CN111229578A

CN111229578A - Double-end ultrasonic transducer capper

Info

Publication number: CN111229578A
Application number: CN202010167398.3A
Authority: CN
Inventors: 樊海光; 唐勇; 谭安林; 谭斌; 卢志军; 黄承强; 陈荣; 莫贵情; 孙大爱
Original assignee: Yulin Inspection And Testing Research Institute; Guangxi Yulin Haojie New Energy Technology Co Ltd
Current assignee: Yulin Inspection And Testing Research Institute; Guangxi Yulin Haojie New Energy Technology Co Ltd
Priority date: 2020-03-11
Filing date: 2020-03-11
Publication date: 2020-06-05

Abstract

The invention discloses a double-head ultrasonic transducer sealing machine which comprises a base plate, a workpiece positioning seat for placing a workpiece, a pressing block assembly for positioning the workpiece, a driving assembly arranged on the base plate, and a first pressing device and a second pressing device which are oppositely arranged, wherein the first pressing device is arranged on one side of the workpiece positioning seat, and the second pressing device is arranged on the other side of the workpiece positioning seat; the driving assembly is connected with the first pressing device and drives the first pressing device to move towards the workpiece positioning seat, and the first pressing device, the workpiece positioning seat and the second pressing device are matched with each other to seal two ends of the workpiece; the workpiece positioning seat, the pressing block assembly and the second pressing device are arranged on the base plate. By adopting the structure, two ends of the workpiece are simultaneously pressed and sealed, the working procedures are reduced, the production efficiency is improved, the labor cost and the burden of workers are reduced, and the further automatic production is favorably realized.

Description

Double-end ultrasonic transducer capper

Technical Field

The invention relates to the technical field of sealing machines, in particular to a double-head ultrasonic transducer sealing machine.

Background

The existing converter is incapable of simultaneously sealing the double heads when sealing due to no special equipment in the production process, can only seal the double heads singly, wastes time, has more production processes, and is not beneficial to improving the production efficiency and increasing the yield.

The function of the ultrasonic transducer is to convert the input electric power into mechanical power (i.e. ultrasonic waves) and transmit the mechanical power, and a small part of the power is consumed by the ultrasonic transducer.

Disclosure of Invention

The invention aims to disclose a double-head ultrasonic transducer sealing machine, which solves the problem that the existing transducer cannot simultaneously seal two heads.

In order to achieve the purpose, the invention adopts the following technical scheme:

a double-head ultrasonic transducer sealing machine comprises a base plate, a workpiece positioning seat for placing a workpiece, a pressing block assembly for positioning the workpiece, a driving assembly arranged on the base plate, and a first pressing device and a second pressing device which are oppositely arranged, wherein the first pressing device is arranged on one side of the workpiece positioning seat, and the second pressing device is arranged on the other side of the workpiece positioning seat; the driving assembly is connected with the first pressing device and drives the first pressing device to move towards the workpiece positioning seat, and the first pressing device, the workpiece positioning seat and the second pressing device are matched with each other to seal two ends of the workpiece; the workpiece positioning seat, the pressing block assembly and the second pressing device are arranged on the base plate.

Further, the first pressing device comprises a first fixing frame arranged on the supporting plate, a first ultrasonic transducer arranged on the first fixing frame, and a first die connected with the first ultrasonic transducer.

Further, the second pressing device comprises a second fixing frame arranged on the base plate, a second ultrasonic transducer arranged on the second fixing frame, and a second die connected with the second ultrasonic transducer, and the first die and the second die are arranged oppositely.

Further, the first pressing device comprises a first fixing clamping plate for further reinforcing the first fixing frame and a first shield for protecting the first ultrasonic transducer.

Further, the second pressing device further comprises a second fixing clamping plate for further reinforcing the second fixing frame, and a second shield for protecting the second ultrasonic transducer.

Furthermore, the driving assembly comprises an air cylinder arranged on the base plate, a cross rod connected with the air cylinder, a pull rod connected with the cross rod, a sliding block connected with the pull rod, a supporting plate connected with the sliding block and a guide rail arranged on the base plate, and the sliding block is matched with the guide rail; the first pressing device is arranged on the supporting plate; the cylinder drives the sliding block to move along the guide rail through the cross rod and the pull rod, and meanwhile the sliding block drives the supporting plate and the first pressing device to move towards the workpiece positioning seat.

Furthermore, the workpiece positioning seat comprises a supporting block arranged on the base plate and a positioning plate used for placing the workpiece, and the positioning plate is arranged on the supporting block.

Further, the pressing block assembly comprises an air valve switch, a swing arm air cylinder connected with the air valve switch, a swing arm connected with the swing arm air cylinder and a pressing block connected with the swing arm, and the pressing block is arranged above the workpiece positioning seat; and starting an air valve switch, enabling a swing arm cylinder to work, driving a swing arm to move by the swing arm cylinder, driving a pressing block to move above the workpiece positioning seat by the swing arm, and matching the pressing block and the workpiece positioning seat to realize the purpose of pressing the workpiece in the vertical direction.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the first pressing device, the second pressing device and the workpiece positioning seat are mutually matched, so that two ends of the workpiece are simultaneously pressed and sealed, the working procedures are reduced, the production efficiency is improved, the labor cost and the burden of workers are reduced, and further automatic production is favorably realized. The first pressing device and the second pressing device both adopt ultrasonic transducers, consume a small part of power, and are beneficial to energy utilization.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

FIG. 1 is a schematic perspective view of an embodiment of a dual-head ultrasonic transducer capper of the present invention;

FIG. 2 is a schematic front view of FIG. 1;

FIG. 3 is a schematic top view of FIG. 2;

fig. 4 is a schematic left side view of fig. 2.

In the figure, a base plate 1; a workpiece positioning seat 2; a support block 21; a positioning plate 22; a briquetting assembly 3; a gas valve switch 31; a gas valve switch 31; a swing arm cylinder 32; a swing arm 33; a briquette 34; a drive assembly 4; a cylinder 41; a cross bar 42; a pull rod 43; a slider 44; a support plate 45; a guide rail 46; a first pressing device 5; a first fixing frame 51; a first fixed clamping plate 52; the first ultrasonic transducer 53; a first mold 54; a first shield 55; a second pressing device 6; a second fixing frame 61; a second fixed clamping plate 62; a second ultrasonic transducer 63; a second mold 64; a second shroud 65; a workpiece 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in the embodiment of fig. 1 to 4, a dual-head ultrasonic transducer sealing machine includes a base plate 1, a workpiece positioning seat 2 for placing a workpiece 7 (e.g., a transducer), a pressing block assembly 3 for positioning the workpiece 7, a driving assembly 4 disposed on the base plate 1, and a first pressing device 5 and a second pressing device 6 disposed opposite to each other, where the first pressing device 5 is disposed on one side of the workpiece positioning seat 2, and the second pressing device 6 is disposed on the other side of the workpiece positioning seat 2. The driving assembly 4 is connected with the first pressing device 5 and drives the first pressing device 5 to move towards the workpiece positioning seat 2, and the first pressing device 5, the workpiece positioning seat 2 and the second pressing device 6 are matched with each other to seal two ends of the workpiece 7. The workpiece positioning seat 2, the pressing block assembly 3 and the second pressing device 6 are arranged on the base plate 1.

This embodiment adopts first closing device 5, second pressure equipment device 6 and work piece positioning seat 2 to mutually support, realizes 7 both ends of work piece and compresses tightly simultaneously and seal, reduces the process, improves production efficiency, reduces labour cost and workman's burden, does benefit to and realizes further automated production.

The workpiece positioning seat 2 comprises a supporting block 21 arranged on the base plate 1 and a positioning plate 22 used for placing the workpiece 7, and the positioning plate 22 is arranged on the supporting block 21.

The pressing block assembly 3 comprises an air valve switch 31, a swing arm air cylinder 32 connected with the air valve switch 31, a swing arm 33 connected with the swing arm air cylinder 32 and a pressing block 34 connected with the swing arm 33, and the pressing block 34 is arranged above the workpiece positioning seat 2. The air valve switch 31 is started, the swing arm air cylinder 32 works, the swing arm air cylinder 32 drives the swing arm 33 to move, meanwhile, the swing arm 33 drives the pressing block 34 to move to the position above the workpiece positioning seat 2, and the pressing block 34 and the workpiece positioning seat 2 are matched to realize the purpose that the workpiece 7 is pressed upwards in the vertical direction Z.

The driving assembly 4 comprises a cylinder 41 arranged on the base plate 1, a cross bar 42 connected with the cylinder 41, a pull rod 43 connected with the cross bar 42, a slide block 44 connected with the pull rod 43, a supporting plate 45 connected with the slide block 44 and a guide rail 46 arranged on the base plate 1, wherein the slide block 44 is matched with the guide rail 46 and is displaced along the guide rail 46. The first pressing device 5 is arranged on the supporting plate 45. The air cylinder 41 drives the slide block 44 to displace along the guide rail 46 through the cross bar 42 and the pull rod 43, and the slide block 44 drives the supporting plate 45 and the first pressing device 5 to displace towards the workpiece positioning seat 2.

The first pressing device 5 includes a first fixing frame 51 disposed on the supporting plate 45, a first fixing clamping plate 52 for further reinforcing the first fixing frame 51, a first ultrasonic transducer 53 disposed on the first fixing frame 51, a first mold 54 connected to the first ultrasonic transducer 53, and a first protective cover 55 for protecting the first ultrasonic transducer 53.

The first holding-down device 5 and the second holding-down device 6 are identical in construction. The second pressing device 6 comprises a second fixed frame 61 arranged on the base plate, a second fixed clamping plate 62 for further reinforcing the second fixed frame 61, a second ultrasonic transducer 63 arranged on the second fixed frame 61, a second mold 64 connected with the second ultrasonic transducer 63, and a second shield 65 for protecting the second ultrasonic transducer 63. The first die 54 and the second die 64 are oppositely disposed.

As a further explanation of the present embodiment, the operation flow of the present embodiment will now be explained: the air valve switch 31 is started, the pressing block 34 of the pressing block assembly 3 is displaced to the position above the workpiece positioning seat, and the pressing block 34 is matched with the workpiece positioning seat to realize the positioning of the workpiece 7 in the vertical direction Z; the driving assembly 4 is started and drives the first pressing device 5 to move towards the workpiece positioning seat 2, and the workpiece 7 is pressed upwards in the horizontal direction X under the cooperation of the first pressing device 5 and the second pressing device 6, so that sealing of two ends of the workpiece 7 is realized.

Other structures of this embodiment are seen in the prior art.

The present invention is not limited to the above-described embodiments, and various changes and modifications of the present invention are intended to be included within the scope of the claims and the equivalent technology of the present invention if they do not depart from the spirit and scope of the present invention.

Claims

1. The utility model provides a double-end ultrasonic transducer capper which characterized by: the pressing device comprises a base plate, a workpiece positioning seat for placing a workpiece, a pressing block assembly for positioning the workpiece, a driving assembly arranged on the base plate, a first pressing device and a second pressing device which are oppositely arranged, wherein the first pressing device is arranged on one side of the workpiece positioning seat, and the second pressing device is arranged on the other side of the workpiece positioning seat; the driving assembly is connected with the first pressing device and drives the first pressing device to move towards the workpiece positioning seat, and the first pressing device, the workpiece positioning seat and the second pressing device are matched with each other to seal two ends of the workpiece; the workpiece positioning seat, the pressing block assembly and the second pressing device are arranged on the base plate.

2. The dual-headed ultrasonic transducer capper of claim 1 further comprising: the first pressing device comprises a first fixing frame arranged on the supporting plate, a first ultrasonic transducer arranged on the first fixing frame, and a first die connected with the first ultrasonic transducer.

3. The dual-headed ultrasonic transducer capper of claim 2 further comprising: the second pressing device comprises a second fixing frame arranged on the base plate, a second ultrasonic transducer arranged on the second fixing frame, and a second die connected with the second ultrasonic transducer, and the first die and the second die are arranged oppositely.

4. The dual-headed ultrasonic transducer capper of claim 2 further comprising: the first pressing device comprises a first fixing clamping plate for further reinforcing the first fixing frame and a first shield for protecting the first ultrasonic transducer.

5. The dual-headed ultrasonic transducer capper of claim 3 further comprising: the second pressing device further comprises a second fixing clamping plate for further reinforcing the second fixing frame, and a second shield for protecting the second ultrasonic transducer.

6. The dual-headed ultrasonic transducer capper of any of claims 1 to 5 further comprising: the driving assembly comprises an air cylinder arranged on the base plate, a cross rod connected with the air cylinder, a pull rod connected with the cross rod, a sliding block connected with the pull rod, a supporting plate connected with the sliding block and a guide rail arranged on the base plate, and the sliding block is matched with the guide rail; the first pressing device is arranged on the supporting plate; the cylinder drives the sliding block to move along the guide rail through the cross rod and the pull rod, and meanwhile the sliding block drives the supporting plate and the first pressing device to move towards the workpiece positioning seat.

7. The dual-headed ultrasonic transducer capper of any of claims 1 to 5 further comprising: the workpiece positioning seat comprises a supporting block arranged on the base plate and a positioning plate used for placing the workpiece, and the positioning plate is arranged on the supporting block.

8. The dual-headed ultrasonic transducer capper of any of claims 1 to 5 further comprising: the pressing block assembly comprises an air valve switch, a swing arm air cylinder connected with the air valve switch, a swing arm connected with the swing arm air cylinder and a pressing block connected with the swing arm, and the pressing block is arranged above the workpiece positioning seat; and starting an air valve switch, enabling a swing arm cylinder to work, driving a swing arm to move by the swing arm cylinder, driving a pressing block to move above the workpiece positioning seat by the swing arm, and matching the pressing block and the workpiece positioning seat to realize the purpose of pressing the workpiece in the vertical direction.