out of the drying box body.