CN107825656B

CN107825656B - Epoxy resin gel forming machine

Info

Publication number: CN107825656B
Application number: CN201711254202.9A
Authority: CN
Inventors: 胡天凤生; 刘东明; 胡天麟
Original assignee: Huaao Electricity Technology Co ltd
Current assignee: Huaao Electricity Technology Co ltd
Priority date: 2017-12-03
Filing date: 2017-12-03
Publication date: 2024-01-30
Anticipated expiration: 2037-12-03
Also published as: CN107825656A

Abstract

The invention relates to the technical field of molding equipment, in particular to an epoxy resin gel molding machine. The epoxy resin gel forming machine comprises a frame, wherein a forming die is arranged on the frame, epoxy resin to be formed is injected into the forming die, and the epoxy resin gel forming machine further comprises a swinging mechanism, wherein the swinging mechanism is connected with the frame and can drive the frame to swing, and meanwhile the forming die can swing along with the frame. The invention has the advantages that: through setting up swing mechanism to make the moulded die follow the frame and swing when driving the frame swing through swing mechanism, in order to make the epoxy in the moulded die distribute evenly, its design is more reasonable, has improved the fashioned qualification rate of product intangibly.

Description

Epoxy resin gel forming machine

Technical Field

The invention relates to the technical field of molding equipment, in particular to an epoxy resin gel molding machine.

Background

The epoxy resin forming machine is special equipment for producing insulating products such as insulators, bushings, transformers and the like.

When the molding machine is used for molding, epoxy resin is injected into a molding die of the molding machine through a pipeline, after a product is molded, the molding die is disassembled from 6 directions (up and down, left and right, front and back) of the molding die, and the product is taken down.

When the existing molding machine molds the epoxy resin, the epoxy resin is unevenly distributed after entering the rear mold cavity, so that bubbles, cracks and the like can appear on the part of the molded product, and the molding qualification rate of the product is low.

Disclosure of Invention

Accordingly, it is necessary to provide an epoxy resin gel molding machine which is reasonable in design, uniform and high in molding qualification rate, aiming at the technical problems.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the epoxy resin gel forming machine comprises a frame, wherein a forming die is arranged on the frame, and epoxy resin to be formed is injected into the forming die.

In this application, through setting up swing mechanism to make the moulded die follow the frame swing when driving the frame swing through swing mechanism, in order to make the epoxy in the moulded die distribute evenly, its design is more reasonable, has improved the fashioned qualification rate of product in the intangible.

In one embodiment, the swing mechanism includes a back-and-forth swing mechanism and/or a left-and-right swing mechanism, where the back-and-forth swing mechanism drives the frame to swing back-and-forth and the forming die to swing back-and-forth along with the frame, and the left-and-right swing mechanism drives the frame to swing left-and-right and the forming die to swing left-and-right along with the frame.

By arranging the back-and-forth swinging mechanism and the left-and-right swinging mechanism, the forming die can swing in different directions, and further, the epoxy resin in the forming die is uniformly distributed.

In one embodiment, the back-and-forth swinging mechanism comprises a first driving member assembly, a swinging member and a first supporting point, wherein the swinging member is connected with the frame, and the first driving member drives the swinging member to swing back and forth around the first supporting point and simultaneously enables the frame to swing back and forth along with the swinging member.

In one embodiment, the swinging piece comprises a swinging plate and a connecting frame, wherein the swinging plate is arranged on one side of the frame, the connecting frame is arranged on the swinging plate, the connecting frame is connected with the frame, one end of the swinging plate is abutted against a fulcrum, and the other end of the swinging plate is connected with the first driving assembly.

In one embodiment, the horizontal swinging mechanism comprises a second driving piece assembly, a connecting block and a second supporting point, wherein the connecting block is connected with the frame, and the second driving piece assembly drives the connecting block to swing around the second supporting point and enable the frame to swing left and right along with the connecting block.

In one embodiment, a swinging plate is arranged on one side of the upper part of the frame, the second driving piece assembly is arranged on the swinging plate, one end of the connecting block is connected with the frame, and the other end of the connecting block is connected with the second driving piece assembly.

In one embodiment, a connecting shaft is arranged between the connecting block and the connecting frame, a bayonet is arranged on the connecting frame, the connecting shaft is clamped in the bayonet, a detachable piece is arranged on the connecting shaft, one end of the detachable piece is sleeved on the connecting shaft, and the other end of the detachable piece is detachably connected with the connecting frame.

Through setting up the connecting axle, the connecting axle with the connecting block with connect between the frame to realize when the frame horizontal hunting, the linkage realizes the pendulum back and forth.

In one embodiment, the frame is further provided with a fixing mechanism, and the fixing mechanism fixes the forming die in the frame, so that the forming die follows the frame to swing when the swinging mechanism drives the frame to swing.

In one embodiment, the fixing mechanism comprises left and right fixing pieces, front and rear fixing pieces, upper and lower fixing pieces, the left and right fixing pieces, the front and rear fixing pieces, the upper and lower fixing pieces form a positioning cavity in the frame, and the forming die is fixed in the positioning cavity.

In one embodiment, the left and right fixing members comprise a left locating plate and a right locating plate, the front and rear fixing members comprise a front locating plate and a rear locating plate, the upper and lower fixing members comprise an upper locating plate and a lower locating plate, and locating holes are formed in one or more of the left locating plate, the right locating plate, the front locating plate, the rear locating plate, the upper locating plate and the lower locating plate.

Compared with the prior art, the epoxy resin gel forming machine has the advantages that:

through setting up swing mechanism to make the moulded die follow the frame and swing when driving the frame swing through swing mechanism, in order to make the epoxy in the moulded die distribute evenly, its design is more reasonable, has improved the fashioned qualification rate of product intangibly.

Drawings

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

Fig. 2 is a front view structure view provided by the present invention.

Fig. 3 is a schematic structural diagram of a swing structure provided by the present invention.

Fig. 4 is an enlarged view of fig. 2D provided by the present invention.

Fig. 5 is a schematic structural diagram of a fixing structure provided by the present invention.

Fig. 6 is a schematic structural view of a front and rear fixing member according to the present invention.

Fig. 7 is a schematic structural diagram of an upper and lower fixing member provided by the invention.

In the drawing, a frame 10, a first moving seat 10a, a second moving seat 10b, a first side 101 of the frame, a second side 102 of the frame, a right rail 103, a front rail 104, a rear rail 105, a mounting plate 110, a first mount 111, a spindle seat 112, a through hole 113, an air cylinder 114, a front frame 120, a front slider 121, a rear frame 130, a rear slider 131, a swinging mechanism 30, a front and rear swinging mechanism 40, a first driving element assembly 410, a first output shaft 411, a first driving element 412, a first mount 413, a swinging element 420, a swinging plate 421, a connecting frame 422, a bayonet 422a, a first fulcrum 430, a first spindle 431, a left and right swinging mechanism 50, a second driving element assembly 510, a connecting shaft 511, a detachable piece 511a, a pin a1, a second driving element 512, a second mount 513, a connecting block 520, a second fulcrum 530, a fixing mechanism 60, left and right fixing element 610, a left and right fixing plate 611, left and right motor 611 and 612, a and right motor 612b, a and right slider assembly 621, a front and rear fixing element 621, a motor fixing 621, a front and rear motor fixing element 622a upper and lower fixing element 640 a, upper and lower fixing element 632, a positioning hole upper and lower positioning element 622a.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1 to 7, the present embodiment provides an epoxy resin gel forming machine, which comprises a frame 10, a forming die is arranged on the frame, and epoxy resin to be formed is injected into the forming die. Further, a swing mechanism 30 is also included. The swing mechanism 30 is connected to the frame 10. The swing mechanism 30 drives the frame 10 to swing and simultaneously enables the forming die to swing along with the frame 10. The molding die follows the frame 10 to swing, so that the epoxy resin in the molding die is distributed more uniformly in the molding die.

Preferably, the swing mechanism 30 includes a back-and-forth swing mechanism 40 and/or a left-and-right swing mechanism 50. The back-and-forth swinging mechanism 40 drives the frame 10 to swing back and forth and causes the forming die to swing back and forth along with the frame 10. The left-right swinging mechanism 50 drives the frame 10 to swing left and right and the forming die swings left and right along with the frame 10. The frame may swing back and forth and left and right in synchronization with each other or may swing alone.

As shown in the figure, in this embodiment, a large number of azimuth terms such as left-right swing and back-and-forth swing are used. Here, the definition is made such that the view angle of the side of the frame 10 facing the human body is a front view angle, from which the view of the frame is projected, and the left side of the front view is defined as left while being the first side 101 of the frame 10, and the right side of the front view is defined as right while being the second side 102 of the frame 10, with reference to the front view; the front end of the front view is positioned front, the rear end of the front view is positioned rear, the upper end of the front view is defined as upper, and the lower end of the front view is defined as lower. In this embodiment, the frame 10 swings left to right or back to and from right to left; back and forth, i.e. back and forth, of the frame 10 from front to back or back to front.

The frame 10 is driven to swing back and forth in different directions, so that the forming die follows the frame 10 to swing back and forth in different directions, the epoxy resin in the forming die is uniformly distributed, and the design is more reasonable.

Preferably, as shown, the back and forth swing mechanism 40 includes a first driver assembly 410, a swing member 420, and a first fulcrum 430. The swinging member 420 is fixedly connected with the frame 10. The first driving assembly 410 drives the swing member 420 to swing back and forth about the first fulcrum 430 to achieve the back and forth swing of the frame 10.

Specifically, mounting plates 110 are provided on the first side 101 and the second side 102 of the chassis 10, respectively, and are provided along the front-rear direction of the chassis 10. The frame 10 is disposed above the two mounting plates 10, and the frame 10 is suspended above the mounting plates 10 by the support of the second fulcrum 530.

Preferably, the swinging member 420 includes a swinging plate 421 provided at a first side of the frame 10 and a connection frame 422. One end of the connection frame 422 is fixedly connected with the frame 10, and the other end is fixed on the swing plate 421. One end of the swing plate 421 abuts against the first fulcrum 430, and the other end is connected to the first driving assembly 410.

Specifically, a first mount 111 is provided on the mounting plate 110, and the first driver assembly 410 is mounted on the first mount 111. A swing arm 421a is fixed to the swing plate 421, and a first output shaft 411 of the first driver assembly 410 is connected to the swing arm 421 a. The first driver assembly 410 drives the swing arm 421a to reciprocate to swing the swing plate 421 back and forth about the first fulcrum 430.

Further, the first pivot 430 includes a first rotating shaft 431, two symmetrically disposed rotating shaft seats 112 are disposed on the mounting plate 110, and two ends of the first rotating shaft 431 are rotatably mounted on the two rotating shaft seats 112, respectively.

Next, in order to facilitate the back-and-forth swing, a through hole 113 is formed in the mounting plate 110. The swing plate 421 described above is located above the through hole 113. The two rotating shaft bases 112 are respectively disposed at two sides of the through hole 113, and the swinging plate 421 swings back and forth in the through hole 113.

In the present embodiment, the swing mechanism 50 includes a second driver assembly 510, a connection block 520, and a second fulcrum 530. The connecting block 520 is fixedly connected with the frame 10. The second driver assembly 510 drives the connection block 520 to swing left and right about the second fulcrum 530 while causing the frame 10 to follow the connection block 520 to swing left and right.

Specifically, the second driver assembly 510 is vertically mounted on the swing plate 421.

Preferably, two second driver assemblies 510 are mounted on the swing plate 421. A connection block 520 is provided between the two second driver assemblies 510. The connecting block 520 is fixedly connected with the frame 10.

The second fulcrum 530 includes the cylinder 114 disposed on the mounting plate 110. The cylinder shaft of the cylinder 114 is connected to the bottom of the frame 10. The fulcrum action of the second fulcrum 530 is achieved by telescopic movement of the cylinder shaft.

Here, the second driver assembly 510 is located on a different side of the frame 10 than the corresponding second fulcrum 530. For example, when the second driver assembly 510 is positioned on the first side 101 of the frame 10, the second fulcrum 530 is positioned on the mounting plate 110 on the second side 102 of the frame 10.

As shown, the connection block 520 has connection points at both ends, and the two connection points are connected to the two second driver assemblies 510, respectively. The connection block 520 is fixedly connected with the frame. A connecting shaft 511 is also provided between the two second driver assemblies 510. The connection shaft 511 connects the connection frame 422 and the connection block 520.

Specifically, the connection frame 422 is provided with a bayonet 422a, and the connection shaft 511 is clamped in the bayonet 422 a. Further, a detachable piece 511a is provided on the connection shaft 511. One end of the detachable piece 511a is sleeved on the connecting shaft 511, and the other end is detachably connected with the connecting frame 422. More specifically, the two ends of the detachable piece 511a are respectively provided with a mounting hole, one of which is sleeved on the connecting shaft 511, and the other mounting hole is internally provided with a pin a1 in a penetrating way, and the detachable piece 511a is connected with the connecting frame 422 through the pin a 1.

In the present embodiment, the connection frame 422 and the connection block 520 are connected by the detachable piece 511a. When the frame 10 swings back and forth only, the first driving component 410 drives the swinging plate 421 to rotate around the first pivot 430, and the connecting frame 422 on the swinging plate 421 is connected with the frame 10 through the detachable piece 511a, so that the frame 10 swings back and forth by the first driving component 410. When the frame 10 swings only left and right, the pin a1 is pulled out to disengage the connecting shaft 511 from the buckle 422a, thereby separating the connecting frame 422 from the connecting block 520. At this time, the second driving assembly 510 drives the connection block 520 to move up and down so that the frame 10 moves up and down around the second fulcrum 530 to thereby realize the left and right reciprocating swing of the frame. When the horizontal and vertical swinging is performed simultaneously, the connection between the connecting frame 422 and the connecting block 520 is disconnected by the detachable piece 511a, and the first driving component 410 drives the swinging plate 421 to rotate around the first pivot 430, and the second driving component 510 drives the connecting block 520 to move up and down, so that the frame 10 moves up and down around the second pivot 530, thereby realizing the horizontal reciprocating swinging and the vertical reciprocating swinging of the frame.

In the present embodiment, the first driver assembly 410 includes a first driver 412, and a first mounting portion 413 to which the first driver 412 is mounted. The first driving member 412 has a first output shaft 411, and the first mounting portion 413 is fixedly connected to the mounting seat 411 through a pin b1. The second driver assembly 510 includes a second driver 512 and a second mount 513 to which the second driver 512 is mounted. The second mount 513 is fixed to the swing plate 421.

Preferably, the first driving member 412 and the second driving member 512 are either a cylinder or an oil cylinder.

In this embodiment, the mold is rectangular. It will be appreciated that the forming die has six opposing faces and is a die with cavities in the front and back, side to side, top and bottom, and in the vicinity of the die with six die plates.

In this embodiment, as shown in the figure, a fixing mechanism 60 is further provided on the frame 10. The fixing mechanism 60 is used for fixing the forming die in the frame 10, so that the forming die can swing along with the frame 10 when the swinging mechanism 30 drives the frame 10 to swing.

Further, the fixing mechanism 60 includes left and right fixing members 610, front and rear fixing members 620, and upper and lower fixing members 630. The left and right fixing members 610, the front and rear fixing members 620 and the upper and lower fixing members 630 define a positioning chamber 640 within the frame 10. The forming die is secured in the positioning cavity 640.

As can be understood from the above, the left and right fixing members 610 are used to relatively fix the left and right sides of the molding die; the front and rear fixing members 620 are used to relatively fix the front and rear sides of the molding die; the upper and lower fixing members 630 are used to relatively fix the upper and lower sides of the molding die.

Specifically, as shown in the figure, the left and right fixing members 610 include first movable seats 10a symmetrically disposed at the left and right sides of the frame 10, a left positioning plate 611 is disposed on the first movable seat 10a at the left side of the frame 10, and a right positioning plate 612 is disposed on the first movable seat 10a at the right side of the frame 10. Further, a left motor 611a is provided on the first moving seat 10a on the left, and the left motor 611a is connected to the left positioning plate 611 and serves to bring the left positioning plate 611 close to the right positioning plate 612. A right motor 612a is provided on the right first moving seat 10a, and the right motor 612a is connected to the right positioning plate 612 and serves to bring the right positioning plate 612 close to the left positioning plate 611.

Optionally, in order to facilitate the right motor 612a to drive the right positioning plate 612 to approach the left positioning plate 611, a right slider 612b is provided on the right first moving seat 10a, and a right guide 103 is provided on the frame 10. The right slider 612b mates with the right rail 103. The right slider 612b can slide on the right rail 103 by the right motor 612a so that the right positioning plate 612 approaches the left positioning plate 611.

As shown, the front and rear fixing members 620 include front and rear positioning plates 621 and 622 symmetrically disposed at the front and rear ends of the frame 10. A front motor 621a is provided on the front positioning plate 621, and a rear motor 622a is provided on the rear positioning plate 622. The front motor 621a can drive the front positioning plate 621 to approach the rear positioning plate 622; the rear motor 622a can drive the rear positioning plate 622 toward the front positioning plate 621.

Further, two symmetrically arranged front frames 120 and rear frames 130 are provided at the front and rear ends of the frame 10. The front motor 621a is fixed to the front frame 120, and the rear motor 622a is fixed to the rear frame 130.

Meanwhile, in order to enable the front frame 120 and the rear frame 130 to reciprocate left and right on the frame 10. The front frame 120 and the rear frame 130 are provided with driving members A1, and the frame 10 is provided with a front rail 104 and a rear rail 105. A front sliding block 121 is arranged on the front frame 120, and the front sliding block 121 is matched with the front sliding rail 104; the rear frame 130 is provided with a rear slider 131, and the rear slider 131 is engaged with the rear rail 105. The driving members A1 on the front frame 120 and the rear frame 130 may drive the front frame 120 and the rear frame 130 to slide left and right on the frame 10, respectively.

Further, driving members B1 are provided on the front frame 120 and the rear frame 130. The driving member B1 serves to move the front positioning plate 621 and the rear positioning plate 622 up and down along the front frame 120 and the rear frame 130, respectively.

Specifically, the driving member B1 drives the front positioning plate 621 and the rear positioning plate 622 to move up and down along the front frame 120 and the rear frame 130, also by means of the cooperation of the slide rails and the slide blocks.

As shown, the upper and lower fixtures 630 include upper and lower positioning plates 631 and 632 symmetrically disposed at upper and lower ends of the frame 10. The second moving seats 10b are respectively provided at the upper and lower ends of the frame 10, and the upper and lower positioning plates 631 and 632 are respectively fixed to the second moving seats 10 b. An upper motor 631a is arranged on the second moving seat 10b at the upper end of the frame 10, and the upper motor 631a is used for driving the upper positioning plate 631 to approach the lower positioning plate 632; a lower motor 632a is provided on the second moving seat 10b at the lower end of the frame 10, and the lower motor 632a is used for driving the lower positioning plate 632 to approach the upper positioning plate 631.

Further, a driving member C1 is further disposed on the second moving seat 10b, and the driving member is used for driving the second moving seat 10b to move left and right on the frame 10.

Specifically, a third slider is provided on the second movable base 10b, and a third slide rail is provided on the frame 10. The third sliding block is matched with the third sliding rail, and the third sliding block can slide along the third sliding rail under the action of the driving piece C1.

From the above detailed description of the structure of the fixing mechanism 60, the fixing mechanism 60 is flexible and convenient to operate, and can firmly fix the forming die on the frame 10, so that the forming die can swing along with the frame 10 when the swing mechanism 30 drives the frame 10 to swing.

In this embodiment, the molding die is fixed in the frame 10 for better. A plurality of positioning columns are arranged on the outer surface of the forming die. Positioning holes 650 matching the positioning columns are provided on the left positioning plate 611, the right positioning plate 612, the front positioning plate 621, the rear positioning plate 622, the upper positioning plate 631, and the lower positioning plate 632. When the forming die is fixed, the positioning posts are inserted into the positioning holes 650 in a one-to-one correspondence.

The working principle of the forming machine is as follows:

after the epoxy resin is injected into the mold, the mold is fixed to the frame 10 by the fixing mechanism 60. The left-right swinging mechanism 40 drives the frame 10 to swing left and right, and the front-back swinging mechanism 50 drives the frame 10 to swing back and forth, so that epoxy resin in the forming die is uniformly distributed, the formed product is prevented from generating bubbles, cracks and the like, and the qualification rate of the product is improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The epoxy resin gel forming machine comprises a frame, wherein a forming die is arranged on the frame, and epoxy resin to be formed is injected into the forming die, and the epoxy resin gel forming machine is characterized by further comprising a swinging mechanism, wherein the swinging mechanism is connected with the frame, and the swinging mechanism drives the frame to swing and enables the forming die to swing along with the frame; the swing mechanism comprises a back-and-forth swing mechanism and/or a left-and-right swing mechanism, the back-and-forth swing mechanism drives the rack to swing back and forth and enables the forming die to swing back and forth along with the rack, and the left-and-right swing mechanism drives the rack to swing left and right and enables the forming die to swing left and right along with the rack;

the back-and-forth swinging mechanism comprises a first driving piece assembly, a swinging piece and a first fulcrum, wherein the swinging piece is fixedly connected with the frame, the first driving piece drives the swinging piece to swing back and forth around the first fulcrum, and the frame swings back and forth along with the swinging piece;

mounting plates are respectively arranged on the left side and the right side of the frame along the front-back direction of the frame, the frame is arranged above the two mounting plates, and the frame is suspended above the mounting plates through the support of a second fulcrum;

the swinging piece comprises a swinging plate and a connecting frame, wherein the swinging plate and the connecting frame are arranged on one side of the frame, one end of the connecting frame is fixedly connected with the frame, the other end of the connecting frame is fixed on the swinging plate, one end of the swinging plate is propped against the first supporting point, and the other end of the swinging plate is connected with the first driving assembly;

the mounting plate is provided with a first mounting seat, the first driving piece assembly is mounted on the first mounting seat, the swinging plate is fixedly provided with a swinging arm, a first output shaft of the first driving piece assembly is connected with the swinging arm, and the first driving piece assembly drives the swinging arm to reciprocate so that the swinging plate swings back and forth around the first pivot;

the first pivot comprises a first rotating shaft, the mounting plate is provided with two symmetrically arranged rotating shaft seats, and two ends of the first rotating shaft are respectively and rotatably mounted on the two rotating shaft seats;

the mounting plate is provided with a through hole, the swinging plate is positioned above the through hole, the two rotating shaft seats are respectively arranged on two sides of the through hole, and the swinging plate swings back and forth in the through hole;

the left-right swinging mechanism comprises a second driving piece assembly, a connecting block and a second supporting point, wherein the connecting block is fixedly connected with the frame, and the second driving piece assembly drives the connecting block to swing left and right around the second supporting point and simultaneously enables the frame to swing left and right along with the connecting block;

the second driver assembly is vertically mounted on the swing plate;

two second driving piece assemblies are arranged on the swinging plate, a connecting block is arranged between the two second driving piece assemblies, and the connecting block is fixedly connected with the frame;

the second fulcrum comprises an air cylinder arranged on the mounting plate, an air cylinder shaft of the air cylinder is connected with the bottom of the frame, and the fulcrum function of the second fulcrum is realized through the telescopic movement of the air cylinder shaft;

the second driving piece assembly and the corresponding second supporting point are positioned on different sides of the frame;

the two ends of the connecting block are provided with connecting points, the two connecting points are respectively connected to the two second driving components, the connecting block is fixedly connected with the frame, a connecting shaft is further arranged between the two second driving component components, and the connecting frame is connected with the connecting block through the connecting shaft;

the connecting frame is provided with a bayonet, the connecting shaft is clamped in the bayonet, the connecting shaft is provided with a detachable piece, one end of the detachable piece is sleeved on the connecting shaft, and the other end of the detachable piece is detachably connected with the connecting frame; the two ends of the detachable sheet are respectively provided with a mounting hole, one mounting hole is sleeved on the connecting shaft, the other mounting hole is internally provided with a pin shaft in a penetrating way, and the detachable sheet is connected with the connecting frame through the pin shaft.

2. The epoxy resin gel molding machine according to claim 1, wherein a fixing mechanism is further provided on the frame, and the fixing mechanism fixes the molding die in the frame, so that the molding die follows the frame to swing when the swinging mechanism drives the frame to swing.

3. The epoxy resin gel molding machine according to claim 2, wherein the fixing mechanism comprises left and right fixing members, front and rear fixing members and upper and lower fixing members, the left and right fixing members, the front and rear fixing members and the upper and lower fixing members define a positioning chamber in the frame, and the molding die is fixed in the positioning chamber.

4. The epoxy resin gel molding machine of claim 3, wherein the left and right fixing members comprise a left locating plate and a right locating plate, the front and rear fixing members comprise a front locating plate and a rear locating plate, the upper and lower fixing members comprise an upper locating plate and a lower locating plate, and locating holes are formed in one or more of the left locating plate, the right locating plate, the front locating plate, the rear locating plate, the upper locating plate and the lower locating plate.