CN214188504U - High-frequency plastic welding machine - Google Patents

Abstract

The application relates to a high frequency plastic heat sealing machine, it includes: the sliding block is arranged on the working platform in a sliding mode, the limiting block is fixedly arranged on the working platform, and the driving piece is arranged on the working platform; the limiting block is positioned on the sliding path of the sliding block, and when the limiting block is abutted against the sliding block, the working groove is positioned right below the welding part; the driving piece is fixedly arranged on the working platform and used for driving the sliding block to slide. The application has the effect that the worker can place the tool in the working groove more conveniently.

Description

High-frequency plastic welding machine

Technical Field

The application relates to the field of high-frequency machinery, in particular to a high-frequency plastic welding machine.

Background

The shell connecting wire is glued to the shell connecting wire and is divided into single-end and glue the shell connecting wire and double-end, and wherein the single-end is glued the shell connecting wire and is kept away from the wire rod of gluing shell one end and can the butt fusion on a PVC board to make the single-end glue the shell connecting wire and taking in the difficult emergence of in-process wire rod part and buckle, and then make the difficult quilt of the inside copper core of wire rod broken, and is concrete, and the wire rod part and the PVC board of single-end gluey shell connecting wire are fixed together through high frequency plastic welding machine.

In the related art, the high-frequency plastic welding machine comprises a working platform and a welding part, wherein the working platform is provided with a working groove; welding portion then fixes the setting on work platform, and welding portion is located work platform's top, when carrying out the butt fusion work, the staff can place the gluey shell connecting wire on the apparatus earlier, cover the PVC board on the wire rod part of gluey shell connecting wire after that, then place the apparatus in the working groove, and in placing the process, because of the interval between welding portion and the work platform is less, then the staff can receive the sight interference that welding portion brought when placing the apparatus, thereby the staff just can make the apparatus fall into the working groove in the position that needs adjustment apparatus many times when placing the apparatus, treat that the apparatus places after in the working groove, staff alright start welding portion, make welding portion move down and push down the PVC board, thereby just make PVC board and gluey shell connecting wire splice together.

In view of the above-described related art, the inventors have considered that there is a drawback that it is inconvenient for a worker to place a jig in a work tank.

SUMMERY OF THE UTILITY MODEL

In order to make the staff can place the system utensil in the work groove more conveniently, this application provides a high frequency plastic welding machine.

The application provides a high frequency plastic heat sealing machine adopts following technical scheme:

a high frequency plastic welder, comprising: the sliding block is arranged on the working platform in a sliding mode, the limiting block is fixedly arranged on the working platform, and the driving piece is arranged on the working platform; the limiting block is positioned on the sliding path of the sliding block, and when the limiting block is abutted against the sliding block, the working groove is positioned right below the welding part; the driving piece is fixedly arranged on the working platform and used for driving the sliding block to slide.

Through adopting the above-mentioned technical scheme, can be before placing the system utensil, make the slider slide to the direction of keeping away from the stopper through the driving piece, treat when the work groove on the slider is not sheltered from by the butt fusion portion, the staff alright place the system utensil in the work groove, then start the driving piece, make the slider to the direction removal that is close to the stopper, when treating slider butt stopper, the staff alright start the butt fusion portion, make butt fusion portion lapse and push down the PVC board, thereby just accomplish the process of gluing shell connecting wire and PVC board butt fusion, this kind of design, the staff is when placing the system utensil, be difficult for receiving the sight interference that is brought by the butt fusion portion, thereby make the staff can place the system utensil in the work groove more conveniently.

Preferably, a movable groove is formed in the vertical outer wall of one side, away from the limiting block, of the sliding block, and the movable groove is located below the working groove; and the movable groove is internally provided with an ejection piece, and when the sliding block is far away from the limiting block, the ejection piece is used for ejecting the tool out of the working groove.

Through adopting above-mentioned technical scheme, when will taking out the system utensil, staff's accessible ejecting piece is ejecting from the work groove with the system utensil, then just can take away the system utensil, compares in the mode that the staff directly took out the system utensil from the work groove with the hand, this kind of design for the staff can take out the system utensil from the work groove more conveniently.

Preferably, the ejection part comprises an ejector rod and a driving rod, the ejector rod is slidably arranged in the movable groove and is vertically arranged, one end of the ejector rod extends upwards to the bottom of the working groove, and the other end of the ejector rod extends vertically in a direction far away from the working groove; one end of the driving rod extends into the movable groove and is hinged with the lower end of the ejector rod, the other end of the driving rod extends out of the movable groove, and the driving rod is hinged with the inner wall of the movable groove.

Through adopting above-mentioned technical scheme, when will taking out the system, can press down the one end that the ejector pin was kept away from to the actuating lever, and the actuating lever can upwards lift with the articulated one end of ejector pin, then the ejector pin can rebound to the ejector pin can butt the system always and be close to one side surface of working groove tank bottom at the removal in-process, thereby makes the system rebound gradually, when waiting that all side surfaces of system roll-off working groove gradually, the staff just can conveniently take the system away.

Preferably, still the cover is equipped with the elasticity piece that resets on the ejector pin, elasticity piece one end that resets and the inner wall fixed connection of activity groove, the other end and ejector pin fixed connection to behind the ejector pin with the ejecting work groove of system utensil, and when the actuating lever loosened, the elasticity piece that resets enabled the upper end of ejector pin and slided downwards to the tank bottom of work groove.

Through adopting above-mentioned technical scheme, when taking away the system utensil and loosening the actuating lever, elasticity resets and can make the upper end of ejector pin to slide to the tank bottom in work groove downwards, then when placing next system utensil in work groove, the system utensil is difficult for receiving the hindrance of ejector pin to make the system utensil place can smoothly fall to the tank bottom in work groove when working the inslot, and then help promoting the efficiency of placing the system utensil.

Preferably, the ejector pieces are arranged in a plurality of numbers, the ejector pieces are uniformly arranged in the movable groove, and the ejector pieces can uniformly eject one side surface of the braking tool close to the bottom of the working groove.

Through adopting above-mentioned technical scheme, because of the piece that ejects evenly is provided with a plurality ofly, when a plurality of liftout of accessible were ejecting the system simultaneously, the difficult condition that one end still is located the work groove that appears of system to can snatch the system better when making the staff get the system, help promoting work efficiency.

Preferably, the working platform is provided with a butting block, the butting block is positioned below the welding part, and the butting block is also positioned on one side of the sliding block, which is far away from the limiting block; the butt piece is close to one of slider and is served and be provided with the inclined plane, and the inclined plane inclines towards the direction of keeping away from welding portion, and when the slider moved to the direction of keeping away from the stopper, the one end ability butt inclined plane of ejector pin was kept away from to the actuating lever.

Through adopting above-mentioned technical scheme, when the slider removes to the direction of keeping away from the stopper, the one end of keeping away from the ejector pin of actuating lever can be close to the butt piece gradually, treat when the one end butt inclined plane of ejector pin is kept away from to the actuating lever, the inclined plane can be at the in-process that the slider removed, make the one end that the ejector pin was kept away from to the actuating lever move down gradually, then the actuating lever just can make ejector pin rebound, thereby make the ejector pin can be with the ejecting work groove of system utensil, compare in the mode that needs manual push down the actuating lever and make the ejector pin with the ejecting work groove of system utensil, this kind of design, the slider is at the in-process that removes, alright ejecting from the work groove with the system utensil, thereby help promoting work efficiency.

Preferably, a side surface of the driving rod close to the abutting block is also obliquely arranged, and the side surface of the driving rod close to the abutting block is parallel to the inclined surface.

Through adopting above-mentioned technical scheme for the area of contact between the one end that the ejector pin was kept away from to the actuating lever and the inclined plane is bigger, then at the in-process that the slider removed, the actuating lever was moved in the top can be smoothly pushed up to the inclined plane, thereby is difficult for influencing the slip of slider because of the butt joint piece.

Preferably, a rolling groove is formed in one side surface of the driving rod, which is close to the abutting block, a roller is rotatably arranged in the rolling groove, and the roller can rotate when the roller abuts against the inclined surface.

Through adopting above-mentioned technical scheme, because of the setting of gyro wheel for the actuating lever is kept away from between the one end of ejector pin and the inclined plane and is changed into rolling friction by sliding friction, then the inclined plane is when the actuating lever is moved in the top, and the frictional force that the actuating lever received can be littleer, thereby the inclined plane can more smoothly move the actuating lever in the top, and when actuating lever and inclined plane butt, the slider can slide more smoothly.

Preferably, the sliding block is positioned at the abutting block, so that when the ejector rod ejects the jig out of the working groove, the upper end of the ejector rod is far away from the notch of the working groove.

Through adopting above-mentioned technical scheme, when the slider was located butt joint piece department, the staff can take the system utensil away and place next system utensil, and the notch in work groove is kept away from because of the upper end of ejector pin this moment, and then when the staff put into work inslot with the system utensil, the system utensil can partly imbed work inslot to when starting the driving piece and making the slider move to the direction that is close to the stopper, the system utensil is difficult to follow the interior roll-off of work groove, and then is difficult for influencing normal butt fusion process.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the sliding block, the limiting block and the driving piece, when a worker places the jig, the worker is not easily disturbed by the sight line brought by the welding part, so that the worker can place the jig in the working groove more conveniently;

2. through the arrangement of the ejection piece, the worker can take out the jig from the working groove more conveniently;

3. through the setting of gyro wheel for the inclined plane is when the actuating lever is moved in the top, and the frictional force that the actuating lever received can be littleer, thereby the actuating lever is moved in the top more smoothly on the inclined plane, and when actuating lever and inclined plane butt, the slider can slide more smoothly.

Drawings

Fig. 1 is a perspective view of a plastic welding machine according to an embodiment of the present application.

Fig. 2 is a partial exploded view of a specific structure embodying a slider.

Description of reference numerals: 1. a working platform; 11. a chute; 2. a fusion part; 3. a slider; 31. a working groove; 32. a movable groove; 33. a communicating hole; 4. a limiting block; 5. a drive member; 6. ejecting the part; 61. a top rod; 611. an elastic reset member; 62. a drive rod; 621. a rolling groove; 622. a roller; 7. an L-shaped plate; 71. a butting block; 711. an inclined surface; 8. a discharging end; 9. processing the end; 10. and (5) manufacturing a tool.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses high frequency plastic welding machine. Referring to fig. 1, the plastic welding machine includes work platform 1 and butt fusion portion 2, work platform 1 is the cuboid shape and is stainless steel material, butt fusion portion 2 is fixed to be set up on work platform 1's upper surface, and the interval between butt fusion portion 2 and work platform 1's the upper surface is less, spout 11 has still been seted up on work platform 1's the upper surface in addition, the cross-section of spout 11 notch department is the rectangle, and spout 11 length direction's central line passes through butt fusion portion 2 under, and spout 11 width direction's one side inner wall opening.

Referring to fig. 1, a sliding block 3 is disposed on a sliding groove 11, the sliding block 3 is rectangular and made of stainless steel, the sliding block 3 is slidably disposed in the sliding groove 11, and a peripheral surface of the sliding block 3 abuts against an inner wall of the sliding groove 11, in addition, in the embodiment, according to a sliding direction of the sliding block 3, a sliding start end of the sliding block 3 is defined as a discharging end 8, and a worker at the discharging end 8 can place a jig 10 that does not complete a welding process on the sliding block 3 or take away the jig 10 that completes the welding process; the sliding end of the sliding block 3 is defined as a processing end 9, and a worker at the processing end 9 can press the welding part 2 down the PVC plate on the pressing tool 10, so that the process of welding the rubber shell connecting wire and the PVC plate together is completed.

Referring to fig. 1, be provided with stopper 4 on work platform 1, stopper 4 is the cuboid shape and is stainless steel material, and stopper 4 welds with work platform 1 to stopper 4 sets up adjacent with one side inner wall of 11 width directions of spout, and when slider 3 slided to processing end 9 in addition, slider 3 can with stopper 4 butt.

Referring to fig. 1, a driving member 5 is disposed on the working platform 1, in this embodiment, the driving member 5 is a hydraulic cylinder, a housing of the driving member 5 is fixed on a side surface of the limiting block 4 away from the working platform 1 through a bolt, a piston rod of the driving member 5 is horizontally disposed, and the piston rod of the driving member 5 is fixed on a side surface of the sliding block 3 close to the limiting block 4 through a bolt, so that when the driving member 5 is started, the sliding block 3 can be driven to slide along a length direction of the sliding groove 11.

Referring to fig. 1, a working groove 31 is formed in the surface of one side of the slider 3, which is far away from the working platform 1, and the cross section of the notch of the working groove 31 is rectangular, so that when the slider 3 slides to the material discharging end 8, a worker can place the tool 10 which does not complete the welding process in the working groove 31 or take out the tool 10 which completes the welding process from the working groove 31, and when the tool 10 is placed in the working groove 31, the upper end of the tool 10 can be located outside the working groove 31.

Referring to fig. 1 and 2, a side surface of the slider 3 away from the stopper 4 is further provided with a movable groove 32, a cross section of a notch of the movable groove 32 is rectangular, two inner side walls of the movable groove 32 in the horizontal direction are open, a groove bottom of the movable groove 32 extends to a position below a groove bottom of the working groove 31, a communication hole 33 with a circular cross section is further provided on the groove bottom of the working groove 31, two ends of the communication hole 33 are respectively communicated with the movable groove 32 and the working groove 31, specifically, in the present embodiment, three communication holes 33 are provided, the three communication holes 33 are uniformly arranged along the length direction of the working groove 31, and in other embodiments, the number of the communication holes 33 can be selected according to the actual size of the working groove 31.

Referring to fig. 1 and 2, the ejecting member 6 is disposed in the movable groove 32, specifically, the ejecting member 6 includes an ejector rod 61 and a driving rod 62, the ejector rod 61 is a round rod made of stainless steel, the ejector rod 61 is slidably disposed in the movable groove 32, and the ejector rod 61 is in a vertically extending state, wherein an upper end of the ejector rod 61 extends upward into the communication hole 33 and extends to a groove bottom of the working groove 31, a gap exists between the ejector rod 61 and an inner wall of the communication hole 33, and a lower end of the ejector rod 61 extends toward an inner wall of the movable groove 32 on a side away from the working groove 31.

Referring to fig. 1 and 2, the driving rod 62 is a square bar made of stainless steel, one end of the driving rod 62 is hinged to the lower end of the push rod 61, the other end of the driving rod 62 extends out of the notch of the movable groove 32, and the driving rod 62 is also hinged to the inner wall of one side of the movable groove 32 far away from the working groove 31, so that when one end of the driving rod 62 far away from the push rod 61 is pressed downwards, the driving rod 62 can enable the push rod 61 to move upwards, so that the tool 10 placed in the working groove 31 is pushed out, a worker can better grab the tool 10 when taking the tool 10, and the worker can take the tool 10 out of the working groove 31 conveniently.

Referring to fig. 1 and 2, in the present embodiment, three ejection members 6 are provided, three ejection members 6 are uniformly disposed in the movable groove 32, and three push rods 61 are respectively disposed corresponding to the three communicating holes 33, and an elastic return member 611 is further sleeved on the push rods 61, the elastic return member 611 is a spring, one end of the elastic return member 611 is welded on an inner wall of the movable groove 32 on a side close to the working groove 31, and the other end of the elastic return member is welded on the push rods 61, when the driving rod 62 is released, the elastic return member 611 enables an upper end of the push rod 61 to slide downwards to a groove bottom of the working groove 31, so that when the fixture 10 is placed in the working groove 31, the fixture 10 is not easily obstructed by the push rods 61, and further, when the fixture 10 is placed in the working groove 31, the fixture 10 can smoothly fall on the groove bottom of the working groove 31.

Referring to fig. 1, an L-shaped plate 7 made of stainless steel is fixedly arranged on a working platform 1, the bent inner side of the L-shaped plate 7 faces upward and also faces a sliding block 3, a butt block 71 is further arranged in the L-shaped plate 7, the butt block 71 is further located below a welding portion 2, specifically, the butt block 71 is in a rectangular parallelepiped shape and made of stainless steel, the butt block 71 is welded with the L-shaped plate 7, an inclined surface 711 is arranged at one end, close to the sliding block 3, of the butt block 71, and the inclined surface 711 inclines towards a direction away from the welding portion 2.

Referring to fig. 1 and 2, a side surface of the driving rod 62 close to the abutting block 71 is also obliquely disposed, and a side surface of the driving rod 62 close to the abutting block 71 is parallel to the inclined surface 711, in addition, a rolling groove 621 is formed on a side surface of the driving rod 62 close to the abutting block 71, a cross section of the groove of the rolling groove 621 is rectangular, a roller 622 is further rotatably disposed in the rolling groove 621, the roller 622 is cylindrical and made of stainless steel, specifically, the roller 622 is partially embedded in the rolling groove 621, and when the roller 622 abuts against the inclined surface 711, the roller 622 can rotate.

Referring to fig. 1 and 2, when the slider 3 slides from the processing end 9 to the discharging end 8, one end of the driving rod 62 away from the ejector rod 61 gradually approaches the abutting block 71, and when the roller 622 abuts against the inclined surface 711, the inclined surface 711 can enable one end of the driving rod 62 away from the ejector rod 61 to move downwards in the sliding process of the slider 3, and the driving rod 62 can enable the ejector rod 61 to move upwards, so that the ejector rod 61 ejects the fixture 10 out of the working groove 31; in addition, when the slider 3 slides to the discharging end 8, a gap exists between the upper end of the push rod 61 and the notch of the working groove 31, and when the next tool 10 is placed in the working groove 31, the tool 10 can be partially embedded into the working groove 31, so that the slider 3 slides from the discharging end 8 to the processing end 9, the tool 10 is not easy to slide out of the working groove 31, and the normal welding process is not easy to be influenced.

The implementation principle of this application embodiment a high frequency plastic welding machine is: before the butt fusion work begins, can make slider 3 be located baiting end 8 departments, the upper end of ejector pin 61 is located work groove 31 this moment, and elasticity resets 611 in compression state, treat that utensil 10 places back in work groove 31, alright start driving piece 5 this moment, make slider 3 remove to the direction of processing end 9, when the one end of ejector pin 61 is kept away from to the actuating lever 62 breaks away from butt piece 71, elasticity resets 611 and can extend, thereby make utensil 10 fall to the tank bottom of work groove 31, then when slider 3 butt stopper 4, slider 3 has just reached processing end 9, the staff can make butt fusion portion 2 remove downwards and push down the PVC board on the utensil 10 this moment, thereby make gluey shell connecting wire and PVC board butt fusion together.

After the welding process is completed, the driving member 5 can be started, so that the sliding block 3 moves towards the direction of the discharging end 8, when the roller 622 on the driving rod 62 abuts against the inclined surface 711, the inclined surface 711 can enable one end, far away from the ejector rod 61, of the driving rod 62 to move downwards, the ejector rod 62 can enable the ejector rod 61 to move upwards, so that the ejector rod 61 gradually ejects the tool 10 out of the working groove 31, when the sliding block 3 is located at the discharging end 8, a worker can take away the tool 10 completing the welding process and place the next tool 10 not completing the welding process in the working groove 31, compared with a mode that the distance between the welding part 2 and the working platform 1 is smaller, so that the worker can place the tool 10 in the working groove 31 by adjusting the position of the tool 10 for multiple times, due to the design mode, the worker can place the tool 10 in the working groove 31 more conveniently, thereby helping to improve the efficiency of placing the jig 10.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A high frequency plastic welding machine, its characterized in that includes: the device comprises a sliding block (3) arranged on a working platform (1) in a sliding mode, a limiting block (4) fixedly arranged on the working platform (1) and a driving piece (5), wherein the sliding block (3) is located below a welding part (2), and a working groove (31) for placing a jig (10) is formed in the surface of one side, close to the welding part (2), of the sliding block (3); the limiting block (4) is positioned on a sliding path of the sliding block (3), and when the limiting block (4) is abutted against the sliding block (3), the working groove (31) is positioned right below the welding part (2); the driving piece (5) is fixedly arranged on the working platform (1), and the driving piece (5) is used for driving the sliding block (3) to slide.

2. The high frequency plastic welder of claim 1, characterized in that: a movable groove (32) is formed in the vertical outer wall of one side, far away from the limiting block (4), of the sliding block (3), and the movable groove (32) is located below the working groove (31); an ejection piece (6) is arranged in the movable groove (32), and when the sliding block (3) is far away from the limiting block (4), the ejection piece (6) is used for ejecting the tool (10) out of the working groove (31).

3. The high frequency plastic welder of claim 2, characterized in that: the ejection piece (6) comprises an ejector rod (61) and a driving rod (62), the ejector rod (61) is arranged in the movable groove (32) in a sliding mode, the ejector rod (61) is vertically arranged, one end of the ejector rod (61) extends upwards to the bottom of the working groove (31), and the other end of the ejector rod (61) extends vertically in the direction far away from the working groove (31); one end of the driving rod (62) extends into the movable groove (32) and is hinged with the lower end of the push rod (61), the other end of the driving rod extends out of the movable groove (32), and the driving rod (62) is hinged with the inner wall of the movable groove (32).

4. The high frequency plastic welder of claim 3, characterized in that: the ejector rod (61) is further sleeved with an elastic resetting piece (611), one end of the elastic resetting piece (611) is fixedly connected with the inner wall of the movable groove (32), the other end of the elastic resetting piece is fixedly connected with the ejector rod (61), and when the ejector rod (61) pushes the jig (10) out of the working groove (31) and the driving rod (62) is loosened, the elastic resetting piece (611) enables the upper end of the ejector rod (61) to slide downwards to the groove bottom of the working groove (31).

5. The high frequency plastic welder of claim 2, characterized in that: the ejection pieces (6) are arranged in a plurality of numbers, the ejection pieces (6) are uniformly arranged in the movable groove (32), and the ejection pieces (6) can uniformly eject one side surface of the braking tool (10) close to the bottom of the working groove (31).

6. The high frequency plastic welder of claim 3, characterized in that: the working platform (1) is provided with an abutting block (71), the abutting block (71) is positioned below the welding part (2), and the abutting block (71) is also positioned on one side, away from the limiting block (4), of the sliding block (3); an inclined surface (711) is arranged at one end, close to the sliding block (3), of the abutting block (71), the inclined surface (711) inclines towards the direction far away from the welding part (2), and when the sliding block (3) moves towards the direction far away from the limiting block (4), one end, far away from the ejector rod (61), of the driving rod (62) can abut against the inclined surface (711).

7. The high frequency plastic welder of claim 6, characterized in that: the surface of one side, close to the abutting block (71), of the driving rod (62) is also obliquely arranged, and the surface of one side, close to the abutting block (71), of the driving rod (62) is parallel to the inclined surface (711).

8. The high frequency plastic welder of claim 7, characterized in that: the surface of one side, close to the abutting block (71), of the driving rod (62) is provided with a rolling groove (621), a roller (622) is rotationally arranged in the rolling groove (621), and when the roller (622) abuts against the inclined surface (711), the roller (622) can rotate.

9. The high frequency plastic welder of claim 8, characterized in that: the sliding block (3) is positioned at the abutting block (71) so that when the ejector rod (61) ejects the jig (10) out of the working groove (31), the upper end of the ejector rod (61) is far away from the notch of the working groove (31).

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