CN210211393U

CN210211393U - Circulating ultrasonic welding equipment

Info

Publication number: CN210211393U
Application number: CN201920747229.XU
Authority: CN
Inventors: Hanhua Zhu; 朱汉华; Xingjie Xuan; 禤行杰; Baizhao Zhong; 钟柏钊
Original assignee: Guangdong Keen Intelligent Equipment Co Ltd
Current assignee: Guangdong Keen Intelligent Equipment Co Ltd
Priority date: 2019-05-23
Filing date: 2019-05-23
Publication date: 2020-03-31
Anticipated expiration: 2029-05-23

Abstract

The utility model provides a circulating ultrasonic welding device, which comprises a first frame, a second frame, a first bottom plate and an ultrasonic welding machine, the first frame and the second frame are of an integrated structure, the circulating conveying device is installed in the first frame, the carriers are arrayed outside the circulating conveying device along the conveying track of the circulating conveying device, at least one first accommodating groove is formed in each carrier, the first base plate is installed on the second frame, the ultrasonic welding machine is installed on the first base plate, the ultrasonic welding head is detachably connected below the ultrasonic output end of the ultrasonic welding machine, the second accommodating groove is formed in the bottom surface of the ultrasonic welding head, the supporting device is installed in the first frame and located under the ultrasonic welding head, and the blanking device is fixedly connected with the first frame and located right above the conveying end of the upper section of the circulating conveying device.

Description

Circulating ultrasonic welding equipment

Technical Field

The utility model relates to an ultrasonic welding equipment field specifically is a circulating ultrasonic welding equipment for ultrasonic welding plug.

Background

The plug roughly includes the base, the inserted sheet device, electric wire and upper cover, when the plug equipment was accomplished, electric wire one end and inserted sheet device electric connection, the inserted sheet device is installed in the base and is worn out the base, the upper cover lid closes on the base, the manual work is put the plug of accomplishing the equipment in ultrasonic welding equipment, then the manual work starts ultrasonic welding equipment and carries out ultrasonic welding, make upper cover and base together fixed, ultrasonic welding equipment of prior art all needs the manual work to start at every turn, the operation workman still is responsible for material loading and unloading operation, work efficiency is lower, if the operation workman is carrying out material loading or unloading operation and just meets when ultrasonic welding equipment breaks down, ultrasonic welding equipment starts by oneself and probably damages the staff, has potential danger.

Disclosure of Invention

An object of the utility model is to provide a circulating ultrasonic welding equipment to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a circulating ultrasonic welding equipment which characterized in that: the device comprises a first frame, a second frame, a first bottom plate, an ultrasonic welding machine, an ultrasonic welding head, a circulating conveying device, a plurality of carriers, a supporting device and a blanking device, wherein the first frame and the second frame are of an integral structure, the circulating conveying device is arranged in the first frame, the carriers are arrayed outside the circulating conveying device along the conveying track of the circulating conveying device, at least one first accommodating groove is formed in each carrier, the first bottom plate is arranged on the second frame, the ultrasonic welding machine is arranged on the first bottom plate, the ultrasonic welding head is detachably connected below the ultrasonic output end of the ultrasonic welding machine, the second accommodating groove is formed in the bottom surface of the ultrasonic welding head, the supporting device is arranged in the first frame and is positioned right below the ultrasonic welding head, the blanking device is fixedly connected with the first frame and is positioned right above the conveying tail end of the upper section of the circulating conveying device, the circulating conveying device drives the carrier to move between the ultrasonic welding head and the supporting device, the upper end of the supporting device rises to abut against the bottom surface of the carrier, the ultrasonic welding machine drives the ultrasonic welding head to move downwards, and the first accommodating groove and the second accommodating groove form an accommodating cavity for accommodating a product shell.

Further, the carrier comprises a carrier plate and a movable plate, and the carrier plate is detachably connected to the movable plate.

Furthermore, a third accommodating groove is formed in the carrier plate, and the third accommodating groove is communicated with the first accommodating groove.

Further, the supporting device comprises a supporting shaft, a cylinder and a second bottom plate, the second bottom plate is installed in the first rack, the cylinder is installed on the second bottom plate, the driving end of the cylinder is arranged upwards, the supporting shaft is installed on the driving end of the cylinder, and the cylinder drives the supporting shaft to do lifting motion.

Further, unloader includes clamping jaw mechanism, lift actuating mechanism, Y axial actuating mechanism and supporting mechanism, Y axial actuating mechanism installs on the supporting mechanism, lift actuating mechanism installs Y axial actuating mechanism is last, clamping jaw mechanism installs lift actuating mechanism below, Y axial actuating mechanism drives lift actuating mechanism drives clamping jaw mechanism follows Y axial motion, lift actuating mechanism drives clamping jaw mechanism is elevating movement.

Further, clamping jaw mechanism includes cylinder fixed plate, at least one finger cylinder and clamping jaw, and at least one the finger cylinder sets firmly cylinder fixed plate below, at least one the drive end of finger cylinder sets up down, the clamping jaw with the drive end fixed connection of finger cylinder, the finger cylinder drive the clamping jaw is opened and is closed the motion.

Further, lift actuating mechanism is the slip table cylinder, the drive end of slip table cylinder sets up downwards.

Further, the Y-axis driving mechanism is a guide rod type magnetic coupling rodless cylinder and a moving plate, the moving plate is fixedly connected with the driving end of the guide rod type magnetic coupling rodless cylinder, the length direction of the guide rod type magnetic coupling rodless cylinder is arranged in the same direction as the Y axis, and the guide rod type magnetic coupling rodless cylinder drives the moving plate to move along the Y axis.

Further, the supporting mechanism comprises an aluminum profile, a fixing plate and a connecting frame, the fixing plate is installed on the upper portion of the aluminum profile to form a cross structure, and the connecting frame is installed between the lower portion of the aluminum profile and the rack I.

Further, the circulating conveying device comprises a driving shaft, a driven shaft, two driving chain wheels, two driven chain wheels, two shaft mounting plates, two chains, a plurality of circulating plates, a motor assembly and a tensioning driving assembly, wherein the two driving chain wheels are sleeved on the periphery of the driving shaft, two ends of the driving shaft are respectively rotatably connected with the shaft mounting plates, the shaft mounting plates are fixedly connected with one end of the rack in the length direction, one end of the driving shaft extends to form an extending end, the extending end is connected with the motor assembly through a coupler, the two driven chain wheels are sleeved on the periphery of the driven shaft, two ends of the driven shaft are respectively sleeved with a spherical bearing with a sliding block seat, slide rails are respectively arranged on the upper side and the lower side of the spherical bearing relative to the sliding block in the other end in the length direction of the rack, grooves on the upper side and the lower side, tensioning drive assembly and a frame fixed connection, tensioning drive assembly's drive end sets up and is done in the spherical bearing with the slider, driving sprocket with the driven sprocket overcoat establishes the chain, tensioning drive assembly driving band slider spherical bearing drives driven shaft transmission driven sprocket tensioning chain, two be equipped with a plurality of otic placodes on the chain respectively, it is a plurality of the circulation board sets firmly respectively in a plurality of on the otic placode.

The utility model has the advantages that:

the utility model discloses a set up circulation conveyor in frame one, set up the carrier on circulation conveyor, the realization shifts the artifical material loading station to the transport top of circulation conveyor upper segment by original ultrasonic bonding under connecting, the condition that the staff was crushed to the self-propelled ultrasonic bonding of driving downward movement when can avoiding equipment to break down, through ultrasonic welding machine, strutting arrangement and unloader cooperation circulation conveyor work, the automatic ultrasonic welding work and the unloading work of accomplishing the plug, work efficiency is high.

Drawings

FIG. 1: a perspective view of a circulating ultrasonic welding device.

FIG. 2: an enlarged schematic view at A of a cyclic ultrasonic welding device.

FIG. 3: a front view of a cyclical ultrasonic welding apparatus.

FIG. 4: an enlarged schematic diagram at B of a circulating ultrasonic welding device.

FIG. 5: a blanking device stereogram of a circulating ultrasonic welding device.

FIG. 6: a broken view of a circulation conveyor of a circulation-type ultrasonic welding apparatus.

FIG. 7: an enlarged schematic view at C of a cyclic ultrasonic welding device.

FIG. 8: the plug is installed in the carrier.

Detailed Description

The invention is further explained below with reference to the drawings:

referring to fig. 1 to 3, a circulating ultrasonic welding apparatus includes a first frame 1, a second frame 2, a first bottom plate 3, an ultrasonic welding machine 4, an ultrasonic welding head 5, a circulating conveying device 6, a plurality of carriers 7, a supporting device 8 and a blanking device 9, wherein the first frame 1 and the second frame 2 are integrally welded, the circulating conveying device 6 is installed in the first frame 1, the carriers 7 are arrayed outside the circulating conveying device 6 along a conveying track of the circulating conveying device 6, the carriers 7 are detachably connected with the circulating conveying device 6 through a bolt connection, at least one first accommodating groove 71 for accommodating a plug base and avoiding wires is formed in the carriers 7, the first bottom plate 3 is installed on the second frame 2, the ultrasonic welding machine 4 is installed on the first bottom plate 3, the ultrasonic welding head 5 is detachably connected below an ultrasonic output end of the ultrasonic welding machine 4, the bottom surface of the ultrasonic output end is provided with a first threaded hole, the top surface of the ultrasonic welding head 5 is provided with a second threaded hole, two ends of a screw are respectively connected with the first threaded hole and the second threaded hole, the screw is sleeved with two nuts, the upper nut is locked to fix the screw with the output end of the ultrasonic part, the lower nut is locked to fix the screw with the ultrasonic welding head, the bottom surface of the ultrasonic welding head 5 is provided with a second accommodating groove for accommodating an upper cover of a plug, a supporting device 8 is arranged in a frame I1 and is positioned under the ultrasonic welding head 5, a blanking device 9 is fixedly connected with the frame I1 and is positioned over the conveying tail end of the upper section of a circulating conveying device 6, the circulating conveying device 6 drives a carrier 7 to move between the ultrasonic welding head 5 and the supporting device 8, the upper end of the supporting device 8 rises to abut against the bottom surface of, the first accommodating groove 71 and the second accommodating groove form an accommodating cavity for accommodating the upper cover and the base of the plug.

The ultrasonic welding machine 4, the circulating conveying device 6, the supporting device 8 and the blanking device 9 are all electrically connected with an electric cabinet, the electric cabinet is electrically connected with a power supply, and the actions of the ultrasonic welding machine 4, the circulating conveying device 6, the supporting device 8 and the blanking device 9 are controlled by a PLC (programmable logic controller) in the electric cabinet.

Further, referring to fig. 2, a third receiving groove 72 is formed on the carrier 7, and the third receiving groove 72 is communicated with the first receiving groove 71.

The accommodating groove three 72 is used for accommodating the electric wire 10 of the plug to enable the electric wire 10 to be bent and lapped above the front side of the rack one 1, so that the electric wire 10 is prevented from being wound into the circulating conveying device 6 in the transportation process, and is also used for avoiding the clamping jaw 913, so that the clamping jaw 913 can extend into the carrier 7 to clamp the electric wire 10 when descending.

Further, referring to fig. 3 and 4, the supporting device 8 includes a supporting shaft 81, a cylinder 82 and a second bottom plate 83, the second bottom plate 83 is installed in the first frame 1, the cylinder 82 is installed on the second bottom plate 83, a driving end of the cylinder 82 is disposed upward, the supporting shaft 81 is installed on a driving end of the cylinder 82, and the cylinder 82 drives the supporting shaft 81 to move up and down.

Further, referring to fig. 5, the blanking device 9 includes a clamping jaw mechanism 91, a lifting driving mechanism 92, a Y-axis driving mechanism 93 and a supporting mechanism 94, the Y-axis driving mechanism 93 is installed on the supporting mechanism 94, the lifting driving mechanism 92 is installed on the Y-axis driving mechanism 93, the clamping jaw mechanism 91 is installed below the lifting driving mechanism, the Y-axis driving mechanism 93 drives the lifting driving mechanism 92 to drive the clamping jaw mechanism 91 to move along the Y-axis direction, and the lifting driving mechanism 92 drives the clamping jaw mechanism 91 to move up and down.

Further, referring to fig. 5, the clamping jaw mechanism 91 includes a cylinder fixing plate 911, at least one finger cylinder 912 and a clamping jaw 913, the at least one finger cylinder 912 is fixedly disposed below the cylinder fixing plate 911, a driving end of the at least one finger cylinder 912 is disposed downward, the clamping jaw 913 is fixedly connected to the driving end of the finger cylinder 912, opposite surfaces of the clamping jaw 913 are respectively provided with symmetrically disposed semi-circular grooves, and the finger cylinder 912 drives the clamping jaw 913 to perform opening and closing motions. When the finger cylinder 912 drives the clamping jaw 913 to move in a combined manner, the symmetrically arranged semicircular grooves form circular holes for clamping the electric wire 10.

Further, referring to fig. 5, the lifting driving mechanism 92 is a sliding table cylinder, and a driving end of the sliding table cylinder is disposed downward.

Further, referring to fig. 5, the Y-axis driving mechanism 93 includes a guide-bar type magnetic coupling rodless cylinder 931 and a moving plate 932, the moving plate 932 is fixedly connected to a driving end of the guide-bar type magnetic coupling rodless cylinder 931, a length direction of the guide-bar type magnetic coupling rodless cylinder 931 is arranged in the same direction as the Y-axis, and the guide-bar type magnetic coupling rodless cylinder 931 drives the moving plate 932 to move along the Y-axis.

Further, referring to fig. 5, the supporting mechanism 94 includes an aluminum profile 941, a fixing plate 942 and a connecting frame 943, the fixing plate 942 is mounted on the upper portion of the aluminum profile 941, the fixing plate 942 and the aluminum profile 941 form a cross structure, and the connecting frame 943 is mounted between the lower portion of the aluminum profile 941 and the first frame 1. The attachment 943 is a flat L-shaped structure.

Further, referring to fig. 6, the circular conveying device 6 includes a driving shaft 61, a driven shaft 62, two driving sprockets 63, two driven sprockets 64, two shaft mounting plates 65, two chains 66, a plurality of circulating plates 67, a motor assembly 68, and tensioning driving assemblies 69 symmetrically disposed along the Y-axis, wherein the two driving sprockets 63 are all sleeved on the periphery of the driving shaft 61, the two ends of the driving shaft 61 are respectively rotatably connected with the shaft mounting plates 65, the two ends of the driving shaft 61 are respectively sleeved with a spherical bearing with a boss circular base, the spherical bearing shaft with a boss circular base is fixedly connected with the shaft mounting plates 65, the shaft mounting plates 65 are fixedly connected with one end of the frame in the length direction 1, one end of the driving shaft 61 extends to form an extending end, the extending end is connected with the motor assembly 68 through a coupler, the two driven sprockets 64 are all sleeved on the periphery of the driven shaft 62, the two ends of, the spherical bearing is welded with the upper side and the lower side of the spherical bearing corresponding to the belt sliding block in the other end of the first rack 1 in the length direction, grooves in the upper surface and the lower surface of the spherical bearing 621 with the sliding block seat are connected with the sliding rail 11 in a sliding mode, the tensioning driving assembly 69 is fixedly connected with the first rack 1, the driving end of the tensioning driving assembly 69 is arranged in the spherical bearing with the belt sliding block, the driving chain wheel 63 and the driven chain wheel 64 are sleeved with a chain 66, the tensioning driving assembly 69 drives the spherical bearing with the belt sliding block to drive the driven shaft 62 to drive the driven chain wheel 64 to tension the chain 66, a plurality of lug plates 661 are arranged on the two chains 66 respectively, and the plurality. The motor assembly 68 drives the coupler to drive the extension end linkage driving shaft 61 to rotate, the driving shaft 61 drives the driving chain wheel 63 to drive the driven chain wheel 64 to rotate through the chain 66, the plurality of ear plates 661 move along with the movement of the chain 66, and the plurality of carriers 7 are detachably connected to the plurality of ear plates 661 respectively.

Further, motor element includes gear motor and motor fixing base, motor and motor fixing base fixed connection, the drive end and the shaft coupling fixed connection of motor, and the motor fixing base includes hollow fixed plate and a plurality of connecting axle, and the motor is installed in fixed plate one side, and the drive end of motor passes the fixed plate, a plurality of connecting axle both ends respectively with fixed plate opposite side four corners position and axle fixed plate fixed connection.

Further, referring to fig. 6 and fig. 7, the tensioning driving assembly 69 includes a fixing ring 691, a hydraulic cylinder 692 and a concave hinge seat 693, a driving end of the hydraulic cylinder 692 penetrates into a slot of the spherical bearing with the slider seat through a left through hole of the spherical bearing with the slider seat, the fixing ring 691 is disposed in the slot and fixedly connected to a driving end of the hydraulic cylinder 692, an outer diameter of the fixing ring 691 is larger than an inner diameter of the left through hole of the spherical bearing with the slider seat, an end of the hydraulic cylinder 692 opposite to the driving end thereof is hinged to the concave hinge seat 693 through a hinge shaft, the concave hinge seat 693 is fixedly connected to the first frame 1, and the hydraulic cylinder 692 drives the fixing ring 691 to drive the driven shaft 62 driving the driven sprocket 64 to move rightward to realize.

The utility model discloses a theory of operation:

the conveying starting end of the upper section of the circulating conveying device 6 is a manual feeding station, in the manual feeding station, a worker places an assembled plug in a first accommodating groove 71 on a carrier 7, meanwhile, electric wires of the plug are arranged in a third accommodating groove 72, the electric wires 10 of the plug are lapped above the front side of a first frame 1, the circulating conveying device 6 drives the carrier 7 to do intermittent motion, when the circulating conveying device 6 drives the carrier 7 to drive the assembled plug to move to be right below an ultrasonic welding head 5, an air cylinder 82 drives a supporting shaft 81 to ascend and abut against the bottom surface of the carrier 7 to realize the supporting carrier 7, the effect of preventing the carrier 7 from moving downwards when the carrier 7 is pressed downwards by the ultrasonic welding head 5 to influence the ultrasonic welding effect is achieved, an ultrasonic welding machine 4 drives the ultrasonic welding head 5 to move downwards to perform ultrasonic welding on the assembled plug, after the ultrasonic welding is completed, the air cylinder 82 drives the supporting shaft 81 to descend to realize resetting, the ultrasonic welding machine 4 drives the ultrasonic welding head 5 to ascend to realize reset, the circulating conveying device 6 drives the carrier 7 to drive the plug completing ultrasonic welding to move to the position under the blanking device 9, the lifting driving mechanism 92 drives the clamping jaw mechanism 91 to move downwards, the clamping jaw mechanism 91 performs combined movement to clamp the part of the electric wire 10 located in the accommodating groove III 72, the lifting driving mechanism 92 drives the clamping jaw mechanism 91 to drive the electric wire 10 to ascend to enable the plug to be separated from the carrier 7, the Y-axis driving mechanism 93 drives the lifting driving mechanism 92 to drive the clamping jaw mechanism 91 to move to the front side of the rack I1 along the Y axis, the clamping jaw mechanism 91 performs opening movement to release the electric wire 10 to realize blanking, the lifting driving mechanism 92 drives the clamping jaw mechanism 91 to ascend to realize reset, and the Y-axis driving mechanism 93 drives the lifting driving mechanism to drive the clamping jaw mechanism 91 to.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims

1. A circulating ultrasonic welding equipment which characterized in that: the device comprises a first frame, a second frame, a first bottom plate, an ultrasonic welding machine, an ultrasonic welding head, a circulating conveying device, a plurality of carriers, a supporting device and a blanking device, wherein the first frame and the second frame are of an integral structure, the circulating conveying device is arranged in the first frame, the carriers are arrayed outside the circulating conveying device along the conveying track of the circulating conveying device, at least one first accommodating groove is formed in each carrier, the first bottom plate is arranged on the second frame, the ultrasonic welding machine is arranged on the first bottom plate, the ultrasonic welding head is detachably connected below the ultrasonic output end of the ultrasonic welding machine, the second accommodating groove is formed in the bottom surface of the ultrasonic welding head, the supporting device is arranged in the first frame and is positioned right below the ultrasonic welding head, the blanking device is fixedly connected with the first frame and is positioned right above the conveying tail end of the upper section of the circulating conveying device, the circulating conveying device drives the carrier to move between the ultrasonic welding head and the supporting device, the upper end of the supporting device rises to abut against the bottom surface of the carrier, the ultrasonic welding machine drives the ultrasonic welding head to move downwards, and the first accommodating groove and the second accommodating groove form an accommodating cavity for accommodating a product shell.

2. The cyclical ultrasonic welding apparatus of claim 1, wherein: and a third holding tank is arranged on the carrier plate and communicated with the first holding tank.

3. The cyclical ultrasonic welding apparatus of claim 1, wherein: the supporting device comprises a supporting shaft, a cylinder and a second bottom plate, the second bottom plate is installed in the first rack, the cylinder is installed on the second bottom plate, the driving end of the cylinder is arranged upwards, the supporting shaft is installed on the driving end of the cylinder, and the cylinder drives the supporting shaft to do lifting motion.

4. The cyclical ultrasonic welding apparatus of claim 1, wherein: unloader includes clamping jaw mechanism, lift actuating mechanism, Y axial actuating mechanism and supporting mechanism, Y axial actuating mechanism installs on the supporting mechanism, lift actuating mechanism installs Y axial actuating mechanism is last, clamping jaw mechanism installs lift actuating mechanism below, Y axial actuating mechanism drives lift actuating mechanism drives clamping jaw mechanism is along Y axial motion, lift actuating mechanism drives clamping jaw mechanism is elevating movement.

5. The cyclical ultrasonic welding apparatus of claim 4, wherein: the clamping jaw mechanism comprises a cylinder fixing plate, at least one finger cylinder and a clamping jaw, wherein the at least one finger cylinder is fixedly arranged below the cylinder fixing plate, the driving end of the at least one finger cylinder is arranged downwards, the clamping jaw is fixedly connected with the driving end of the finger cylinder, and the finger cylinder drives the clamping jaw to move in an opening and closing mode.

6. The cyclical ultrasonic welding apparatus of claim 4, wherein: the lifting driving mechanism is a sliding table cylinder, and the driving end of the sliding table cylinder is arranged downwards.

7. The cyclical ultrasonic welding apparatus of claim 4, wherein: the Y-axis driving mechanism is a guide rod type magnetic coupling rodless cylinder and a moving plate, the moving plate is fixedly connected with the driving end of the guide rod type magnetic coupling rodless cylinder, the length direction of the guide rod type magnetic coupling rodless cylinder is arranged in the same direction as the Y axis, and the guide rod type magnetic coupling rodless cylinder drives the moving plate to move along the Y axis.

8. The cyclical ultrasonic welding apparatus of claim 4, wherein: the supporting mechanism comprises an aluminum profile, a fixing plate and a connecting frame, the fixing plate is installed on the upper portion of the aluminum profile to form a cross structure, and the connecting frame is installed between the lower portion of the aluminum profile and the rack I.

9. The cyclical ultrasonic welding apparatus of claim 1, wherein: the circulating conveying device comprises a driving shaft, a driven shaft, two driving sprockets, two driven sprockets, two shaft mounting plates, two chains, a plurality of circulating plates, a motor assembly and a tensioning driving assembly, wherein the two driving sprockets are sleeved on the periphery of the driving shaft, two ends of the driving shaft are respectively rotatably connected with the shaft mounting plates, the shaft mounting plates are fixedly connected with one end of a rack in the length direction, one end of the driving shaft extends to form an extending end, the extending end is connected with the motor assembly through a coupler, the two driven sprockets are sleeved on the periphery of the driven shaft, two ends of the driven shaft are respectively sleeved with spherical bearings with sliding block seats, sliding rails are respectively arranged on the upper sides and the lower sides of the spherical bearings made corresponding to the sliding blocks in the other end of the rack in the length direction, grooves on the upper sides and the lower sides of the spherical, tensioning drive assembly and a frame fixed connection, tensioning drive assembly's drive end sets up and is done in the spherical bearing with the slider, driving sprocket with the driven sprocket overcoat establishes the chain, tensioning drive assembly driving band slider spherical bearing drives driven shaft transmission driven sprocket tensioning chain, two be equipped with a plurality of otic placodes on the chain respectively, it is a plurality of the circulation board sets firmly respectively in a plurality of on the otic placode.