CN208214684U - Built-in part welds auxiliary mould - Google Patents

Abstract

The utility model discloses a kind of built-in parts to weld auxiliary mould, including auxiliary clamp, bottom hot-die and bed die actuator, wherein is provided with clamping chamber in auxiliary clamp, clamps chamber for clamping built-in part, and stretches out the both ends of built-in part and clamp outside chamber；Bed die actuator is for driving bottom hot-die to close or separate with the back welding junction of built-in part；The back welding junction of bottom hot-die and built-in part close to when, back welding junction is heated to melting.In the utility model, before built-in part and type embryonic breeding touching are welded, the back welding junction of built-in part is processed as by molten condition using bottom hot-die, to make it when welding with type embryo, can be relatively reliable be bonded on type embryo improves welding stability.

Description

Built-in part welds auxiliary mould

Technical field

The utility model relates to technical fields of mechanical processing more particularly to a kind of built-in part to weld auxiliary mould.

Background technique

When being machined, welding is a kind of mode being widely applied, wherein when there is built-in part to need to be welded on type On embryo, and the type embryo is placed in a mold due to processing.Conventional scheme is that built-in part is clamped in part to clamp work It loads onto, it is mobile using mechanical hand-motion part clamping tooling, it is in contact so that built-in part be driven to be moved to type embryo, due to type embryo In the condition of high temperature, built-in part generally easily melts material and is made, therefore when built-in part and type embryonic breeding touching, contact surface is melted, To be bonded on type embryo, welding is completed.

However aforesaid way, since the thawing of built-in part with type embryonic breeding touching by what is realized, soldering reliability is lower, very It is easy to appear the problem of built-in part falls off.

Utility model content

The purpose of this utility model is to provide a kind of built-in parts to weld auxiliary mould, to solve the above problems, built-in Before part and type embryonic breeding touching, the back welding junction of built-in part is heated, molten condition is become, so that it is reliable to increase welding Property, built-in part, which is avoided the occurrence of, because welding is firm the problem of falling off occurs.

Built-in part provided by the utility model welds auxiliary mould, and one end of the built-in part is provided with back welding junction, institute Stating built-in part welding auxiliary mould includes:

Auxiliary clamp is provided with clamping chamber in the auxiliary clamp, and the clamping chamber makes built-in for clamping built-in part The both ends of part are stretched out outside the clamping chamber；

Bottom hot-die；

Bed die actuator, the bed die actuator is for driving the bottom hot-die to the back welding junction with the built-in part It is close or separate；The bottom hot-die adds the back welding junction close to when being in contact with the back welding junction of the built-in part Heat extremely melts.

Built-in part as described above welds auxiliary mould, wherein preferably, the bed die actuator is that bed die translation is driven Moving part, the driving end of the bed die actuator are connect with the bottom hot-die.

Built-in part as described above welds auxiliary mould, wherein further includes total actuator preferably；The additional lock Tool and the bed die actuator are mounted on the driving end of total actuator；

The built-in part that total actuator is used to that heating to be driven to complete reaches welding position.

Built-in part as described above welds auxiliary mould, wherein preferably, the auxiliary clamp include the first fixture, Second fixture and fixture actuator；The first driving end and the second driving end are provided on the fixture actuator；

The fixture actuator is installed on the driving end of total actuator, first fixture and first driving End connection, second fixture are connect with second driving end；

The fixture actuator is described built-in to clamp for driving first fixture and second fixture to match Part.

Built-in part as described above welds auxiliary mould, wherein preferably, is provided with the first arc on first fixture Shape slot is provided with the second arc groove on second fixture, and first arc groove and second arc groove match to be formed The clamping chamber.

Built-in part as described above welds auxiliary mould, wherein further include pedestal preferably, total actuator and The bed die driven in translation part is mounted on the pedestal.

Built-in part as described above welds auxiliary mould, wherein and it further include bed die bracket preferably, the bed die branch One end of frame is connect with total actuator, and the other end is fixedly connected with the base.

Built-in part as described above welds auxiliary mould, wherein preferably, the bed die bracket includes that end vertical is solid Fixed bottom lateral frame and bottom longitudinal support.

Built-in part as described above welds auxiliary mould, wherein preferably, the bottom hot-die is solid by bed die fixed plate Due on the driving end of the bed die actuator.

Built-in part provided by the utility model welds auxiliary mould, including auxiliary clamp, bottom hot-die and bed die actuator, In, it is provided with clamping chamber in auxiliary clamp, clamps chamber for clamping built-in part, and stretches out the both ends of built-in part and clamps outside chamber Portion；Bed die actuator is for driving bottom hot-die to close or separate with the back welding junction of built-in part；Bottom hot-die and built-in part Back welding junction close to when, back welding junction is heated to melting.In the utility model, welded in built-in part and type embryonic breeding touching Before, the back welding junction of built-in part is processed as by molten condition using bottom hot-die, thus make it when welding with type embryo, Neng Gougeng Add and be reliably bonded on type embryo, improves welding stability.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that built-in part provided by the embodiment of the utility model welds auxiliary mould；

Fig. 2 is the structural representation being mounted on the base that built-in part provided by the embodiment of the utility model welds auxiliary mould Figure.

Description of symbols:

10- auxiliary clamp 11- the first fixture 12- the second fixture 13- fixture actuator

20- pushes up hot-die 21- backform fixed plate 30- backform actuator 31- backform driven in translation part

The bottom 32- rotary drive 40- hot-die 41- bed die fixed plate 50- bed die actuator

The total actuator 70- pedestal 80- backform bracket 90- bed die bracket of 60-

Specific embodiment

The embodiments of the present invention are described below in detail, the example of embodiment is shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the utility model, and cannot be construed to limitations of the present invention.

Introduce the built-in part for needing to weld in the utility model first below, which needs and the type in mold Embryo is welded, when welding, before built-in part is welded in entering mold with type embryo, first in the utility model embodiment In the built-in part welding auxiliary mould of offer, built-in part is heated.Specifically, the both ends of the built-in part are required to and type embryo It is welded, mode used by welding is that the both ends of built-in part are heated to be molten condition respectively, will be interior for convenience of describing The both ends for setting part are respectively designated as overhead welding junction and back welding junction；After the completion of built-in part is heated, then built-in part is sent into mold In, it contacts it with type embryo, on the type embryo for welding built-in part using the molten condition, namely utilizes the material of molten condition Material is touched with type embryonic breeding, then to which when the temperature drops, built-in part can be then bonded on type embryo, this is to weld to complete.

Built-in part provided by the embodiment of the utility model welds auxiliary mould, is mainly used for PHD (PARTHOLDING DEVICE, parts retainer) on, built-in part welding auxiliary mould is installed on PHD, is then clamped in built-in part built-in Part welds on auxiliary mould, finally designated position is moved to using mechanical hand-motion PHD, in order to be welded.

Certainly, it will be appreciated by persons skilled in the art that built-in part provided by the embodiment of the utility model welding auxiliary Tooling can be used in other equipment, be not limited to PHD.

Built-in part welding auxiliary mould provided by the embodiment of the utility model is retouched in detailed below, which includes auxiliary Fixture 10, top hot-die 20, backform actuator 30, bottom hot-die 40 and bed die actuator 50.

Wherein, it is provided with clamping chamber in auxiliary clamp 10, clamps chamber for clamping built-in part, and stretch the both ends of built-in part It clamps outside chamber out.Top hot-die 20 is mainly used for heating the overhead welding junction of built-in part, so that molten condition is become, It is welded convenient for subsequent with type embryo.Backform actuator 30 is for driving top hot-die 20 to be in contact with the overhead welding junction of built-in part. Bottom hot-die 40 is mainly used for heating the back welding junction of built-in part, to become molten condition, is convenient for back welding junction It is subsequent to be welded with type embryo.Bed die actuator 50 is used to that bottom hot-die 40 to be driven to be in contact with the back welding junction of built-in part, and will Back welding junction is heated to melting.

It should be understood that can be heated in the back welding junction of built-in part when only bottom hot-die 40 can be used Built-in part is taken out from clamping chamber, is then re-installed in built-in part and clamps in chamber, that is, built-in part is climbed over by Cheng Hou Come, be re-installed in and clamp in chamber, the overhead welding junction of built-in part is contacted with bottom hot-die 40, consequently facilitating using One bottom hot-die heats the overhead welding junction of built-in part and back welding junction, achievees the purpose that save cost.

In the utility model embodiment, before built-in part and type embryonic breeding touching are welded, using top hot-die 20 and bottom heat The overhead welding junction of built-in part and back welding junction are processed as molten condition by mould 40, thus make it when welding with type embryo, it can Relatively reliable is bonded on type embryo, improves welding stability.Due to carrying out heating and melting operation directly on auxiliary clamp 10, It after the completion of heating, so that auxiliary clamp 10 is driven built-in part to welding position, realize heating and welding is seamless right It connects, has saved process time, accelerate productive temp.And when heated, using backform actuator 30 and bed die actuator 50 Automatic operation is carried out, is improved work efficiency.

In order to further speed up productive temp, labor intensity is reduced, preferably by above-mentioned auxiliary clamp 10, backform actuator 30 It is installed on a pedestal 70 with bed die actuator 50, and a total actuator 60 is set on mount 70, when the top of built-in part Welding surface and back welding junction are heated to be after molten condition, using manipulator by above-mentioned pedestal 70 together with mounted thereto All components are moved to designated position, which is generally below mold, and built-in part is prepared to enter into the position of mold.

It is emphasized that built-in part is still clamped in the clamping chamber of auxiliary clamp 10 at this time, and auxiliary clamp 10 It is connected on the driving end of total actuator 60, after manipulator moves pedestal 70 in place, starting total actuator 60 will auxiliary Fixture 10 moves up, so that auxiliary clamp 10 brings built-in part into welding position in mold, which can basis The pad of built-in part and type embryo determines.

When built-in part reaches welding position, top solder kept man of a noblewoman is first contacted with type embryo, due to overhead welding junction at this time according to It is so in a molten state, therefore the overhead welding junction of built-in part can be bonded on type embryo, complete the welding of overhead welding junction；Then it controls Auxiliary clamp 10 processed unclamps built-in part, then starts total actuator 60 for auxiliary clamp 10 and removes mold, mold can close at this time Mould, when molding, the back welding junction of built-in part can be touched with type embryonic breeding, to complete the welding of back welding junction, so far welding is completed.

Specifically, backform actuator 30 includes rotary drive 32 and backform driven in translation part 31；Rotary drive 32 with The driving end of backform driven in translation part 31 connects, and backform driven in translation part 31 is for driving rotary drive 32 mobile；Rotation is driven The driving end of moving part 32 is connect with top hot-die 20, and top hot-die 20 is driven to be in contact with the overhead welding junction of built-in part.

Referring to FIG. 1, specifically, backform driven in translation part 31 is installed as it can be seen that backform actuator 30 is installed on mount 70 On mount 70, and rotary drive 32 is then mounted on backform driven in translation part 31, and backform driven in translation part 31 can drive Rotary drive 32 moves up, and rotary drive 32 can drive in the rotation to auxiliary clamp 10 of hot-die 20 of top Side, and the position that can be in contact with the overhead welding junction of built-in part.When heating built-in part, backform driven in translation part can be driven 31 and rotary drive 32, the two, which matches, drives top hot-die 20 to being in contact with the overhead welding junction of built-in part.

Preferably, backform driven in translation part 31 is backform driven in translation cylinder, and rotary drive 32 is rotation driving cylinder, When installation, the cylinder body of backform driven in translation cylinder is installed on mount 70 by a backform bracket 80, and backform driven in translation The connecting rod of cylinder is then connect with the cylinder body of rotation driving cylinder, and the connecting rod of rotation driving cylinder is connect with top hot-die 20.

In such a way that backform driven in translation part 31 and rotary drive 32 match, the driving of backform driven in translation part 31 top Hot-die 20 moves up and down, and above the rotation to built-in part of hot-die 20 of the driving of rotary drive 32 top, can clamp in auxiliary clamp 10 While built-in part, the overhead welding junction of built-in part is heated, after the completion of heating, rotary drive 32 can be driven to drive top Hot-die 20 is moved to remaining position for not interfering built-in part to be moved to welding position, while can be avoided the overhead welding junction of built-in part It is heated excessively, to save working hour, accelerates working efficiency.

Specifically, bed die actuator 50 is bed die driven in translation part, and the driving end of bed die actuator 50 and bottom hot-die 40 connect It connects, and bottom hot-die 40 is driven to be in contact with the back welding junction of built-in part.Preferably, bed die actuator 50 is bed die driven in translation gas Cylinder, the cylinder body of bed die driven in translation cylinder are connect with the driving end of total actuator 60.

Bed die actuator 50 can drive bottom hot-die 40 to realize displacement, to be moved to when carrying out the heating of built-in part It close to auxiliary clamp 10, and is in contact with the back welding junction of built-in part, after the completion of heating, can be moved to far from auxiliary clamp 10 Position, so that back welding junction be avoided to be heated excessively, while avoiding interference with auxiliary clamp 10 and built-in part driven to be moved to welding Position.

Preferably, auxiliary clamp 10 includes the first fixture 11, the second fixture 12 and fixture actuator 13；Fixture actuator 13 On be provided with the first driving end and second driving end；Fixture actuator 13 is installed on the driving end of total actuator 60, the first folder Tool 11 is connect with the first driving end, and the second fixture 12 is connect with the second driving end；Fixture actuator 13 is for driving the first fixture 11 and second fixture 12 match, to clamp built-in part.Above-mentioned fixture actuator 13 is preferably that fixture drives cylinder, which drives The cylinder body of cylinder of taking offence is connected on the driving end of total actuator 60.

Specifically, it is provided with the first arc groove on the first fixture 11, is provided with the second arc groove on the second fixture 12, first Arc groove and the second arc groove match to form clamping chamber.Fixture actuator 13 can drive the first fixture 11 and the second fixture 12 It is close to each other or separate, it when the two is close to each other, clamps chamber and closes, built-in part is locked, when the two is located remotely from each other, clamp chamber It opens, built-in part can be taken out.

Above-mentioned to have highlighted that, auxiliary clamp 10, backform actuator 30 and bed die actuator 50 are installed on a pedestal 70 On, and need to be arranged a total actuator 60 on mount 70, the connection relationship of above-mentioned all parts described further below.

Pedestal 70 is a cube frame, and the cylinder body of total driven in translation cylinder is solid by a L-shaped bed die bracket 90 Determine on mount 70, the cylinder body of bed die driven in translation cylinder, the cylinder body of fixture driving cylinder are connected to total driven in translation cylinder On connecting rod；Bottom hot-die 40 is connected on the connecting rod of bed die driven in translation cylinder；First fixture 11 and the second fixture 12 are separately connected On two connecting rods of fixture driving cylinder.

The cylinder body of backform driven in translation cylinder is fixed on mount 70 by a L-type backform bracket 80, rotation driving gas The cylinder body of cylinder is connected on the connecting rod of backform driven in translation cylinder, and top hot-die 20 is connected on the connecting rod of rotation driving cylinder.

Preferably, backform bracket 80 includes the fixed top lateral frame of end vertical and top longitudinal support；Bed die bracket 90 includes End vertical fixed bottom lateral frame and bottom longitudinal support.The backform bracket 80 and bed die bracket 90 play connection function.

To guarantee that top hot-die 20 and the fixed reliability of bottom hot-die 40, top hot-die 20 are fixed on by one piece of backform fixed plate 21 On the connecting rod of rotation driving cylinder；And bottom hot-die 40 is fixed on the company of bed die driven in translation cylinder by one piece of bed die fixed plate 41 On bar.

The structure, features, and effects of the present invention is described in detail based on the embodiments shown in the drawings, with Upper is only the preferred embodiment of the utility model, but the present invention does not limit the scope of implementation as shown in the drawings, all according to this Change or equivalent example modified to equivalent change made by the conception of utility model, still without departing from specification and diagram institute When the spirit covered, it should be within the protection scope of the present utility model.

Claims (9)

1. a kind of built-in part welds auxiliary mould, one end of the built-in part is provided with back welding junction, which is characterized in that in described Setting part welding auxiliary mould includes:

Auxiliary clamp, clamping chamber is provided in the auxiliary clamp, and the clamping chamber makes built-in part for clamping built-in part Both ends are stretched out outside the clamping chamber；

Bottom hot-die；

Bed die actuator, the bed die actuator is for driving the bottom hot-die to close with the back welding junction of the built-in part Or it is separate；The back welding junction is heated to by the bottom hot-die close to when being in contact with the back welding junction of the built-in part Melting.

2. built-in part according to claim 1 welds auxiliary mould, which is characterized in that the bed die actuator is flat for bed die Actuator is moved, the driving end of the bed die actuator is connect with the bottom hot-die.

3. built-in part according to claim 2 welds auxiliary mould, which is characterized in that further include total actuator；It is described auxiliary Fixture and the bed die actuator is helped to be mounted on the driving end of total actuator；

The built-in part that total actuator is used to that heating to be driven to complete reaches welding position.

4. built-in part according to claim 3 welds auxiliary mould, which is characterized in that the auxiliary clamp includes the first folder Tool, the second fixture and fixture actuator；The first driving end and the second driving end are provided on the fixture actuator；

The fixture actuator is installed on the driving end of total actuator, and first fixture and first driving end connect It connects, second fixture is connect with second driving end；

The fixture actuator is for driving first fixture and second fixture to match, to clamp the built-in part.

5. built-in part according to claim 4 welds auxiliary mould, which is characterized in that be provided with the on first fixture One arc groove is provided with the second arc groove on second fixture, and first arc groove and second arc groove match Form the clamping chamber.

6. built-in part according to claim 3 welds auxiliary mould, which is characterized in that it further include pedestal, total driving Part and the bed die driven in translation part are mounted on the pedestal.

7. built-in part according to claim 6 welds auxiliary mould, which is characterized in that further include bed die bracket, the bottom One end of mould holder is connect with total actuator, and the other end is fixedly connected with the base.

8. built-in part according to claim 7 welds auxiliary mould, which is characterized in that the bed die bracket includes that end is hung down Directly fixed bottom lateral frame and bottom longitudinal support.

9. built-in part according to any one of claim 1 to 8 welds auxiliary mould, which is characterized in that the bottom hot-die It is fixed on by bed die fixed plate on the driving end of the bed die actuator.