CN220062890U - Height-adjustable x-ray detection transmitting device for battery detection - Google Patents

Abstract

The utility model discloses a height-adjustable X-ray detection transmitting device for battery detection, which comprises a transmitting mounting frame, a first Y-axis translation mechanism arranged at the top of the transmitting mounting frame along the length direction of the transmitting mounting frame, a first X-axis translation mechanism connected with the first Y-axis translation mechanism, and a first translation seat connected with the first X-axis translation mechanism; the first translation seat is also provided with a height adjusting mechanism, and the height adjusting mechanism is also provided with a first lifting plate; the first lifting plate is further provided with a transmitting shell, and an x-ray transmitter is further arranged in the transmitting shell. The height adjusting mechanism is arranged, the height of the X-ray emitter can be freely adjusted according to products of different specifications and types, the X-ray emitter is further suitable for detecting products of various types and specifications, the compatibility is strong, meanwhile, the height of the X-ray emitter is adjusted in a manual adjusting mode of the connecting rod mechanism, and the production cost is greatly reduced while the lifting stability of the X-ray emitter is ensured.

Description

Height-adjustable x-ray detection transmitting device for battery detection

Technical Field

The utility model relates to the technical field of lithium battery detection, in particular to a height-adjustable x-ray detection transmitting device for battery detection.

Background

A lithium battery is a battery composed of cells assembled and formed in a winding manner, and is also called a winding battery, and a winding battery commonly used at present is a power winding battery, a digital winding battery, a cylindrical winding battery, a laminated winding battery, and a button winding battery. In the production process of lithium batteries, quality detection is an extremely important ring, and if unqualified products are detected to flow into the market, a series of potential safety hazards can be increased.

At present, after the production of a laminated (blade) lithium battery is completed, the positive electrode and the negative electrode of the laminated (blade) lithium battery or the shape of an aluminum shell lug are required to be detected, at present, the laminated (blade) lithium battery is usually detected based on an x-ray detection technology, and an x-ray emitter in the existing x-ray detection equipment is basically fixedly installed, if the laminated (blade) lithium battery is detected for products with different specifications and types, the laminated (blade) lithium battery is required to be disassembled, and is properly adjusted in height, and then the laminated (blade) lithium battery is reassembled.

Disclosure of Invention

The utility model aims to provide a height-adjustable x-ray detection transmitting device for battery detection, which is provided with a height adjusting mechanism, can freely adjust the height of the device according to products of different specifications and types, is further suitable for detection of products of various types and specifications, has strong compatibility, adopts a manual adjustment mode of a connecting rod mechanism to adjust the height of an x-ray transmitter, ensures the lifting stability of the device, greatly reduces the production cost, and has reasonable overall design, compact structure, convenient operation and strong practicability.

In order to achieve the above purpose, the following technical scheme is adopted:

the utility model provides a height-adjustable X-ray detects emitter of battery detection, includes the transmission mounting bracket, installs the first Y axle translation mechanism at its top along transmission mounting bracket length direction, the first X axle translation mechanism of being connected with first Y axle translation mechanism, and the first translation seat of being connected with first X axle translation mechanism; the first translation seat is also provided with a height adjusting mechanism, and the height adjusting mechanism is also provided with a first lifting plate; a transmitting shell is further arranged on the first lifting plate, and an x-ray transmitter is further arranged in the transmitting shell; the height adjusting mechanism comprises a translation driving mechanism arranged on the first translation seat and a first connecting rod mechanism connected with the translation driving mechanism; the first lifting plate is arranged on the first connecting rod mechanism, and the translation driving mechanism is used for driving the first lifting plate to lift through the first connecting rod mechanism.

Further, the translation driving mechanism comprises a rotary screw rod and a first translation driving assembly; the first translation driving assembly comprises a first fixed seat and a first sliding seat which are arranged between the first translation seat and the first lifting plate, a second fixed seat which is arranged at the top of the first translation seat and positioned below the first fixed seat and the first sliding seat, and a third fixed seat which is arranged at the bottom of the first lifting plate and positioned right above the second fixed seat; the rotary screw is arranged on the first fixing seat, a forward thread is arranged on the rotary screw, and the first sliding seat is in threaded connection with the rotary screw through the forward thread.

Further, the first connecting rod mechanism comprises two groups of first diamond-shaped connecting rod assemblies, and the two groups of first diamond-shaped connecting rod assemblies are correspondingly arranged at two ends of the first fixing seat; each group of first diamond-shaped connecting rod assemblies comprises four first connecting rods and four first rotating shafts; the two ends of the first fixing seat, the two ends of the first sliding seat, the two ends of the second fixing seat and the two ends of the third fixing seat are respectively provided with a first rotating shaft, and the four first connecting rods of each group of the first diamond-shaped connecting rod assemblies are hinged with each other in an end-to-end mode through the four first rotating shafts.

Further, the translational drive mechanism further comprises a second translational drive assembly; the first translation driving assembly and the second translation driving assembly are respectively positioned at one end below the first lifting plate; the second translation driving assembly comprises a fourth fixed seat and a second sliding seat which are arranged between the first translation seat and the first lifting plate, a fifth fixed seat which is arranged at the top of the first translation seat and positioned below the position between the fourth fixed seat and the second sliding seat, and a sixth fixed seat which is arranged at the bottom of the first lifting plate and positioned right above the fifth fixed seat; the rotary screw is also provided with a reverse thread, and the second sliding seat is in threaded connection with the rotary screw through the reverse thread.

Further, the height-adjustable x-ray detection transmitting device for battery detection also comprises a second link mechanism; the second connecting rod mechanism comprises two groups of second diamond-shaped connecting rod assemblies which are correspondingly arranged at two ends of the fourth fixing seat; each group of second diamond-shaped connecting rod assemblies comprises four second connecting rods and four second rotating shafts; two ends of the fourth fixed seat, two ends of the second sliding seat, two ends of the fifth fixed seat and two ends of the sixth fixed seat are respectively provided with a second rotating shaft, and four second connecting rods of each group of second diamond-shaped connecting rod assemblies are hinged with each other in an end-to-end mode through the four second rotating shafts.

Further, one end of the rotating screw rod is also provided with a rotating hand wheel.

Further, a light outlet is further formed in one end of the emission shell, and an emission protective cover is further mounted at the end of the emission shell.

Further, a plurality of heat dissipation holes are formed in two sides of the emission shell.

By adopting the scheme, the utility model has the beneficial effects that:

the device is equipped with high adjustment mechanism, can be according to the product of different specifications, type, freely adjust its height that locates, and then be suitable for the detection of multiple type, specification product, and the compatibility is strong, simultaneously, adopts the manual mode of adjusting of link mechanism to adjust the height of x-ray transmitter, when guaranteeing its lifting stability, also greatly reduced manufacturing cost, and whole reasonable in design, compact structure, convenient operation, the practicality is strong.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of the other view of FIG. 1;

FIG. 3 is a perspective view of the height adjustment mechanism of the present utility model;

wherein, the attached drawings mark and illustrate:

1-an emission mounting rack; 2-a first Y-axis translation mechanism;

3-a first X-axis translation mechanism; 4-a first translation seat;

5-a height adjustment mechanism; 6-a first lifting plate;

7-a launch housing; 51—a translational drive mechanism;

52—a first link mechanism; 53-a second linkage;

54-rotating a hand wheel; 71-an emission shield;

72-a heat dissipation hole; 511-a rotating screw;

512-a first translational drive assembly; 513-a second translational drive assembly;

5121-a first fixing base; 5122-a first slide seat;

5123-second fixing base.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the specific embodiments.

Referring to fig. 1 to 3, the utility model provides a height-adjustable X-ray detection emission device for battery detection, which comprises an emission mounting frame 1, a first Y-axis translation mechanism 2 arranged at the top of the emission mounting frame 1 along the length direction of the emission mounting frame, a first X-axis translation mechanism 3 connected with the first Y-axis translation mechanism 2, and a first translation seat 4 connected with the first X-axis translation mechanism 3; a height adjusting mechanism 5 is further arranged on the first translation seat 4, and a first lifting plate 6 is further arranged on the height adjusting mechanism 5; a transmitting shell 7 is further arranged on the first lifting plate 6, and an x-ray transmitter is further arranged in the transmitting shell 7; the height adjusting mechanism 5 includes a translation driving mechanism 51 disposed on the first translation seat 4, and a first link mechanism 52 connected to the translation driving mechanism 51; the first lifting plate 6 is mounted on a first link mechanism 52, and the translation driving mechanism 51 is used for driving the first lifting plate 6 to lift via the first link mechanism 52.

With continued reference to fig. 1 to 3, in an embodiment, the first X-axis translation mechanism 3 and the first Y-axis translation mechanism 2 may be linear motor modules, motor screw drives or other modules capable of implementing translation motion, and then, under the mutual cooperation with the height adjustment mechanism 5, the X-ray emitter may be driven to do translation and lifting motion, the height of the X-ray emitter and the distance between the X-ray emitter and an external X-ray receiving device may be adjusted, so as to implement detection with different multiplying powers, improve the detection precision, and simultaneously, the height of the X-ray emitter may be freely adjusted according to different specifications and types of products, so as to adapt to detection of various types and specifications of products, and has strong compatibility.

In one embodiment, the translation driving mechanism 51 includes a rotary screw 511 and a first translation driving component 512; the first translation driving assembly 512 includes a first fixed seat 5121 and a first sliding seat 5122 disposed between the first translation seat 4 and the first lifting plate 6, a second fixed seat 5123 mounted on the top of the first translation seat 4 and located below between the first fixed seat 5121 and the first sliding seat 5122, and a third fixed seat mounted on the bottom of the first lifting plate 6 and located right above the second fixed seat 5123; the rotary screw 511 is mounted on the first fixing seat 5121, and the rotary screw 511 is provided with a forward thread, and the first sliding seat 5122 is screwed with the rotary screw 511 through the forward thread; the first link mechanism 52 includes two groups of first diamond-shaped link assemblies, and the two groups of first diamond-shaped link assemblies are correspondingly arranged at two ends of the first fixing seat 5121; each group of first diamond-shaped connecting rod assemblies comprises four first connecting rods and four first rotating shafts; the two ends of the first fixing seat 5121, the two ends of the first sliding seat 5122, the two ends of the second fixing seat 5123, and the two ends of the third fixing seat are respectively provided with a first rotating shaft, and the four first connecting rods of each group of the first diamond-shaped connecting rod assemblies are hinged with each other end to end through the four first rotating shafts.

With continued reference to fig. 3, in this embodiment, the rotary screw 511 is mounted on the first fixing seat 5121, the outer wall of the rotary screw 511 is provided with a forward thread, the first sliding seat 5122 is connected with the rotary screw 511 through the forward thread, the first fixing seat 5121 is manually supported, then the first sliding seat 5122 can be driven to translate left and right through forward and reverse rotation of the rotary screw 511, and the second fixing seat 5123 and the third fixing seat are fixed, so that when the first sliding seat 5122 translates left, the angle between the two adjacent first connecting rods on the left and right can be increased, the angle between the two adjacent first connecting rods on the upper and lower edges can be reduced, and then the first lifting plate 6 is driven to lift, and conversely, when the first sliding seat 5122 moves right, the first lifting plate 6 is driven to descend, and then the height of the x-ray emitter can be changed to adapt to detection of different types of products.

In one embodiment, the translation driving mechanism 51 further comprises a second translation driving assembly 513; the first translation driving component 512 and the second translation driving component 513 are respectively positioned at one end below the first lifting plate 6; the second translation driving assembly 513 includes a fourth fixed seat and a second sliding seat arranged between the first translation seat 4 and the first lifting plate 6, a fifth fixed seat installed at the top of the first translation seat 4 and located below and between the fourth fixed seat and the second sliding seat, and a sixth fixed seat installed at the bottom of the first lifting plate 6 and located right above the fifth fixed seat; the rotary screw 511 is also provided with a reverse thread, and the second sliding seat is in threaded connection with the rotary screw 511 through the reverse thread; the height-adjustable x-ray detection transmitting device for battery detection also comprises a second link mechanism 53; the second link mechanism 53 includes two groups of second diamond-shaped link assemblies, and the two groups of second diamond-shaped link assemblies are correspondingly arranged at two ends of the fourth fixing seat; each group of second diamond-shaped connecting rod assemblies comprises four second connecting rods and four second rotating shafts; two ends of the fourth fixed seat, two ends of the second sliding seat, two ends of the fifth fixed seat and two ends of the sixth fixed seat are respectively provided with a second rotating shaft, and four second connecting rods of each group of second diamond-shaped connecting rod assemblies are hinged with each other in an end-to-end mode through the four second rotating shafts.

In this embodiment, the structure of the second translation assembly is identical to that of the first translation assembly, and the second link mechanism 53 is identical to that of the first link mechanism 52, so that the stability of lifting of the first lifting plate 6 can be further improved by providing a translation driving assembly at each of the two ends of the bottom of the first lifting plate 6.

In addition, to facilitate rotating the rotary screw 511, in one embodiment, a rotary hand wheel 54 is further mounted at one end of the rotary screw 511.

Meanwhile, in an embodiment, one end of the emission housing 7 is further provided with a light emitting hole, and the end of the emission housing 7 is further provided with an emission protection cover 71. The x-ray emitter is an x-ray source, and the x-rays emitted by the x-ray emitter are emitted to the outside through the light emitting holes, and the emission protective cover 71 is also arranged, so that the x-ray leakage rate can be reduced while the light is concentrated, and meanwhile, the two sides of the emission shell 7 are also provided with a plurality of heat dissipation holes 72, so that the heat dissipation efficiency of the x-ray emitter can be improved, and the service life of the x-ray emitter can be prolonged.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The height-adjustable X-ray detection emission device for battery detection is characterized by comprising an emission installation frame, a first Y-axis translation mechanism arranged at the top of the emission installation frame along the length direction of the emission installation frame, a first X-axis translation mechanism connected with the first Y-axis translation mechanism, and a first translation seat connected with the first X-axis translation mechanism; the first translation seat is also provided with a height adjusting mechanism, and the height adjusting mechanism is also provided with a first lifting plate; a transmitting shell is further arranged on the first lifting plate, and an x-ray transmitter is further arranged in the transmitting shell; the height adjusting mechanism comprises a translation driving mechanism arranged on the first translation seat and a first connecting rod mechanism connected with the translation driving mechanism; the first lifting plate is arranged on the first connecting rod mechanism, and the translation driving mechanism is used for driving the first lifting plate to lift through the first connecting rod mechanism.

2. The battery-detected height-adjustable x-ray detection emitting device of claim 1, wherein the translational drive mechanism comprises a rotary screw, a first translational drive assembly; the first translation driving assembly comprises a first fixed seat and a first sliding seat which are arranged between the first translation seat and the first lifting plate, a second fixed seat which is arranged at the top of the first translation seat and positioned below the first fixed seat and the first sliding seat, and a third fixed seat which is arranged at the bottom of the first lifting plate and positioned right above the second fixed seat; the rotary screw is arranged on the first fixing seat, a forward thread is arranged on the rotary screw, and the first sliding seat is in threaded connection with the rotary screw through the forward thread.

3. The battery detection and height-adjustable x-ray detection and emission device according to claim 2, wherein the first link mechanism comprises two groups of first diamond-shaped link assemblies, and the two groups of first diamond-shaped link assemblies are correspondingly arranged at two ends of the first fixing seat; each group of first diamond-shaped connecting rod assemblies comprises four first connecting rods and four first rotating shafts; the two ends of the first fixing seat, the two ends of the first sliding seat, the two ends of the second fixing seat and the two ends of the third fixing seat are respectively provided with a first rotating shaft, and the four first connecting rods of each group of the first diamond-shaped connecting rod assemblies are hinged with each other in an end-to-end mode through the four first rotating shafts.

4. The battery-detected height-adjustable x-ray detection transmitter of claim 3, wherein the translational drive mechanism further comprises a second translational drive assembly; the first translation driving assembly and the second translation driving assembly are respectively positioned at one end below the first lifting plate; the second translation driving assembly comprises a fourth fixed seat and a second sliding seat which are arranged between the first translation seat and the first lifting plate, a fifth fixed seat which is arranged at the top of the first translation seat and positioned below the position between the fourth fixed seat and the second sliding seat, and a sixth fixed seat which is arranged at the bottom of the first lifting plate and positioned right above the fifth fixed seat; the rotary screw is also provided with a reverse thread, and the second sliding seat is in threaded connection with the rotary screw through the reverse thread.

5. The battery detection height-adjustable x-ray detection emission device according to claim 4, wherein the battery detection height-adjustable x-ray detection emission device further comprises a second link mechanism; the second connecting rod mechanism comprises two groups of second diamond-shaped connecting rod assemblies which are correspondingly arranged at two ends of the fourth fixing seat; each group of second diamond-shaped connecting rod assemblies comprises four second connecting rods and four second rotating shafts; two ends of the fourth fixed seat, two ends of the second sliding seat, two ends of the fifth fixed seat and two ends of the sixth fixed seat are respectively provided with a second rotating shaft, and four second connecting rods of each group of second diamond-shaped connecting rod assemblies are hinged with each other in an end-to-end mode through the four second rotating shafts.

6. The height-adjustable x-ray detection and emission device for battery detection according to claim 2, wherein one end of the rotating screw is further provided with a rotating hand wheel.

7. The height-adjustable x-ray detection emission device for battery detection according to claim 1, wherein one end of the emission shell is further provided with a light emitting hole, and the end of the emission shell is further provided with an emission protection cover.

8. The height-adjustable x-ray detection emission device for battery detection according to claim 1, wherein a plurality of heat dissipation holes are further formed on two sides of the emission shell.