CN216579179U - Flat plate hot-pressing forming machine with double-layer pushing mechanism - Google Patents

Flat plate hot-pressing forming machine with double-layer pushing mechanism Download PDF

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Publication number
CN216579179U
CN216579179U CN202122661314.4U CN202122661314U CN216579179U CN 216579179 U CN216579179 U CN 216579179U CN 202122661314 U CN202122661314 U CN 202122661314U CN 216579179 U CN216579179 U CN 216579179U
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China
Prior art keywords
guide rail
template
electric heating
heating plate
mounting
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CN202122661314.4U
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Chinese (zh)
Inventor
万志明
范群
朱小梅
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Guangdong Xinjinli Precision Machinery Co ltd
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Guangdong Xinjinli Precision Machinery Co ltd
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Abstract

The utility model relates to a flat plate hot-pressing forming machine with a double-layer push-out mechanism, which belongs to the field of hot-pressing forming machines and comprises a rack, wherein the rack is provided with a hot-pressing mechanism, the hot-pressing mechanism comprises an installation platform and a lifting platform which are arranged up and down, the installation platform is fixedly arranged on the rack, the lifting platform is arranged on the rack in a lifting way through the lifting mechanism, the lower surface of the installation platform is provided with an upper electric heating plate, the upper surface of the lifting platform is provided with a lower electric heating plate, the double-layer push-out mechanism is arranged between the installation platform and the lifting platform, the double-layer push-out mechanism comprises a first guide rail and a second guide rail which are arranged up and down, the first guide rail is arranged on the rack in a vertical moving way, the second guide rail is fixedly arranged on the lifting platform, and a first template and a second template are respectively arranged on the first guide rail and the second guide rail in a sliding way; the first guide rail is also fixedly provided with a middle electric heating plate, and the middle electric heating plate is positioned between the upper electric heating plate and the lower electric heating plate. The utility model can effectively improve the production efficiency.

Description

Flat plate hot-pressing forming machine with double-layer pushing mechanism
Technical Field
The utility model relates to the field of hot-pressing forming machines, in particular to a flat plate hot-pressing forming machine with a double-layer pushing mechanism.
Background
The push-out mechanism of the flat plate hot-press forming machine is used for bearing a mold and realizing the process of pushing the mold into the electric heating plate and pushing the mold away from the electric heating plate, however, the push-out mechanism of the existing flat plate hot-press forming machine is usually a single-layer push-out mechanism, in the production process, the mold can only be subjected to feeding and discharging operation by one operator on the single-layer push-out mechanism, the feeding and discharging efficiency is low, and the production efficiency is difficult to improve.
SUMMERY OF THE UTILITY MODEL
In view of the above, there is a need for a flat plate thermoforming machine with a double-layer ejection mechanism, comprising a frame, the frame is provided with a hot-pressing mechanism which comprises an installation platform and a lifting platform which are arranged up and down, the mounting table is fixedly arranged on the frame, the lifting table is arranged on the frame in a lifting way through a lifting mechanism, the lower surface of the mounting table is provided with an upper electric heating plate, the upper surface of the lifting table is provided with a lower electric heating plate, a double-layer push-out mechanism is arranged between the mounting table and the lifting table and comprises a first guide rail and a second guide rail which are arranged up and down, the first guide rail is arranged on the frame in a vertically movable manner, the second guide rail is fixedly arranged on the lifting platform, a first template and a second template are respectively arranged on the first guide rail and the second guide rail in a sliding manner, and the lower surface of the second template is flush with the upper surface of the lower electric heating plate; and a middle electric heating plate is fixedly arranged on the first guide rail, is positioned between the upper electric heating plate and the lower electric heating plate, and has an upper surface flush with the lower surface of the first template.
In the utility model, the first template and the second template are used for bearing the die and driving the die to reciprocate on the first guide rail and the second guide rail so as to push the die into the hot-pressing mechanism for hot-pressing treatment and remove the hot-pressed die from the hot-pressing mechanism.
The working process of the utility model is as follows: firstly, an operator places glue in moulds on a first template and a second template, then the first template moves to a position between an upper electric heating plate and a middle electric heating plate to enable the first template to be attached to the middle electric heating plate, the second template moves to a position between the middle electric heating plate and a lower electric heating plate to enable the second template to be attached to a lifting table, then the lifting table moves upwards and drives a second guide rail and the second template on the second guide rail to move upwards, then the second template moving upwards is propped against the middle electric heating plate to drive the first guide rail fixedly connected with the middle electric heating plate and the first template attached to the middle electric heating plate to move upwards until the first template and the second template are pressed between the upper electric heating plate, the middle electric heating plate and the lower electric heating plate and keep certain pressure, and at the moment, the upper electric heating plate, the middle electric heating plate and the lower electric heating plate heat to carry out hot press molding operation on the glue in the moulds borne on the first template and the second template, after hot pressing is completed, the lifting platform moves downwards to reset, the first guide rail moves downwards to the right position along with the downward movement of the lifting platform, then the first template and the second template drive the mould on the first template to leave the position between the upper electric heating plate and the lower electric heating plate, and at the moment, an operator can take the glue material after hot pressing from the mould.
The first guide rail, the second guide rail, the first template and the second template are arranged on the first guide rail and the second guide rail, so that an operator can simultaneously carry out the feeding and discharging operation of sizing materials on the molds on the first template and the second template, the hot pressing efficiency of the utility model can be effectively improved, and the production efficiency can be further effectively improved.
Furthermore, the first guide rail comprises two first mounting plates which are oppositely arranged and parallel to each other, and the middle electric heating plate is arranged between the two first mounting plates and fixedly connected with the two first mounting plates; the inner side surfaces of the two first mounting plates are respectively provided with a first sliding groove which is horizontally arranged, the first template is arranged between the two first mounting plates, the side surface of the first template facing the two first mounting plates is fixedly provided with a first sliding strip corresponding to the first sliding groove, the first sliding strip is embedded in the corresponding first sliding groove and is matched with the first sliding groove in a sliding manner, and the upper surface of the first template is positioned above the upper end of the first mounting plate; the fixed two at least first mount pads that are provided with of lateral surface of first mounting panel, the vertical slide bar that is provided with on the mount pad, the frame corresponds first mount pad is provided with the second mount pad, the second mount pad is located the top of the first mount pad that corresponds, the second mount pad corresponds the slide bar is provided with the slide opening, wear to locate slide opening just the fixed limiting plate that is provided with in upper end of slide bar slidable, the limiting plate with the top of second mount pad offsets.
The upper end of the sliding rod abuts against the upper end of the second mounting seat through a limiting plate on the sliding rod, the sliding rod and the sliding hole in the second mounting seat are arranged in a sliding fit mode, and the second guide rail is arranged on the rack in a vertically movable mode through the sliding rod. When the second guide rail moves upwards, the first guide rail can freely move upwards under the pushing of the second template until the first template on the first guide rail is tightly abutted to the upper electric heating plate, and when the second guide rail moves downwards, the first guide rail can freely move downwards until the limiting plate on the sliding rod is tightly abutted to the second mounting seat, namely the first guide rail can be matched with the action of the second guide rail under the driving of the second guide rail to complete the hot pressing process of the hot pressing mechanism. Therefore, the utility model does not need to configure a driving structure for the first guide rail independently, and compared with the method for driving the first guide rail to move up and down by using a separate driving structure, the utility model can effectively increase the moving synchronization degree of the first guide rail and the second guide rail, thereby avoiding the collision and confrontation of the middle electric heating plates and the second templates on the first guide rail and the second guide rail because the moving speed of the first guide rail is higher than that of the second guide rail, or the moving time point of the first guide rail is slower than that of the second guide rail, and simultaneously effectively reducing the manufacturing cost of the utility model.
Furthermore, the right ends of the two first mounting plates are fixedly connected with each other through a connecting plate, a first driving oil cylinder is arranged on the connecting plate, and the first driving oil cylinder is in driving connection with the first template and used for driving the first template to move back and forth along the first sliding groove.
The connecting plate can be used as a mounting structure of the first driving oil cylinder while fixing the two first mounting plates, so that the first driving oil cylinder can move up and down along the first guide rail, and the first template is smoothly pushed to move back and forth along the first sliding groove.
Further, the second guide rail is including setting up relatively and being on a parallel with two second mounting panels of first mounting panel, the left end of second mounting panel is located the left side of the left end of first mounting panel, the second spout that has the level to set up is all seted up to the medial surface of two second mounting panels, the second template set up in between two second mounting panels, the second template orientation the side of two second mounting panels corresponds the second spout is provided with the second draw runner, the second draw runner embedding in the second spout that corresponds and with second spout slidable ground cooperation sets up, wherein, the upper surface of second template is located the top of the upper end of second mounting panel.
The second mounting plate is arranged parallel to the first mounting plate, the first guide rail and the second guide rail are arranged along the same direction, so that the parts of the first guide rail and the second guide rail, which extend out of the rack, are positioned on the same side of the rack, and the parts of the first driving oil cylinder and the second driving oil cylinder, which extend out of the rack, are positioned on the same side of the rack, so that the space occupation rate of the utility model can be effectively reduced.
In addition, the parts of the first guide rail and the second guide rail extending out of the rack are located on the left side of the rack, and the left end of the second guide rail exceeds the left end of the first guide rail, so that the part of the second guide rail exceeding the first guide rail is exposed on the outer side of the first guide rail, and operators or mechanical hands can conveniently carry out feeding and discharging operations on rubber materials of the first template on the first guide rail and the second template on the second guide rail.
Furthermore, the elevating platform corresponds the second guide rail is provided with the mounting bracket, the mounting bracket is located the right side of second guide rail, be provided with second actuating cylinder on the mounting bracket, second actuating cylinder with second template drive is connected, is used for driving the second template along second spout reciprocating motion.
The second driving oil cylinder is arranged on the lifting platform through the mounting frame, can move along with the lifting platform and is used for pushing the second template to move in a reciprocating mode along the second sliding groove.
In addition, the second driving oil cylinder and the first driving oil cylinder are positioned at the same side of the frame, so that the first driving oil cylinder and the second driving oil cylinder can be conveniently connected with the hydraulic oil station.
Further, the lifting mechanism is a hydraulic lifting mechanism.
The principle and effect of the present invention will be further explained by combining the above technical scheme and the accompanying drawings:
according to the utility model, through the arrangement of the first guide rail and the second guide rail as well as the first template and the second template on the first guide rail and the second guide rail, an operator can simultaneously carry out the feeding and discharging operation of sizing materials on the molds on the first template and the second template, so that the hot-pressing processing efficiency of the utility model can be effectively improved, and the production efficiency is further effectively improved.
Drawings
Fig. 1 is a schematic structural diagram of a flat plate hot press forming machine with a double-layer push-out mechanism according to an embodiment of the present invention.
Description of reference numerals:
11-an installation table, 111-a second installation seat, 12-a lifting table, 121-an installation frame, 21-a first installation plate, 211-a first installation seat, 212-a sliding rod, 2121-a limiting plate, 213-a first sliding chute, 22-a first template, 23-a connecting plate, 24-a first driving oil cylinder, 25-a middle electric heating plate, 31-a second installation plate, 32-a second template, 33-a second driving oil cylinder and 4-a hydraulic lifting mechanism.
Detailed Description
For the convenience of understanding of those skilled in the art, the present invention will be described in further detail below with reference to the accompanying drawings and examples:
referring to fig. 1, a mold feeding and discharging device for a flat plate hot press forming machine comprises a frame, a hot press mechanism is arranged on the frame, the hot press mechanism comprises an installation platform 11 and a lifting platform 12 which are arranged up and down, the installation platform 11 is fixedly arranged on the frame, the lifting platform 12 is arranged on the frame through the lifting mechanism in a lifting way, an upper electric heating plate is arranged on the lower surface of the installation platform 11, a lower electric heating plate is arranged on the upper surface of the lifting platform 12, a double-layer push-out mechanism is arranged between the installation platform 11 and the lifting platform 12, the double-layer push-out mechanism comprises a first guide rail and a second guide rail which are arranged up and down, the first guide rail is arranged on the frame in a vertically movable way, the second guide rail is fixedly arranged on the lifting platform 12, and a first mold plate 22 and a second mold plate 32 are respectively arranged on the first guide rail and the second guide rail in a sliding way, the lower surface of the second template 32 is flush with the upper surface of the lower electric heating plate; the first guide rail is also fixedly provided with a middle electric heating plate 25, the middle electric heating plate 25 is positioned between the upper electric heating plate and the lower electric heating plate, and the upper surface of the middle electric heating plate 25 is flush with the lower surface of the first template 22.
In the present invention, the first mold plate 22 and the second mold plate 32 are used for carrying the mold and driving the mold to reciprocate on the first guide rail and the second guide rail, so as to push the mold into the hot-pressing mechanism for hot-pressing treatment and remove the hot-pressed mold from the hot-pressing mechanism.
The working process of the utility model is as follows: firstly, an operator places glue in the molds on the first template 22 and the second template 32, then the first template 22 moves to a position between the upper electric heating plate and the middle electric heating plate 25 so that the first template 22 is attached to the middle electric heating plate 25, the second template 32 moves to a position between the middle electric heating plate 25 and the lower electric heating plate so that the second template 32 is attached to the lifting table 12, then the lifting table 12 moves upwards and drives the second guide rail and the second template 32 on the second guide rail to move upwards, then the second template 32 moving upwards is propped against the middle electric heating plate 25 to drive the first guide rail fixedly connected with the middle electric heating plate 25 and the first template 22 attached to the middle electric heating plate 25 to move upwards until the first template 22 and the second template 32 are pressed between the upper electric heating plate, the middle electric heating plate 25 and the lower electric heating plate and keep a certain pressure, and at this time, the upper electric heating plate, the middle electric heating plate 25 and the lower electric heating plate can carry out hot press molding operation on the glue in the molds carried on the first template 22 and the second template 32, after the hot pressing is completed, the lifting table 12 moves downwards to reset, the first guide rail moves downwards to the position along with the downward movement of the lifting table 12, then the first template 22 and the second template 32 drive the mould thereon to leave the position between the upper electric heating plate and the lower electric heating plate, and at the moment, an operator can take the glue material after the hot pressing processing off the mould.
Through the arrangement of the first guide rail, the second guide rail and the first template 22 and the second template 32 on the first guide rail and the second guide rail, an operator can simultaneously carry out the feeding and discharging operation of the sizing material on the molds of the first template 22 and the second template 32, so that the hot-pressing efficiency of the utility model can be effectively improved, and the production efficiency can be further effectively improved.
In one embodiment, the first guide rail includes two first mounting plates 21 that are disposed oppositely and parallel to each other, and the middle electric heating plate 25 is disposed between the two first mounting plates 21 and fixedly connected to both the two first mounting plates 21; the inner side surfaces of the two first mounting plates 21 are respectively provided with a first sliding groove 213 which is horizontally arranged, the first template 22 is arranged between the two first mounting plates 21, the side surface of the first template 22 facing the two first mounting plates 21 is fixedly provided with a first sliding strip corresponding to the first sliding groove 213, the first sliding strip is embedded in the corresponding first sliding groove 213 and is slidably matched with the first sliding groove 213, and the upper surface of the first template 22 is positioned above the upper end of the first mounting plate 21; the fixed two at least first mount pads 211 that are provided with of lateral surface of first mounting panel 21, the vertical slide bar 212 that is provided with on the mount pad, the frame corresponds first mount pad 211 is provided with second mount pad 111, second mount pad 111 is located the top of the first mount pad 211 that corresponds, second mount pad 111 corresponds the slide bar 212 is provided with the slide opening, slide bar 212 wears to locate slidable the slide opening just the fixed limiting plate 2121 that is provided with in upper end of slide bar 212, limiting plate 2121 with the top of second mount pad 111 offsets.
In this embodiment, the upper end of the sliding rod 212 abuts against the upper end of the second mounting seat 111 through the limiting plate 2121 thereon, and the sliding rod 212 and the sliding hole on the second mounting seat 111 are slidably disposed in a matching manner, that is, the second guiding rail is disposed on the rack through the sliding rod 212 and can move up and down. When the second guide rail moves upwards, the first guide rail can move upwards freely under the pushing of the second template 32 until the first template 22 thereon abuts against the upper electric heating plate, and when the second guide rail moves downwards, the first guide rail can move downwards freely until the limiting plate 2121 on the sliding rod 212 abuts against the second mounting seat 111, that is, the first guide rail can cooperate with the action of the second guide rail to complete the hot-pressing process of the hot-pressing mechanism under the driving of the second guide rail. Therefore, the utility model does not need to configure a driving structure for the first guide rail separately, and compared with the method of driving the first guide rail to move up and down by using a separate driving structure, the utility model can effectively increase the moving synchronization degree of the first guide rail and the second guide rail, thereby avoiding the collision and confrontation of the middle electric heating plate 25 and the second template 32 on the first guide rail and the second guide rail because the moving speed of the first guide rail is higher than that of the second guide rail, or the moving time point of the first guide rail is slower than that of the second guide rail, and simultaneously effectively reducing the manufacturing cost of the utility model.
In one embodiment, the right ends of the two first mounting plates 21 are fixedly connected with each other through a connecting plate 23, a first driving oil cylinder 24 is arranged on the connecting plate 23, and the first driving oil cylinder 24 is in driving connection with the first template 22 and used for driving the first template 22 to reciprocate along the first sliding groove.
In this embodiment, the connecting plate 23 can also be used as a mounting structure of the first driving cylinder 24 while fixing the two first mounting plates 21, so that the first driving cylinder 24 can move up and down along the first guide rail, and further smoothly push the first template 22 to reciprocate along the first sliding groove 213.
In one embodiment, the second guide rail includes two second mounting plates 31 that are arranged relatively and parallel to the first mounting plate 21, the left end of the second mounting plate 31 is located the left side of the left end of the first mounting plate 21, the second spout that has the level setting is all seted up to the medial surface of two second mounting plates 31, the second template 32 set up in between two second mounting plates 31, the second template 32 towards the side of two second mounting plates 31 corresponds the second spout is provided with the second draw runner, the second draw runner embedding in the corresponding second spout and with the cooperation of second spout slidable sets up, wherein, the upper surface of second template 32 is located the top of the upper end of second mounting plate 31.
In this embodiment, the second mounting plate 31 is arranged parallel to the first mounting plate 21, so that the first guide rail and the second guide rail are arranged along the same direction, and thus the portions of the first guide rail and the second guide rail extending out of the rack are located on the same side of the rack, and meanwhile, the portions of the first driving oil cylinder 24 and the second driving oil cylinder 33 extending out of the rack are located on the same side of the rack, so that the space occupation ratio of the present invention can be effectively reduced.
In addition, the parts of the first guide rail and the second guide rail extending out of the rack are both located on the left side of the rack, and the left end of the second guide rail exceeds the left end of the first guide rail, so that the part of the second guide rail exceeding the first guide rail is exposed on the outer side of the first guide rail, and operators or mechanical hands can conveniently carry out feeding and discharging operations on the rubber materials of the molds on the first template 22 and the second template 32 on the first guide rail and the second guide rail.
In one embodiment, the lifting platform 12 is provided with an installation frame 121 corresponding to the second guide rail, the installation frame 121 is located on the right side of the second guide rail, a second driving oil cylinder 33 is provided on the installation frame 121, and the second driving oil cylinder 33 is in driving connection with the second template 32 to drive the second template 32 to reciprocate along the second chute.
In this embodiment, the second driving cylinder 33 is disposed on the lifting platform 12 through the mounting frame 121, and can move along with the lifting platform 12, and is used for pushing the second template 32 to move back and forth along the second sliding chute.
In addition, the second driving oil cylinder 33 and the first driving oil cylinder 24 are positioned on the same side of the frame, so that the connection between the first driving oil cylinder 24 and the second driving oil cylinder 33 and the hydraulic oil station can be facilitated.
In one embodiment, the lifting mechanism is a hydraulic lifting mechanism 4.
The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. A flat plate hot-press forming machine with a double-layer push-out mechanism comprises a machine frame, wherein a hot-press mechanism is arranged on the machine frame, the hot-pressing mechanism comprises an installation platform and a lifting platform which are arranged up and down, the installation platform is fixedly arranged on the frame, the lifting platform is arranged on the frame in a lifting way through a lifting mechanism, the lower surface of the mounting platform is provided with an upper electric heating plate, the upper surface of the lifting platform is provided with a lower electric heating plate, it is characterized in that a double-layer push-out mechanism is arranged between the mounting table and the lifting table, the double-layer push-out mechanism comprises a first guide rail and a second guide rail which are arranged up and down, the first guide rail is arranged on the frame in a vertically movable manner, the second guide rail is fixedly arranged on the lifting platform, a first template and a second template are respectively arranged on the first guide rail and the second guide rail in a sliding manner, and the lower surface of the second template is flush with the upper surface of the lower electric heating plate; and a middle electric heating plate is fixedly arranged on the first guide rail, is positioned between the upper electric heating plate and the lower electric heating plate, and has an upper surface flush with the lower surface of the first template.
2. The flat plate hot press forming machine with the double-layer push-out mechanism according to claim 1, wherein the first guide rail comprises two first mounting plates which are oppositely arranged and parallel to each other, and the middle electric heating plate is arranged between the two first mounting plates and fixedly connected with the two first mounting plates; the inner side surfaces of the two first mounting plates are respectively provided with a first sliding groove which is horizontally arranged, the first template is arranged between the two first mounting plates, the side surface of the first template facing the two first mounting plates is fixedly provided with a first sliding strip corresponding to the first sliding groove, and the first sliding strip is embedded in the corresponding first sliding groove and is matched with the first sliding groove in a sliding manner; the fixed two at least first mount pads that are provided with of lateral surface of first mounting panel, the vertical slide bar that is provided with on the mount pad, the frame corresponds first mount pad is provided with the second mount pad, the second mount pad is located the top of the first mount pad that corresponds, the second mount pad corresponds the slide bar is provided with the slide opening, wear to locate slide opening just the fixed limiting plate that is provided with in upper end of slide bar slidable, the limiting plate with the top of second mount pad offsets.
3. The flat plate hot press forming machine with the double-layer push-out mechanism according to claim 2, wherein the right ends of the two first mounting plates are fixedly connected with each other through a connecting plate, a first driving oil cylinder is arranged on the connecting plate, and the first driving oil cylinder is in driving connection with the first template and used for driving the first template to reciprocate along the first chute.
4. The flat plate hot press forming machine with the double-layer push-out mechanism according to claim 2, wherein the second guide rail comprises two second mounting plates which are oppositely arranged and parallel to the first mounting plate, the left end of the second mounting plate is positioned on the left side of the left end of the first mounting plate, the inner side surfaces of the two second mounting plates are respectively provided with a horizontally arranged second sliding groove, the second template is arranged between the two second mounting plates, the side surface of the second template facing the two second mounting plates is provided with a second sliding strip corresponding to the second sliding groove, and the second sliding strip is embedded in the corresponding second sliding groove and is slidably matched with the second sliding groove.
5. The flat plate hot press forming machine with the double-layer push-out mechanism as claimed in claim 4, wherein the lifting platform is provided with a mounting rack corresponding to the second guide rail, the mounting rack is located on the right side of the second guide rail, a second driving oil cylinder is arranged on the mounting rack, and the second driving oil cylinder is in driving connection with the second template and used for driving the second template to reciprocate along the second chute.
6. A flat plate press-forming machine with a double push-out mechanism according to claim 1, wherein the lifting mechanism is a hydraulic lifting mechanism.
CN202122661314.4U 2021-11-02 2021-11-02 Flat plate hot-pressing forming machine with double-layer pushing mechanism Active CN216579179U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122661314.4U CN216579179U (en) 2021-11-02 2021-11-02 Flat plate hot-pressing forming machine with double-layer pushing mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122661314.4U CN216579179U (en) 2021-11-02 2021-11-02 Flat plate hot-pressing forming machine with double-layer pushing mechanism

Publications (1)

Publication Number Publication Date
CN216579179U true CN216579179U (en) 2022-05-24

Family

ID=81642752

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122661314.4U Active CN216579179U (en) 2021-11-02 2021-11-02 Flat plate hot-pressing forming machine with double-layer pushing mechanism

Country Status (1)

Country Link
CN (1) CN216579179U (en)

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