CN111775384A

CN111775384A - Mould die sinking demoulding equipment of rubber tyer for electrical equipment

Info

Publication number: CN111775384A
Application number: CN202010665713.5A
Authority: CN
Inventors: 王会贤
Original assignee: Guangzhou Leyun Intelligent Technology Co ltd
Current assignee: Guangzhou Leyun Intelligent Technology Co ltd
Priority date: 2020-07-11
Filing date: 2020-07-11
Publication date: 2020-10-16

Abstract

The invention discloses a mould opening demoulding device of a rubber wheel for electrical equipment, which comprises a mould opening demoulding device and a mould supporting receiving device, wherein the mould comprises an upper mould, a lower mould and a beating shaft, the beating shaft is provided with a bulge, the mould opening demoulding device is provided with a pressure plate sliding mechanism, a clamping mechanism and a driving mechanism, the mould supporting receiving device comprises a mould supporting mechanism and a pushing mechanism, and the mould supporting receiving device can upwards lift the beating shaft clamped by the clamping mechanism by the pressure plate sliding mechanism to enable the upper mould and the rubber wheel adhered on the upper mould to be lifted upwards to be separated from the lower mould by enabling the pressure plate sliding mechanism to upwards slide so as to realize automatic mould opening of the mould; the pushing mechanism pushes the die supporting mechanism to the position below an upper die after the die is opened, the pressing plate sliding mechanism presses the material beating shaft downwards to enable the upper die and the rubber wheel bonded on the upper die to be pressed onto the die supporting mechanism, the pressing plate sliding mechanism continues to press the beating rod shaft downwards, the beating rod shaft moves downwards from the upper die, the bulge of the beating rod shaft props against the rubber wheel to enable the rubber wheel to be separated from the upper die, automatic die opening and demolding are achieved, and die opening and demolding efficiency is improved.

Description

Mould die sinking demoulding equipment of rubber tyer for electrical equipment

Technical Field

The invention relates to the technical field of rubber wheel molds, in particular to mold opening and demolding equipment for a rubber wheel for electrical equipment.

Background

When the existing rubber wheel mold is opened, the mold is opened only by loosening screws screwed together by the middle pressing sleeve and the lower mold and then releasing the buckles of the upper mold and the lower mold by using tools; during the drawing of patterns, open the mould after, the rubber tyer finished product can bond on last mould, need take off the rubber tyer from last mould through manual work or instrument, realizes the drawing of patterns, and whole process is very loaded down with trivial details, no matter is use tools or artifical die sinking stripping, all needs a large amount of manual work to participate in, and intensity of labour is also very big to die sinking, drawing of patterns are efficient very low, and are with high costs.

It follows that the prior art is deficient.

Disclosure of Invention

Aiming at the defects of low mold opening and demolding efficiency, high cost, labor intensity participation, large labor degree and the like of a rubber wheel mold in the prior art, the invention aims to provide equipment capable of automatically opening and demolding the mold for the rubber wheel mold, improving the mold opening and demolding efficiency, saving the labor input, reducing the labor intensity and reducing the cost.

In order to solve the technical problem, the invention provides a mold opening and demolding device of a rubber wheel for electrical equipment, which comprises a workbench, a mold opening and demolding device and a mold supporting and receiving device, wherein the mold opening and demolding device and the mold supporting and demolding device are arranged on the workbench and used for mold opening and demolding;

the mold opening and demolding device comprises a pressure plate sliding mechanism for pressing down a mold, a clamping mechanism for clamping the mold and a driving mechanism for driving the clamping mechanism to clamp the mold, wherein the clamping mechanism is arranged below the pressure plate sliding mechanism, and the driving mechanism is positioned above the clamping mechanism and is connected with the clamping mechanism;

the die supporting and receiving device comprises a die supporting mechanism and a pushing mechanism for pushing the die supporting mechanism to move, wherein the pushing mechanism is positioned on one side of the die supporting mechanism and is connected with the die supporting mechanism;

when the mold is opened, the pressing plate sliding mechanism slides downwards to the upper part of the mold to press the material beating shaft of the mold downwards, so that the material beating shaft is separated from the mold frame, the driving mechanism drives the clamping mechanism below the pressing plate sliding mechanism to clamp the material beating shaft of the mold, and the pressing plate sliding mechanism slides upwards to enable the clamping mechanism to lift the clamped material beating shaft upwards to realize that the upper mold and the rubber wheel stuck on the upper mold are separated from the lower mold and lifted upwards, so that the automatic mold opening can be realized, and the investment of manpower is saved;

during demolding, the pushing mechanism pushes the die supporting mechanism to the position below an upper die after the die is opened, the pressing plate sliding mechanism pushes the material pushing shaft downwards to enable the upper die and the rubber wheel bonded on the upper die to be pushed downwards onto the die supporting mechanism, the pressing plate sliding mechanism continues to push the pressing rod shaft downwards to enable the pressing rod shaft to move downwards from the upper die, so that the protrusion of the pressing rod shaft abuts against the rubber wheel to enable the rubber wheel to be separated from the upper die, the die supporting mechanism is pushed by the pushing mechanism, the pressing plate sliding mechanism pushes the upper die downwards to achieve automatic demolding, manual tools are not needed to be used for demolding, and the production efficiency of demolding is improved.

Furthermore, the pressing plate sliding mechanism comprises a lower pressing plate, a sliding block and a power assembly, the sliding block is convenient for the lower pressing plate to slide along the vertical direction, the sliding block is located on the left side and the right side of the lower pressing plate and is connected with the lower pressing plate, the power assembly is located above the lower pressing plate and is connected with the lower pressing plate, a sliding rail matched with the sliding block is installed in front of the sliding block, and the power assembly drives the lower pressing plate to slide up and down along the sliding rail through the sliding block so as to achieve ascending and descending of the lower pressing plate.

Furthermore, the power assembly comprises a lifting cylinder and a power motor, one end of the lifting cylinder is connected with the lower pressing plate, the other end of the lifting cylinder is connected with the power motor, and the power motor drives the lifting cylinder to drive the lower pressing plate to ascend and descend.

Furthermore, the clamping mechanism comprises clamping plates for clamping the mold, the clamping plates are arranged on the front side and the rear side below the lower pressing plate, the driving mechanism comprises a clamping piece, a clamping cylinder and a connecting piece, the clamping piece is arranged on the lower pressing plate through the connecting piece, the clamping cylinder is located above the clamping piece and connected with the clamping piece, and the clamping cylinder drives the clamping piece to rotate so as to drive the clamping plates to be folded to clamp the mold.

Furthermore, the mould supporting mechanism comprises a mould supporting plate for supporting the mould after mould opening and a material receiving hopper for receiving the separated rubber wheel, and the mould supporting plate is connected with the upper part of the material receiving hopper.

Furthermore, the support template is provided with hollow holes corresponding to the number of the molds and used for clamping the upper mold to perform demolding.

Further, pushing mechanism is including gliding guide rail and the last slide rail of mutually supporting with the gliding guide rail, push cylinder, go up the slide rail and locate the both sides of die carrier and be located the top of gliding guide rail, it is connected with the die carrier and forms a gliding slip track that can slide on the guide rail that slides down to go up the slide rail, push cylinder is located one side of gliding guide rail, push cylinder's one end is connected with the die carrier of die carrier mechanism, and the other end is connected with the workstation, thereby push cylinder promotes the die carrier and slides along the slip track through the slip track and realizes the removal of die carrier.

Further, die supporting mechanism includes deep groove ball bearing, connects material welding shaft, supplies the gliding hopper track board of deep groove ball bearing, connect material welding shaft to run through in deep groove ball bearing and connect the erection joint of deep groove ball bearing and die supporting plate in the both sides of hopper realization, hopper track board is installed in deep groove ball bearing's below, die supporting plate's removal can drive its below connect the hopper to remove, can slide on the hopper track board through deep groove ball bearing when connecting the hopper removal.

Further, the die supporting material receiving device comprises a rubber wheel conveying belt, the rubber wheel conveying belt is installed below the material receiving hopper and installed on the workbench, and the material receiving hopper slides along a hopper track plate of the die supporting mechanism to convey the rubber wheel to the rubber wheel conveying belt.

Compared with the prior art, the scheme of the invention at least comprises the following beneficial effects:

the automatic die opening and demolding equipment is provided with a workbench, a die opening and demolding device and a die supporting and receiving device which are arranged on the workbench and used for die opening and demolding of a die, the mold opening and demolding device comprises a pressure plate sliding mechanism for pressing down a mold, a clamping mechanism for clamping the mold, and a driving mechanism for driving the clamping mechanism to clamp the mold, the die supporting and receiving device comprises a die supporting mechanism and a pushing mechanism for pushing the die supporting mechanism to move, the material beating shaft of the die is pressed down by the downward sliding of the pressure plate sliding mechanism to the upper part of the die, so that the material beating shaft is separated from the die carrier, the driving mechanism drives the clamping mechanism below the pressure plate sliding mechanism to clamp the knockout shaft of the die, and the pressure plate sliding mechanism slides upwards to enable the clamping mechanism to lift the clamped knockout shaft upwards so as to enable the upper die and the rubber wheel stuck on the upper die to be lifted upwards to be separated from the lower die, thus realizing automatic die opening of the die; the pushing mechanism pushes the die supporting mechanism to the position below an upper die after the die is opened, the pressing plate sliding mechanism pushes the material pushing shaft downwards to enable the upper die and the rubber wheel bonded on the upper die to be pushed downwards onto the die supporting mechanism, the pressing plate sliding mechanism continues to push the pressing rod shaft downwards to enable the pressing rod shaft to move downwards from the upper die, and therefore the bulge of the pressing rod shaft abuts against the rubber wheel to enable the rubber wheel to be separated from the upper die, automatic demolding of the die is achieved, die opening and demolding efficiency is greatly improved, labor intensity is reduced, and cost is saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

Fig. 1 is a schematic overall structure diagram of a mold opening and demolding device for a rubber wheel for electrical equipment, which is disclosed by the invention;

FIG. 2 is a schematic view of another angle of the mold opening and demolding device for the rubber wheel for the electrical equipment, provided by the invention;

FIG. 3 is a sectional view of a mold opening and demolding device for a rubber wheel for electrical equipment according to the present invention;

FIG. 4 is a schematic structural view of a striking rod shaft assembly of the present invention;

FIG. 5 is a schematic structural view of a briquetting assembly of the present invention;

fig. 6 is a schematic structural view of the scaffold assembly of the present invention.

In the figure, the mold opening and demolding device 1, the pressing plate sliding mechanism 11, the lower pressing plate 111, the slider 112, the power assembly 113, the slide rail 114, the lifting cylinder 1131, the power motor 1132, the clamping mechanism 12, the clamping plate 121, the clamping plate fixing member 122, the mounting hole 123, the driving mechanism 13, the clamping member 131, the clamping cylinder 132, the connecting member 133, the mold supporting and receiving device 2, the mold supporting mechanism 21, the mold supporting plate 211, the receiving hopper 212, the hollow hole 213, the deep groove ball bearing 215, the receiving and welding shaft 216, the hopper track plate 217, the pushing mechanism 22, the lower sliding guide rail 221, the upper sliding guide rail 222, the pushing cylinder 223, the sliding rail 224, the rubber wheel conveying belt 23, the mold 3, the upper mold 31, the lower mold 32, the material beating shaft 33, the accommodating cavity 34, the protrusion 25, the mold frame 4, the.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, the present invention provides an automatic mold opening and demolding device for a rubber wheel mold 3, which comprises a workbench 5, and a mold opening and demolding device 1 and a mold supporting and receiving device 2 which are installed on the workbench and used for mold opening and demolding of the mold 3, wherein the mold supporting and receiving device 2 is located below the mold opening and demolding device 1, a mold frame 4 is installed below the mold 3, and the mold 3 is used for mold opening and demolding of the rubber wheel.

In the embodiment of the invention, the mold 3 includes an upper mold 31, a lower mold 32, and a material-beating shaft 33, wherein a containing cavity 34 capable of containing a rubber wheel is formed by installing the upper mold 31 above the lower mold 32, the containing cavity 34 can contain a rubber wheel without injecting glue, and can also contain a rubber wheel formed by injecting glue, the material-beating shaft 33 sequentially penetrates through the upper mold 31 and the lower mold 32, a protrusion 35 capable of being clamped into the mold frame 4 is arranged at the bottom end of the material-beating shaft 33, the rubber wheel is positioned in the containing cavity 34 formed by the lower mold 32 and the upper mold 31, the material-beating shaft 33 between the lower mold 32 and the protrusion 35 further penetrates through a center hole of the rubber wheel, a slot 41 is arranged on the mold frame 4, and the mold 3 is installed above the mold frame 4 through the protrusion 35 of the material-beating shaft 33.

The mold opening and demolding device 1 comprises a pressure plate sliding mechanism 11 for pressing a mold 3 downwards, a clamping mechanism 12 and a driving mechanism 13, wherein the clamping mechanism 12 is installed below the pressure plate sliding mechanism 11 and used for clamping the mold 3, and the driving mechanism 13 is located above the clamping mechanism 12 and connected with the clamping mechanism 12, so that the clamping mechanism 12 is driven to clamp the mold 3.

The die supporting and receiving device 2 comprises a die supporting mechanism 21 and a pushing mechanism 22, wherein the pushing mechanism 22 is positioned on one side of the die supporting mechanism 21 and connected with the die supporting mechanism 21 so as to push the die supporting mechanism 21 to move.

When the mold is opened, the pressing plate sliding mechanism 11 slides downwards to the upper part of the mold 3 to press down the material beating shaft 33 of the mold 3, so that the material beating shaft 33 is separated from the mold base 4, the driving mechanism 13 drives the clamping mechanism 12 below the pressing plate sliding mechanism 11 to clamp the material beating shaft 33 of the mold 3, and the pressing plate sliding mechanism 11 slides upwards to enable the clamping mechanism 12 to lift the material beating shaft 33 clamped by the pressing plate sliding mechanism upwards, so that the upper mold 31 and the rubber wheel adhered to the upper mold 31 are separated from the lower mold 32 and lifted upwards, and the mold 3 is lifted to the upper part of the mold supporting and receiving device 2 from the lower part of the mold supporting mechanism 21 of the mold supporting and receiving device 2;

during demolding, the pushing mechanism 22 pushes the mold supporting mechanism 21 to the position below the upper mold 31 after the mold 3 is opened, the pressing plate sliding mechanism 11 is made to press the material pressing shaft 33 downwards to enable the upper mold 31 and the rubber wheel bonded on the upper mold 31 to be pressed onto the mold supporting mechanism 21, the pressing plate sliding mechanism 11 continues to press the pressing plate shaft downwards to enable the pressing plate shaft to move downwards from the upper mold 31, and therefore the rubber wheel is abutted by the protrusion 35 of the pressing plate shaft, the rubber wheel is separated from the upper mold 31, the mold supporting mechanism 21 is pushed through the pushing mechanism 22, the pressing plate sliding mechanism 11 is made to press the upper mold 31 downwards to achieve automatic demolding, manual demolding is not needed, and production efficiency of demolding is improved.

In the embodiment of the present invention, the pressing plate sliding mechanism 11 includes a lower pressing plate 111, a sliding block 112, and a power assembly 113, wherein the sliding block 112 is located on the left and right sides of the lower pressing plate 111 and is connected to the lower pressing plate 111 for facilitating the sliding of the lower pressing plate 111 along the vertical direction, the power assembly 113 is located above and connected to the lower pressing plate 111, a sliding rail 114 is installed in front of the sliding block 112 for matching with the sliding rail, and the power assembly 113 drives the lower pressing plate 111 to slide up and down along the sliding rail 114 through the sliding block 112, thereby achieving the ascending and descending of the lower pressing plate 111.

In the embodiment of the present invention, in a specific implementation, the power assembly 113 includes a lifting cylinder 1131 and a power motor 1132, one end of the lifting cylinder 1131 is connected to the lower pressing plate 111, and the other end of the lifting cylinder 1131 is connected to the power motor 1132, and the lifting cylinder 1131 is driven by the power motor 1132 to drive the lower pressing plate 111 to ascend and descend.

In the embodiment of the present invention, the clamping mechanism 12 is provided with clamping plates 121 installed on the front and rear sides below the lower platen 111, the clamping plates 121 on the front and rear sides are installed on the lower platen 111 through clamping plate fixing members 122, the driving mechanism 13 includes a clamping member 131, a clamping cylinder 132, and a connecting member 133, the clamping member 131 is installed on the lower platen 121 through the connecting member 133, the clamping cylinder 132 is located above and connected to the clamping member 131, two rectangular installation holes 123 are opened on the lower portion of the lower platen 111, the two installation holes 123 are symmetrical to each other, the clamping member 131 is installed on the installation hole 123 of the lower platen 121 through the connecting member 133, the clamping cylinder 132 drives the clamping member 131 to rotate to drive the clamping plates 121 to close to clamp the mold 3, when the lower platen 111 descends, the lifting cylinder 1131 is driven to descend by the power motor 1132 to drive the lower platen 111 connected thereto to move downwards, the sliding blocks 112 on two sides of the lower pressing plate 111 can slide downwards along the sliding rails 114 in the pressing process of the lower pressing plate 111, the sliding blocks 112 are arranged to facilitate the lower pressing plate 111 to ascend and descend, the lower pressing plate 111 slides right above the material beating shaft 33 of the mold 3, then the pressing plate 111 continues to be pressed downwards, the lower pressing plate 111 presses the material beating shaft 33 downwards, the mold 3 and the mold frame 4 are loosened and are not clamped together, the clamping cylinder 132 drives the clamping piece 131 to enable the clamping pieces 121 on the front side and the rear side below the lower pressing plate 111 to be mutually folded so as to clamp the material beating shaft 33, the power motor 1132 drives the lower pressing plate to move upwards, the material beating shaft 33 clamped by the clamping pieces 121 is upwards lifted by the lower pressing plate 111, the upper mold 31 and a rubber wheel adhered to the upper mold 31 are lifted upwards and separated from the lower mold 32, automatic mold opening is realized, manual mold opening is not needed, and the.

In the embodiment of the invention, the mold supporting mechanism 21 comprises a mold supporting mechanism 21 for supporting the mold 3 after the mold opening and a receiving hopper 212 for receiving the separated rubber wheel, and the mold supporting mechanism 21 is connected with the upper part of the receiving hopper 212.

The mold supporting mechanism 21 is provided with hollow holes 213 corresponding to the number of the molds 3 and used for clamping the upper mold 31 for demolding, the mold supporting mechanism 21 is pushed to the upper side of the opened upper mold 31 through the pushing mechanism 22, the upper mold 31 is pressed down to the hollow holes 213 of the mold supporting mechanism 21 through the lower pressing plate 111, so that the upper mold 31 is pressed down to the mold supporting mechanism 21 through the lower pressing plate 111, the upper mold 31 is clamped by the hollow holes 213, the lower pressing plate 111 continues to press the material pressing shaft 33, and the rubber wheel is pushed against by the bulge 35 of the material pressing shaft 33 so as to be separated from the upper mold 31, so that demolding is realized.

In the embodiment of the invention, when the mold supporting mechanism 21 is specifically implemented, the four hollow holes 213 are arranged, the diameters of the four hollow holes 213 are consistent with the diameter of the upper mold 31, the shapes of the hollow holes 213 are consistent with the shape of the upper mold 31, four molds 3 for producing rubber wheels with the same size can be clamped at the same time, the four molds 3 can be conveniently demoulded, and the efficiency is improved.

In other embodiments of the present invention, at least four hollow holes 213 are provided in the mold supporting mechanism 21, and the diameters of the hollow holes 213 can be set according to different molds 3 for producing rubber wheels, so that the present invention has a wide application range and greatly improves convenience.

In the embodiment of the present invention, in a concrete implementation, the pushing mechanism 22 includes a lower sliding rail 221, an upper sliding rail 222 and a pushing cylinder 223, the upper sliding rail 222 and the pushing cylinder 223 are matched with the lower sliding rail 221, the upper sliding rail 222 is disposed on two sides of the mold supporting mechanism 21 and is located above the lower sliding rail 221, the upper sliding rail 222 and the mold supporting mechanism 21 are connected to form a sliding rail 224 capable of sliding on the lower sliding rail 221, the pushing cylinder 223 is located on one side of the lower sliding rail 221, one end of the pushing cylinder 223 is connected to the mold supporting mechanism 21 of the mold supporting mechanism 21, and the other end is connected to the workbench 5.

When the embodiment of the invention is specifically implemented, the mold supporting mechanism 21 comprises a deep groove ball bearing 215, a material receiving welding shaft 216 and a hopper track plate 217 for the sliding of the deep groove ball bearing 215, the material receiving welding shaft 216 penetrates through the deep groove ball bearing 215 and is connected to two sides of the material receiving hopper 212 to realize the installation and connection of the deep groove ball bearing 215 and the mold supporting mechanism 21, the hopper track plate 217 is installed below the deep groove ball bearing 215, and the movement of the mold supporting mechanism 21 can drive the material receiving hopper 212 below the mold supporting mechanism to move.

When the embodiment of the invention is specifically implemented, the mold supporting and receiving device 2 comprises a rubber wheel conveyor belt 23, the rubber wheel conveyor belt 23 is arranged below the receiving hopper 212 and is arranged on the workbench 5, the edge of the hopper track plate 217 is designed into an arc shape, when the mold 3 is to be demolded, the pushing cylinder 223 drives the mold supporting mechanism 21 to move backwards, the mold supporting mechanism 21 slides to the upper part of the upper mold 31 along the sliding track 224, meanwhile, the mold supporting mechanism 21 drives the receiving hopper 212 to continue moving backwards, and when the receiving hopper 212 moves, the receiving hopper 212 slides upwards along the hopper track plate 217 through the deep groove ball bearing 215, so that the receiving hopper 212 moves away from the rubber wheel conveyor belt 23 to demold the mold 3; can deviate from the rubber tyer and fall into when mould 3 drawing of patterns back and connect the hopper 212 in, when promotion cylinder 223 drive promotion die-supporting mechanism 21 moved forward, die-supporting mechanism 21 can slide along slip track 224, and simultaneously, die-supporting mechanism 21 can drive and connect hopper 212 to continue to move forward, can slide down along hopper track board 217 through deep groove ball bearing 215 when connecing hopper 212 to remove, thereby will connect hopper 212 to remove to be close to the top of rubber tyer conveyer belt 23 and fall into on the rubber tyer conveyer belt 23, move the rubber tyer on it by rubber tyer conveyer belt 23 and carry, carry the rubber tyer through rubber tyer conveyer belt 23, and the efficiency of transport is improved, and the input of using manpower sparingly.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims

1. The utility model provides a mould die sinking drawing of patterns equipment of rubber tyer for electrical equipment which characterized in that: the mould comprises a workbench, a mould opening and demoulding device and a mould supporting and receiving device, wherein the mould opening and demoulding device and the mould supporting and receiving device are arranged on the workbench and are used for mould opening and demoulding, a mould frame is arranged below the mould, the mould comprises an upper mould, a lower mould and a material beating shaft, the upper mould is arranged above the lower mould to form an accommodating cavity capable of accommodating a rubber wheel, the material beating shaft penetrates through the upper mould and the lower mould, and a bulge capable of being clamped into the mould frame is arranged at the bottom end of the material beating shaft so as to realize that the;

when the mold is opened, the pressing plate sliding mechanism slides downwards to the upper part of the mold to press the material beating shaft of the mold downwards, so that the material beating shaft is separated from the mold base, the driving mechanism drives the clamping mechanism below the pressing plate sliding mechanism to clamp the material beating shaft of the mold, and the pressing plate sliding mechanism slides upwards so that the clamping mechanism lifts the material beating shaft clamped by the clamping mechanism upwards to realize that the upper mold and the rubber wheel stuck on the upper mold are separated from the lower mold and lifted upwards;

during demolding, the pushing mechanism pushes the die supporting mechanism to the position below the upper die after the die is opened, the pressing plate sliding mechanism presses the material pushing shaft downwards to enable the upper die and the rubber wheel bonded on the upper die to be pressed onto the die supporting mechanism, the pressing plate sliding mechanism continues to press the pressing rod shaft downwards to enable the pressing rod shaft to move downwards from the upper die, and therefore the protrusion of the pressing rod shaft abuts against the rubber wheel to enable the rubber wheel to be separated from the upper die.

2. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 1, wherein: the pressing plate sliding mechanism comprises a lower pressing plate, a sliding block and a power assembly, the sliding block is convenient for the lower pressing plate to slide along the vertical direction, the sliding block is located on the left side and the right side of the lower pressing plate and is connected with the lower pressing plate, the power assembly is located above the lower pressing plate and is connected with the lower pressing plate, a sliding rail matched with the sliding block is installed in the front of the sliding block, and the power assembly drives the lower pressing plate to slide up and down along the sliding rail through the sliding block so as to achieve ascending and descending of the lower pressing plate.

3. A mold-opening and demolding device for demolding rubber wheel molds as claimed in claim 2, wherein: the power assembly comprises a lifting cylinder and a power motor, one end of the lifting cylinder is connected with the lower pressing plate, the other end of the lifting cylinder is connected with the power motor, and the power motor drives the lifting cylinder to drive the lower pressing plate to ascend and descend.

4. A mold-opening and demolding device for demolding rubber wheel molds as claimed in claim 1, wherein: the clamping mechanism comprises clamping plates used for clamping the mold, the clamping plates are arranged on the front side and the rear side below the lower pressing plate, the driving mechanism comprises a clamping piece, a clamping cylinder and a connecting piece, the clamping piece is arranged on the lower pressing plate through the connecting piece, the clamping cylinder is located above the clamping piece and connected with the clamping piece, and the clamping cylinder drives the clamping piece to rotate so as to drive the clamping plates to be folded to clamp the mold.

5. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 1, wherein: the mould supporting mechanism comprises a mould supporting plate for supporting the mould after mould opening and a material receiving hopper for receiving the separated rubber wheel, and the mould supporting plate is connected with the upper part of the material receiving hopper.

6. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 5, wherein: and hollow holes which correspond to the number of the moulds and are used for clamping the upper mould to demould are arranged on the supporting template.

7. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 1, wherein: pushing mechanism is including gliding guide rail and the last slide rail, the push cylinder that mutually supports with the gliding guide rail, go up the slide rail and locate the both sides of die carrier and be located the top of gliding guide rail, it is connected with the die carrier and forms a gliding slip track that can slide on the guide rail that slides down to go up the slide rail, push cylinder is located one side of gliding guide rail, the one end of push cylinder is connected with the die carrier of die carrier mechanism, and the other end is connected with the workstation, thereby push cylinder promotes the die carrier and slides along the slip track through the slip track and realize the removal of die carrier.

8. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 5, wherein: hold in the palm mould mechanism and include deep groove ball bearing, connect material welding shaft, supply the gliding hopper track board of deep groove ball bearing, connect material welding shaft to run through in deep groove ball bearing connect in the both sides of connecing the hopper realize deep groove ball bearing and the erection joint of die board, hopper track board installs in deep groove ball bearing's below, the removal of die board can drive its below connect the hopper to remove, can slide on the hopper track board through deep groove ball bearing when connecting the hopper and removing.

9. The mold opening and demolding device for the rubber wheel for the electrical equipment as claimed in claim 5, wherein: the die supporting material receiving device comprises a rubber wheel conveying belt, the rubber wheel conveying belt is arranged below a material receiving hopper and is arranged on a workbench, the material receiving hopper slides along a hopper track plate of the die supporting mechanism to convey a rubber wheel to the rubber wheel conveying belt, and the rubber wheel conveying belt conveys the rubber wheel on the rubber wheel conveying belt.