CN217596404U - Composite opposite-top opposite-pressing machine - Google Patents
Composite opposite-top opposite-pressing machine Download PDFInfo
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- CN217596404U CN217596404U CN202221084947.1U CN202221084947U CN217596404U CN 217596404 U CN217596404 U CN 217596404U CN 202221084947 U CN202221084947 U CN 202221084947U CN 217596404 U CN217596404 U CN 217596404U
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Abstract
The utility model relates to the technical field of pressing machine equipment, in particular to a composite opposite-propping opposite-pressing machine, which comprises a frame body, wherein a horizontal support plate is arranged on the frame body, and a pressure mechanism is arranged at the rear side of the support plate; the pressure mechanism is provided with a lower pressure thrust end and an upper top thrust end; a longitudinal movement control mechanism is arranged between the pressure mechanism and the frame body; tool frames are arranged on the supporting plate in pairs along the longitudinal direction, and a transverse movement control mechanism is arranged between the tool frames and the supporting plate to control the transverse position of the tool frames; the tooling frame comprises a tooling plate at the lower end, a contour block is arranged on the tooling plate and forms a mounting station for mounting a workpiece, the tooling frame comprises a mounting plate at the upper end which can slide vertically, and a lower pressure rod and an upper top rod are respectively arranged on the tooling plate and the mounting plate, which can slide vertically corresponding to the press mounting point position of the workpiece; the utility model has the characteristics of can realize the multiple spot pressure equipment, can be better protect in order to improve the pressure equipment quality to the product component, improvement pressure equipment efficiency that can be better.
Description
Technical Field
The utility model relates to a press equipment technical field especially relates to a compound butt-joint press.
Background
The press is called a press, a hydraulic press or an oil press for short, and the press refers to a forming machine for forming industrial products by pressure, and generally adopts a hydraulic oil cylinder, so the press is called an oil press.
When the existing press structure is designed, multi-point press mounting operation cannot be well realized on the premise of better ensuring press mounting precision, so that press mounting efficiency is low. Moreover, the interchangeability is not strong, and the cost is increased for realizing multi-point press fitting. And when the existing press finishes press-fitting and assembling the workpiece to be assembled on the product component, the pressure directly applied to the product component is larger, and for some shell components, the shell components are easy to deform and the product quality is influenced. The existing press equipment cannot well realize multi-point press mounting due to the unreasonable layout design, so that the use cost of the equipment is increased; secondly, the machine needs to be stopped to disassemble and assemble product components, so that the machine has long stopping time, and continuous processing of press fitting work cannot be well realized.
Therefore, those skilled in the art are dedicated to develop a compound opposite-vertex opposite-pressing machine which can realize multipoint press-fitting, can better protect product components to improve press-fitting quality, and can better improve press-fitting efficiency, and the compound opposite-vertex opposite-pressing machine becomes a technical problem to be solved by those skilled in the art.
SUMMERY OF THE UTILITY MODEL
In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that how to provide one kind can realize the multiple spot pressure equipment, can be better protect in order to improve the pressure equipment quality to the product component, the compound of improvement pressure equipment efficiency that can be better is to the top to the pressfitting machine.
In order to realize the purpose, the utility model provides a composite opposite-jacking opposite-pressing machine, which comprises a frame body, wherein a horizontal support plate is arranged on the frame body, and a pressure mechanism is arranged at the rear side of the support plate; the pressure mechanism is provided with a lower pressure thrust end and an upper top thrust end; a longitudinal movement control mechanism is arranged between the pressure mechanism and the frame body; the device is characterized in that tool frames are arranged on the supporting plate in pairs along the longitudinal direction, and a transverse movement control mechanism is arranged between the tool frames and the supporting plate to control the transverse position of the tool frames; the tooling frame comprises a tooling plate at the lower end, a contour block is arranged on the tooling plate and forms a mounting station for mounting a workpiece, the tooling frame comprises a mounting plate at the upper end which can slide vertically, and a lower pressure rod and an upper top rod are respectively arranged on the tooling plate and the mounting plate, which can slide vertically corresponding to the press mounting point position of the workpiece; and a lower pressing thrust end and an upper jacking thrust end of the pressure mechanism can be respectively abutted against the lower pressing rod and the upper jacking rod, and the lower pressing rod and the upper jacking rod have opposite movement trends so as to press the member to be pressed on the workpiece press fitting point.
Therefore, when the composite opposite-top opposite-pressing machine with the structure works, the transverse movement control mechanism controls the tooling frame to transversely move to the outer side position of the supporting plate, and a worker installs and places a workpiece on the profiling block; the transverse movement control mechanism controls the tool frame to transversely move to the inner side position of the supporting plate, the transverse movement control mechanism can control the transverse position of the tool frame, and the longitudinal movement control mechanism can control the longitudinal position of the pressure mechanism, so that the pressure mechanism can press any press mounting point on a workpiece, and multi-point press mounting can be realized. In the equipment, the lower pressing thrust end and the upper jacking thrust end of the pressure mechanism can be respectively abutted against the lower pressing rod and the upper jacking rod, so that the lower pressing rod and the upper jacking rod have opposite movement trends to press the component to be pressed on a press-mounting point of the workpiece, the workpiece is subjected to downward pressure and upward jacking force at the moment, the workpiece can be better prevented from being crushed, the press-mounting of the component to be pressed is completed through the pressure and the jacking force, and the workpiece can be better protected. Secondly, be provided with two frock framves, can be more convenient go up unloading, reduce down time, improve work efficiency.
As optimization, the pressure mechanism comprises a pressure arm with a C-shaped structural design and a vertically upward mounting wall mounted on the frame body, and the pressure arm is vertically slidably mounted on the mounting wall through a first vertical guide structure; a counterweight block is arranged on one side of the mounting wall, which is far away from the pressure arm and can slide vertically through a second vertical guide structure, the upper end of the counterweight block is connected with a transmission chain, and the upper end of the transmission chain is connected with the pressure arm after bypassing a middle chain wheel arranged at the upper end of the mounting wall; a vertical tension structure is arranged between the lower end of the balancing weight and the lower end of the mounting wall so as to pull the balancing weight to slide downwards; a top rod is arranged at the lower end of the pressure arm in a vertical and upward direction, and an upper pushing thrust end is formed at the upper end of the top rod; a driving mechanism which is vertically arranged downwards is arranged at the upper end of the pressure arm, and a pressing rod is arranged at the driving end of the driving mechanism; the lower end of the pressure lever forms the pushing end.
In this way, the structural design of the pressure mechanism is simpler. When the press fitting is completed, the driving mechanism drives the pressing rod to move downwards and abut against the lower pressing rod, after the pressure is applied, the pressure arm can vertically slide, so that the lower end of the pressure arm moves upwards, the ejector rod at the lower end of the pressure arm moves upwards and abuts against the upper ejector rod, and the upper ejector rod and the lower pressing rod apply clamping force to a workpiece and a component to be pressed and fit with the workpiece and the component to be pressed and fitted. By the structure, the workpiece is prevented from directly bearing the downward pressure, the downward pressure can be offset, and the workpiece is better protected.
Further, the driving mechanism is a driving cylinder which is vertically arranged downwards.
Furthermore, the tension structure is a tension cylinder vertically arranged upwards.
Furthermore, the longitudinal movement control mechanism adopts two longitudinal guide rails which are longitudinally arranged, a guide block which is longitudinally arranged is correspondingly arranged at the lower end of the mounting wall, a longitudinal guide groove is formed in the guide block and matched with the longitudinal guide rails, a driving motor is arranged on the frame body, a driving lead screw is arranged at the driving end of the driving motor in a transmission mode, a driving block is arranged at the lower end of the mounting wall, a threaded hole is formed in the driving block, and the driving lead screw is in threaded fit in the threaded hole.
As optimization, the transverse movement control mechanism comprises two transverse guide rails on the support plate, the two transverse guide rails are arranged in pairs along the longitudinal direction of the support plate, the lower end of the tooling frame is provided with a transverse guide block corresponding to the transverse guide rails, and the transverse guide blocks are provided with transverse guide grooves and are respectively correspondingly matched with the transverse guide rails; and a transverse driving motor is arranged on the outer side of one transverse guide rail, an output shaft of the transverse driving motor is connected with a transverse screw rod, a connecting block is arranged on the tooling frame, and a driving threaded hole is formed in the connecting block and is in transmission fit with the transverse screw rod.
Therefore, the structure of the transverse movement control mechanism is simpler, and the transverse position of the tool rack can be better controlled.
As optimization, the tool frame comprises a bottom plate at the lower end and a fixed plate at the upper end, guide rods which are vertically and upwardly arranged are respectively arranged at four corner positions of the bottom plate, and the upper ends of the guide rods are respectively connected and fixed at the four corner positions of the fixed plate; the tooling plate is arranged on the upper surface of the bottom plate, the mounting plate is arranged below the fixing plate, and four corner positions of the mounting plate are respectively provided with a guide hole for the guide rod to pass through; the tool plate is provided with a mounting hole, the upper ejector rod can be vertically and slidably arranged in the mounting hole, and the bottom plate is provided with a vertical hole corresponding to the mounting hole so that the lower end of the upper ejector rod can penetrate through the vertical hole.
Like this, the structural design of whole frock frame is simpler, and what can be better makes the vertical slip of ejector pin for pressure equipment assembly quality is better.
Furthermore, guide sleeves are respectively arranged at four corner positions of the mounting plate, and the guide holes are formed in the guide sleeve inner holes.
As optimization, the middle part of the fixing plate is provided with a yielding hole for the upper end of the lower pressing rod to pass through; be equipped with in the backup pad and let a mouthful, go up the ejector pin lower extreme and can vertically follow downwards let a mouthful wear out.
Like this, structural design is simple more reasonable for whole structure is compacter.
As optimization, the contour blocks comprise a first contour block which is in a C-shaped structural design in the horizontal direction and a second contour block which is in an L-shaped structural design integrally, and the first contour block and the second contour block integrally surround a rectangle in the horizontal direction; two first positioning columns are arranged on the first profiling block; and a second positioning column is arranged on the second profiling block.
Therefore, the structural design of the profiling block is more reasonable, and the workpiece can be more conveniently installed.
In conclusion, the structure has the advantages that the structural design is simpler and more reasonable, the operation of workers can be more convenient, the downtime can be reduced to improve the efficiency, in addition, during the press mounting, the workpiece can be better protected through the downward pressing and the upward jacking, the multi-point press mounting can also be realized, and the equipment cost is reduced.
Drawings
Fig. 1 is a schematic structural view of the structure of the present invention.
Fig. 2 is a schematic structural view of fig. 1 without the outer cover.
Fig. 3 is a partially enlarged schematic view of a position a in fig. 2.
Fig. 4 is a partially enlarged schematic view of a B position in fig. 2.
Fig. 5 is a front view of fig. 2.
Fig. 6 is a rear view of fig. 2.
Fig. 7 is a left side view of fig. 2.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and examples, wherein it is noted that, in the description of the invention, the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular manner, and therefore should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
As shown in fig. 1 to 7, a composite opposite-butting pressing machine comprises a frame body 1, wherein a horizontal support plate 2 is arranged on the frame body, and a pressure mechanism 3 is arranged on the rear side of the support plate; the pressure mechanism is provided with a lower pressure thrust end and an upper top thrust end; a longitudinal movement control mechanism is arranged between the pressure mechanism and the frame body; tool frames 4 are arranged on the supporting plate in pairs along the longitudinal direction, and a transverse movement control mechanism is arranged between the tool frames and the supporting plate to control the transverse position of the tool frames; the tooling frame comprises a tooling plate 5 at the lower end, a profiling block 6 is arranged on the tooling plate and forms a mounting station for mounting a workpiece, the tooling frame comprises a mounting plate 7 with the upper end capable of vertically sliding, and a lower pressure rod 8 and an upper top rod 9 are respectively arranged on the tooling plate and the mounting plate and can vertically slide corresponding to the press mounting point position of the workpiece; and a lower pressing thrust end and an upper jacking thrust end of the pressure mechanism can be respectively abutted against the lower pressing rod and the upper jacking rod, and the lower pressing rod and the upper jacking rod have opposite movement trends so as to press the member to be pressed on the press mounting point of the workpiece.
When the composite opposite-top opposite-pressing machine with the structure works, the transverse movement control mechanism controls the tooling frame to transversely move to the outer side position of the supporting plate, and a worker installs and places a workpiece on the profiling block; the transverse movement control mechanism controls the tool frame to transversely move to the inner side position of the supporting plate, the transverse movement control mechanism can control the transverse position of the tool frame, and the longitudinal movement control mechanism can control the longitudinal position of the pressure mechanism, so that the pressure mechanism can press any press mounting point on a workpiece, and multi-point press mounting can be realized. In the equipment, the lower pressing thrust end and the upper jacking thrust end of the pressure mechanism can be respectively abutted against the lower pressing rod and the upper jacking rod, so that the lower pressing rod and the upper jacking rod have opposite movement trends to press the component to be pressed on a press mounting point of the workpiece, the workpiece is subjected to downward pressure and upward jacking force, the workpiece can be better prevented from being crushed, the press mounting of the component to be pressed is completed through the pressure and the jacking force, and the workpiece can be better protected. Secondly, be provided with two frock framves, can make things convenient for unloading more, reduce down time, improve work efficiency.
In this specific embodiment, the pressure mechanism includes a pressure arm 10 with a C-shaped structural design, and further includes a vertically upward mounting wall 11 mounted on the frame body, and the pressure arm is vertically slidably mounted on the mounting wall through a first vertical guide structure; a counterweight block 12 is arranged on one side of the mounting wall, which is far away from the pressure arm and can vertically slide through a second vertical guide structure, the upper end of the counterweight block is connected with a transmission chain 13, and the upper end of the transmission chain is connected with the pressure arm after bypassing a middle chain wheel arranged at the upper end of the mounting wall; a vertical tension structure is arranged between the lower end of the balancing weight and the lower end of the mounting wall so as to pull the balancing weight to slide downwards; a push rod is arranged at the lower end of the pressure arm in a vertical and upward direction, and an upper pushing force end is formed at the upper end of the push rod; a driving mechanism which is vertically arranged downwards is arranged at the upper end of the pressure arm, and a pressing rod is arranged at the driving end of the driving mechanism; the lower end of the pressure lever forms the lower pressure thrust end.
In this way, the structural design of the pressure mechanism is simpler. When the press fitting is completed, the driving mechanism drives the pressing rod to move downwards and abut against the lower pressing rod, after the pressure is applied, the pressure arm can vertically slide, so that the lower end of the pressure arm moves upwards, the ejector rod at the lower end of the pressure arm moves upwards and abuts against the upper ejector rod, and the upper ejector rod and the lower pressing rod apply clamping force to a workpiece and a component to be pressed and fit with the workpiece and the component to be pressed and fitted. By the structure, the workpiece is prevented from directly bearing the downward pressure, the downward pressure can be offset, and the workpiece is better protected.
Further, the driving mechanism is a driving cylinder which is vertically arranged downwards.
Furthermore, the tension structure is a tension cylinder vertically arranged upwards.
Furthermore, the longitudinal movement control mechanism adopts two longitudinal guide rails which are longitudinally arranged, a guide block which is longitudinally arranged is correspondingly arranged at the lower end of the mounting wall, a longitudinal guide groove is formed in the guide block and matched with the longitudinal guide rails, a driving motor is arranged on the frame body, a driving lead screw is arranged at the driving end of the driving motor in a transmission mode, a driving block is arranged at the lower end of the mounting wall, a threaded hole is formed in the driving block, and the driving lead screw is in threaded fit in the threaded hole.
In this specific embodiment, the lateral movement control mechanism includes two lateral guide rails 14 on the support plate, the two lateral guide rails are arranged in pairs along the longitudinal direction of the support plate, the lower end of the tooling frame is provided with a lateral guide block corresponding to the lateral guide rails, and the lateral guide blocks are provided with lateral guide grooves and are respectively and correspondingly arranged in cooperation with the lateral guide rails; a transverse driving motor 15 is arranged on the outer side of one transverse guide rail, an output shaft of the transverse driving motor is connected with a transverse screw rod 16, a connecting block 17 is arranged on the tooling frame, and a driving threaded hole is formed in the connecting block and is in transmission fit with the transverse screw rod.
Therefore, the structure of the transverse movement control mechanism is simpler, and the transverse position of the tool rack can be better controlled.
In the specific embodiment, the tool rack comprises a bottom plate 18 at the lower end and a fixing plate 19 at the upper end, guide rods 20 which are vertically and upwardly arranged are respectively arranged at four corner positions of the bottom plate, and the upper ends of the guide rods are respectively connected and fixed at the four corner positions of the fixing plate; the tooling plate is arranged on the upper surface of the bottom plate, the mounting plate is arranged below the fixing plate, and four corner positions of the mounting plate are respectively provided with a guide hole for the guide rod to pass through; the tool plate is provided with a mounting hole, the upper ejector rod can be vertically arranged in the mounting hole in a sliding manner, and the bottom plate is provided with a vertical hole corresponding to the mounting hole so that the lower end of the upper ejector rod can penetrate through the vertical hole.
Like this, the structural design of whole frock frame is simpler, and what can be better makes the vertical slip of ejector pin for pressure equipment assembly quality is better.
Furthermore, guide sleeves are respectively arranged at four corner positions of the mounting plate, and the guide holes are formed in the guide sleeve inner holes.
In the embodiment, the middle part of the fixing plate is provided with a yielding hole 21 for the upper end of the lower pressing rod to pass through; the supporting plate is provided with a position-giving opening, and the lower end of the upper ejector rod can vertically downwards penetrate through the position-giving opening.
Like this, structural design is simple more reasonable for whole structure is compacter.
In the specific embodiment, the profiling block comprises a first profiling block 22 which is designed to be in a C-shaped structure in the horizontal direction, and further comprises a second profiling block 23 which is designed to be in an L-shaped structure integrally, and the first profiling block and the second profiling block integrally surround a rectangle in the horizontal direction; two first positioning columns are arranged on the first profiling block; and a second positioning column is arranged on the second profiling block.
Therefore, the structural design of the profiling block is more reasonable, and the workpiece can be more conveniently installed.
In conclusion, the structure has the advantages that the structural design is simpler and more reasonable, the operation of workers can be more convenient, the downtime can be reduced to improve the efficiency, in addition, during the press mounting, the workpiece can be better protected through the downward pressing and the upward jacking, the multi-point press mounting can also be realized, and the equipment cost is reduced.
The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.
Claims (6)
1. A composite opposite-top opposite-pressing machine comprises a frame body, wherein a horizontal supporting plate is arranged on the frame body, and a pressure mechanism is arranged on the rear side of the supporting plate; the pressure mechanism is provided with a lower pressure thrust end and an upper top thrust end; a longitudinal movement control mechanism is arranged between the pressure mechanism and the frame body; the device is characterized in that tool frames are arranged on the supporting plate in pairs along the longitudinal direction, and a transverse movement control mechanism is arranged between the tool frames and the supporting plate to control the transverse position of the tool frames; the tooling frame comprises a tooling plate at the lower end, a contour block is arranged on the tooling plate and forms a mounting station for mounting a workpiece, the tooling frame comprises a mounting plate at the upper end which can slide vertically, and a lower pressure rod and an upper top rod are respectively arranged on the tooling plate and the mounting plate, which can slide vertically corresponding to the press mounting point position of the workpiece; and a lower pressing thrust end and an upper jacking thrust end of the pressure mechanism can be respectively abutted against the lower pressing rod and the upper jacking rod, and the lower pressing rod and the upper jacking rod have opposite movement trends so as to press the member to be pressed on the workpiece press fitting point.
2. The compound opposite-top opposite-pressing machine as claimed in claim 1, wherein: the pressure mechanism comprises a pressure arm with a C-shaped structural design and further comprises a vertically upward mounting wall mounted on the frame body, and the pressure arm is vertically slidably mounted on the mounting wall through a first vertical guide structure; a counterweight block is arranged on one side of the mounting wall, which is far away from the pressure arm and can slide vertically through a second vertical guide structure, the upper end of the counterweight block is connected with a transmission chain, and the upper end of the transmission chain is connected with the pressure arm after bypassing a middle chain wheel arranged at the upper end of the mounting wall; a vertical tension structure is arranged between the lower end of the balancing weight and the lower end of the mounting wall so as to pull the balancing weight to slide downwards; a top rod is arranged at the lower end of the pressure arm in a vertical and upward direction, and an upper pushing thrust end is formed at the upper end of the top rod; a driving mechanism which is vertically arranged downwards is arranged at the upper end of the pressure arm, and a pressing rod is arranged at the driving end of the driving mechanism; the lower end of the pressure lever forms the pushing end.
3. The compound opposite-top opposite-pressing machine as claimed in claim 1, wherein: the transverse movement control mechanism comprises transverse guide rails on a support plate, the transverse guide rails are arranged in pairs along the longitudinal direction of the support plate, the lower end of the tooling frame is provided with a transverse guide block corresponding to the transverse guide rails, and the transverse guide blocks are provided with transverse guide grooves which are respectively and correspondingly matched with the transverse guide rails; and a transverse driving motor is arranged on the outer side of one transverse guide rail, an output shaft of the transverse driving motor is connected with a transverse screw rod, a connecting block is arranged on the tool frame, and a driving threaded hole is formed in the connecting block and is in transmission fit with the transverse screw rod.
4. The compound counter-top counter-pressure machine according to claim 1, characterized in that: the tooling frame comprises a bottom plate at the lower end and a fixing plate at the upper end, guide rods which are vertically and upwardly arranged are respectively arranged at four corner positions of the bottom plate, and the upper ends of the guide rods are respectively connected and fixed at the four corner positions of the fixing plate; the tooling plate is arranged on the upper surface of the bottom plate, the mounting plate is arranged below the fixing plate, and four corner positions of the mounting plate are respectively provided with a guide hole for the guide rod to pass through; the tool plate is provided with a mounting hole, the upper ejector rod can be vertically arranged in the mounting hole in a sliding manner, and the bottom plate is provided with a vertical hole corresponding to the mounting hole so that the lower end of the upper ejector rod can penetrate through the vertical hole.
5. The compound opposite-top opposite-pressing machine as claimed in claim 4, wherein: the middle part of the fixed plate is provided with a abdication hole for the upper end of the lower pressing rod to pass through; the supporting plate is provided with a position-giving opening, and the lower end of the upper ejector rod can vertically downwards penetrate through the position-giving opening.
6. The compound counter-top counter-pressure machine according to claim 1, characterized in that: the profiling block comprises a first profiling block which is in a C-shaped structural design in the horizontal direction and a second profiling block which is in an L-shaped structural design integrally, and the first profiling block and the second profiling block integrally surround a rectangle in the horizontal direction; two first positioning columns are arranged on the first profiling block; and a second positioning column is arranged on the second profiling block.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221084947.1U CN217596404U (en) | 2022-04-28 | 2022-04-28 | Composite opposite-top opposite-pressing machine |
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Application Number | Priority Date | Filing Date | Title |
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CN202221084947.1U CN217596404U (en) | 2022-04-28 | 2022-04-28 | Composite opposite-top opposite-pressing machine |
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CN217596404U true CN217596404U (en) | 2022-10-18 |
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CN202221084947.1U Active CN217596404U (en) | 2022-04-28 | 2022-04-28 | Composite opposite-top opposite-pressing machine |
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2022
- 2022-04-28 CN CN202221084947.1U patent/CN217596404U/en active Active
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