CN209256135U - A kind of pressure maintaining pressing member and its bonding machine - Google Patents

Abstract

The utility model discloses a kind of pressure maintaining pressing member and its bonding machines.The pressure maintaining pressing member includes the first kinetoplast and the second kinetoplast, is connected between first kinetoplast and second kinetoplast by pressure maintaining elastomeric element.With trend that is close to each other or being located remotely from each other under the action of external force and the pressure maintaining elastomeric element elastic force between first kinetoplast and second kinetoplast.The bonding machine includes lower electric heating clamping plate and upper electric heating clamping plate, is connected respectively by pressing member between the both ends of the lower electric heating clamping plate and the both ends of the upper electric heating clamping plate；Alternatively, the middle part of the upper electric heating clamping plate is pressurizeed by pressing member, the pressing member is pressure maintaining pressing member as elucidated before.After the utility model presses to waterstop, although being squeezed out around after waterstop heating softening, the pressure almost constant of lower electric heating clamping plate and upper electric heating clamping plate to waterstop, it does not need manually to adjust repeatedly, improves the welding fastness of waterstop, reduce the labor intensity of employee.

Description

A kind of pressure maintaining pressing member and its bonding machine

Technical field

The utility model relates to a kind of pressing member and its soldering appliance more particularly to a kind of pressure maintaining pressing member and its welderings It picks.

Background technique

Since the length in construction working face has with short, and therefore, it is very difficult to guarantee length and the construction working face of waterstop Length is consistent.When the length in construction working face is less than the length of waterstop, it is necessary to amputate the extra part of waterstop.When applying When the length of work working face is greater than the length of waterstop, it is necessary to the lapping ends of two waterstops are welded together, At this moment sealing tape welding machine has just been used.

In the prior art, sealing tape welding machine includes lower electric heating clamping plate and upper electric heating clamping plate, one end of lower electric heating clamping plate and One end of upper electric heating clamping plate is hinged by rigid hinge, and the other end of the other end of lower electric heating clamping plate and upper electric heating clamping plate passes through rigid Property pressurization locking handwheel pressurization connection, lower electric heating clamping plate and upper electric heating clamping plate be provided with circulating water channel, circulating water Channel is provided with inlet and outlet, and the water inlet in circulating water channel is connected to water source, and water source refers to mobile cold But water tank.

The sealing tape welding machine of the prior art has the disadvantages that.

1, since one end of lower electric heating clamping plate and one end of upper electric heating clamping plate are hinged by rigid hinge, lower electric heating clamping plate The other end of the other end and upper electric heating clamping plate locks handwheel pressurization connection by rigid pressurized, so, soften when waterstop heats Afterwards, waterstop is acted on by the extruding force of electric heating clamping plate under waterstop welding machine and upper electric heating clamping plate, is squeezed out around, at this time sealing Electric heating clamping plate and upper electric heating clamping plate decline the pressure of waterstop under tape welding machine, in order to keep enough pressure to waterstop, Handwheel must be tightened again in time and carry out pressure benefit punching.Multiple pressure benefit punching will be carried out by welding a sealing belt lacing, not tightly Operate it is cumbersome, moreover, one end be the rigid hinge other end be rigid pressurized locking handwheel waterstop welding machine can not carry out both ends It locks simultaneously, can all cause to weld fastness decline because of pressure at two ends difference in this way.

2, since lower electric heating clamping plate and upper electric heating clamping plate are provided with circulating water channel, circulating water channel is provided with The water inlet of inlet and outlet, circulating water channel is connected to water source, so, it is needed by the cooling waterstop of water-cooled Return water is discharged, in this way, not only polluting environment, furthermore, it would be desirable to constantly infuse new water, consumes water resource significantly.Because The welding of the site constructions such as tunnel is frequent movement, not sufficient water source, so can only reuse return water, due to just welding The residual temperature of the lower electric heating clamping plate and upper electric heating clamping plate completed is very high, can heat to water, so the extreme temperatures of return water, mobile Formula cooling water tank very little, so being easy to that the circulating water temperature in water tank is allowed to increase, lasting cooling operations effect is very poor.If you need to When duration welds, water must be constantly changed, not only large labor intensity, moreover, pollution environment, consumes water resource.

Utility model content

First technical problem to be solved in the utility model is to provide a kind of pressure maintaining pressing member, is pressurizeed by the pressure maintaining Component makes after electric heating clamping plate and upper electric heating clamping plate press to waterstop under bonding machine, although squeezing around after waterstop heating softening Out, still, lower electric heating clamping plate and upper electric heating clamping plate do not need manually to adjust repeatedly, significantly to the pressure almost constant of waterstop The welding fastness for improving waterstop, greatly reduces the labor intensity of employee.

Second technical problem to be solved in the utility model is to provide a kind of bonding machine, the lower electric heating clamping plate of the bonding machine With upper electric heating clamping plate to waterstop pressure after, although being squeezed out around after waterstop heating softening, lower electric heating clamping plate and upper Electric heating clamping plate does not need manually to adjust repeatedly, greatly improves the welding fastness of waterstop, greatly to the pressure almost constant of waterstop The labor intensity of employee is reduced greatly.

For pressing member, in order to solve above-mentioned first technical problem, the utility model provides a kind of pressure maintaining and adds Splenium part, including the first kinetoplast and the second kinetoplast pass through pressure maintaining elastomeric element between first kinetoplast and second kinetoplast Connection.Have under the action of external force and the pressure maintaining elastomeric element elastic force between first kinetoplast and second kinetoplast Trend that is close to each other or being located remotely from each other.

The external force is external broach, and correspondingly, the elastic force is elastic pulling force.

When the external broach is greater than the elastic pulling force, then there is phase between first kinetoplast and second kinetoplast Mutually separate trend.

When the external broach is less than the elastic pulling force, then there is phase between first kinetoplast and second kinetoplast Mutually close trend.

Alternatively,

The external force is external pressure, and correspondingly, the elastic force is elastic pressure.

When the external pressure is greater than the elastic pressure, then there is phase between first kinetoplast and second kinetoplast Mutually close trend.

When the external pressure is less than the elastic pressure, then there is phase between first kinetoplast and second kinetoplast Mutually separate trend.

It is pressurization connection between first kinetoplast and one end of the pressure maintaining elastomeric element, correspondingly, described second is dynamic It is also pressurization connection between body and the other end of the pressure maintaining elastomeric element.

Alternatively,

It is hanging connection between first kinetoplast and one end of the pressure maintaining elastomeric element, correspondingly, described second is dynamic It is also hanging connection between body and the other end of the pressure maintaining elastomeric element.

The shape of first kinetoplast is in cylinder.

The cylinder is cylindrical body or square body.

The upwardly recessed epicoele formed for accommodating pressure maintaining elastomeric element top in the middle part of the bottom surface of first kinetoplast Room.

The upper chamber is cylindrical upper chamber or square column type upper chamber.

The shape of second kinetoplast is in cylinder.

The cylinder is cylindrical body or square body.

The top surface of second kinetoplast is downwardly concaved the lower chambers to be formed for accommodating pressure maintaining elastomeric element lower part.

The top of second kinetoplast is together with the lower part fitting of first kinetoplast.

It can relatively be moved back and forth in the axial direction between second kinetoplast and first kinetoplast.

The radial dimension of first kinetoplast upper chamber is greater than the radial dimension of second kinetoplast.

First kinetoplast is nested on second kinetoplast.

The side wall of the upper chamber at least offers an axially directed limit pin hole.

The axially directed limit pin hole has one or two or three or four.

The axially directed limit pin hole is circumferentially uniformly distributed along the side wall of the upper chamber.

The axially directed limit pin hole is close to the bottom surface of first kinetoplast.

The axially directed limit pin hole is threaded hole.

The axially directed limit pin hole is configured with axially directed spacer pin.

The axially directed spacer pin is threaded pin or resilient key or interference pin shaft.

Correspondingly,

The lateral wall of the lower chambers at least offers an axially directed limiting slot.

The both ends of the axially directed limiting slot are closed.

The axially directed limiting slot has one or two or three or four.

The axially directed limiting slot is circumferentially uniformly distributed along the lateral wall of the lower chambers.

The axially directed spacer pin and the axially directed limiting slot guide and limit cooperate.

Alternatively,

The radial dimension of first kinetoplast is less than the radial dimension of the second kinetoplast lower chambers.

First kinetoplast is inserted into the bottom chamber of second kinetoplast.

The side wall of the lower chambers at least offers an axially directed limit pin hole.

The axially directed limit pin hole has one or two or three or four.

The axially directed limit pin hole is circumferentially uniformly distributed along the side wall of the lower chambers.

The axially directed limit pin hole is close to the top surface of second kinetoplast.

The axially directed limit pin hole is threaded hole.

The axially directed limit pin hole is configured with axially directed spacer pin.

The axially directed spacer pin is threaded pin or resilient key or interference pin shaft.

Correspondingly,

The lateral wall of the upper chamber at least offers an axially directed limiting slot.

The both ends of the axially directed limiting slot are closed.

The axially directed limiting slot has one or two or three or four.

The axially directed limiting slot is circumferentially uniformly distributed along the lateral wall of the upper chamber.

The axially directed spacer pin and the axially directed limiting slot guide and limit cooperate.

The pressure maintaining pressing member is configured with reinforcing component.

The reinforcing component is threaded rod and/or polished rod.

The reinforcing component has one or two.

It is fixedly connected or is rotatablely connected or be threadedly coupled between the reinforcing component and first kinetoplast or connection of pressurizeing.

It is fixedly connected or is rotatablely connected or be threadedly coupled between the reinforcing component and second kinetoplast or connection of pressurizeing.

The top surface of first kinetoplast, which is located on axis, offers hole to perforation.

The upper hole is unthreaded hole or threaded hole.And/or

The bottom surface of second kinetoplast, which is located on axis, offers mesoporous to perforation.

The mesoporous is unthreaded hole or threaded hole.

The reinforcing component has one.

One reinforcing component is a threaded rod.

The lower end of one threaded rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of one threaded rod and the top surface of first kinetoplast are rotatablely connected.Alternatively,

The upper end of one threaded rod is threadedly coupled with first kinetoplast, and the lower end of the threaded rod passes through described second The unthreaded hole of kinetoplast.Alternatively,

The upper end of one threaded rod is fixedly connected with the bottom surface of first kinetoplast, and the lower end of the threaded rod passes through institute State the unthreaded hole of the second kinetoplast.Alternatively,

The upper end of one threaded rod and the bottom surface of first kinetoplast are rotatablely connected, and the lower end of the threaded rod passes through institute State the unthreaded hole of the second kinetoplast.Alternatively,

The upper end of one threaded rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of one threaded rod and the bottom surface of second kinetoplast are rotatablely connected.Alternatively,

The lower end of one threaded rod is threadedly coupled with second kinetoplast, and the upper end of the threaded rod passes through described first The unthreaded hole of kinetoplast.Alternatively,

The lower end of one threaded rod is fixedly connected with the top surface of second kinetoplast, and the upper end of the threaded rod passes through institute State the unthreaded hole of the first kinetoplast.Alternatively,

The lower end of one threaded rod and the bottom surface of second kinetoplast are rotatablely connected, the upper end of a threaded rod Across the unthreaded hole of first kinetoplast.

One reinforcing component is a polished rod.

The lower end of one polished rod sequentially passes through the unthreaded hole of first kinetoplast and the unthreaded hole of second kinetoplast.Or Person,

The lower end of one polished rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of one polished rod and the top surface of first kinetoplast are rotatablely connected.Alternatively,

The upper end of one polished rod is fixedly connected with the bottom surface of first kinetoplast, and the lower end of the polished rod passes through described the The unthreaded hole of two kinetoplasts.Alternatively,

The bottom surface of the upper end of one polished rod and first kinetoplast is rotatablely connected, and the lower end of the polished rod passes through described the The unthreaded hole of two kinetoplasts.Or.

The upper end of one polished rod sequentially passes through the unthreaded hole of second kinetoplast and the unthreaded hole of first kinetoplast.Or Person,

The upper end of one polished rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of one polished rod and the bottom surface of second kinetoplast are rotatablely connected.Alternatively,

The lower end of one polished rod is fixedly connected with the top surface of second kinetoplast, and the upper end of the polished rod passes through described the The unthreaded hole of one kinetoplast.Alternatively,

The bottom surface of the lower end of one polished rod and second kinetoplast is rotatablely connected, and the upper end of the polished rod passes through described the The unthreaded hole of one kinetoplast.

There are two the reinforcing components.

Two reinforcing components are all threaded rods.

The lower end of one threaded rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of one threaded rod and the top surface of first kinetoplast are rotatablely connected.Alternatively,

The lower end of one threaded rod is threadedly coupled with first kinetoplast.

The upper end of another threaded rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of another threaded rod and the bottom surface of second kinetoplast are rotatablely connected.Alternatively,

The upper end of another threaded rod is threadedly coupled with second kinetoplast.

Two reinforcing components are all polished rods.

The lower end of one polished rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of one polished rod and the top surface of first kinetoplast are rotatablely connected.

The upper end of another polished rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of another polished rod and the bottom surface of second kinetoplast are rotatablely connected.

In two reinforcing components, a reinforcing component is threaded rod, another described reinforcing component is polished rod.

The lower end of the threaded rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of the threaded rod and the top surface of first kinetoplast are rotatablely connected.Alternatively,

The lower end of the threaded rod is threadedly coupled with first kinetoplast.

The upper end of the polished rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of the polished rod and the bottom surface of second kinetoplast are rotatablely connected.

The lower end of the polished rod is fixedly connected with the top surface of first kinetoplast.Alternatively,

The lower end of the polished rod and the top surface of first kinetoplast are rotatablely connected.

The upper end of the threaded rod is fixedly connected with the bottom surface of second kinetoplast.Alternatively,

The upper end of the threaded rod and the bottom surface of second kinetoplast are rotatablely connected.Alternatively,

The upper end of the threaded rod is threadedly coupled with second kinetoplast.

The bottom surface of second kinetoplast is plane.

Alternatively,

The bottom surface of second kinetoplast is configured with abrasionproof pad.

Cylindrical spindle nose is downwardly protrude to form in the middle part of the bottom surface of second kinetoplast.

The bottom surface edge of second kinetoplast is pressure bottom surface.

The side of the spindle nose is circumferentially arranged circumferential guide groove.

The shape of the abrasionproof pad is in cylinder.

The cylinder is cylindrical body.

It is downwardly concaved to form axocoel room in the middle part of the top surface of the abrasionproof pad.

The top surface edge of the abrasionproof pad is compression top surface.

The bottom surface of the abrasionproof pad, which is located on axis, offers lower open-work to perforation.

The bottom surface of the abrasionproof pad is pressurization bottom surface.

The side wall of the axocoel room is at least provided with a circumferential guide pin hole.

The circumferential direction guide pin hole has one or two or three or four.

The circumferential direction guide pin hole is screw thread pin hole.

The circumferential direction guide pin hole is configured with circumferential guide pin.

The circumferential direction guide pin and the circumferential guide groove guiding cooperate.

Alternatively,

Upwardly recessed formation axocoel room in the middle part of the bottom surface of second kinetoplast.

The bottom surface edge of second kinetoplast is pressure bottom surface.

The side wall of the axocoel room is at least provided with a circumferential guide pin hole.

The circumferential direction guide pin hole has one or two or three or four.

The circumferential direction guide pin hole is screw thread pin hole.

The circumferential direction guide pin hole is configured with circumferential guide pin.

The shape of the abrasionproof pad is in cylinder.

The cylinder is cylindrical body.

The cylindrical spindle nose of formation protruding upward in the middle part of the top surface of the abrasionproof pad.

The top surface edge of the abrasionproof pad is compression top surface.

The bottom surface of the abrasionproof pad, which is located on axis, offers lower opening to perforation.

The side of the spindle nose is circumferentially arranged circumferential guide groove.

The circumferential direction guide pin and the circumferential guide groove guiding cooperate.

The pressure bottom surface is smooth plane.

The compression top surface is smooth plane.

It is slidably connected between the pressure bottom surface and the compression top surface.

Alternatively,

It is rolled and is connected by rolling member between the pressure bottom surface and the compression top surface.

The rolling member is ball or thrust bearing or oil-containing washer.

The compression top surface is circumferentially distributed ball location hole.

The lower part of the ball is located at the ball positioning hole.

Alternatively,

The pressure bottom surface is circumferentially distributed ball location hole.

The top of the ball is located at the ball positioning hole.

The pressurization bottom surface is rough surface.

The edge of open-work is downwardly extending cylinder under the bottom surface of the abrasionproof pad.

The lower edge of the cylinder extends radially outward to form coaxial upper disk and lower disc.

The upper disk is positioning disk body.

The lower disc is pressurization disk body.

The diameter of the positioning disk body is less than the diameter of the pressurization disk body.

The pressurization disk body is configured with heat-insulated pad.

The shape of the heat-insulated pad, which presents face, has open disc shell.

The radially inwardly extending formation snap ring in the edge of the opening.Alternatively, the edge compartment of terrain of the opening is radially Extend inwardly to form clamp.

The heat-insulated pad is fastened on the pressurization disk body.

The heat-insulated pad is pressed into after processing is completed to be fastened on the pressurization disk body.

Alternatively,

The medial surface of the opening, which prolongs, is circumferentially provided with annular slot.

The heat-insulated pad is fixed on pressurization disk body by internal jump ring.

Alternatively,

The rounded plate of shape of the heat-insulated pad.

The bottom surface of the heat-insulated pad is provided with countersunk head fixation hole.

The bottom surface of the pressurization disk body is provided with threaded securing bores.

The heat-insulated pad is fixedly connected by sunk screw with the bottom surface of the pressurization disk body.

The bottom surface of the heat-insulated pad, which is located on axis, offers bottom outlet.

The heat-insulated pad is made of high temperature resistant heat insulation material.

The high temperature resistant heat insulation material is the temperature-resistant materials such as polytetrafluoroethylene (PTFE) or nylon or epoxy material or bakelite.

Handwheel is provided at the top of first kinetoplast.Alternatively,

The bottom of second kinetoplast is provided with handwheel.Alternatively,

The upper end of the threaded rod is provided with handwheel.Alternatively,

The lower end of the threaded rod is provided with handwheel.

The side of the threaded rod upper end is provided with circumferential guide groove and configured with circumferential guide pin.Alternatively,

The side of the threaded rod lower end is provided with circumferential guide groove and configured with circumferential guide pin.

The side of the threaded rod upper end, which is provided with, reams and configured with hinged shaft.Alternatively,

The side of the threaded rod lower end, which is provided with, reams and configured with hinged shaft.

The threaded rod is configured with nut.

The side of the polished rod upper end is provided with circumferential guide groove and configured with circumferential guide pin.Alternatively,

The side of the polished rod lower end is provided with circumferential guide groove and configured with circumferential guide pin.

The side of the polished rod upper end, which is provided with, reams and configured with hinged shaft.Alternatively,

The side of the polished rod lower end, which is provided with, reams and configured with hinged shaft.

The pressure maintaining elastomeric element is helical spring or leaf spring or elastic balloon body or elastic liquid capsule body.

The helical spring is cylindrical helical spring or tower-shaped helical spring.

The helical spring is formed by steel wire wound.

The cross section of the steel wire is rectangular or rectangle or circle or cydariform.

The leaf spring is to fold leaf spring or annular leaf spring.

The leaf spring offers axis hole along its length.

The elastic balloon body and the elastic liquid capsule body are made of heat-resisting material.

The pressure maintaining pressing member of the utility model has the advantages that compared with prior art.

1, the technical program passes through pressure maintaining elastomeric element due to using between first kinetoplast and second kinetoplast Connection.Have under the action of external force and the pressure maintaining elastomeric element elastic force between first kinetoplast and second kinetoplast The technological means of trend that is close to each other or being located remotely from each other, so, the pressure maintaining pressing member can make under bonding machine electric heating clamping plate and After upper electric heating clamping plate presses to waterstop, although being squeezed out around after waterstop heating softening, lower electric heating clamping plate and power on Hot clamping plate does not need manually to adjust repeatedly, greatly improves the welding fastness of waterstop, significantly to the pressure almost constant of waterstop Reduce the labor intensity of employee.It underlines herein, the pressure maintaining pressing member of present embodiment can not only make under bonding machine Electric heating clamping plate and upper electric heating clamping plate press to waterstop, furthermore, it is possible to the occasion for any required pressure maintaining pressurization.

2, the technical program is external broach due to using the external force, and correspondingly, the elastic force is elastic pulling force；When When the external broach is greater than the elastic pulling force, then have what is be located remotely from each other to become between first kinetoplast and second kinetoplast Gesture；When the external broach is less than the elastic pulling force, then has between first kinetoplast and second kinetoplast and mutually lean on Close trend.Alternatively, the external force is external pressure, correspondingly, the elastic force is elastic pressure；When the external pressure is greater than institute When stating elastic pressure, then there is trend close to each other between first kinetoplast and second kinetoplast；When the external pressure When less than the elastic pressure, then there is the technology hand for the trend being located remotely from each other between first kinetoplast and second kinetoplast Section, so, a variety of pressure maintaining pressing members can be produced according to the actual situation.

3, the technical program is pressurization between first kinetoplast and one end of the pressure maintaining elastomeric element due to using Connection correspondingly, between second kinetoplast and the other end of the pressure maintaining elastomeric element is also pressurization connection；Alternatively, described It is hanging connection, correspondingly, second kinetoplast and the pressure maintaining between first kinetoplast and one end of the pressure maintaining elastomeric element It is also the technological means of hanging connection between the other end of elastomeric element, so, present embodiment can be according to the different need of client It asks and produces a variety of pressure maintaining pressing members.

4, the technical program is due to using the shape of first kinetoplast in cylinder；The cylinder is cylindrical body or square column Body；The upwardly recessed upper chamber formed for accommodating pressure maintaining elastomeric element top in the middle part of the bottom surface of first kinetoplast；Institute Stating upper chamber is cylindrical upper chamber or square column type upper chamber；The shape of second kinetoplast is in cylinder；The cylinder is cylinder Body or square body；The top surface of second kinetoplast is downwardly concaved the cavity of resorption to be formed for accommodating pressure maintaining elastomeric element lower part Room；The top of second kinetoplast is together with the lower part fitting of first kinetoplast；Second kinetoplast is dynamic with described first It can relatively be moved back and forth in the axial direction between body；It is dynamic that the radial dimension of first kinetoplast upper chamber is greater than described second The radial dimension of body；First kinetoplast is nested on second kinetoplast；The side wall of the upper chamber at least offers one Axially directed limit pin hole；The axially directed limit pin hole has one or two or three or four；The axially directed limit Position pin hole is circumferentially uniformly distributed along the side wall of the upper chamber；The axially directed limit pin hole is close to first kinetoplast Bottom surface；The axially directed limit pin hole is threaded hole；The axially directed limit pin hole is configured with axially directed spacer pin；Institute Stating axially directed spacer pin is threaded pin or resilient key or interference pin shaft；Correspondingly, the lateral wall of the lower chambers is at least opened Equipped with an axially directed limiting slot；The both ends of the axially directed limiting slot are closed；The axially directed limiting slot has One or two or three or four；The axially directed limiting slot is circumferentially uniformly distributed along the lateral wall of the lower chambers； The axially directed spacer pin and the axially directed limiting slot guide and limit cooperate；Alternatively, the radial ruler of first kinetoplast The very little radial dimension less than the second kinetoplast lower chambers；First kinetoplast is inserted into the bottom chamber of second kinetoplast；Institute The side wall for stating lower chambers at least offers an axially directed limit pin hole；The axially directed limit pin hole has one or two Or three or four；The axially directed limit pin hole is circumferentially uniformly distributed along the side wall of the lower chambers；The axial direction is led To the top surface of close second kinetoplast of limit pin hole；The axially directed limit pin hole is threaded hole；The axially directed limit Position pin hole is configured with axially directed spacer pin；The axially directed spacer pin is threaded pin or resilient key or interference pin shaft；Phase Ying Di, the lateral wall of the upper chamber at least offer an axially directed limiting slot；The both ends of the axially directed limiting slot It is closed；The axially directed limiting slot has one or two or three or four；The axially directed limiting slot is along institute The lateral wall for stating upper chamber is circumferentially uniformly distributed；The axially directed spacer pin is matched with the axially directed limiting slot guide and limit The technological means of conjunction, so, it can be effectively protected pressure maintaining elastomeric element, extend the service life of pressure maintaining pressing member, improve and add The stability of pressure.

5, the technical program is due to using the pressure maintaining pressing member configured with reinforcing component；The reinforcing component is spiral shell Rasp bar and/or polished rod；The reinforcing component has one or two；It is fixed between the reinforcing component and first kinetoplast to connect It connects or is rotatablely connected or be threadedly coupled or connection of pressurizeing；It is fixedly connected or rotates between the reinforcing component and second kinetoplast Connection or the connection that is threadedly coupled or pressurizes；The top surface of first kinetoplast, which is located on axis, offers hole to perforation；On described Hole is unthreaded hole or threaded hole；And/or the bottom surface of second kinetoplast offers mesoporous with being located on axis perforation；The mesoporous It is unthreaded hole or threaded hole；The reinforcing component has one；One reinforcing component is a threaded rod；One threaded rod Lower end be fixedly connected with the top surface of first kinetoplast；Alternatively, the lower end of a threaded rod and first kinetoplast Top surface rotation connection；Alternatively, the upper end of a threaded rod is threadedly coupled with first kinetoplast, the lower end of the threaded rod is worn Cross the unthreaded hole of second kinetoplast；Alternatively, the upper end of a threaded rod is fixedly connected with the bottom surface of first kinetoplast, it should The lower end of threaded rod passes through the unthreaded hole of second kinetoplast；Alternatively, the upper end of a threaded rod and first kinetoplast Bottom surface rotation connection, the lower end of the threaded rod pass through the unthreaded hole of second kinetoplast.Alternatively, the upper end of a threaded rod with The bottom surface of second kinetoplast is fixedly connected；Alternatively, the upper end of a threaded rod and the bottom surface of second kinetoplast rotate Connection；Alternatively, the lower end of a threaded rod is threadedly coupled with second kinetoplast, the upper end of the threaded rod passes through described the The unthreaded hole of one kinetoplast；Alternatively, the lower end of a threaded rod is fixedly connected with the top surface of second kinetoplast, the threaded rod Upper end passes through the unthreaded hole of first kinetoplast；Alternatively, the lower end of a threaded rod and the bottom surface of second kinetoplast rotate Connection, the upper end of a threaded rod pass through the unthreaded hole of first kinetoplast；One reinforcing component is a polished rod；One The lower end of a polished rod sequentially passes through the unthreaded hole of first kinetoplast and the unthreaded hole of second kinetoplast；Alternatively, described in one The lower end of polished rod is fixedly connected with the top surface of first kinetoplast；Alternatively, the lower end of a polished rod and first kinetoplast Top surface rotation connection；Alternatively, the upper end of a polished rod is fixedly connected with the bottom surface of first kinetoplast, under the polished rod Hold the unthreaded hole across second kinetoplast；Alternatively, the upper end of a polished rod and the bottom surface of first kinetoplast are rotatablely connected, The lower end of the polished rod passes through the unthreaded hole of second kinetoplast；It is moved alternatively, the upper end of a polished rod sequentially passes through described second The unthreaded hole of the unthreaded hole of body and first kinetoplast；Alternatively, the upper end of a polished rod and the bottom surface of second kinetoplast are fixed Connection；Alternatively, the upper end of a polished rod and the bottom surface of second kinetoplast are rotatablely connected.Alternatively, polished rod Lower end is fixedly connected with the top surface of second kinetoplast, and the upper end of the polished rod passes through the unthreaded hole of first kinetoplast；Alternatively, one The lower end of the polished rod and the bottom surface of second kinetoplast are rotatablely connected, and the upper end of the polished rod passes through the light of first kinetoplast Hole；There are two the reinforcing components；Two reinforcing components are all threaded rods；The lower end of one threaded rod and described the The top surface of one kinetoplast is fixedly connected；Alternatively, the lower end of a threaded rod and the top surface of first kinetoplast are rotatablely connected；Or Person, the lower end of a threaded rod are threadedly coupled with first kinetoplast；The upper end of another threaded rod and described the The bottom surface of two kinetoplasts is fixedly connected；Alternatively, the upper end of another threaded rod and the bottom surface of second kinetoplast are rotatablely connected； Alternatively, the upper end of another threaded rod is threadedly coupled with second kinetoplast；Two reinforcing components are all polished rods；One The lower end of a polished rod is fixedly connected with the top surface of first kinetoplast；Alternatively, the lower end of a polished rod and described the The top surface of one kinetoplast is rotatablely connected；The upper end of another polished rod is fixedly connected with the bottom surface of second kinetoplast；Alternatively, another The upper end of one polished rod and the bottom surface of second kinetoplast are rotatablely connected；In two reinforcing components, add described in one Power component is threaded rod, another described reinforcing component is polished rod；The top surface of the lower end of the threaded rod and first kinetoplast It is fixedly connected；Alternatively, the lower end of the threaded rod and the top surface of first kinetoplast are rotatablely connected；Alternatively, the threaded rod Lower end is threadedly coupled with first kinetoplast；The upper end of the polished rod is fixedly connected with the bottom surface of second kinetoplast；Alternatively, institute The bottom surface of the upper end and second kinetoplast of stating polished rod is rotatablely connected；The lower end of the polished rod and the top surface of first kinetoplast are solid Fixed connection；Alternatively, the lower end of the polished rod and the top surface of first kinetoplast are rotatablely connected；The upper end of the threaded rod with it is described The bottom surface of second kinetoplast is fixedly connected；Alternatively, the upper end of the threaded rod and the bottom surface of second kinetoplast are rotatablely connected；Or Person, the technological means that the upper end of the threaded rod is threadedly coupled with second kinetoplast, so, weldering can be realized in many ways Pick lower electric heating clamping plate and upper electric heating clamping plate carries out pressure maintaining pressurization to waterstop.

6, the technical program due to use second kinetoplast bottom surface be plane technological means, so, structure compared with Simply, manufacturing cost is advantageously reduced, the popularization and application of pressure maintaining pressing member and bonding machine are conducive to.

7, the technical program is configured with abrasionproof pad due to using the bottom surface of second kinetoplast；Second kinetoplast Cylindrical spindle nose is downwardly protrude to form in the middle part of bottom surface；The bottom surface edge of second kinetoplast is pressure bottom surface；The side of the spindle nose Face is circumferentially arranged circumferential guide groove；The shape of the abrasionproof pad is in cylinder；The cylinder is cylindrical body；The anti-abrasion pad It is downwardly concaved to form axocoel room in the middle part of the top surface of body；The top surface edge of the abrasionproof pad is compression top surface；The abrasionproof pad Bottom surface offer lower open-work with being located on axis perforation；The bottom surface of the abrasionproof pad is pressurization bottom surface；The axocoel room Side wall is at least provided with a circumferential guide pin hole；The circumferential direction guide pin hole has one or two or three or four；It is described Circumferential guide pin hole is screw thread pin hole；The circumferential direction guide pin hole is configured with circumferential guide pin；It is described circumferential direction guide pin with it is described Circumferential guide groove guiding cooperation；Alternatively, upwardly recessed formation axocoel room in the middle part of the bottom surface of second kinetoplast；Second kinetoplast Bottom surface edge be pressure bottom surface；The side wall of the axocoel room is at least provided with a circumferential guide pin hole；The circumferential guiding Pin hole has one or two or three or four；The circumferential direction guide pin hole is screw thread pin hole；The circumferential direction guide pin hole configuration There is circumferential guide pin；The shape of the abrasionproof pad is in cylinder；The cylinder is cylindrical body；In the middle part of the top surface of the abrasionproof pad The cylindrical spindle nose of formation protruding upward；The top surface edge of the abrasionproof pad is compression top surface；The bottom surface position of the abrasionproof pad In on axis perforation offer lower opening；The side of the spindle nose is circumferentially arranged circumferential guide groove；The circumferential direction guide pin The technological means cooperated with the circumferential guide groove guiding, so, the upper electric heating clamping plate for being beneficial to prevent bonding machine was pressurizeing It is worn in journey.

8, the technical program is smooth plane due to using the pressure bottom surface；The compression top surface is smooth puts down Face；It is slidably connected between the pressure bottom surface and the compression top surface；Alternatively, between the pressure bottom surface and the compression top surface It is rolled and is connected by rolling member；The rolling member is ball or thrust bearing or oil-containing washer；The compression top surface is along week To ball location hole is distributed with；The lower part of the ball is located at the ball positioning hole；Alternatively, the pressure bottom surface is circumferentially Ball location hole is distributed with；The top of the ball is located at the ball positioning hole；The pressurization bottom surface is the skill of rough surface Art means, so, be conducive to the relative rotation between abrasionproof pad and lower kinetoplast.

9, the edge of open-work is downwardly extending cylinder under bottom surface of the technical program due to using the abrasionproof pad； The lower edge of the cylinder extends radially outward to form coaxial upper disk and lower disc；The upper disk is positioning disk Body；The lower disc is pressurization disk body；The diameter of the positioning disk body is less than the diameter of the pressurization disk body；The pressurization disk body Configured with heat-insulated pad；The shape of the heat-insulated pad, which presents face, has open disc shell；The edge edge of the opening It extends radially inwardly to form snap ring；Alternatively, the radially inwardly extending formation clamp in the edge compartment of terrain of the opening；It is described heat-insulated Pad is fastened on the pressurization disk body；The heat-insulated pad is pressed into after processing is completed to be fastened on the pressurization disk body；Alternatively, The medial surface of the opening, which prolongs, is circumferentially provided with annular slot；The heat-insulated pad is fixed on pressurization disk body by internal jump ring； Alternatively, the rounded plate of shape of the heat-insulated pad；The bottom surface of the heat-insulated pad is provided with countersunk head fixation hole；The pressurization disk The bottom surface of body is provided with threaded securing bores；The fixed company in bottom surface that the heat-insulated pad passes through sunk screw and the pressurization disk body It connects；The bottom surface of the heat-insulated pad, which is located on axis, offers bottom outlet；The heat-insulated pad is made of high temperature resistant heat insulation material；Institute The technological means that high temperature resistant heat insulation material is the temperature-resistant materials such as polytetrafluoroethylene (PTFE) or nylon or epoxy material or bakelite is stated, so, It can press simultaneously to upper electric heating clamping plate and upper reinforcement protective cover.

10, present embodiment is provided with handwheel at the top of first kinetoplast due to using；Alternatively, second kinetoplast Bottom be provided with handwheel；Alternatively, the upper end of the threaded rod is provided with handwheel；Alternatively, the lower end of the threaded rod is provided with The technological means of handwheel, so, it is convenient to realize pressurized operation.

11, present embodiment is provided with circumferential guide groove and configured with week due to using the side of the threaded rod upper end To guide pin；Alternatively, the side of the threaded rod lower end is provided with circumferential guide groove and configured with circumferential guide pin；The screw thread The side of bar upper end, which is provided with, reams and configured with hinged shaft；Alternatively, the side of the threaded rod lower end is provided with fraising and configures There is hinged shaft；The threaded rod is configured with nut；The side of the polished rod upper end is provided with circumferential guide groove and configured with Zhou guide To pin；Alternatively, the side of the polished rod lower end is provided with circumferential guide groove and configured with circumferential guide pin；The polished rod upper end Side, which is provided with, reams and configured with hinged shaft；Alternatively, the side of the polished rod lower end is provided with the skill for reaming and being configured with hinged shaft Art means, so, it can be achieved that a variety of pressuring methods.

12, present embodiment due to use the pressure maintaining elastomeric element be helical spring or leaf spring or elastic balloon body or Elastic liquid capsule body；The helical spring is cylindrical helical spring or tower-shaped helical spring；The helical spring is by steel wire wound It forms；The cross section of the steel wire is rectangular or rectangle or circle or cydariform；The leaf spring is to fold leaf spring or annular leaf spring；Institute It states leaf spring and offers axis hole along its length；The elastic balloon body and elastic liquid capsule body skill made of heat-resisting material Art means can produce a variety of bonding machines according to the demand and actual conditions of different clients.

For soldering appliance, in order to solve above-mentioned second technical problem, the utility model provides a kind of bonding machine, Including lower electric heating clamping plate and upper electric heating clamping plate, between the both ends of the lower electric heating clamping plate and the both ends of the upper electric heating clamping plate respectively It is connected by pressing member；Alternatively, the middle part of the upper electric heating clamping plate is pressurizeed by pressing member, the pressing member is as preceding Pressure maintaining pressing member described in face.

The bonding machine of the utility model has the advantages that compared with prior art.

1, the technical program is due to using the technology hand that the pressing member is pressure maintaining pressing member as elucidated before Section, so, after the lower electric heating clamping plate and upper electric heating clamping plate of bonding machine are to waterstop pressure, although Xiang Si after waterstop heating softening Week squeezes out, and still, lower electric heating clamping plate and upper electric heating clamping plate do not need manually to adjust repeatedly to the pressure almost constant of waterstop, The welding fastness for greatly improving waterstop, greatly reduces the labor intensity of employee.It underlines herein, the guarantor of the technical program Pressure pressing member can not only make electric heating clamping plate and upper electric heating clamping plate under bonding machine press waterstop, furthermore, it is possible to for appointing It what is the need for and want the occasion of pressure maintaining pressurization.

Detailed description of the invention

The pressure maintaining pressing member and its bonding machine of the utility model are made into one with reference to the accompanying drawings and detailed description The detailed description of step.

Fig. 1 is the schematic view of the front view of the first bonding machine of the utility model.

Fig. 2 is the backsight structural representation of the first bonding machine of the utility model.

Fig. 3 is the overlooking structure diagram of the first bonding machine of the utility model.

Fig. 4 is the structural schematic diagram of second of air cycle refrigeration pipe in the utility model bonding machine air refrigerating devie.

Fig. 5 is the structural schematic diagram of the third air cycle refrigeration pipe in the utility model bonding machine air refrigerating devie.

Fig. 6 is the structural schematic diagram of the 4th kind of air cycle refrigeration pipe in the utility model bonding machine air refrigerating devie.

Fig. 7 is the structural schematic diagram of second of bonding machine of the utility model.

Fig. 8 is the structural schematic diagram of the third bonding machine of the utility model.

Fig. 9 is the structural schematic diagram of the 4th kind of bonding machine of the utility model.

Figure 10 is the structural schematic diagram of the 5th kind of bonding machine of the utility model.

Figure 11 is the structural schematic diagram of the 6th kind of bonding machine of the utility model.

Figure 12 is the structural schematic diagram of the 7th kind of bonding machine of the utility model.

Figure 13 is the structural schematic diagram of three position four-way electromagnetic valve in Figure 12.

Figure 14 is the schematic view of the front view of the 8th kind of bonding machine of the utility model.

Figure 15 is the left view structural representation of the 8th kind of bonding machine of the utility model.

Figure 16 is the overlooking structure diagram of the 8th kind of bonding machine of the utility model.

Figure 17 is the structural schematic diagram of Figure 14 interval heat fixation pad.

Figure 18 is the structural schematic diagram of the 9th kind of bonding machine of the utility model.

Figure 19 is the structural schematic diagram of the tenth kind of bonding machine of the utility model.

Figure 20 is a kind of schematic illustration of bonding machine of the utility model the tenth.

Figure 20 a is the structural schematic diagram of the 12nd kind of bonding machine of the utility model.

Figure 20 b is the structural schematic diagram of the first aluminum profile cross section.

Figure 20 c is the schematic view of the front view of the 13rd kind of bonding machine of the utility model.

Figure 20 d is the left view structural representation of the 13rd kind of bonding machine of the utility model.

Figure 20 e is the overlooking structure diagram of the 13rd kind of bonding machine of the utility model.

Figure 20 f is the schematic view of the front view of the 14th kind of bonding machine of the utility model.

Figure 20 g is the left view structural representation of the 14th kind of bonding machine of the utility model.

Figure 20 h is the overlooking structure diagram of the 14th kind of bonding machine of the utility model.

Figure 20 i is the structural schematic diagram of second of aluminum profile cross section.

Figure 20 j is the schematic view of the front view of the 15th kind of bonding machine of the utility model.

Figure 20 k is the left view structural representation of the 15th kind of bonding machine of the utility model.

Figure 20 L is the overlooking structure diagram of the 15th kind of bonding machine of the utility model.

Figure 21 is the structural schematic diagram of the first pressure maintaining pressing member of the utility model.

Figure 22 is the structural schematic diagram of second of pressure maintaining pressing member of the utility model.

Figure 23 is the structural schematic diagram of the third pressure maintaining pressing member of the utility model.

Figure 24 is the structural schematic diagram of the 4th kind of pressure maintaining pressing member of the utility model.

Figure 25 is the structural schematic diagram of the 5th kind of pressure maintaining pressing member of the utility model.

Figure 26 is the schematic perspective view after the 6th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 27 is the schematic view of the front view after the 6th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 28 is the schematic perspective view after the 7th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 29 is the schematic view of the front view after the 7th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 30 is the schematic view of the front view after the 8th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 31 is the side structure schematic view after the 8th kind of pressure maintaining pressing member of the utility model decomposes.

Figure 32 is the structural schematic diagram of the first pressure maintaining elastomeric element in the utility model pressure maintaining pressing member.

Figure 33 is the structural schematic diagram of second of pressure maintaining elastomeric element in the utility model pressure maintaining pressing member.

Figure 34 is the structural schematic diagram of the third pressure maintaining elastomeric element in the utility model pressure maintaining pressing member.

Figure 35 is the structural schematic diagram of the 4th kind of pressure maintaining elastomeric element in the utility model pressure maintaining pressing member.

Figure 36 is the schematic perspective view after the first pressure maintaining of the utility model pressurization hinge assembling.

Figure 37 is the schematic perspective view after the first pressure maintaining of the utility model pressurization hinge decomposes.

Figure 38 is the schematic view of the front view after second of pressure maintaining of the utility model pressurization hinge decomposes.

Figure 39 is the side structure schematic view after second of pressure maintaining of the utility model pressurization hinge decomposes.

The reference numerals are as follows.

1~pressure maintaining pressing member；The kinetoplast of 1-1~first；1-1-1~upper chamber；1-1-2~axially directed limit pin hole； 1-1-3~upper hole；1-1-4~axially directed spacer pin；1-1-5~handwheel；1-2~pressure maintaining elastomeric element；1-3~the second is dynamic Body；1-3-1~lower chambers；1-3-2~axially directed limiting slot；1-3-3~mesoporous；1-3-4~spindle nose；1-3-5~Zhou guide To slot；1-3-6~pressure bottom surface；1-3-7~；1-3-8~；1-4~abrasionproof pad；1-4-1~axocoel room；1-4-2~circumferential direction Guide pin hole；1-4-3~lower opening；1-4-3-1~axially directed pin hole；1-4-4~compression top surface；1-4-5~pressurization bottom surface； 1-4-6~circumferential direction guide pin；1-4-7~cylinder；1-4-8~positioning disk body；1-4-9~pressurization disk body；1-5~anti-attrition component； 1-6~heat-insulated pad；1-6-1~opening；1-6-2~snap ring；1-6-3~bottom outlet；1-7~reinforcing component；1-7-1~screw thread Bar；1-7-1-1~axially directed slot；1-7-2~polished rod；1-7-2-1~pressurization block；1-10~；2~pressure maintaining pressurization hinge； The rotation coupling of 2-1~first；2-1-1~rotor；2-1-1-1~rotation section；2-1-1-1-1~hinge hole；2-1-1-2 ~extension board；2-1-1-3~dilatation chamber；2-1-1-4~sliding block；2-1-1-4-1~fixing screwed hole；2-1-2~connector；2- 1-2-1~guiding through groove；The neat face recess of 2-1-2-2~cover board；2-1-2-3~anti-interference recess；2-1-2-4~adjustable solid Determine hole；2-1-2-4-1~adjusting fixing screws；2-1-2-5~adjustable threaded hole；2-1-2-5-1~adjusting screw；2-1-3 ~pressure maintaining elastomeric element；2-1-4~cover board；2-1-4-1~fixation hole；The rotation coupling of 2-2~second；2-2-1~rotation section Accommodate recess；2-2-2~hinge hole；2-2-3~fixation hole；2-2-3-1~fixing screws；2-3~articulated shaft；3~lower electric heating Clamping plate；3-1~lower substrate；3-2~lower circulating cold air cooling duct；3-2-1~lower plugging part；3-2-2~lower wall mouth；3-3 ~lower cover plate；3-4~lower air inlet；3-5~lower gas outlet；3-6~cooling separator tube；3-7~lower reinforcement protective cover；3-8~ Lower electrothermal tube hole；4~go up electric heating clamping plate；4-1~upper substrate；4-2~upper circulating cold air cooling duct；4-2-1~upper closure part Part；4-2-2~upper wall mouth；4-3~upper cover plate；4-4~enterprising port；4-5~upper gas outlet；4-6~cooling separator tube；4-7 ~above reinforce protective cover；4-8~upper electrothermal tube hole；5~air refrigerating devie；5-1~refrigeration cabinets；5-1-1~lift hand；5-2 ~air cycle refrigeration pipe；5-3~refrigerant；5-4~ground-engaging element；5-5~dilatory component；6~cold air delivery pipe；6-1 ~threeway；6-2~check valve；6-3~valve；6-4~shunt valve；7~flexible steel in flat section tubing；8~air compressor；8-1~pair Air compressor；9~heat-insulated fixed pad；10~fixing screws；11~power supply adaptor；12~electric-control system；13~handle；14 ~guide rod；15~support rod.

Specific embodiment

As shown in Figure 1 to Figure 3, present embodiments provide for a kind of bonding machines, including lower electric heating clamping plate 3 and upper electric heating clamping plate 4, lower circulating cold air cooling duct 3-2 is provided in the lower electric heating clamping plate 3, and the upper electric heating clamping plate 4 is provided with cold air and follows Ring cooling duct 4-2, the lower circulating cold air cooling duct 3-2 and the upper circulating cold air cooling duct 4-2 and cold air source connect It is logical.

The bonding machine of present embodiment does not pollute the environment not only during cooling, moreover, water money is greatly saved Source, even if may be implemented to be quickly cooled down without water source in the same old way.

As the various improvement of present embodiment, details are as follows.

As shown in Figure 1 to Figure 2, the cold air source is air refrigerating devie 5.

The air refrigerating devie 5 includes refrigeration cabinets 5-1.

The refrigeration cabinets 5-1 is that compressor refrigeration cabinet (to the good refrigeration effect of air) or electronic cooling cabinet (have Conducive to the space occupied for reducing air refrigerating devie 5).

The compressor refrigeration cabinet is refrigerator or ice box or electric cooling-water machine.

The electronic cooling cabinet is the refrigeration cabinets made of cooling piece.

The surrounding in the cabinet can be set in the cooling piece, also can be set in the bottom of the cabinet, and described The face of cooling piece cooperation is thermal conductive surface, and the face of other positions is heat preservation face.

It is provided with air cycle refrigeration pipe 5-2 in the refrigeration cabinets 5-1 and refrigerant 5-3 (is conducive to fill air Divide refrigeration).

As shown in Figure 1, the shape of the air cycle refrigeration pipe 5-2 is in rectangular pulse waveform.It is of course also possible to be such as 4 It is shown, the shape impulse waveform triangular in shape of the air cycle refrigeration pipe 5-2.It can also be as figure 5 illustrates, the air circulation The shape of refrigerator pipes 5-2 is in plane thread shape.It can also be as indicated with 6, the shape of the air cycle refrigeration pipe 5-2 is in helical Column tube shape.It is also possible that the shape of the air cycle refrigeration pipe 5-2 is in helical cone shaped.It is also possible that the air circulation The shape of refrigerator pipes 5-2 is in two or more combined shapeds in these shapes.

As shown in Figure 1, the refrigerant 5-3 is liquid cold-storage material or cream state cold-storage material or solid-state cold-storage material.

Present embodiment can ensure that air cooling to subzero, meanwhile, it can be according to the different demands and reality of user Border situation produces a variety of bonding machines.

As shown in Figure 1, the air refrigerating devie 5 is configured with air compressor 8.

The air compressor 8 is arranged outside the refrigeration cabinets 5-1 and (just uses the maintenance of air compressor).

It is of course also possible to be as shown in fig. 7, the setting of the air compressor 8 (is conducive in the refrigeration cabinets 5-1 It carries).

The gas outlet of the air compressor 8 is connected to the air inlet of the air refrigerating devie 5.

Present embodiment is conducive to provide the air with enough pressure to air refrigerating devie.

As shown in Figure 1 to Figure 3, (advantageous for separated structure between the lower electric heating clamping plate 3 and the air refrigerating devie 5 It is operated in welding).

It is of course also possible to be as shown in fig. 7, the lower electric heating clamping plate 3 is fixed on the top of the air refrigerating devie 5 (being more advantageous to carrying).

The two sides of the air refrigerating devie 5 are respectively arranged with lift hand 5-1-1 (when having served as ditch, can lift over).

The bottom of the air refrigerating devie 5 is provided with ground-engaging element 5-4 (being advantageous to carry).

The ground-engaging element 5-4 is three traveling wheels or four traveling wheels.

Three traveling wheels are distributed in isosceles triangle.

The traveling wheel of isosceles triangle vertex is located at 5 bottom front of air refrigerating devie and is centrally located.

The traveling wheel at two base angles of isosceles triangle is located at the two sides of 5 bottom rear of air refrigerating devie (being conducive to turn to).

Four traveling wheels are in distributed rectangular.

The traveling wheel is universal travel wheel (stability is more preferable).

Dilatory component 5-5 is provided with before the air refrigerating devie 5 (most beneficial for carrying).

The dilatory component 5-5 is drawstring or pull rod.

Present embodiment can produce a variety of bonding machines according to the actual situation.

As shown in figure 3, the shape of the lower circulating cold air cooling duct 3-2 is in long rectangular pulse waveform.

It is of course also possible to be as shown in figure 8, the shape of the lower circulating cold air cooling duct 3-2 is in short rectangular wave pulse Shape.

It can also be as shown in figure 9, the shape of the lower circulating cold air cooling duct 3-2 is in plane thread shape.

One end of the lower circulating cold air cooling duct 3-2 is provided with lower air inlet 3-4.

The other end of the lower circulating cold air cooling duct 3-2 is provided with lower gas outlet 3-5.

Equally, as shown in figure 3, the shape of the upper circulating cold air cooling duct 4-2 is in long rectangular pulse waveform.

It is of course also possible to be as shown in figure 8, the shape of the upper circulating cold air cooling duct 4-2 is in short rectangular wave pulse Shape.

It can also be as shown in figure 9, the shape of the upper circulating cold air cooling duct 4-2 is in plane thread shape.

One end of the upper circulating cold air cooling duct 4-2 is provided with enterprising port 4-4.

The other end of the upper circulating cold air cooling duct 3-2 is provided with gas outlet 4-5.

Present embodiment is conducive to improve cooling efficiency.

It is also possible to as illustrated in fig. 20, is provided with lower air inlet 3-4 in the middle part of the lower circulating cold air cooling duct 3-2.

The both ends of the lower circulating cold air cooling duct 3-2 are respectively arranged with lower gas outlet 3-5.

Enterprising port 4-4 is provided in the middle part of the upper circulating cold air cooling duct 4-2.

The both ends of the upper circulating cold air cooling duct 3-2 are respectively arranged with gas outlet 4-5.

Present embodiment is more advantageous to raising cooling efficiency.

As shown in Figure 1 to Figure 2, the enterprising port 4-4 of the upper circulating cold air cooling duct 4-2 and the lower circulating cold air The lower gas outlet 3-5 of cooling duct 3-2 is connected to by flexible steel in flat section tubing 7, the lower air inlet of the lower circulating cold air cooling duct 3-2 Mouth 3-4 is connected to the air refrigerating devie 5 by cold air delivery pipe 6 and (is conducive to make full use of cold air).

It is of course also possible to be as shown in figure 8, the upper gas outlet 4-5 of the upper circulating cold air cooling duct 4-2 and it is described under The lower air inlet 3-4 of circulating cold air cooling duct 3-2 is connected to by flexible steel in flat section tubing 7, the upper circulating cold air cooling duct 4-2 Enterprising port 4-4 be connected to the air refrigerating devie 5 and (be conducive to make full use of cold air) by cold air delivery pipe 6.

It can also be lower air inlet 3-4 and the upper cold air as shown in figure 9, the lower circulating cold air cooling duct 3-2 The enterprising port 4-4 of circulating cooling channel 4-2 is connected to by cold air delivery pipe 6 and threeway 6-1 with the air refrigerating devie 5 (being conducive to be quickly cooled down).

Present embodiment can produce a variety of bonding machines according to the different demands of client.

As shown in Figure 10, the air refrigerating devie 5 buffers cooling channel configured with room temperature.

The room temperature buffering cooling channel includes secondary air compressor 8-1.

Gas outlet, the gas outlet of the air refrigerating devie 5, the lower circulating cold air of the pair air compressor 8-1 The air inlet of cooling duct 3-2 is interconnected by threeway 6-1.

Be also possible to the gas outlet of the secondary air compressor 8-1, the gas outlet of the air refrigerating devie 5, it is described on The air inlet of circulating cold air cooling duct 4-2 is interconnected by threeway 6-1.

The gas outlet of the air refrigerating devie 5 is serially connected with check valve 6-2.

The gas outlet for being also possible to the air compressor 8 is serially connected with check valve 6-2.

The gas outlet of the pair air compressor 8-1 has been sequentially connected in series valve 6-3 and check valve 6-2.

The gas outlet of the air compressor 8 is serially connected with valve 6-3.

As shown in figure 11, the room temperature buffering cooling channel includes shunt valve 6-4.

The gas outlet of the shunt valve 6-4, the gas outlet of the air refrigerating devie 5, the lower circulating cold air are cooling logical The air inlet of road 3-2 is interconnected by a threeway 6-1.Alternatively, the gas outlet of the shunt valve 6-4, the air cooling The gas outlet of device 5, the air inlet of the upper circulating cold air cooling duct 4-2 are interconnected by a threeway 6-1.

The air inlet of the shunt valve 6-4, the air inlet of the air refrigerating devie 5, the air compressor 8 outlet Mouth is interconnected by another threeway 6-1.

The gas outlet of the air refrigerating devie 5 is serially connected with check valve 6-2.

The shunt valve 6-4 is serially connected with valve 6-3 and check valve 6-2.

The air inlet of the air refrigerating devie 5 is serially connected with another valve 6-3.

One valve 6-3 and another described valve 6-3 is solenoid valve.

One valve 6-3 is normally opened two-position two-way solenoid valve.

The normally opened two-position two-way solenoid valve is air solenoid valve.

Another described valve 6-3 is normally closed two-position two-way solenoid valve.

The normally closed two-position two-way solenoid valve of institute's art is cold air solenoid valve.

As shown in Figure 11 to Figure 13, a valve 6-3 and one 3-position 4-way electromagnetism of another described valve 6-3 Valve replaces.

The lower electric heating clamping plate 3 or upper electric heating clamping plate 4 are provided with temperature sensor (not marking in figure).

Present embodiment can use the different types of cooling depending on the temperature, be not only advantageous to it is energy saving, moreover, The lower electric heating clamping plate of protection and upper electric heating clamping plate are also helped, is prolonged the service life；Instantly the temperature of electric heating clamping plate or upper electric heating clamping plate When degree is equal to or higher than 100 DEG C, then only lower electric heating clamping plate and upper electric heating clamping plate are cooled down with normal temperature air；Instantly electrothermal clip The temperature of plate or upper electric heating clamping plate is lower than 100 DEG C and when being equal to or higher than 40 DEG C, then with normal temperature air and cold air simultaneously to lower electricity Hot clamping plate and upper electric heating clamping plate are cooled down；Instantly when the temperature of electric heating clamping plate or upper electric heating clamping plate is lower than 40 DEG C, then only with cold Gas cools down lower electric heating clamping plate and upper electric heating clamping plate.

As shown in Figure 1, the lower electric heating clamping plate 3 is by lower substrate 3-1 and covers the lower cover plate 3- on the bottom surface lower substrate 3-1 3 are constituted.

The bottom surface of the lower substrate 3-1 is provided with the groove for constituting the lower circulating cold air cooling duct 3-2.

The lower substrate 3-1 is sealedly and fixedly connected with the lower cover plate 3-3.

The upper electric heating clamping plate 4 is by upper substrate 4-1 and covers the upper cover plate 4-3 on the top surface upper substrate 4-1 and constitutes.

The top surface of the upper substrate 4-1 is provided with the groove for constituting the upper circulating cold air cooling duct 4-2.

The upper substrate 4-1 is sealedly and fixedly connected with the upper cover plate 3-3.

Present embodiment is conducive to the lower cold air in the lower circulating cold air cooling duct and upper electric heating clamping plate of lower electric heating clamping plate The processing in circulating cooling channel.

As shown in figure 3, the lower circulating cold air cooling duct 3-2 in be located at the end lower air inlet 3-4 be provided with down it is cold But separator tube 3-6.Alternatively, being located at the end lower air inlet 4-4 in the upper circulating cold air cooling duct 4-2 is embedded with cooling Separator tube 4-6.

The length of the lower cooling separator tube 3-6 be the lower circulating cold air cooling duct 3-2 length with it is described cold The one third of the sum of the length of gas circulating cooling channel 4-2.

The length of the upper cooling separator tube 4-6 be the lower circulating cold air cooling duct 3-2 length with it is described cold The one third of the sum of the length of gas circulating cooling channel 4-2.

The lower cooling separator tube 3-6 and upper cooling separator tube 4-6 is by aluminum material or aluminum alloy materials or iron material Material or copper product or iron-nickel alloy material or ferrotianium material are made.

Present embodiment is conducive to protect lower electric heating clamping plate and upper electric heating clamping plate, prolongs the service life.

As shown in Figure 14 to Figure 16, the lower electric heating clamping plate 3 is configured with lower reinforcement protective cover 3-7.

The lower cross-sectional shape for reinforcing protective cover 3-7 is in concave.

The lower reinforcement protective cover 3-7 with the lower electric heating clamping plate 3 is heat-insulated is fixedly connected.

Threaded securing bores are distributed in two sides of lower 3 width direction of electric heating clamping plate along its length respectively.

Fixation hole is distributed in the lower two side walls for reinforcing protective cover 3-7 along its length respectively.

The lower reinforcement protective cover 3-7 is heat-insulated solid by heat-insulated fixed pad 9 and fixing screws 10 with the lower electric heating clamping plate 3 Fixed connection.

The upper electric heating clamping plate 4 is configured with upper reinforcement protective cover 4-7.

The upper cross-sectional shape for reinforcing protective cover 4-7 is in concave.

The upper reinforcement protective cover 4-7 with the upper electric heating clamping plate 3 is heat-insulated is fixedly connected.

Threaded securing bores are distributed in two sides of upper 3 width direction of electric heating clamping plate along its length respectively.

Fixation hole is distributed in the upper two side walls for reinforcing protective cover 4-7 along its length respectively.

The upper reinforcement protective cover 4-7 is heat-insulated solid by heat-insulated fixed pad 9 and fixing screws 10 with the upper electric heating clamping plate 4 Fixed connection.

There are two disc pads for the heat-insulated fixed pad 9.

Two two opposite Middle faces of the disc pad protrude in opposite directions.

Two disc pads, which are located at axis, is provided with fixation hole.

Present embodiment is not only advantageous to increase the intensity of lower electric heating clamping plate and upper electric heating clamping plate, moreover, also for below into The improvement of one step creates advantage.

As shown in Figure 14 to Figure 16, electric-control system 12 and power supply are provided in the middle part of the upper surface of described upper reinforcement protective cover 4-7 Adapter 11.

The output end of the electric-control system 12 with respectively with electrothermal tube in lower electric heating clamping plate 3 and upper electric heating clamping plate 4 (in figure not Draw) input terminal electrical connection.

The input terminal of the electric-control system 12 is electrically connected with the power supply adaptor 11.

The electric-control system 12 and power supply adaptor 11 can also be arranged on refrigeration cabinets 5-1.

The electric-control system 12 and power supply adaptor 11 can also be independent case body.

There are two handles 13 for the upper reinforcement protective cover 4-7 configuration.

One handle 13 is located at the side of the power supply adaptor 11.

Another described handle 13 is located at the other side of the electric-control system 12.

Present embodiment, which is not only advantageous to defend, connects operation, moreover, also helping carrying.It is of course also possible to be, it is described above to add Strong protective cover 4-7 is configured with a handle 13.Being also possible to the upper reinforcement protective cover 4-7 configuration, there are three handles 13

As shown in Fig. 1 to Fig. 3, Fig. 7 to 8, Figure 10 to Figure 16, Figure 20, one end of the lower electric heating clamping plate 3 is powered on described It is connected between one end of hot clamping plate 4 by pressure maintaining pressing member 1.

Pass through pressure maintaining pressurization hinge 2 between the other end of the lower electric heating clamping plate 3 and the other end of the upper electric heating clamping plate 4 Connection.

When closing, the gap between the other end of the lower electric heating clamping plate 3 and the other end of the upper electric heating clamping plate 4 is less than The overall thickness of waterstop weld.The other end of the overall thickness of the waterstop weld and the lower electric heating clamping plate 3 with it is described The difference in the gap between the other end of upper electric heating clamping plate 4 is 3 millimeters to 15 millimeters, depending on the material of waterstop.Alternatively, when putting After entering two panels waterstop, electric heating clamping plate is closed, about 10 degree to the 30 degree oblique angles under natural strong state.Namely hinge end Upper electric heating clamping plate has touched waterstop, and about 5 centimetres to 25 of aperture spacing of the lower electric heating clamping plate at handwheel end and upper electric heating clamping plate Centimetre, depending on the material of waterstop.The upper electric heating clamping plate that handwheel end is firmly depressed when welding, is inserted in after handwheel the handwheel that pressurizes, At this moment hinge end has also obtained maximized accumulation of energy.It can work in state of pressure keeping.

It is of course also possible to be as shown in figure 9, the both ends of the lower electric heating clamping plate 3 and the upper electric heating clamping plate 4 both ends it Between respectively by pressure maintaining pressing member 1 connect.

As shown in Figure 18 to Figure 19, pass through between one end of the lower electric heating clamping plate 3 and one end of the upper electric heating clamping plate 4 One guide rod 14 connects.

The lower end of one guide rod 14 is vertical with one end of the lower electric heating clamping plate 3 to be fixedly connected.

One end of the upper electric heating clamping plate 4 is slidably connected with a guide rod 14.

Pass through another guide rod 14 between the other end of the lower electric heating clamping plate 3 and the other end of the upper electric heating clamping plate 4 Connection.

The lower end of another guide rod 14 is vertical with the other end of the lower electric heating clamping plate 3 to be fixedly connected.

The other end of the upper electric heating clamping plate 4 is slidably connected with guide rod 14 described in another.

It is fixedly connected between the upper end of one guide rod 14 and the upper end of guide rod 14 described in another by support rod 15.

The middle part of the support rod 15 is connect with the middle part of the upper electric heating clamping plate 4 by pressure maintaining pressing member 1.

Present embodiment can produce a variety of bonding machines according to the demand and actual conditions of different clients.

As shown in fig. 20b, the lower substrate 3-1 and the upper substrate 4-1 are made by profile.

The profile is aluminum profile.

The cross-sectional shape of the profile is in rectangle.

One long side of the rectangle is alongst distributed with multiple as the lower circulating cold air cooling duct 3-2 Groove.Alternatively,

One long side of the rectangle is alongst distributed with multiple as the upper circulating cold air cooling duct 4-2 Groove.

The shape of the groove presents rectangle lower semi-circular groove or rectangular recess or triangular groove or trapezoidal groove.

Multiple lower electrothermal tube hole 3-8 are alongst distributed on the inside of another long side of the rectangle.Alternatively,

Multiple upper electrothermal tube hole 4-8 are alongst distributed on the inside of another long side of the rectangle.

Present embodiment is suitable for mass production, can greatly save the manufacturing cost of bonding machine.

As shown in Figure 20 c to Figure 20 e, the both ends of the groove are respectively arranged with lower plugging part 3-2-1.Alternatively,

The both ends of the groove are respectively arranged with plugging part 4-2-1.

The shape of the lower plugging part 3-2-1 is in bar shaped.

The cross-sectional shape of the lower plugging part 3-2-1 is identical as the cross-sectional shape of the groove.

The shape of the upper plugging part 4-2-1 is in bar shaped.

The cross-sectional shape of the upper plugging part 4-2-1 is identical as the cross-sectional shape of the groove.

Partition between two adjacent grooves is provided with lower wall mouth 3-2-2.Alternatively,

Partition between two adjacent grooves is provided with upper wall mouth 4-2-2.

Two adjacent grooves are connected to by lower wall mouth 3-2-2.Alternatively,

Two adjacent grooves are connected to by upper wall mouth 4-2-2.

Present embodiment can ensure that the intensity of lower substrate and lower substrate.

As shown in Figure 20 f to Figure 20 h, the both ends of the groove eliminate to form right angle recess respectively.

The right angle recess is provided with lower plugging part 3-2-1.Alternatively,

The right angle recess is provided with plugging part 4-2-1.

The shape of the lower plugging part 3-2-1 is in rectangular slab.

The shape of the upper plugging part 4-2-1 is in rectangular slab.

Present embodiment is conducive to the installation of lower plugging part and upper plugging part.

As shown in Figure 20 i, the lower electric heating clamping plate 3 and the upper electric heating clamping plate 4 are made by profile.

The profile is aluminum profile.

The cross-sectional shape of the profile is in rectangle.

It is alongst distributed on the inside of one long side of the rectangle multiple cooling logical as the lower circulating cold air The hole of road 3-2.Alternatively,

One long side of the rectangle is alongst distributed with multiple as the upper circulating cold air cooling duct 4-2 Hole.

The shape in the hole presents round or rectangle.

Multiple lower electrothermal tube hole 3-8 are alongst distributed on the inside of another long side of the rectangle.Alternatively,

Multiple upper electrothermal tube hole 4-8 are alongst distributed on the inside of another long side of the rectangle.

Present embodiment is suitable for mass production, can further save the manufacturing cost of bonding machine.

As shown in Figure 20 j to Figure 20 L, the both ends of the shape material are provided with lower plugging part 3-2-1.Alternatively,

The both ends of the shape material are provided with plugging part 4-2-1.

The shape of the lower plugging part 3-2-1 is in cuboid.

The shape of the upper plugging part 4-2-1 is in cuboid.

Present embodiment is more advantageous to the installation of lower plugging part and upper plugging part.

The bonding machine is for welding plastic material.

The plastic material is rubber or plastics.

The rubber is waterstop.

The plastics are splash guards.

Present embodiment is conducive to the popularization and application of bonding machine.

As shown in Figure 21 to Figure 31, present embodiments provide for a kind of pressure maintaining pressing member 1, including the first kinetoplast 1-1 and Pass through pressure maintaining elastomeric element 1-2 connection between second kinetoplast 1-3, the first kinetoplast 1-1 and the second kinetoplast 1-3.It is described Have under the action of external force and the pressure maintaining elastomeric element 1-2 elastic force between first kinetoplast 1-1 and the second kinetoplast 1-3 Trend that is close to each other or being located remotely from each other.

The pressure maintaining pressing member of present embodiment can make electric heating clamping plate and upper electric heating clamping plate under bonding machine press waterstop Afterwards, although being squeezed out around after waterstop heating softening, the pressure base of lower electric heating clamping plate and upper electric heating clamping plate to waterstop This is constant, does not need manually to adjust repeatedly, greatly improves the welding fastness of waterstop, greatly reduce the labor intensity of employee. It underlines herein, the pressure maintaining pressing member of present embodiment can not only make electric heating clamping plate and upper electric heating clamping plate pair under bonding machine Waterstop pressure, furthermore, it is possible to the occasion for any required pressure maintaining pressurization.

As the various improvement of present embodiment, details are as follows.

As shown in figure 23, the external force is external broach, and correspondingly, the elastic force is elastic pulling force.

When the external broach is greater than the elastic pulling force, then between the first kinetoplast 1-1 and the second kinetoplast 1-3 With the trend being located remotely from each other.

When the external broach is less than the elastic pulling force, then between the first kinetoplast 1-1 and the second kinetoplast 1-3 With trend close to each other.

It is of course also possible to be as shown in Figure 21 to Figure 22, Figure 24 to Figure 31, the external force is external pressure, correspondingly, described Elastic force is elastic pressure.

When the external pressure is greater than the elastic pressure, then between the first kinetoplast 1-1 and the second kinetoplast 1-3 With trend close to each other.

When the external pressure is less than the elastic pressure, then between the first kinetoplast 1-1 and the second kinetoplast 1-3 With the trend being located remotely from each other.

Present embodiment can produce a variety of pressure maintaining pressing members according to the actual situation.

As shown in Figure 21 to Figure 22, Figure 24 to Figure 31, the one of the first kinetoplast 1-1 and the pressure maintaining elastomeric element 1-2 It is that pressurization connection is correspondingly also between end between the second kinetoplast 1-3 and the other end of the pressure maintaining elastomeric element 1-2 Pressurization connection.

It is of course also possible to be as shown in figure 23, one end of the first kinetoplast 1-1 and the pressure maintaining elastomeric element 1-2 it Between be hanging connection, correspondingly, between the second kinetoplast 1-3 and the other end of the pressure maintaining elastomeric element 1-2 be also hanging Connection.

Present embodiment can produce a variety of pressure maintaining pressing members according to the different demands of client.

As shown in Figure 21 to Figure 31, the shape of the first kinetoplast 1-1 is in cylinder.

The cylinder is cylindrical body.It is of course also possible to be, the cylinder is square body.

Upwardly recessed formation is for accommodating the top pressure maintaining elastomeric element 1-2 in the middle part of the bottom surface of the first kinetoplast 1-1 Upper chamber 1-1-1.

The upper chamber 1-1-1 is cylindrical upper chamber or square column type upper chamber.

The shape of the second kinetoplast 1-3 is in cylinder.

The cylinder is cylindrical body.It is of course also possible to be, the cylinder is square body.

The top surface of the second kinetoplast 1-3 is downwardly concaved to be formed for accommodating under the lower part pressure maintaining elastomeric element 1-2 Chamber 1-3-1.

The top of the second kinetoplast 1-3 is together with the lower part fitting of the first kinetoplast 1-1.

It can relatively be moved back and forth in the axial direction between the second kinetoplast 1-3 and the first kinetoplast 1-1.

The radial dimension of the first kinetoplast 1-1 upper chamber 1-1-1 is greater than the radial dimension of the second kinetoplast 1-3.

The first kinetoplast 1-1 is nested on the second kinetoplast 1-3.

The side wall of the upper chamber 1-1-1 at least offers an axially directed limit pin hole 1-1-2.

The axially directed limit pin hole 1-1-2 has one or two or three or four.

The axially directed limit pin hole 1-1-2 is circumferentially uniformly distributed along the side wall of the upper chamber 1-1-1.

The axially directed limit pin hole 1-1-2 is close to the bottom surface of the first kinetoplast 1-1.

The axially directed limit pin hole 1-1-2 is threaded hole.

The axially directed limit pin hole 1-1-2 is configured with axially directed spacer pin 1-1-4.

The axially directed spacer pin 1-1-4 is threaded pin or resilient key or interference pin shaft.

Correspondingly,

The lateral wall of the lower chambers 1-3-1 at least offers an axially directed limiting slot 1-3-2.

The both ends of the axially directed limiting slot 1-3-2 are closed.

The axially directed limiting slot 1-3-2 has one or two or three or four.

The axially directed limiting slot 1-3-2 is circumferentially uniformly distributed along the lateral wall of the lower chambers 1-3-1.

The axially directed spacer pin 1-1-4 and the axially directed limiting slot 1-3-2 guide and limit cooperate.

It is of course also possible to be, the radial dimension of the first kinetoplast 1-1 is less than the second kinetoplast 1-3 lower chambers 1-3-1 Radial dimension.

The first kinetoplast 1-1 is inserted into the lower chambers 1-3-1 of the second kinetoplast 1-3.

The side wall of the lower chambers 1-3-1 at least offers an axially directed limit pin hole.

The axially directed limit pin hole has one or two or three or four.

The axially directed limit pin hole is circumferentially uniformly distributed along the side wall of the lower chambers 1-3-1.

The axially directed limit pin hole is close to the top surface of the second kinetoplast 1-3.

The axially directed limit pin hole is threaded hole.

The axially directed limit pin hole is configured with axially directed spacer pin.

The axially directed spacer pin is threaded pin or resilient key or interference pin shaft.

Correspondingly,

The lateral wall of the upper chamber 1-1-1 at least offers an axially directed limiting slot.

The both ends of the axially directed limiting slot are closed.

The axially directed limiting slot has one or two or three or four.

The axially directed limiting slot is circumferentially uniformly distributed along the lateral wall of the upper chamber 1-1-1.

The axially directed spacer pin and the axially directed limiting slot guide and limit cooperate.

Present embodiment can be effectively protected pressure maintaining elastomeric element, extend the service life of pressure maintaining pressing member, improve and add The stability of pressure.

As shown in Figure 21, Figure 23 to Figure 31, the pressure maintaining pressing member 1 is configured with reinforcing component 1-7.

The reinforcing component 1-7 is threaded rod 1-7-1.It is of course also possible to be, the reinforcing component 1-7 is polished rod 1-7- 2。

As shown in Figure 21, Figure 24 to Figure 31, the reinforcing component 1-7 has one.

It is of course also possible to be as shown in figure 23, there are two the reinforcing component 1-7.

As shown in figure 23, it is fixedly connected between the reinforcing component 1-7 and the first kinetoplast 1-1.

It is of course also possible to be as shown in figure 25, to be rotatablely connected between the reinforcing component 1-7 and the first kinetoplast 1-1.

Can also be shown in Figure 26 to Figure 27, Figure 30 to Figure 31, the reinforcing component 1-7 and the first kinetoplast 1-1 it Between be threadedly coupled.

It can also be as shown in figure 21, connection of pressurizeing between the reinforcing component 1-7 and the first kinetoplast 1-1.

As shown in figure 23, it is fixedly connected between the reinforcing component 1-7 and the second kinetoplast 1-3.

It is of course also possible to be rotatablely connected between the reinforcing component 1-7 and the second kinetoplast 1-3.

It can also be as shown in figure 24, be threadedly coupled between the reinforcing component 1-7 and the second kinetoplast 1-3.

It is also possible that connection of pressurizeing between the reinforcing component 1-7 and the second kinetoplast 1-3.

The top surface of the first kinetoplast 1-1, which is located on axis, offers hole 1-1-3 to perforation.

As shown in figure 24, the upper hole 1-1-3 is unthreaded hole.

It is also possible to as shown in Figure 22, Figure 26 to Figure 31, the upper hole 1-1-3 threaded hole.

It is of course also possible to be, the bottom surface of the second kinetoplast 1-3, which is located on axis, offers mesoporous 1-3-3 to perforation.

The mesoporous 1-3-3 is unthreaded hole.

Being also possible to the mesoporous 1-3-3 is threaded hole.

As shown in Figure 26 to Figure 27, Figure 30 to Figure 31, the reinforcing component 1-7 has one.

One reinforcing component 1-7 is a threaded rod 1-7-1.

One threaded rod 1-7-1 is overall length threaded rod.It is of course also possible to be, a threaded rod 1-7-1 is Half length threaded rod.

The upper end of one threaded rod 1-7-1 is threadedly coupled with the first kinetoplast 1-1, under threaded rod 1-7-1 Hold the unthreaded hole across the second kinetoplast 1-3.

It is of course also possible to be, the top surface of the lower end of a threaded rod 1-7-1 and the first kinetoplast 1-1, which rotate, to be connected It connects.

It is also possible that the lower end of a threaded rod 1-7-1 is fixedly connected with the top surface of the first kinetoplast 1-1.

It can also be as shown in FIG. 28 to 29, the upper end of a threaded rod 1-7-1 is with the first kinetoplast 1-1's Bottom surface is fixedly connected, and the lower end of threaded rod 1-7-1 passes through the unthreaded hole of the second kinetoplast 1-3.

It is also possible that the upper end of a threaded rod 1-7-1 and the bottom surface of the first kinetoplast 1-1 are rotatablely connected, it should The lower end of threaded rod 1-7-1 passes through the unthreaded hole of the second kinetoplast 1-3.

It is also possible that the upper end of a threaded rod 1-7-1 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

It is also possible that the upper end of a threaded rod 1-7-1 and the bottom surface of the second kinetoplast 1-3 are rotatablely connected.

It is also possible that the lower end of a threaded rod 1-7-1 is threadedly coupled with the second kinetoplast 1-3, the threaded rod The upper end of 1-7-1 passes through the unthreaded hole of the first kinetoplast 1-1.

It is also possible that the lower end of a threaded rod 1-7-1 is fixedly connected with the top surface of the second kinetoplast 1-3, it should The upper end of threaded rod 1-7-1 passes through the unthreaded hole of the first kinetoplast 1-1.

It is also possible that the lower end of a threaded rod 1-7-1 and the bottom surface of the second kinetoplast 1-3 are rotatablely connected, one The upper end of a threaded rod 1-7-1 passes through the unthreaded hole of the first kinetoplast 1-1.

Similarly, as shown in figure 22, a reinforcing component 1-7 is a polished rod 1-7-2.

The lower end of one polished rod 1-7-2 sequentially passes through the unthreaded hole and the second kinetoplast 1-3 of the first kinetoplast 1-1 Unthreaded hole.

The upper end of one polished rod 1-7-2 and pressurization plate 1-7-2-1 are hinged.

As can be seen from Figure 22, when the handle for the plate 1-7-2-1 that pressurizes is in a vertical state, pressurize plate 1-7-2- 1 can pressurize to upper kinetoplast.When the handle of pressurization plate 1-7-2-1 is when in a horizontal state, pressurization plate 1-7-2-1 is not to upper dynamic Body pressurization.

The lower end for being also possible to a polished rod 1-7-2 is fixedly connected with the top surface of the first kinetoplast 1-1.

The top surface of the lower end and the first kinetoplast 1-1 that are also possible to a polished rod 1-7-2 is rotatablely connected.

The upper end for being also possible to a polished rod 1-7-2 is fixedly connected with the bottom surface of the first kinetoplast 1-1, the light The lower end of bar 1-7-2 passes through the unthreaded hole of the second kinetoplast 1-3.

The bottom surface of the upper end and the first kinetoplast 1-1 that are also possible to a polished rod 1-7-2 is rotatablely connected, the light The lower end of bar 1-7-2 passes through the unthreaded hole of the second kinetoplast 1-3.

The upper end for being also possible to a polished rod 1-7-2 sequentially passes through the unthreaded hole and described of the second kinetoplast 1-3 The unthreaded hole of one kinetoplast 1-1.

The upper end for being also possible to a polished rod 1-7-2 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

The bottom surface of the upper end and the second kinetoplast 1-3 that are also possible to a polished rod 1-7-2 is rotatablely connected.

The lower end for being also possible to a polished rod 1-7-2 is fixedly connected with the top surface of the second kinetoplast 1-3, the light The upper end of bar 1-7-2 passes through the unthreaded hole of the first kinetoplast 1-1.

The bottom surface of the lower end and the second kinetoplast 1-3 that are also possible to a polished rod 1-7-2 is rotatablely connected, the light The upper end of bar 1-7-2 passes through the unthreaded hole of the first kinetoplast 1-1.

As shown in figure 23, there are two the reinforcing component 1-7.

Two reinforcing component 1-7 are threaded rod 1-7-1.

The lower end of one threaded rod 1-7-1 is fixedly connected with the top surface of the first kinetoplast 1-1.

The top surface of the lower end and the first kinetoplast 1-1 that are also possible to a threaded rod 1-7-1 is rotatablely connected.

The lower end for being also possible to a threaded rod 1-7-1 is threadedly coupled with the first kinetoplast 1-1.

The upper end for being also possible to another threaded rod 1-7-1 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

The bottom surface of the upper end and the second kinetoplast 1-3 that are also possible to another threaded rod 1-7-1 is rotatablely connected.

The upper end for being also possible to another threaded rod 1-7-1 is threadedly coupled with the second kinetoplast 1-3.

Similarly, two reinforcing component 1-7 are polished rod 1-7-2.

The lower end of one polished rod 1-7-2 is fixedly connected with the top surface of the first kinetoplast 1-1.

The top surface of the lower end and the first kinetoplast 1-1 that are also possible to a polished rod 1-7-2 is rotatablely connected.

The upper end for being also possible to another polished rod 1-7-2 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

The bottom surface of the upper end and the second kinetoplast 1-3 that are also possible to another polished rod 1-7-2 is rotatablely connected.

Similarly, in two reinforcing component 1-7, a reinforcing component 1-7 is threaded rod 1-7-1, another institute Stating reinforcing component 1-7 is polished rod 1-7-2.

The lower end of the threaded rod 1-7-1 is fixedly connected with the top surface of the first kinetoplast 1-1.

The top surface of the lower end and the first kinetoplast 1-1 that are also possible to the threaded rod 1-7-1 is rotatablely connected.

The lower end for being also possible to the threaded rod 1-7-1 is threadedly coupled with the first kinetoplast 1-1.

The upper end of the polished rod 1-7-2 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

The bottom surface of the upper end and the second kinetoplast 1-3 that are also possible to the polished rod 1-7-2 is rotatablely connected.

The lower end of the polished rod 1-7-2 is fixedly connected with the top surface of the first kinetoplast 1-1.

The top surface of the lower end and the first kinetoplast 1-1 that are also possible to the polished rod 1-7-2 is rotatablely connected.

The upper end of the threaded rod 1-7-1 is fixedly connected with the bottom surface of the second kinetoplast 1-3.

The bottom surface of the upper end and the second kinetoplast 1-3 that are also possible to the threaded rod 1-7-1 is rotatablely connected.

The upper end for being also possible to the threaded rod 1-7-1 is threadedly coupled with the second kinetoplast 1-3.

Present embodiment can realize that electric heating clamping plate and upper electric heating clamping plate carry out waterstop under bonding machine in many ways Pressure maintaining pressurization.

As shown in Figure 21 to Figure 25, the bottom surface of the second kinetoplast 1-3 is plane.

The structure of present embodiment is simpler, advantageously reduces manufacturing cost, is conducive to pressure maintaining pressing member and bonding machine Popularization and application.

It is of course also possible to be as shown in Figure 26 to Figure 31, the bottom surface of the second kinetoplast 1-3 is configured with abrasionproof pad 1-4.

Cylindrical spindle nose 1-3-4 is downwardly protrude to form in the middle part of the bottom surface of the second kinetoplast 1-3.

The bottom surface edge of the second kinetoplast 1-3 is pressure bottom surface 1-3-6.

The side of the spindle nose 1-3-4 is circumferentially arranged circumferential guide groove 1-3-5.

The shape of the abrasionproof pad 1-4 is in cylinder.

The cylinder is cylindrical body.

It is downwardly concaved to form axocoel room 1-4-1 in the middle part of the top surface of the abrasionproof pad 1-4.

The top surface edge of the abrasionproof pad 1-4 is compression top surface 1-4-4.

The bottom surface of the abrasionproof pad 1-4, which is located on axis, offers lower opening 1-4-3 to perforation.

The bottom surface of the abrasionproof pad 1-4 is pressurization bottom surface 1-4-5.

The side wall of the axocoel room 1-4-1 is at least provided with a circumferential guide pin hole 1-4-2.

The circumferential direction guide pin hole 1-4-2 has one or two or three or four.

The circumferential direction guide pin hole 1-4-2 is screw thread pin hole.

The circumferential direction guide pin hole 1-4-2 is configured with circumferential guide pin 1-4-6.

The circumferential direction guide pin 1-4-6 and circumferential direction guide groove 1-3-5 guiding cooperates.

It is of course also possible to be, in the middle part of the bottom surface of the second kinetoplast 1-3 upwardly recessed formation axocoel room.

The bottom surface edge of the second kinetoplast 1-3 is pressure bottom surface.

The side wall of the axocoel room is at least provided with a circumferential guide pin hole.

The circumferential direction guide pin hole has one or two or three or four.

The circumferential direction guide pin hole is screw thread pin hole.

The circumferential direction guide pin hole is configured with circumferential guide pin.

The shape of the abrasionproof pad 1-4 is in cylinder.

The cylinder is cylindrical body.

The cylindrical spindle nose of formation protruding upward in the middle part of the top surface of the abrasionproof pad 1-4.

The top surface edge of the abrasionproof pad 1-4 is compression top surface.

The bottom surface of the abrasionproof pad 1-4, which is located on axis, offers lower opening 1-4-3 to perforation.

The side of the spindle nose is circumferentially arranged circumferential guide groove.

The circumferential direction guide pin and the circumferential guide groove guiding cooperate.

The upper electric heating clamping plate that present embodiment is beneficial to prevent bonding machine is worn in pressure process.

As shown in figure 27, the side wall of the abrasionproof pad 1-4 lower opening 1-4-3 is provided with axially directed pin hole 1-4-3-1.

The axially directed pin hole 1-4-3-1 is screw thread pin hole.

The axially directed pin hole 1-4-3-1 is configured with axially directed pin (not drawing in figure).

The side of the threaded rod 1-7-1 is provided with axially directed slot 1-7-1-1.

The abrasionproof pad 1-4 is cooperated by the axially directed pin and threaded rod 1-7-1 guiding.

Present embodiment can ensure that abrasionproof pad not as the second kinetoplast rotates together.

As shown in FIG. 28 to 29, the pressure bottom surface 1-3-6 is smooth plane.

The compression top surface 1-4-4 is smooth plane.

It is slidably connected between the pressure bottom surface 1-3-6 and the compression top surface 1-4-4.

It is of course also possible to be the pressure bottom surface 1-3-6 and the compression as shown in Figure 26 to Figure 27, Figure 30 to Figure 31 Connection is rolled by rolling member 1-5 between the 1-4-4 of top surface.

As shown in FIG. 26 to 27, the rolling member 1-5 is ball.

It is of course also possible to be as shown in Figure 30 to Figure 31, the rolling member 1-5 is thrust bearing or oil-containing washer.

As shown in FIG. 26 to 27, the compression top surface 1-4-4 is circumferentially distributed ball location hole.

The lower part of the ball is located at the ball positioning hole.

It is also possible to that the pressure bottom surface 1-3-6 is circumferentially distributed ball location hole.

The top of the ball is located at the ball positioning hole.

The pressurization bottom surface 1-4-5 is rough surface.

Present embodiment is conducive to the relative rotation between abrasionproof pad and lower kinetoplast.

As shown in Figure 30 to Figure 31, the edge of the bottom surface lower opening 1-4-3 of the abrasionproof pad 1-4 is downwardly extending cylinder 1-4-7。

The lower edge of the cylinder 1-4-7 extends radially outward to form coaxial upper disk and lower disc.

The upper disk is positioning disk body 1-4-8.

The lower disc is pressurization disk body 1-4-9.

The diameter of the positioning disk body 1-4-8 is less than the diameter of the pressurization disk body 1-4-9.

The pressurization disk body 1-4-9 (is beneficial to prevent pressurization disk body and absorbs a large amount of heat) configured with heat-insulated pad 1-6.

The shape of the heat-insulated pad 1-6 presents the disc shell that face has opening 1-6-1.

The radially inwardly extending formation snap ring 1-6-2 in edge of the opening 1-6-1.Alternatively, the side of the opening 1-6-1 The radially inwardly extending formation clamp in edge compartment of terrain.

The heat-insulated pad 1-6 is fastened on the pressurization disk body 1-4-9.

The heat-insulated pad 1-6 is pressed into after processing is completed to be fastened on the pressurization disk body 1-4-9.

It is of course also possible to be, the medial surface of the opening 1-6-1, which prolongs, is circumferentially provided with annular slot.

The heat-insulated pad 1-6 is fixed on pressurization disk body 1-4-9 by internal jump ring.

It is also possible that the rounded plate of shape of the heat-insulated pad 1-6.

The bottom surface of the heat-insulated pad 1-6 is provided with countersunk head fixation hole.

The bottom surface of the pressurization disk body 1-4-9 is provided with threaded securing bores.

The heat-insulated pad 1-6 is fixedly connected by sunk screw with the bottom surface of the pressurization disk body 1-4-9.

The bottom surface of the heat-insulated pad 1-6, which is located on axis, offers bottom outlet 1-6-3.

The heat-insulated pad 1-6 is made of high temperature resistant heat insulation material.

The high temperature resistant heat insulation material is the temperature-resistant materials such as polytetrafluoroethylene (PTFE) or nylon or epoxy material or bakelite.

Present embodiment can simultaneously press to upper electric heating clamping plate and upper reinforcement protective cover.

As shown in Figure 26, Figure 28, Figure 30, handwheel 1-1-5 is provided at the top of the first kinetoplast 1-1.

It is of course also possible to be, the bottom of the second kinetoplast 1-3 is provided with handwheel.

It can also be that Figure 21 such as shows, the upper end of the threaded rod 1-7-1 is provided with handwheel.

It is also possible that the lower end of the threaded rod 1-7-1 is provided with handwheel.

Present embodiment is convenient to realize pressurized operation.

As shown in figure 25, the side of the upper end the threaded rod 1-7-1 is provided with circumferential guide groove and configured with circumferential guiding Pin.

It is of course also possible to be, the side of the lower end the threaded rod 1-7-1 is provided with circumferential guide groove and configured with Zhou guide To pin.

As shown in FIG. 26 to 27, the side of the lower end the threaded rod 1-7-1, which is provided with, reams and configured with hinged shaft.

It is of course also possible to be, the side of the upper end the threaded rod 1-7-1, which is provided with, reams and configured with hinged shaft.

As shown in figure 21, the threaded rod 1-7-1 is configured with nut.

Similarly, the side of the upper end the polished rod 1-7-2 is provided with circumferential guide groove and configured with circumferential guide pin.

The side for being also possible to the lower end the polished rod 1-7-2 is provided with circumferential guide groove and configured with circumferential guide pin.

The side of the upper end the polished rod 1-7-2, which is provided with, reams and configured with hinged shaft.

The side for being also possible to the lower end the polished rod 1-7-2, which is provided with, reams and configured with hinged shaft.

Present embodiment can realize a variety of pressuring methods.

As shown in figure 32 to figure 33, the pressure maintaining elastomeric element 1-2 is helical spring.

It is of course also possible to be as shown in Figure 34 to Figure 35, the pressure maintaining elastomeric element 1-2 is leaf spring.

It is also possible that the pressure maintaining elastomeric element 1-2 is elastic balloon body.

It is also possible that the pressure maintaining elastomeric element 1-2 is elastic liquid capsule body.

As shown in figure 32, the helical spring is cylindrical helical spring.

The cylindrical helical spring has one.

It is of course also possible to be, there are two the cylindrical helical springs, and the internal diameter of a cylindrical helical spring is greater than another The outer diameter of one cylindrical helical spring, another described described cylindrical helical spring are located at a cylindrical helical spring It is interior (two diameter differences, oppositely oriented inside and outside spring to be installed using two springs.Due to two springs intrinsic frequency not Together, when a spring resonates, another spring can play damping vibration attenuation function.Spring can reduce using dual spring Highly, and when a spring fracture, another spring can still maintain work.Spring is oppositely oriented, can prevent from fractureing Spring ring, which is caught in another spring ring, prevents it from working or damaging).

As shown in figure 33, the helical spring is tower-shaped helical spring.

The helical spring is formed by steel wire wound.

The cross section of the steel wire is rectangular or rectangle or circle or cydariform.

As shown in figure 34, the leaf spring is to fold leaf spring.

It is of course also possible to be as shown in figure 35, the leaf spring is annular leaf spring.

The leaf spring offers axis hole along its length.

The elastic balloon body and the elastic liquid capsule body are made of heat-resisting material.

Present embodiment can produce a variety of bonding machines according to the demand and actual conditions of different clients.

As shown in Figure 36 to Figure 39, present embodiments provide for a kind of pressure maintaining pressurization hinges 2, including the first rotation coupling 2-1, the second rotation coupling 2-2, articulated shaft 2-3, the first rotation coupling 2-1 and the second rotation coupling 2-2 Hinged by the articulated shaft 2-3, the first rotation coupling 2-1 is separated into rotor 2-1-1 and connector 2-1-2, institute It states connector 2-1-2 and is connected with the rotor 2-1-1 by pressure maintaining elastomeric element 2-1-3, in the operating condition, the connection Body 2-1-2 has the tendency that moving towards the articulated shaft 2-3 under the action of pressure maintaining elastomeric element 2-1-3 elastic force.And/or The second rotation coupling 2-2 is separated into rotor and connector, and the connector and the rotor pass through pressure maintaining elasticity Component connection, in the operating condition, the connector has under the action of pressure maintaining elastomeric element elastic force towards the articulated shaft The trend of movement.

The pressure maintaining pressurization hinge of present embodiment can make electric heating clamping plate and upper electric heating clamping plate under bonding machine press waterstop Afterwards, although being squeezed out around after waterstop heating softening, the pressure base of lower electric heating clamping plate and upper electric heating clamping plate to waterstop This is constant, greatly improves the welding fastness of waterstop.It underlines herein, the pressure maintaining of present embodiment pressurization hinge not only can be with Electric heating clamping plate and upper electric heating clamping plate under bonding machine is set to press waterstop, furthermore, it is possible to the field for any required pressure maintaining pressurization It closes.

As the various improvement of present embodiment, details are as follows.

As shown in Figure 36 to Figure 39, the rotor 2-1-1 is by rotation section 2-1-1-1, extension board 2-1-1-2, sliding block 2- 1-1-4 is integrally formed part.

Present embodiment is to make rotor and connector that can have becoming for relative motion under the action of pressure maintaining elastomeric element Gesture creates advantage.

As shown in Figure 36 to Figure 39, the shape of the rotation section 2-1-1-1 is in cylindrical body or Elliptic Cylinder.

The cylindrical body or Elliptic Cylinder, which are located at axis, is through with hinge hole 2-1-1-1-1.

Present embodiment is conducive to rotation section and the second rotation coupling is rotatablely connected.

As shown in Figure 36 to Figure 39, the shape of the extension board 2-1-1-2 is elongated.

The width of the extension board 2-1-1-2 is equal to the length of the rotation section 2-1-1-1.

The inner plate surface of the one end the extension board 2-1-1-2 and the tangent connection of rotation section 2-1-1-1.

The inner plate surface of the extension board 2-1-1-2 is provided with groove along its length and forms dilatation chamber 2-1-1-3.

The dilatation chamber 2-1-1-3 is medially arranged.

The dilatation chamber 2-1-1-3 is short dilatation chamber, be located at the rotation section 2-1-1-1 and sliding block 2-1-1-4 it Between.

It is of course also possible to be, the dilatation chamber 2-1-1-3 is long dilatation chamber, penetrates through the extension board 2- along its length 1-1-2 inner plate surface.

The cross-sectional shape of the dilatation chamber 2-1-1-3 is in discount vibram outlet shape or rectangle or isosceles triangle.

The side of the extension board 2-1-1-2 and the end face of the rotation section 2-1-1-1 constitute " q " font.

Present embodiment is conducive to provide biggish installation space for pressure maintaining elastomeric element.

As shown in Figure 36 to Figure 39, the shape of the sliding block 2-1-1-4 is in cuboid.

The length of the sliding block 2-1-1-4 is greater than the width of the sliding block 2-1-1-4.

The width of the sliding block 2-1-1-4 is greater than the height of the sliding block 2-1-1-4.

A face of growing tall of the sliding block 2-1-1-4 is provided with fixing screwed hole 2-1-1-4-1.

The fixing screwed hole 2-1-1-4-1 at least one.

There are two the fixing screwed hole 2-1-1-4-1.

Two fixing screwed hole 2-1-1-4-1 are distributed along the length direction of the sliding block 2-1-1-4.

The inner plate surface of another grow tall face and the extension board 2-1-1-2 other end of the sliding block 2-1-1-4 is linked as one Body.

The width of the extension board 2-1-1-2 is greater than the length of the sliding block 2-1-1-4.

The length direction of the sliding block 2-1-1-4 is of same size with the extension board 2-1-1-2's.

The sliding block 2-1-1-4 is located at the middle part of the inner plate surface width direction of the extension board 2-1-1-2 other end.

It is of course also possible to be, the sliding block 2-1-1-4 is located at the inner plate surface width of the extension board 2-1-1-2 other end Any side in direction.

Present embodiment is conducive to that cover board is fixedly mounted.

As shown in Figure 36 to Figure 39, the shape of the connector 2-1-2 is in cuboid.

The length of the connector 2-1-2 is greater than the width of the connector 2-1-2.

The width of the connector 2-1-2 is greater than the height of the connector 2-1-2.

Guiding through groove 2-1-2-1 is offered in the middle part of the connector 2-1-2 length and width face.

The shape of the guiding through groove 2-1-2-1 is elongated.

Present embodiment is conducive to install sliding block.

As shown in Figure 36 to Figure 39, a length and width face of the connector 2-1-2 is located at the guiding through groove 2-1-2-1 two The edge of side inwardly concaves to form the neat face recess 2-1-2-2 of cover board.

Present embodiment is conducive to be embedded in cover board in the neat face recess of cover board.

As shown in Figure 36 to Figure 39, one end of the neat face recess 2-1-2-2 of cover board is along the guiding through groove 2-1-2-1 Length direction extend outward to form opening.

It inwardly concaves to form anti-interference recess 2-1-2-3 in face of that should be open where the opening.

Present embodiment can prevent from generating interference between connector and rotor.

As shown in Figure 36 to Figure 39, the two sides of the neat face recess 2-1-2-2 of cover board are respectively arranged with adjustable fixation hole 2-1-2-4。

The elongated open-work of shape of the adjustable fixation hole 2-1-2-4.

The length of the strip open-work is 20mm-100mm.

The length of the strip open-work is 50mm.

The adjustable fixation hole 2-1-2-4 is configured with adjusting fixing screws 2-1-2-4-1.

Present embodiment can adjust the position of pressure maintaining pressurization hinge installation according to the actual situation.

As shown in Figure 36 to Figure 39, the side wall of two described one end adjustable fixation hole 2-1-2-4 is respectively arranged with adjustable Save threaded hole 2-1-2-5.

The adjustable threaded hole 2-1-2-5 is far from the anti-interference recess 2-1-2-3.

As shown in Figure 38 to Figure 39, the diameter of the adjustable threaded hole 2-1-2-5 is greater than the adjustable fixation hole 2- The width of 1-2-4.

The adjustable threaded hole 2-1-2-5 is preced with the adjustable fixation hole 2-1-2-4 phase.

The two side walls of the adjustable fixation hole 2-1-2-4 are eliminated by the side wall of the adjustable threaded hole 2-1-2-5 Part afterwards is provided with screw thread.

The adjustable threaded hole 2-1-2-5 is configured with adjusting screw 2-1-2-5-1.

The adjusting screw 2-1-2-5-1 is non-cap adjusting screw.

The non-cap length for adjusting screw is corresponding to the length of the adjustable whole threaded portion of threaded hole 2-1-2-5.

Present embodiment can will adjust screw and be embedded in adjustable threaded hole, and it is dry to avoid the other components generations of adjusting screw It relates to.

As shown in Figure 36 to Figure 39, cover board 2-1-4 is provided in the neat face recess 2-1-2-2 of cover board.

The thickness of the cover board 2-1-4 is less than the depth of the neat face recess 2-1-2-2 of the cover board.

Fixation hole 2-1-4-1 is provided on the cover board 2-1-4.

The fixation hole 2-1-4-1 is countersunk head fixation hole.

The width of the guiding through groove 2-1-2-1 is greater than the length of the sliding block 2-1-1-4.

The difference of the length of the width and sliding block 2-1-1-4 of the guiding through groove 2-1-2-1 is 0.01mm~1mm.

The sliding block 2-1-1-4 is protruded into from another length and width face of the connector 2-1-2.

The sliding block 2-1-1-4 is stretched out from a length and width face of the connector 2-1-2.

The sliding block 2-1-1-4 is fixedly connected by fixing screws with the cover board 2-1-4.

Activity cooperation between the sliding block 2-1-1-4 and the connector 2-1-2.

Present embodiment can ensure that cover board can neatly be moved with sliding block relative to connector.

As shown in Figure 36 to Figure 39, the guiding through groove 2-1-2-1, the extension board 2-1-1-2, the sliding block 2-1-1- 4, the cover board 2-1-4 is enclosed cavity.

Pressure maintaining elastomeric element 2-1-3 is in the cavity.

Present embodiment is conducive to protect pressure maintaining elastomeric element, extends the service life of pressure maintaining pressurization hinge.

As shown in Figure 36 to Figure 39, the pressure maintaining elastomeric element 2-1-3 be helical spring or leaf spring or elastic balloon body or Elastic liquid capsule body.

The helical spring is cylindrical helical spring or tower-shaped helical spring.

The cylindrical helical spring has one.

It is of course also possible to be, there are two the cylindrical helical springs, and the internal diameter of a cylindrical helical spring is greater than another The outer diameter of one cylindrical helical spring, another described described cylindrical helical spring are located at a cylindrical helical spring It is interior (two diameter differences, oppositely oriented inside and outside spring to be installed using two springs.Due to two springs intrinsic frequency not Together, when a spring resonates, another spring can play damping vibration attenuation function.Spring can reduce using dual spring Highly, and when a spring fracture, another spring can still maintain work.Spring is oppositely oriented, can prevent from fractureing Spring ring, which is caught in another spring ring, prevents it from working or damaging).

The cylindrical helical spring or the tower-shaped helical spring are circular section wire spring.Alternatively,

The cylindrical helical spring or the tower-shaped helical spring are square section wire spring.Alternatively,

The cylindrical helical spring or the tower-shaped helical spring are cydariform section spring.

The leaf spring is to fold leaf spring or annular leaf spring.

The elastic balloon body and the elastic liquid capsule body are made of heat-resisting material.

Present embodiment can produce a variety of pressure maintaining pressurization hinges according to the actual situation.

As shown in Figure 36 to Figure 39, the second rotation coupling 2-2 has one or two.

The shape of one the second rotation coupling 2-2 is in cuboid.

The length of one the second rotation coupling 2-2 is greater than the width of the second rotation coupling 2-2.

The height for being wider than the second rotation coupling 2-2 of one the second rotation coupling 2-2.

It inwardly concaves to form rotation section receiving recess in the middle part of a face of growing tall of one the second rotation coupling 2-2 2-2-1。

Two walls that the rotation section accommodates recess 2-2-1 coaxially offer hinge hole 2-2-2.

The rotation section 2-1-1-1 is hinged by the articulated shaft 2-3 and the second rotation coupling 2-2.

Fixation hole 2-2-3 is offered on the length and width face of one the second rotation coupling 2-2.

The fixation hole 2-2-3 is countersunk head fixation hole.

The axis of the fixation hole 2-2-3 hangs down perpendicular to the hinge hole 2-2-2.

The fixation hole 2-2-3 is configured with fixing screws 2-2-3-1.

Present embodiment is conducive to be stably installed.

As shown in Figure 36 to Figure 39, two the second rotation coupling 2-2 are two bar shapes.

The one end side of two bar shapes is respectively arranged with hinge hole.

The other end side of two bar shapes is respectively arranged with countersunk head fixation hole.

Axis direction of the axis direction of the hinge hole perpendicular to the countersunk head fixation hole.

The rotation section 2-1-1-1 is hinged by the articulated shaft 2-3 and two the second rotation coupling 2-2.

Pass through electric welding or the connection that is screwed between the two second rotation coupling 2-2 and the articulated shaft 2-3.

The rotation section 2-1-1-1 and articulated shaft 2-3 is rotatablely connected.Alternatively,

Pass through electric welding or the connection that is screwed between the rotation section 2-1-1-1 and the articulated shaft 2-3.

The second rotation coupling 2-2 and articulated shaft 2-3 is rotatablely connected.

Present embodiment is conducive to neatly install.

Claims (8)

1. a kind of pressure maintaining pressing member (1), it is characterised in that: including the first kinetoplast (1-1) and the second kinetoplast (1-3), described It is connected between one kinetoplast (1-1) and second kinetoplast (1-3) by pressure maintaining elastomeric element (1-2)；First kinetoplast (1-1) Have under the action of external force and the pressure maintaining elastomeric element (1-2) elastic force between second kinetoplast (1-3) and mutually leans on Trend that is close or being located remotely from each other.

2. pressure maintaining pressing member (1) according to claim 1, it is characterised in that:

The external force is external broach, and correspondingly, the elastic force is elastic pulling force；

Alternatively,

The external force is external pressure, and correspondingly, the elastic force is elastic pressure.

3. pressure maintaining pressing member (1) according to claim 1, it is characterised in that:

It is pressurization connection between first kinetoplast (1-1) and one end of the pressure maintaining elastomeric element (1-2), it is correspondingly, described It is also pressurization connection between second kinetoplast (1-3) and the other end of the pressure maintaining elastomeric element (1-2)；

Alternatively,

It is hanging connection between first kinetoplast (1-1) and one end of the pressure maintaining elastomeric element (1-2), it is correspondingly, described It is also hanging connection between second kinetoplast (1-3) and the other end of the pressure maintaining elastomeric element (1-2)；

The shape of first kinetoplast (1-1) is in cylinder；

The cylinder is cylindrical body or square body；

Upwardly recessed formation is for accommodating pressure maintaining elastomeric element (1-2) top in the middle part of the bottom surface of first kinetoplast (1-1) Upper chamber (1-1-1)；

The upper chamber (1-1-1) is cylindrical upper chamber or square column type upper chamber；

The shape of second kinetoplast (1-3) is in cylinder；

The cylinder is cylindrical body or square body；

The top surface of second kinetoplast (1-3) is downwardly concaved to be formed for accommodating under pressure maintaining elastomeric element (1-2) lower part Chamber (1-3-1)；

The top of second kinetoplast (1-3) is together with the lower part fitting of first kinetoplast (1-1)；

It can relatively be moved back and forth in the axial direction between second kinetoplast (1-3) and first kinetoplast (1-1)；

The radial dimension of first kinetoplast (1-1) upper chamber (1-1-1) is greater than the radial dimension of second kinetoplast (1-3)；

First kinetoplast (1-1) is nested on second kinetoplast (1-3)；

The side wall of the upper chamber (1-1-1) at least offers an axially directed limit pin hole (1-1-2)；

The axially directed limit pin hole (1-1-2) is circumferentially uniformly distributed along the side wall of the upper chamber (1-1-1)；

The axially directed limit pin hole (1-1-2) is close to the bottom surface of first kinetoplast (1-1)；

The axially directed limit pin hole (1-1-2) is threaded hole；

The axially directed limit pin hole (1-1-2) is configured with axially directed spacer pin (1-1-4)；

The axially directed spacer pin (1-1-4) is threaded pin or resilient key or interference pin shaft；

Correspondingly,

The lateral wall of the lower chambers (1-3-1) at least offers an axially directed limiting slot (1-3-2)；

The both ends of the axially directed limiting slot (1-3-2) are closed；

The axially directed limiting slot (1-3-2) is circumferentially uniformly distributed along the lateral wall of the lower chambers (1-3-1)；

The axially directed spacer pin (1-1-4) and axially directed limiting slot (1-3-2) guide and limit cooperate；

Alternatively,

The radial dimension of first kinetoplast (1-1) is less than the radial dimension of the second kinetoplast (1-3) lower chambers (1-3-1)；

First kinetoplast (1-1) is inserted into the lower chambers (1-3-1) of second kinetoplast (1-3)；

The side wall of the lower chambers (1-3-1) at least offers an axially directed limit pin hole；

The axially directed limit pin hole is circumferentially uniformly distributed along the side wall of the lower chambers (1-3-1)；

The axially directed limit pin hole is close to the top surface of second kinetoplast (1-3)；

The axially directed limit pin hole is threaded hole；

The axially directed limit pin hole is configured with axially directed spacer pin；

The axially directed spacer pin is threaded pin or resilient key or interference pin shaft；

Correspondingly,

The lateral wall of the upper chamber (1-1-1) at least offers an axially directed limiting slot；

The both ends of the axially directed limiting slot are closed；

The axially directed limiting slot is circumferentially uniformly distributed along the lateral wall of the upper chamber (1-1-1)；

The axially directed spacer pin and the axially directed limiting slot guide and limit cooperate.

4. pressure maintaining pressing member (1) according to claim 3, it is characterised in that:

The pressure maintaining pressing member (1) is configured with reinforcing component (1-7)；

The reinforcing component (1-7) is threaded rod (1-7-1) and/or polished rod (1-7-2)；

The reinforcing component (1-7) has one or two；

It is fixedly connected or is rotatablely connected or be threadedly coupled between the reinforcing component (1-7) and first kinetoplast (1-1) or add Pressure connection；

It is fixedly connected or is rotatablely connected or be threadedly coupled between the reinforcing component (1-7) and second kinetoplast (1-3) or add Pressure connection；

The top surface of first kinetoplast (1-1), which is located on axis, offers hole (1-1-3) to perforation；

The upper hole (1-1-3) is unthreaded hole or threaded hole；And/or

The bottom surface of second kinetoplast (1-3), which is located on axis, offers mesoporous (1-3-3) to perforation；

The mesoporous (1-3-3) is unthreaded hole or threaded hole；

The reinforcing component (1-7) has one；

One reinforcing component (1-7) is a threaded rod (1-7-1)；

The lower end of one threaded rod (1-7-1) is fixedly connected with the top surface of first kinetoplast (1-1)；Alternatively,

The lower end of one threaded rod (1-7-1) and the top surface of first kinetoplast (1-1) are rotatablely connected；Alternatively,

The upper end of one threaded rod (1-7-1) is threadedly coupled with first kinetoplast (1-1), the threaded rod (1-7-1) Lower end passes through the unthreaded hole of second kinetoplast (1-3)；Alternatively,

The upper end of one threaded rod (1-7-1) is fixedly connected with the bottom surface of first kinetoplast (1-1), the threaded rod (1- Lower end 7-1) passes through the unthreaded hole of second kinetoplast (1-3)；Alternatively,

The upper end of one threaded rod (1-7-1) and the bottom surface of first kinetoplast (1-1) are rotatablely connected, the threaded rod (1- Lower end 7-1) passes through the unthreaded hole of second kinetoplast (1-3)；Alternatively,

The upper end of one threaded rod (1-7-1) is fixedly connected with the bottom surface of second kinetoplast (1-3)；Alternatively,

The upper end of one threaded rod (1-7-1) and the bottom surface of second kinetoplast (1-3) are rotatablely connected；Alternatively,

The lower end of one threaded rod (1-7-1) is threadedly coupled with second kinetoplast (1-3), the threaded rod (1-7-1) Upper end passes through the unthreaded hole of first kinetoplast (1-1)；Alternatively,

The lower end of one threaded rod (1-7-1) is fixedly connected with the top surface of second kinetoplast (1-3), the threaded rod (1- Upper end 7-1) passes through the unthreaded hole of first kinetoplast (1-1)；Alternatively,

The lower end of one threaded rod (1-7-1) and the bottom surface of second kinetoplast (1-3) are rotatablely connected, a screw thread The upper end of bar (1-7-1) passes through the unthreaded hole of first kinetoplast (1-1)；

There are two the reinforcing components (1-7)；

Two reinforcing components (1-7) are all threaded rod (1-7-1)；

The lower end of one threaded rod (1-7-1) is fixedly connected with the top surface of first kinetoplast (1-1)；Alternatively,

The lower end of one threaded rod (1-7-1) and the top surface of first kinetoplast (1-1) are rotatablely connected；Alternatively,

The lower end of one threaded rod (1-7-1) is threadedly coupled with first kinetoplast (1-1)；

The upper end of another threaded rod (1-7-1) is fixedly connected with the bottom surface of second kinetoplast (1-3)；Alternatively,

The upper end of another threaded rod (1-7-1) and the bottom surface of second kinetoplast (1-3) are rotatablely connected；Alternatively,

The upper end of another threaded rod (1-7-1) is threadedly coupled with second kinetoplast (1-3)；

The bottom surface of second kinetoplast (1-3) is plane；

Alternatively,

The bottom surface of second kinetoplast (1-3) is configured with abrasionproof pad (1-4)；

Cylindrical spindle nose (1-3-4) is downwardly protrude to form in the middle part of the bottom surface of second kinetoplast (1-3)；

The bottom surface edge of second kinetoplast (1-3) is pressure bottom surface (1-3-6)；

The side of the spindle nose (1-3-4) is circumferentially arranged circumferential guide groove (1-3-5)；

The shape of the abrasionproof pad (1-4) is in cylinder；

The cylinder is cylindrical body；

It is downwardly concaved to form axocoel room (1-4-1) in the middle part of the top surface of the abrasionproof pad (1-4)；

The top surface edge of the abrasionproof pad (1-4) is compression top surface (1-4-4)；

The bottom surface of the abrasionproof pad (1-4), which is located on axis, offers lower opening (1-4-3) to perforation；

The bottom surface of the abrasionproof pad (1-4) is pressurization bottom surface (1-4-5)；

The side wall of the axocoel room (1-4-1) is at least provided with a circumferential guide pin hole (1-4-2)；

The circumferential direction guide pin hole (1-4-2) is screw thread pin hole；

The circumferential direction guide pin hole (1-4-2) is configured with circumferential guide pin (1-4-6)；

The circumferential direction guide pin (1-4-6) and the circumferential guide groove (1-3-5) are oriented to and cooperate；

Alternatively,

Upwardly recessed formation axocoel room in the middle part of the bottom surface of second kinetoplast (1-3)；

The bottom surface edge of second kinetoplast (1-3) is pressure bottom surface；

The side wall of the axocoel room is at least provided with a circumferential guide pin hole；

The circumferential direction guide pin hole is screw thread pin hole；

The circumferential direction guide pin hole is configured with circumferential guide pin；

The shape of the abrasionproof pad (1-4) is in cylinder；

The cylinder is cylindrical body；

The cylindrical spindle nose of formation protruding upward in the middle part of the top surface of the abrasionproof pad (1-4)；

The top surface edge of the abrasionproof pad (1-4) is compression top surface；

The bottom surface of the abrasionproof pad (1-4), which is located on axis, offers lower opening (1-4-3) to perforation；

The side of the spindle nose is circumferentially arranged circumferential guide groove；

The circumferential direction guide pin and the circumferential guide groove guiding cooperate；

The side wall of abrasionproof pad (1-4) lower opening (1-4-3) is provided with axially directed pin hole (1-4-3-1)；

The axially directed pin hole (1-4-3-1) is screw thread pin hole；

The axially directed pin hole (1-4-3-1) is configured with axially directed pin；

The side of the threaded rod (1-7-1) is provided with axially directed slot (1-7-1-1)；

The abrasionproof pad (1-4) is cooperated by the axially directed pin and the threaded rod (1-7-1) guiding；

The pressure bottom surface (1-3-6) is smooth plane；

The compression top surface (1-4-4) is smooth plane；

It is slidably connected between the pressure bottom surface (1-3-6) and the compression top surface (1-4-4)；

Alternatively,

Connection is rolled by rolling member (1-5) between the pressure bottom surface (1-3-6) and the compression top surface (1-4-4)；

The rolling member (1-5) is ball or thrust bearing or oil-containing washer；

The compression top surface (1-4-4) is circumferentially distributed ball location hole；

The lower part of the ball is located at the ball positioning hole；

Alternatively,

The pressure bottom surface (1-3-6) is circumferentially distributed ball location hole；

The top of the ball is located at the ball positioning hole；

The pressurization bottom surface (1-4-5) is rough surface；

The edge of the bottom surface lower opening (1-4-3) of the abrasionproof pad (1-4) is downwardly extending cylinder (1-4-7)；

The lower edge of the cylinder (1-4-7) extends radially outward to form coaxial upper disk and lower disc；

The upper disk is positioning disk body (1-4-8)；

The lower disc is pressurization disk body (1-4-9)；

The diameter of positioning disk body (1-4-8) is less than the diameter of pressurization disk body (1-4-9).

5. pressure maintaining pressing member (1) according to claim 4, it is characterised in that:

The pressurization disk body (1-4-9) is configured with heat-insulated pad (1-6)；

The shape of the heat-insulated pad (1-6) presents the disc shell that face has open (1-6-1)；

The radially inwardly extending formation snap ring (1-6-2) in edge of the opening (1-6-1)；Alternatively, the opening (1-6-1) The radially inwardly extending formation clamp in edge compartment of terrain；

The heat-insulated pad (1-6) is fastened on the pressurization disk body (1-4-9)；

Alternatively,

The medial surface of the opening (1-6-1), which prolongs, is circumferentially provided with annular slot；

The heat-insulated pad (1-6) is fixed in pressurization disk body (1-4-9) by internal jump ring；

Alternatively,

The rounded plate of shape of the heat-insulated pad (1-6)；

The bottom surface of the heat-insulated pad (1-6) is provided with countersunk head fixation hole；

The bottom surface of pressurization disk body (1-4-9) is provided with threaded securing bores；

The heat-insulated pad (1-6) is fixedly connected by sunk screw with the bottom surface of pressurization disk body (1-4-9)；

The bottom surface of the heat-insulated pad (1-6), which is located on axis, offers bottom outlet (1-6-3)；

The heat-insulated pad (1-6) is made of high temperature resistant heat insulation material；

The high temperature resistant heat insulation material is polytetrafluoroethylene (PTFE) or nylon or epoxy material or bakelite temperature-resistant material.

6. pressure maintaining pressing member (1) according to claim 5, it is characterised in that:

Handwheel (1-1-5) is provided at the top of first kinetoplast (1-1)；Alternatively,

The bottom of second kinetoplast (1-3) is provided with handwheel；Alternatively,

The upper end of the threaded rod (1-7-1) is provided with handwheel；Alternatively,

The lower end of the threaded rod (1-7-1) is provided with handwheel.

7. pressure maintaining pressing member (1) according to claim 1, it is characterised in that:

The pressure maintaining elastomeric element (1-2) is helical spring or leaf spring or elastic balloon body or elastic liquid capsule body；

The helical spring is cylindrical helical spring or tower-shaped helical spring；

The helical spring is formed by steel wire wound；

The cross section of the steel wire is rectangular or rectangle or circle or cydariform；

The leaf spring is to fold leaf spring or annular leaf spring；

The leaf spring offers axis hole along its length；

The elastic balloon body and the elastic liquid capsule body are made of heat-resisting material.

8. a kind of bonding machine, including lower electric heating clamping plate (3) and upper electric heating clamping plate (4), the both ends of the lower electric heating clamping plate (3) and institute It states and is connected respectively by pressing member between the both ends of electric heating clamping plate (4)；Alternatively, the middle part of the upper electric heating clamping plate (4) is logical It is overpressurized component pressurization, it is characterised in that: the pressing member is the pressure maintaining pressing member as described in one of claim 1 to 7 (1)。