CN213826500U - Efficient hydraulic press for welding machine - Google Patents

Efficient hydraulic press for welding machine Download PDF

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Publication number
CN213826500U
CN213826500U CN202022356880.XU CN202022356880U CN213826500U CN 213826500 U CN213826500 U CN 213826500U CN 202022356880 U CN202022356880 U CN 202022356880U CN 213826500 U CN213826500 U CN 213826500U
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bearing
base
hydraulic cylinder
distributed
axis
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桑俊波
王慧
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Zhengzhou Kaibo Welding And Cutting Equipment Co ltd
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Zhengzhou Kaibo Welding And Cutting Equipment Co ltd
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Abstract

The utility model relates to a high-efficient hydraulic pressure machine is used to welding machine, including bearing the base, the plummer, bear the stand, bearing the crossbeam, the direction slide rail, horizontal drive mechanism, the main drive pneumatic cylinder, the auxiliary drive pneumatic cylinder, the terminal surface passes through the auxiliary drive pneumatic cylinder under the plummer and is connected bottom the bearing the base, direction slide rail symmetric distribution is in bearing base axis both sides, the direction slide rail passes through horizontal drive mechanism and bears terminal surface sliding connection under the stand, bearing the crossbeam is located and bears base axis both sides between the stand, and cross lift drive mechanism and bear the base up end and be connected, the main drive pneumatic cylinder passes through horizontal drive mechanism and bearing the crossbeam sliding connection. On one hand, the novel pressure regulating valve is simple in structure, stable in pressure output and wide in pressure value regulating range; on the other hand can be according to the use needs, nimble adjustment equipment structure effectively satisfies the needs that different structure work piece processing operations used to reach the purpose that improves this novel operation commonality, use flexibility.

Description

Efficient hydraulic press for welding machine
Technical Field
The utility model relates to a press machine equipment belongs to machining equipment technical field.
Background
In the welding machine processing operation, the workpiece is easy to warp, bend and other deformations due to the thermal expansion and cold contraction effect during welding, therefore, in the actual processing operation, the pressure is often required to be applied to the workpiece through a press machine for positioning, correcting and other operations, and the press machines used at present are often traditional fixed frame structure press machine equipment, such as an integral welding type manual hydraulic press machine with the patent application number of '2012206126743', although the use requirement can be met, the equipment structure is relatively single and fixed, so that the structure of the press machine used in the current welding operation is relatively large; on the other hand, the press machine used in the current welding operation cannot flexibly adjust the structure of the press machine and the pressure output value according to the structural characteristics of the workpiece, so that the matching of the current press machine, the welding machine and the welding process is seriously affected, the welding quality of the workpiece is adversely affected, and the working efficiency of the workpiece welding operation is relatively low.
Therefore, in response to this problem, there is a need to develop new workpiece support apparatus to meet the practical needs.
SUMMERY OF THE UTILITY MODEL
The utility model discloses it is not enough just to aim at overcoming the aforesaid, provides a panel 360 upset seamless connection hinges. The utility model has simple structure, flexible and convenient use, simple structure, stable pressure output and wide pressure value adjusting range on the one hand; on the other hand can be according to the use needs, nimble adjustment equipment structure effectively satisfies the needs that different structure work piece processing operations used to reach the purpose that improves this novel operation commonality, use flexibility.
In order to achieve the above purpose, the utility model discloses a realize through following technical scheme:
a high-efficiency hydraulic press for welding machine is composed of a bearing base with U-shaped cross-section and with two parallel guide tracks, two bearing stands embedded in said bearing base and coaxially arranged with said bearing base, two auxiliary drive hydraulic cylinders connected to the bottom of said bearing base via at least three auxiliary drive hydraulic cylinders, two guide tracks symmetrically arranged at both sides of the axis of said bearing base and parallel to the axis of said bearing base, the horizontal driving mechanisms are arranged in the guide slide rails and are connected with the lower end faces of the bearing stand columns in a sliding manner through the horizontal driving mechanisms, at least two bearing stand columns are symmetrically distributed on two sides of the axis of the bearing base and are vertically distributed with the upper end face of the bearing base, the bearing cross beams are positioned between the bearing stand columns on two sides of the axis of the bearing base and are distributed in parallel with the upper end face of the bearing table, two end faces of the bearing cross beam are respectively abutted against and are connected with the bearing stand columns on two sides of the axis of the bearing base in a sliding manner and are connected with the upper end face of the bearing base through the lifting driving mechanisms, the axis of the main driving hydraulic cylinder is vertically distributed with the upper end face of the bearing table and is connected with the bearing cross beam through the horizontal driving mechanisms in a sliding manner, a plurality of displacement sensors are respectively positioned on the horizontal driving mechanisms and at two end positions of the bearing cross beam, each displacement sensor is electrically connected with the connecting terminal, and the connecting terminal are embedded on the outer side face of the bearing base, wherein the connector head is respectively communicated with the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder through high-pressure liquid pipes, and the wiring terminal is electrically connected with the lifting driving mechanism and the horizontal driving mechanism.
Furthermore, bear stand medial surface establish the cross section and be "Contraband" font guide way, the guide way distributes with bearing stand axis parallel, bear the weight of crossbeam both ends and inlay in the guide way and with guide way sliding connection, elevating drive mechanism inlays in the guide way and with the coaxial distribution of guide way.
Furthermore, the cross section of the bearing beam is rectangular, a guide groove which is coaxially distributed with the bearing beam is formed in the bearing beam, the length of the guide groove is 60% -90% of that of the bearing beam, and the main driving hydraulic cylinder is embedded in the guide groove and is in sliding connection with the side wall of the guide groove through a horizontal driving mechanism.
Further, the plummer up end than bear the weight of the base up end height 10-20 millimeters, and the plummer down end is located and bears the weight of the base to it is lower 5 millimeters at least than bearing the weight of the base up end, through two at least direction spout sliding connection between plummer side surface and the bearing base medial surface, the plummer down end is connected bottom bearing the base through a plurality of springs, the spring encircles the plummer axis and is rectangular array structure distribution.
Furthermore, an anvil iron is additionally arranged on the front end face of the piston column of the main driving hydraulic cylinder and is coaxially distributed with the anvil iron, pressure sensors are respectively arranged on the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder and are respectively connected with the front end faces of the piston columns of the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder and are coaxially distributed, and the pressure sensors are respectively and electrically connected with the wiring terminals.
Furthermore, the anvil iron is hinged with the main driving hydraulic cylinder through a universal hinge, the area of the lower end face of the anvil iron is at least 3 times that of the lower end face of the main driving hydraulic cylinder, and an included angle of 0-90 degrees is formed between the lower end face of the anvil iron and the axis of the main driving hydraulic cylinder.
Furthermore, a plurality of through holes are uniformly distributed at the bottoms of the bearing table and the bearing base, and the axes of the through holes are vertically distributed with the bottom of the bearing base.
The utility model has simple structure, flexible and convenient use, simple structure, stable pressure output and wide pressure value adjusting range on the one hand; on the other hand can be according to the use needs, nimble adjustment equipment structure effectively satisfies the needs that different structure work piece processing operations used to reach the purpose that improves this novel operation commonality, use flexibility.
Drawings
FIG. 1 is a schematic diagram of the novel structure;
fig. 2 is a schematic top view of the load beam.
Detailed Description
As shown in figures 1 and 2, a high-efficiency hydraulic press for welding machines comprises a bearing base 1, a bearing platform 2, a bearing upright post 3, a bearing beam 4, a lifting driving mechanism 5, a guide slide rail 6, a horizontal driving mechanism 7, a main driving hydraulic cylinder 8, auxiliary driving hydraulic cylinders 9, a displacement sensor 10, a connector 11 and a connecting terminal 12, wherein the bearing base 1 is of a U-shaped groove-shaped structure with the cross section, the axis of the U-shaped groove-shaped structure is vertical to the horizontal plane, the bearing platform 2 is of a plate-shaped structure with the cross section of a rectangle, is embedded in the bearing base 1 and is coaxially distributed with the bearing base 1, the lower end surface of the bearing platform 2 is connected with the bottom of the bearing base 1 through at least three auxiliary driving hydraulic cylinders 9, the auxiliary driving hydraulic cylinders 9 are uniformly distributed around the axis of the bearing platform 2 and are parallel to the axis of the bearing platform 2, the guide slide rails 6 are two and are connected with and parallel to the upper end surface of the bearing base 1, the guide slide rails 6 are symmetrically distributed on two sides of the axis of the bearing base 1 and are distributed in parallel with the axis of the bearing base 1, the guide slide rails 6 are internally provided with horizontal driving mechanisms 7 and are connected with the lower end surfaces of the bearing upright columns 3 in a sliding way through the horizontal driving mechanisms 7, at least two bearing upright columns 3 are symmetrically distributed on two sides of the axis of the bearing base 1 and are distributed vertically with the upper end surface of the bearing base 1, the bearing cross beams 4 are positioned between the bearing upright columns 2 on two sides of the axis of the bearing base 1 and are distributed in parallel with the upper end surface of the bearing table 2, two end surfaces of the bearing cross beams 4 are respectively abutted against and connected with the bearing upright columns 3 on two sides of the axis of the bearing base 1 in a sliding way and are connected with the upper end surface of the bearing base 1 through a lifting driving mechanism 5, the axis of a main driving hydraulic cylinder 8 is distributed vertically with the upper end surface of the bearing table 2 and is connected with the bearing cross beams 4 in a sliding way through the horizontal driving mechanisms 7, and a plurality of displacement sensors 10 are arranged, the horizontal driving mechanisms 7 and the two ends of the bearing beam 4 are respectively positioned, each displacement sensor 10 is electrically connected with a wiring terminal 12, the connecting pipe heads 11 and the wiring terminals 12 are embedded on the outer side surface of the bearing base 1, the connecting pipe heads 11 are respectively communicated with the main driving hydraulic cylinder 8 and the auxiliary driving hydraulic cylinder 9 through high-pressure liquid pipes, and the wiring terminals 12 are electrically connected with the lifting driving mechanisms 5 and the horizontal driving mechanisms 7.
The inner side surface of the bearing upright post 3 is provided with a guide groove 13 with a cross section in a shape of 'Contraband', the guide groove 13 is distributed in parallel with the axis of the bearing upright post 3, two ends of the bearing cross beam 4 are embedded in the guide groove 13 and are in sliding connection with the guide groove 13, and the lifting driving mechanism 5 is embedded in the guide groove 13 and is distributed coaxially with the guide groove 13.
It is worth noting that the cross section of the bearing beam 4 is rectangular, a guide groove 13 which is coaxial with the bearing beam 4 is arranged in the bearing beam 4, the length of the guide groove 13 is 60% -90% of the length of the bearing beam 4, and the main driving hydraulic cylinder 8 is embedded in the guide groove 13 and is connected with the side wall of the guide groove 13 in a sliding mode through the horizontal driving mechanism 7.
It is emphasized that, the upper end face of the bearing table 2 is 10-20 mm higher than the upper end face of the bearing base 1, the lower end face of the bearing table 2 is positioned in the bearing base 1 and is at least 5 mm lower than the upper end face of the bearing base 1, the side surface of the bearing table 2 is slidably connected with the inner side face of the bearing base 1 through at least two guide chutes 14, the lower end face of the bearing table 2 is connected with the bottom of the bearing base 1 through a plurality of springs 15, and the springs 15 are distributed in a rectangular array structure around the axis of the bearing table 2.
In addition, an anvil 16 is additionally arranged on the front end face of the piston column of the main driving hydraulic cylinder 8 and is distributed coaxially with the anvil 16, a pressure sensor 17 is respectively arranged on the main driving hydraulic cylinder 8 and the auxiliary driving hydraulic cylinder 9, the pressure sensors 17 are respectively connected with the front end faces of the piston columns of the main driving hydraulic cylinder 8 and the auxiliary driving hydraulic cylinder 9 and are distributed coaxially, and the pressure sensors 17 are respectively and electrically connected with the connecting terminal 12.
Preferably, the anvil 16 is hinged to the main driving hydraulic cylinder 8 through a universal hinge, the area of the lower end face of the anvil 16 is at least 3 times that of the lower end face of the main driving hydraulic cylinder 8, and an included angle of 0-90 degrees is formed between the lower end face of the anvil 16 and the axis of the main driving hydraulic cylinder 8.
In this embodiment, the bearing table 2 and the bearing base 1 are uniformly distributed with a plurality of through holes 18, and the axes of the through holes 18 are vertically distributed with the bottom of the bearing base 1.
This is novel in the concrete implementation, at first to constituting this neotype base that bears, the plummer, bear the stand, bear the weight of the crossbeam, lift actuating mechanism, direction slide rail, horizontal drive mechanism, main drive pneumatic cylinder, auxiliary drive pneumatic cylinder, displacement sensor, connector tube head and binding post assemble, then will assemble this neotype through bearing pedestal mounting to appointed operating position, at last with this neotype binding post and outside control circuit and electrical power system electrical connection, will connect tube head and outside hydraulic pressure station to pass through the honeycomb duct intercommunication, can accomplish the novel assembly of cost.
This is novel in concrete implementation, at first place the work piece at the plummer up end and location, then treat the position of processing operation face according to the work piece, it removes along the direction slide rail to bear the stand through the drive of horizontal drive mechanism, adjust and bear the crossbeam to the work piece processing operation face directly over, then adjust the interval between bearing the crossbeam and the work piece through lift drive mechanism, then the operating position through horizontal drive mechanism adjustment main drive pneumatic cylinder, and make main drive pneumatic cylinder be located the work piece processing operation face directly over, drive main drive pneumatic cylinder operation at last, the anvil iron by the main drive pneumatic cylinder exerts the pressure processing operation to the work piece, can reach the purpose of pressure processing operation.
In the novel operation, on one hand, the displacement of the bearing upright post and the bearing cross beam is accurately controlled through the displacement sensor, and the pressure born by the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder is accurately detected through the pressure sensor, so that the aim of accurately controlling the pressure output is fulfilled; on the other hand when main drive pneumatic cylinder moves, accessible auxiliary drive pneumatic cylinder assistance-control work piece position in vertical ascending position in addition can apply pressure for main drive pneumatic cylinder and provide auxiliary pressure simultaneously, further improves this novel effective scope of moving pressure regulating value, improves this novel flexibility and application scope of using.
The utility model has simple structure, flexible and convenient use, simple structure, stable pressure output and wide pressure value adjusting range on the one hand; on the other hand can be according to the use needs, nimble adjustment equipment structure effectively satisfies the needs that different structure work piece processing operations used to reach the purpose that improves this novel operation commonality, use flexibility.
In addition, in this novel operation, welding slag, the cinder impurity that drops are peeled off in addition accessible plummer and the thru hole that bears the weight of the base to processing is effectively clear away to the realization is carried out aeration cooling operation to the work piece.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a high-efficient hydraulic press is used to welding machine which characterized in that: the high-efficiency hydraulic press for the welding machine comprises a bearing base, a bearing table, a bearing upright post, a bearing cross beam, a lifting driving mechanism, a guide slide rail, a horizontal driving mechanism, a main driving hydraulic cylinder, auxiliary driving hydraulic cylinders, a displacement sensor, a connector head and a connecting terminal, wherein the bearing base is of a U-shaped groove-shaped structure with the cross section, the axis of the bearing base is vertically distributed with the horizontal plane, the bearing table is of a plate-shaped structure with the cross section of a rectangle, is embedded in the bearing base and is coaxially distributed with the bearing base, the lower end surface of the bearing table is connected with the bottom of the bearing base through at least three auxiliary driving hydraulic cylinders, the auxiliary driving hydraulic cylinders are uniformly distributed around the axis of the bearing table and are distributed in parallel with the axis of the bearing table, the number of the guide slide rails is two, the two guide slide rails are connected with the upper end surface of the bearing, the guide slide rail is internally provided with a horizontal driving mechanism and is connected with the lower end surface of the bearing upright column in a sliding way through the horizontal driving mechanism, at least two bearing upright columns are symmetrically distributed at two sides of the axis of the bearing base and are vertically distributed with the upper end surface of the bearing base, the bearing cross beam is positioned between the bearing upright columns at two sides of the axis of the bearing base and is distributed in parallel with the upper end surface of the bearing table, two end surfaces of the bearing cross beam are respectively abutted against and are connected with the bearing upright columns at two sides of the axis of the bearing base in a sliding way and are connected with the upper end surface of the bearing base through a lifting driving mechanism, the axis of the main driving hydraulic cylinder is vertically distributed with the upper end surface of the bearing table and is connected with the bearing cross beam in a sliding way through the horizontal driving mechanism, a plurality of displacement sensors are respectively positioned at the positions of each horizontal driving mechanism and two ends of the bearing cross beam, each displacement sensor is electrically connected with a connecting terminal, and the connecting terminal are embedded on the outer side surface of the bearing base, wherein the connector head is respectively communicated with the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder through high-pressure liquid pipes, and the wiring terminal is electrically connected with the lifting driving mechanism and the horizontal driving mechanism.
2. The high-efficiency hydraulic press for the welding machine as claimed in claim 1, wherein: the bearing upright post is characterized in that a guide groove with the cross section being in a shape like Contraband is formed in the inner side face of the bearing upright post, the guide groove is distributed in parallel with the axis of the bearing upright post, two ends of the bearing cross beam are embedded in the guide groove and are in sliding connection with the guide groove, and the lifting driving mechanism is embedded in the guide groove and is distributed coaxially with the guide groove.
3. The high-efficiency hydraulic press for the welding machine as claimed in claim 1, wherein: the cross section of the bearing beam is rectangular, a guide groove which is coaxially distributed with the bearing beam is arranged in the bearing beam, the length of the guide groove is 60% -90% of that of the bearing beam, and the main driving hydraulic cylinder is embedded in the guide groove and is in sliding connection with the side wall of the guide groove through a horizontal driving mechanism.
4. The high-efficiency hydraulic press for the welding machine as claimed in claim 1, wherein: the utility model discloses a bearing device, including bearing base, plummer, bearing platform up end 10-20 millimeters than bearing base up end height, and the bearing platform down end is located and bears the base to bear the base up end and hang down 5 millimeters at least than bearing the base up end, through two at least direction spout sliding connection between plummer side surface and the bearing base medial surface, the terminal surface is connected bottom bearing the base through a plurality of springs under the plummer, the spring encircles the plummer axis and is the distribution of rectangle array structure.
5. The high-efficiency hydraulic press for the welding machine as claimed in claim 1, wherein: the front end face of the piston column of the main driving hydraulic cylinder is additionally provided with an anvil iron which is coaxially distributed with the anvil iron, the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder are respectively provided with a pressure sensor which is respectively connected with the front end faces of the piston columns of the main driving hydraulic cylinder and the auxiliary driving hydraulic cylinder and coaxially distributed, and the pressure sensors are respectively and electrically connected with the wiring terminals.
6. The high-efficiency hydraulic press for the welding machine as claimed in claim 5, wherein: the anvil iron is hinged with the main driving hydraulic cylinder through a universal hinge, the area of the lower end face of the anvil iron is at least 3 times that of the lower end face of the main driving hydraulic cylinder, and an included angle of 0-90 degrees is formed between the lower end face of the anvil iron and the axis of the main driving hydraulic cylinder.
7. The high-efficiency hydraulic press for the welding machine as claimed in claim 1, wherein: the bottom of the bearing table and the bottom of the bearing base are uniformly distributed with a plurality of through holes, and the axes of the through holes are vertically distributed with the bottom of the bearing base.
CN202022356880.XU 2020-10-21 2020-10-21 Efficient hydraulic press for welding machine Active CN213826500U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022356880.XU CN213826500U (en) 2020-10-21 2020-10-21 Efficient hydraulic press for welding machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022356880.XU CN213826500U (en) 2020-10-21 2020-10-21 Efficient hydraulic press for welding machine

Publications (1)

Publication Number Publication Date
CN213826500U true CN213826500U (en) 2021-07-30

Family

ID=77009933

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022356880.XU Active CN213826500U (en) 2020-10-21 2020-10-21 Efficient hydraulic press for welding machine

Country Status (1)

Country Link
CN (1) CN213826500U (en)

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