CN210498679U - Precision welding machine - Google Patents

Abstract

The utility model discloses an accurate welding machine, including the welding machine power, the scram key, the pause key, the start key, the pilot lamp, the LCD runing rest, a liquid crystal display, the industrial control computer, the bonding tool module, the CCD camera, telecentric lens, light source and welding machine main part, the welding machine power is located the lower part of welding machine main part front side, the front side on welding machine main part upper portion is provided with the touch-sensitive screen, and the left side of touch-sensitive screen has set gradually the start key, pause key and scram key, the upper portion bolt fastening of touch-sensitive screen rear side welding machine main part has the backup pad simultaneously, the backup pad front side is provided with the bonding tool module by the right side, bonding tool module below welding machine main part platform upper surface is provided with X axle drive arrangement and Y axle drive arrangement, welding machine main part the place ahead. The precision welding machine realizes three effects of precise positioning, fine welding and minimum pressure control, fills the market gap in the field of micro hot-press welding and realizes high automation of fine hot-press welding.

Description

Precision welding machine

Technical Field

The utility model relates to a mechanical equipment technical field specifically is an accurate welding machine.

Background

The precision welding machine is applied to the miniature welding in fields such as medical treatment and microelectronics, obtains like product information according to channels such as Munich exhibition, medical treatment exhibition, mechanical equipment website at present, and its structure is only limited in manual foot-operated welding aspect, utilizes lever principle control pressure moreover, and the unable accurate control of pressure also can't show, current precision welding machine promptly has following problem:

1) the welding workpiece is thick and cannot realize fine welding;

2) the positioning function is not provided, and high automation cannot be realized;

3) the pressure is not controllable, and the welding quality is not controllable;

4) the welding control precision error is in millimeter level.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a precision welding machine to solve the precision welding machine on the existing market that above-mentioned background art provided and have welding workpiece thick, can't realize meticulous welding, do not possess locate function, can't realize high automation, pressure is uncontrollable, and the welding quality is uncontrollable and the problem of welding control precision error at the millimeter rank.

In order to achieve the above object, the utility model provides a following technical scheme: a precise welding machine comprises a welding machine power supply, an emergency stop key, a pause key, a start key, an indicator light, a liquid crystal display rotating support, a liquid crystal display and a welding machine main body, wherein the welding machine power supply is positioned at the lower part of the front side of the welding machine main body, a touch screen is arranged at the front side of the upper part of the welding machine main body, the left side of the touch screen is sequentially provided with the start key, the pause key and the emergency stop key, meanwhile, a support plate is fixed on the upper part of the welding machine main body at the rear side of the touch screen through bolts, a positioning CCD camera, a telecentric lens and a positioning CCD camera light source are arranged on the front side of the support plate close to the left, a welding head module is arranged on the front side of the support plate close to the right, the welding head module is fixed on a Z-axis driving device, an observation CCD camera light source is fixed below the, and the upper portion of Y axle drive arrangement is provided with the customization anchor clamps, and the front side of bonding tool module is provided with the observation CCD camera fixed plate simultaneously, the observation CCD camera fixed plate is connected with the backup pad through the screw, and the right part of observing the CCD camera fixed plate front side is fixed with the observation CCD camera, and the lower part of observing the CCD camera is provided with telecentric lens, the upper portion bolt fastening of backup pad has the industrial control computer, and the rear side of industrial control computer is provided with the pilot lamp, and the right side bolt fastening of pilot lamp has the LCD fixed plate, and the front side of LCD fixed plate is connected with LCD through LCD runing rest simultaneously, U-shaped heat dissipation window has all been seted up to the left, right and the rear side of welding machine main part, has sliding door area welding machine power supply observation window in welding machine main part.

Preferably, the X-axis driving device is positioned below the Y-axis driving device, and the X-axis driving device is positioned on the front side of the upper end surface of the welding machine main body.

Preferably, the customization anchor clamps include anchor clamps standing groove, interior bottom jackscrew, hand screw and tight piece in top, and the anchor clamps standing groove is located the inside of customization anchor clamps, and interior bottom jackscrew is located the bottom of anchor clamps standing groove, and the hand screw is located the front side of customization anchor clamps, and the tight piece in top is located the inner of hand screw.

Preferably, four interior bottom jackscrews are the rectangle and arrange the bottom at the customization anchor clamps, and the front end that the frame was placed to the hand screw through anchor clamps to the hand screw is for corresponding the installation each other with the tight piece in top, and the tight piece in top is placed the anterior parallel mount of frame with anchor clamps simultaneously.

Preferably, the positioning CCD camera light source is positioned right below the positioning CCD camera and the telecentric lens, and the positioning CCD camera light source is positioned at the rear upper part of the left sides of the X-axis driving device and the Y-axis driving device.

Preferably, observe CCD camera fixed plate and include regulation hole and screw hole, and the regulation hole runs through and observes CCD camera fixed plate to the screw hole is located the left and right sides of observing CCD camera fixed plate.

Preferably, all be provided with telecentric mirror head on location CCD camera and the observation CCD camera, and the location CCD camera is located the upper left portion front side of backup pad, observes the CCD camera and is located the right front portion of observing CCD camera fixed plate.

Preferably, the liquid crystal display fixing plate is connected with the top of the supporting plate in a bolt mode, and the liquid crystal display fixing plate is vertically installed.

Preferably, the mounting structure of the liquid crystal display is a rotating structure, and the bottom of the liquid crystal display is higher than the top of the industrial personal computer.

Compared with the prior art, the beneficial effects of the utility model are that: the precision welding machine realizes three effects of precise positioning, fine welding and minimum pressure control, fills the market gap in the field of micro hot-press welding and realizes high automation of fine hot-press welding.

1. The method comprises the following steps of utilizing a positioning CCD camera to correspond a pixel value of the positioning CCD camera to a mechanical coordinate, utilizing the positioning CCD camera to shoot, and throwing different product positioning deviation values to a PLC (programmable logic controller) and a positioning module through a matrix algorithm, wherein the PLC, the positioning module, a servo amplifier and a motor are used for completing accurate positioning of an X-axis driving device, a Y-axis driving device and a Z-axis driving device in three directions, so that the automatic process of fine welding is realized, the tool bit is 130um wide, and the pad is 110um wide;

2. the pressing force of the welding head module is sensed by the weighing pressure sensor, the change value is collected to the PLC through the transmitter, the pressure of each welding point is extracted and controlled by the PLC algorithm, the pressure of each welding point is stably controlled in a specified section, and stable control of 4-8g, 10-14g, 19-20g and other sections is realized in the existing delivery production equipment, so that small-batch mass production is realized.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a precision welding machine of the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of a customized fixture of the precision welding machine of the present invention;

FIG. 3 is a schematic view of a top view of a customized fixture of the precision welding machine of the present invention;

FIG. 4 is a schematic view of the structure of a CCD camera fixing plate for observing the precision welding machine of the present invention;

fig. 5 is the flow structure schematic diagram of the precision welding machine of the present invention.

In the figure: 1. a welding machine power supply; 2. a touch screen; 3. a scram key; 4. a pause key; 5. a start key; 6. an X-axis drive device; 7. a Y-axis drive device; 8. customizing a clamp; 801. a clamp placing groove; 802. inner bottom jackscrew; 803. screwing the screw by hand; 804. a jacking block; 9. positioning a CCD camera light source; 10. observing a CCD camera fixing plate; 1001. an adjustment hole; 1002. a screw hole; 11. positioning the CCD camera; 12. an indicator light; 13. a liquid crystal display fixing plate; 14. a liquid crystal display rotary support; 15. a liquid crystal display; 16. an industrial control computer; 17. a Z-axis drive device; 18. a support plate; 19. observing the CCD camera; 20. a welding head module; 21. a telecentric lens; 22. a U-shaped heat dissipation window; 23. the welding machine body.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a precision welding machine, includes welding machine power 1, scram key 3, pause key 4, start key 5, pilot lamp 12, LCD runing rest 14, LCD 15 and welding machine main part 23, its characterized in that: the welding machine power supply 1 is positioned at the lower part of the front side of a welding machine main body 23, a touch screen 2 is arranged at the front side of the upper part of the welding machine main body 23, a starting key 5, a pause key 4 and an emergency stop key 3 are sequentially arranged at the left side of the touch screen 2, a supporting plate 18 is fixed on the upper part of the welding machine main body 23 at the rear side of the touch screen 2 through bolts, a positioning CCD camera 11, a telecentric lens 21 and a positioning CCD camera light source 9 are arranged at the front side of the supporting plate 18 close to the left side, a welding head module 20 is arranged at the front side of the supporting plate 18 close to the right side, the welding head module 20 is fixed on a Z-axis driving device 17, an observation CCD camera light source is fixed at the front lower part of a tool bit of the welding head module 20 through screws, an X-axis driving device 6 and a Y-axis driving device 7 are arranged at the front side of the upper end face of the welding, the observation CCD camera fixing plate 10 is connected with the supporting plate 18 through screws, an observation CCD camera 19 is fixed on the right portion of the front side of the observation CCD camera fixing plate 10, a telecentric lens 21 is arranged on the lower portion of the observation CCD camera 19, an industrial control computer 16 is fixed on the upper portion of the supporting plate 18 through bolts, an indicator lamp 12 is arranged on the rear side of the industrial control computer 16, a liquid crystal display fixing plate 13 is fixed on the right side of the indicator lamp 12 through bolts, meanwhile, the front side of the liquid crystal display fixing plate 13 is connected with a liquid crystal display 15 through a liquid crystal display rotating support 14, U-shaped heat dissipation windows 22 are formed in the left side, the right side and the rear side of the welding machine main body, and a sliding door belt welding machine power supply 1 observation window is.

The X-axis driving device 6 of the embodiment is positioned below the Y-axis driving device 7, and the X-axis driving device 6 is positioned on the front side of the upper end face of the welding machine main body 23, so that the position for adjusting the customized clamp 8 is set, and the workpiece on the customized clamp 8 can be accurately welded conveniently.

Customization anchor clamps 8 include anchor clamps standing groove 801, interior bottom jackscrew 802, hand screw 803 and tight piece 804 in top, and anchor clamps standing groove 801 is located customization anchor clamps 8's inside, and interior bottom jackscrew 802 is located anchor clamps standing groove 801's bottom, and hand screw 803 is located customization anchor clamps 8's front side, and tight piece 804 in top is located the inner of hand screw, and the setting can be stabilized fixedly to the work piece like this, is favorable to the stable welding of work piece.

Four inner bottom jackscrews 802 are the rectangle and arrange in the bottom of customization anchor clamps 8, and hand screw 803 runs through the front end of anchor clamps standing groove 801 to hand screw 803 and tight piece 804 each other are corresponding the installation, and tight piece 804 in top simultaneously and the anterior parallel mount of anchor clamps standing groove 801, set up like this and can press from both sides tightly fixedly to the work piece of equidimension not, the welding operation to the work piece of equidimension not of convenience.

The positioning CCD camera light source 9 is located under the positioning CCD camera 11 and the telecentric lens 21, and the positioning CCD camera light source 9 is located at the upper rear left side of the X-axis driving device 6 and the Y-axis driving device 7, so that the positioning CCD camera 11 can shoot the welding condition of the workpiece more clearly, the accurate welding of the workpiece is facilitated, and the welding quality is improved.

Observe CCD camera fixed plate 10 and include regulation hole 1001 and screw hole 1002, and regulation hole 1001 runs through and observes CCD camera fixed plate 10 to screw hole 1002 is located the left and right sides of observing CCD camera fixed plate 10, sets up like this and plays the regulation and observes CCD camera 19 fixed position, is favorable to observing the fixed mounting of CCD camera 19.

All be provided with telecentric lens 21 on location CCD camera 11 and the observation CCD camera 19, and location CCD camera 11 is located the upper left portion front side of backup pad 18, observes CCD camera 19 and is located the right front portion of observing CCD camera fixed plate 10, sets up like this and is favorable to location CCD camera 11 and observes CCD camera 19 and observes the work piece surface after the enlargeing through telecentric lens 21, is favorable to the welding operation to the work piece.

The liquid crystal display fixing plate 13 is connected with the top of the supporting plate 18 in a bolt mode, and the liquid crystal display fixing plate 13 is vertically installed, so that the liquid crystal display 15 is supported, and an operator can observe the welding condition through the liquid crystal display 15.

The installation structure of the liquid crystal display 15 is a rotating structure, and the bottom of the liquid crystal display 15 is higher than the top of the industrial personal computer 16, so that the angle of the liquid crystal display 15 can be conveniently adjusted by an operator, and the bottom of the liquid crystal display 15 can be prevented from colliding with the industrial personal computer 16 when the liquid crystal display 15 is rotated, thereby being beneficial to the rotation of the liquid crystal display 15.

The working principle is as follows: when the precision welding machine is used, a workpiece to be welded is placed in the clamp placing groove 801 of the customized clamp 8, the height of the workpiece placed in the clamp placing groove 801 is adjusted through the inner bottom jackscrew 802, then the two hand-screwed screws 803 are screwed by hands, the two hand-screwed screws 803 tightly push the workpiece through the jacking blocks 804 at the inner ends of the two hand-screwed screws 803, the clamping work of the workpiece is further completed, and the liquid crystal display 15 is adjusted to a proper position through the liquid crystal display rotating support 14;

then, pressing a start key 5, turning on a welding machine main body 23 by electricity, switching on a welding machine power supply 1, setting welding parameters by an operator through a touch screen 2, after the setting is finished, pressing an operation button on the touch screen 2, positioning 2 characteristic points of a workpiece on a customized clamp 8 by a CCD camera 11 and a telecentric lens 21, namely photographing two characteristic points of a diagonal line once respectively, sending photographing positions to an industrial control computer 16, namely calculating X, Y axis actual mechanical coordinate offset by using the offset and the rotation angle of the characteristic points, transmitting the converted offset to a PLC (programmable logic controller) by the industrial control computer 16, setting the offset to a positioning module by the PLC, sending offset data to a servo amplifier by the positioning module, driving a motor by the servo amplifier, driving an X-axis driving device 6, a Y-axis driving device 7 and a Z-axis driving device 17 to a designated position by the motor, transmitting the pressure degree of pressing of the Z-axis driving device 17 to a, the weighing pressure sensor transmits the change value to the transmitter, the PLC converts the value of the transmitter into a pressure value and transmits the pressure value to the touch screen, namely, the welding head module 20 is utilized to mechanically adjust the pressing force of the Z-axis driving device 17, the PLC and the industrial control computer 16 are matched to control the actions of the X-axis driving device 6, the Y-axis driving device 7 and the Z-axis driving device 17 to realize positioning and pressure control, the tool bit on the welding head module 20 enters the position of a first welding point, the tool bit is pressed down, the pressure reaches the set value, the instant pulse current provided by the welding machine power supply 1 is transmitted to the tool bit, huge current is formed at the tool bit to convert the current into heat energy to melt soldering tin, the purpose of fusion of the welding point is realized, the welding source is heated and cooled instantly, the tool bit is lifted by the Z-axis driving device 17 and moves to the next welding point, and the like, when the last welding point is finished, the PLC and the industrial control computer 16 cooperate with each other to control the tool bit to withdraw, so as to finish a series of operations of the precision welding machine, and the content which is not described in detail in the specification belongs to the prior art which is well known by a person skilled in the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and equivalents may be made without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a precision welding machine, includes welding machine power (1), scram key (3), pause key (4), start key (5), pilot lamp (12), LCD rotating bracket (14), LCD (15) and welding machine main part (23), its characterized in that: the welding machine power supply (1) is positioned at the lower part of the front side of the welding machine main body (23), the front side of the upper part of the welding machine main body (23) is provided with a touch screen (2), the left side of the touch screen (2) is sequentially provided with a start key (5), a pause key (4) and an emergency stop key (3), meanwhile, the upper part of the welding machine main body (23) at the rear side of the touch screen (2) is fixed with a support plate (18) through bolts, the front side of the support plate (18) is provided with a positioning CCD camera (11), a telecentric lens (21) and a positioning CCD camera light source (9) close to the left, the front side of the support plate (18) is provided with a welding head module (20) close to the right, the welding head module (20) is fixed on a Z-axis driving device (17), the front lower part of a tool bit of the welding head module (20) is fixed with an observation CCD camera light source through screws, and the front side of the upper, and the upper portion of Y axle drive arrangement (7) is provided with customized anchor clamps (8), and the front side of bonding tool module (20) is provided with observes CCD camera fixed plate (10) simultaneously, observe CCD camera fixed plate (10) and be connected with backup pad (18) through the screw, and observe the right part of CCD camera fixed plate (10) front side and be fixed with and observe CCD camera (19), and the lower part of observing CCD camera (19) is provided with telecentric lens (21), the upper portion bolt fastening of backup pad (18) has industrial control computer (16), and the rear side of industrial control computer (16) is provided with pilot lamp (12), and the right side bolt fastening of pilot lamp (12) has liquid crystal display fixed plate (13), and the front side of liquid crystal display fixed plate (13) is connected with LCD (15) through LCD rotating bracket (14) simultaneously, the left side of welding machine main part, U-shaped heat dissipation windows (22) are formed in the right side face and the rear side face, and a sliding door with a welding machine power supply (1) observation window is arranged in front of a welding machine main body.

2. The precision welding machine of claim 1, wherein: the X-axis driving device (6) is located below the Y-axis driving device (7), and the X-axis driving device (6) is located on the front side of the upper end face of the welding machine main body (23).

3. The precision welding machine of claim 1, wherein: the customized clamp (8) comprises a clamp placing groove (801), an inner bottom jackscrew (802), a hand-screwed screw (803) and a jacking block (804), wherein the clamp placing groove (801) is located inside the customized clamp (8), the inner bottom jackscrew (802) is located at the bottom of the clamp placing groove (801), the hand-screwed screw (803) is located at the front side of the customized clamp (8), and the jacking block (804) is located at the inner end of the hand-screwed screw (803).

4. A precision welding machine according to claim 3, characterized in that: the four inner bottom jackscrews (802) are arranged at the bottom of the customized clamp (8) in a rectangular shape, hand-screwed screws (803) penetrate through the front end of the clamp placing groove (801), the hand-screwed screws (803) and the jacking blocks (804) are correspondingly mounted, and meanwhile the jacking blocks (804) and the front portion of the clamp placing groove (801) are mounted in parallel.

5. The precision welding machine of claim 1, wherein: and the positioning CCD camera light source (9) is positioned under the positioning CCD camera (11) and the telecentric lens (21), and the positioning CCD camera light source (9) is positioned at the rear upper part of the left sides of the X-axis driving device and the Y-axis driving device (7).

6. The precision welding machine of claim 1, wherein: observe CCD camera fixed plate (10) including regulation hole (1001) and screw hole (1002), and regulation hole (1001) run through and observe CCD camera fixed plate (10) to screw hole (1002) are located the left and right sides of observing CCD camera fixed plate (10).

7. The precision welding machine of claim 1, wherein: all be provided with telecentric lens (21) on location CCD camera (11) and observation CCD camera (19), and location CCD camera (11) are located the upper left portion front side of backup pad (18), observe CCD camera (19) and are located the right front portion of observing CCD camera fixed plate (10).

8. The precision welding machine of claim 1, wherein: the liquid crystal display fixing plate (13) is connected with the top of the supporting plate (18) in a bolt mode, and the liquid crystal display fixing plate (13) is vertically installed.

9. The precision welding machine of claim 1, wherein: the mounting structure of the liquid crystal display (15) is a rotating structure, and the bottom of the liquid crystal display (15) is higher than the top of the industrial personal computer (16).

Images