Gelatin extrusion molding machine

Abstract

The utility model relates to the technical field of forming machine provides a gelatin extrusion forming machine, including the forming machine body, the inside right side of forming machine body is provided with the die plate, still includes: first gasket, set up in the outer surface of die plate, first gasket fixedly embeds in the inside right side of forming machine body, the utility model discloses, when using, through the setting of the bolt column and fixed plate structure, not only has simplified the replacement process of die plate, makes the operating personnel can conveniently carry out the quick replacement of die plate, has reduced the complicated dismounting and installation process in traditional method to improve work efficiency, the outer surface of die plate and the inner surface of first gasket are closely combined simultaneously, and second gasket is closely combined the right side of die plate, has guaranteed the sealing property in the inside of forming machine body, has reduced the possibility of leakage, has improved the precision and quality of product in the forming process.

Description

Technical Field

[0001] This utility model relates to the field of molding machine technology, and in particular to a gelatin extrusion molding machine. Background Technology

[0002] A gelatin extrusion molding machine is a specialized piece of equipment for processing gelatin. It is mainly used in the food, pharmaceutical, and cosmetic industries. It processes gelatin solutions or gelatin mixtures into the desired shapes through extrusion and molding.

[0003] Existing gelatin extrusion molding machines typically push gelatin through a mold plate, extruding and shaping it into a specific form. However, current equipment has a significant drawback in actual operation: the mold plate replacement process is relatively cumbersome and time-consuming. Since the mold plate is usually fixed inside the machine, operators need to perform a series of operations to disassemble and replace it, including removing fixing screws, adjusting supports, and disassembling parts of the mechanical structure. This process consumes a lot of time and manpower. Therefore, this traditional mold plate replacement method is even less convenient and efficient when frequent mold plate changes are needed to produce gelatin products of different shapes. Utility Model Content

[0004] The purpose of this invention is to solve the problem that the replacement process of mold plates in the prior art is relatively cumbersome and time-consuming. Since the mold plates are usually fixed inside the machine, the staff needs to perform a series of operations to disassemble and replace them.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a gelatin extrusion molding machine, comprising a molding machine body, wherein a mold plate is provided on the right side inside the molding machine body, and further comprising:

[0006] The first sealing gasket is disposed on the outer surface of the mold plate. The first sealing gasket is fixedly embedded in the inner right side of the molding machine body. Positioning grooves are provided on both sides of the inner side of the molding machine body.

[0007] Two positioning posts are fixedly installed on the outer surface of the mold plate, and both positioning posts are matched with the positioning groove. Two pin posts are slidably connected to the inner sides of the molding machine body.

[0008] Each of the four pins has a return spring fixedly installed on one side opposite to the other. Both sides of the two positioning pins have pin slots. The other ends of the four return springs are fixedly installed on the right side inside the molding machine body.

[0009] In one preferred embodiment, the four pins are divided into two groups of two, and the pins in both groups are matched with the pin slots. Hinges are fixedly installed on both sides of the molding machine body.

[0010] The technical effect of adopting the above-mentioned further solution is that it allows the pin to be embedded into the pin groove for initial positioning of the mold plate.

[0011] In a preferred embodiment, each of the two hinges has a connecting post movably embedded inside, and a fixing plate is fixedly installed on the opposite side of each of the two connecting posts.

[0012] The technical effect of adopting the above-mentioned further solution is that the connecting column can be flipped through the hinge.

[0013] In a preferred embodiment, a second sealing gasket is provided on the left side of both fixing plates, and bolts are threaded to both sides of the interior of both fixing plates.

[0014] The technical effect of adopting the above-mentioned further solution is that the fixed plate can be rotated by the connecting column.

[0015] In a preferred embodiment, the left sides of both second sealing gaskets are movably connected to the right side of the mold plate, and two threaded grooves are opened on both sides of the interior of the molding machine body, and the four bolts are matched with the threaded grooves.

[0016] The technical effect of adopting the above-mentioned further solution is that the bolt can be embedded into the inside of the threaded groove to fix the mold plate inside the molding machine body.

[0017] In a preferred embodiment, the bottom of the molding machine body is provided with a base, and electric telescopic rods are provided on both sides of the top of the base. A connecting plate is fixedly installed on the left side of the two electric telescopic rods.

[0018] The technical effect of adopting the above-mentioned further solution is that the connecting plate can be moved to the right by pulling the electric telescopic rod.

[0019] In a preferred embodiment, a push rod is fixedly installed on the right side of the connecting plate. The push rod is movably embedded in the left side of the molding machine body. A sealing ring is movably sleeved on the outer surface of the push rod, and the sealing ring is located on the left side of the molding machine body.

[0020] The technical effect of adopting the above-mentioned further solution is that it allows the push rod to slide inside the sealing ring.

[0021] In a preferred embodiment, a push plate is provided on the right side of the push rod, the push plate is slidably connected inside the molding machine body, and a feed pipe is provided on the top of the molding machine body.

[0022] The technical effect of adopting the above-mentioned further solution is that the pusher can push the push plate to slide inside the molding machine body.

[0023] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0024] 1. In use, the design of the pin column and fixing plate not only simplifies the mold plate replacement process, allowing operators to easily and quickly replace the mold plate, but also reduces the complex disassembly and installation process in traditional methods, thereby improving work efficiency. At the same time, the outer surface of the mold plate is tightly fitted with the inner surface of the first sealing gasket, while the second sealing gasket is tightly fitted with the right side of the mold plate, ensuring the sealing of the molding machine body, reducing the possibility of leakage, and improving the precision and quality of the product during the molding process. This solves the problem that the mold plate replacement process in the prior art is relatively cumbersome and time-consuming, as the mold plate is usually fixed inside the machine, requiring operators to perform a series of operations to disassemble and replace it.

[0025] 2. In use, this utility model, through the setting of the push plate and electric telescopic rod structure, not only realizes the automated gelatin pushing process, but also reduces manual operation by electric control, improves the convenience and accuracy of operation, thereby improving production efficiency. At the same time, the design of the sealing ring effectively prevents gelatin leakage during the pushing process, maintains the internal sealing of the equipment, further reduces gelatin waste and pollution problems, and also reduces the burden of cleaning and maintenance. Attached Figure Description

[0026] Figure 1 A rear-view three-dimensional structural diagram of a gelatin extrusion molding machine provided by this utility model;

[0027] Figure 2 A cross-sectional perspective view of the forming machine body in a gelatin extrusion molding machine provided by this utility model. Figure 1 ;

[0028] Figure 3 A partial three-dimensional structural diagram of a gelatin extrusion molding machine provided by this utility model. Figure 1 ;

[0029] Figure 4 A cross-sectional perspective view of the forming machine body in a gelatin extrusion molding machine provided by this utility model. Figure 2 ;

[0030] Figure 5 A partial three-dimensional structural diagram of a gelatin extrusion molding machine provided by this utility model. Figure 2 ;

[0031] Figure 6A cross-sectional perspective view of the forming machine body in a gelatin extrusion molding machine provided by this utility model. Figure 3 .

[0032] Legend:

[0033] 1. Molding machine body; 101. Mold plate; 102. Positioning groove; 103. First sealing gasket; 104. Positioning post; 105. Pin post; 106. Return spring; 107. Pin groove; 108. Hinge; 109. Connecting post; 110. Fixing plate; 111. Second sealing gasket; 112. Bolt; 113. Threaded groove; 2. Base; 201. Electric telescopic rod; 202. Connecting plate; 203. Push rod; 204. Sealing ring; 205. Push plate; 206. Feed pipe. Detailed Implementation

[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0035] Example 1, please refer to Figure 1-6This utility model provides a technical solution: a gelatin extrusion molding machine, including a molding machine body 1, a mold plate 101 is provided on the right side of the interior of the molding machine body 1, and further including: a first sealing gasket 103, which is disposed on the outer surface of the mold plate 101 and is fixedly embedded in the right side of the interior of the molding machine body 1; positioning grooves 102 are provided on both sides of the interior of the molding machine body 1; two positioning posts 104 are fixedly installed on the outer surface of the mold plate 101 and are matched with the positioning grooves 102; two pin posts 105 are slidably connected on both sides of the interior of the molding machine body 1; a return spring 106 is fixedly installed on the opposite side of each of the four pin posts 105; pin grooves 107 are provided on both sides of the interior of the two positioning posts 104; and the four return springs 106 are fixedly installed on opposite sides of each of the four pin posts 105. The other end of the spring 106 is fixedly installed inside the right side of the molding machine body 1. The four pins 105 are divided into two groups of two, and the two groups of pins 105 are matched with the pin slots 107. The two sides of the molding machine body 1 are fixedly installed with hinges 108. The two hinges 108 are movably embedded with connecting posts 109. The opposite side of the two connecting posts 109 is fixedly installed with a fixing plate 110. The left side of the two fixing plates 110 is provided with a second sealing gasket 111. The two sides of the inside of the two fixing plates 110 are threaded with bolts 112. The left side of the two second sealing gaskets 111 is movably connected to the right side of the mold plate 101. The two sides of the inside of the molding machine body 1 are provided with two threaded grooves 113, and the four bolts 112 are matched with the threaded grooves 113.

[0036] In this embodiment, the operator can first pull the pin 105 outward to allow it to slide inside the molding machine body 1, and compress the return spring 106 to retract it. Then, the operator can pick up the mold plate 101 and insert it into the right side of the molding machine body 1, ensuring that the outer surface of the mold plate 101 fits against the inner surface of the first sealing gasket 103, while simultaneously allowing the positioning pin 104 to be inserted into the positioning groove 102. The operator can then release the pin 105, causing the return spring 106 to reset. Simultaneously, the return spring 106 pushes the pin 105 inward to allow it to be inserted into the pin groove 107, thus initially positioning the mold plate 101. Then, the operator can push the connecting pin 109, allowing it to flip via the hinge 108, and simultaneously causing the fixing plate 110 to flip synchronously via the connecting pin 109. After the fixed plate 110 is flipped to a certain extent, the second sealing gasket 111 will fit against the right side of the mold plate 101. By rotating the bolt 112, it is embedded into the inside of the threaded groove 113, thereby fixing the fixed plate 110 to the right side of the molding machine body 1, thus fixing the mold plate 101 inside the molding machine body 1. The structure of the pin post 105 and the fixed plate 110 not only simplifies the replacement process of the mold plate 101, allowing operators to easily and quickly replace the mold plate 101, but also reduces the complex disassembly and installation process in traditional methods, thereby improving work efficiency. At the same time, the outer surface of the mold plate 101 is closely fitted with the inner surface of the first sealing gasket 103, and the second sealing gasket 111 is closely fitted with the right side of the mold plate 101, ensuring the sealing of the inside of the molding machine body 1, reducing the possibility of leakage, and improving the precision and quality of the product during the molding process.

[0037] Example 2, as Figure 1-6 As shown, a base 2 is provided at the bottom of the molding machine body 1. Electric telescopic rods 201 are provided on both sides of the top of the base 2. A connecting plate 202 is fixedly installed on the left side of the two electric telescopic rods 201. A push rod 203 is fixedly installed on the right side of the connecting plate 202. The push rod 203 is movably embedded in the left side of the inside of the molding machine body 1. A sealing ring 204 is movably sleeved on the outer surface of the push rod 203. The sealing ring 204 is located on the left side of the inside of the molding machine body 1. A push plate 205 is provided on the right side of the push rod 203. The push plate 205 is slidably connected to the inside of the molding machine body 1. A feed pipe 206 is provided at the top of the molding machine body 1.

[0038] In this embodiment, personnel can first inject gelatin into the interior of the molding machine body 1 through the feeding pipe 206, and then activate the electric telescopic rod 201 on the base 2 through its power supply system. When the rod retracts, it pulls the connecting plate 202 to the right. As the connecting plate 202 moves, it pushes the push rod 203 to move inside the sealing ring 204. At the same time, the push rod 203 pushes the push plate 205 to slide on the right side inside the molding machine body 1. The push plate 205 then pushes the gelatin through the mold plate 101 for extrusion molding. The arrangement of the push plate 205 and the electric telescopic rod 201 not only enables automated gelatin pushing, but also reduces manual operation and improves the convenience and accuracy of operation, thereby increasing production efficiency. Meanwhile, the design of the sealing ring 204 effectively prevents gelatin leakage during the pushing process, maintains the airtightness of the equipment, further reduces gelatin waste and pollution, and also reduces the burden of cleaning and maintenance.

[0039] Working principle: In use, the operator can first pull the pin 105 outward to allow it to slide inside the molding machine body 1, compressing the return spring 106 to retract it. Then, the mold plate 101 is picked up and embedded into the right side of the molding machine body 1, ensuring that the outer surface of the mold plate 101 fits against the inner surface of the first sealing gasket 103. Simultaneously, the positioning pin 104 is embedded into the positioning groove 102. Afterward, the operator can release the pin 105, causing the return spring 106 to reset. Simultaneously, the return spring 106 pushes the pin 105 inward to allow it to embed into the pin groove 107, thus initially positioning the mold plate 101. Then, the operator can push the connecting pin 109, allowing it to flip via the hinge 108. Simultaneously, the connecting pin 109 drives the fixing plate 110 to flip synchronously. When the fixing plate 110 is rotated to a certain extent, the second sealing gasket 111 will fit against the right side of the mold plate 101. By rotating the bolt 112, it can be embedded into the inside of the threaded groove 113, thereby fixing the fixing plate 110 to the right side of the molding machine body 1, thus fixing the mold plate 101 inside the molding machine body 1. The structure of the pin post 105 and the fixing plate 110 not only simplifies the replacement process of the mold plate 101, allowing operators to easily and quickly replace the mold plate 101, but also reduces the complicated disassembly and installation process in traditional methods, thereby improving work efficiency. At the same time, the outer surface of the mold plate 101 is closely fitted with the inner surface of the first sealing gasket 103, and the second sealing gasket 111 is closely fitted with the right side of the mold plate 101, ensuring the sealing of the inside of the molding machine body 1, reducing the possibility of leakage, and improving the precision and quality of the product during the molding process.

[0040] In operation, personnel can first inject gelatin into the interior of the molding machine body 1 through the feeding pipe 206. Then, through the power supply system of the electric telescopic rod 201 on the base 2, the electric telescopic rod 201 is activated. When it retracts, it pulls the connecting plate 202 to the right. When the connecting plate 202 moves, it pushes the push rod 203 to move inside the sealing ring 204. At the same time, the push rod 203 pushes the push plate 205 to slide inside the molding machine body 1 on the right side. Then, the push plate 205 pushes the gelatin through the mold plate 101 for extrusion molding. Through the structure of the push plate 205 and the electric telescopic rod 201, not only can the gelatin pushing process be automated, but electric control also reduces manual operation, improves the convenience and accuracy of operation, and thus improves production efficiency. At the same time, the design of the sealing ring 204 effectively prevents the gelatin from leaking during the pushing process, maintains the sealing of the equipment, further reduces gelatin waste and pollution problems, and also reduces the burden of cleaning and maintenance.

[0041] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the present utility model.

Claims

1. A gelatin extrusion molding machine, comprising a molding machine body (1), wherein a mold plate (101) is provided on the right side inside the molding machine body (1), characterized in that, Also includes: The first sealing gasket (103) is disposed on the outer surface of the mold plate (101). The first sealing gasket (103) is fixedly embedded in the inner right side of the molding machine body (1). Positioning grooves (102) are provided on both sides of the inner side of the molding machine body (1). Two positioning posts (104) are fixedly installed on the outer surface of the mold plate (101). The two positioning posts (104) are matched with the positioning groove (102). Two pin posts (105) are slidably connected to both sides of the inside of the molding machine body (1). Each of the four pins (105) has a return spring (106) fixedly installed on the opposite side. Both sides of the two positioning pins (104) have pin slots (107). The other ends of the four return springs (106) are fixedly installed on the right side of the molding machine body (1).

2. The gelatin extrusion molding machine according to claim 1, characterized in that: The four pins (105) are divided into two groups of two, and the pins (105) of both groups are matched with the pin slots (107). Hinges (108) are fixedly installed on both sides of the molding machine body (1).

3. A gelatin extrusion molding machine according to claim 2, characterized in that: Both hinges (108) have connecting posts (109) movably embedded inside, and fixing plates (110) are fixedly installed on opposite sides of the two connecting posts (109).

4. A gelatin extrusion molding machine according to claim 3, characterized in that: A second sealing gasket (111) is provided on the left side of each of the two fixing plates (110), and bolts (112) are threadedly connected to both sides of the interior of each of the two fixing plates (110).

5. A gelatin extrusion molding machine according to claim 4, characterized in that: The left sides of the two second sealing gaskets (111) are movably connected to the right side of the mold plate (101). The two sides of the inside of the molding machine body (1) have two threaded grooves (113), and the four bolts (112) are matched with the threaded grooves (113).

6. A gelatin extrusion molding machine according to claim 5, characterized in that: The bottom of the molding machine body (1) is provided with a base (2), and electric telescopic rods (201) are provided on both sides of the top of the base (2). A connecting plate (202) is fixedly installed on the left side of the two electric telescopic rods (201).

7. A gelatin extrusion molding machine according to claim 6, characterized in that: A push rod (203) is fixedly installed on the right side of the connecting plate (202). The push rod (203) is movably embedded in the left side of the molding machine body (1). A sealing ring (204) is movably sleeved on the outer surface of the push rod (203). The sealing ring (204) is located on the left side of the molding machine body (1).

8. A gelatin extrusion molding machine according to claim 7, characterized in that: A push plate (205) is provided on the right side of the push rod (203), and the push plate (205) is slidably connected to the inside of the molding machine body (1). A feed pipe (206) is provided on the top of the molding machine body (1).

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