CN116699278A - Semi-automatic ageing room of large-function inverter and energy storage product - Google Patents

Abstract

The invention relates to the technical field of ageing equipment, in particular to a semi-automatic ageing room for a large-function inverter and an energy storage product, which is connected with a production line of the large-function inverter and the energy storage product to realize ageing test of the large-function inverter and the energy storage product; the device comprises an aging device and a bilateral carrying manipulator, wherein the aging device comprises a first aging frame and a second aging frame which are symmetrically distributed; the bilateral carrying manipulator is arranged between the first aging frame and the second aging frame, so that carrying automation is realized, the aging test efficiency is improved, and the personnel cost is reduced; the inside layout of ageing device is reasonable, and simultaneously the Y axle transport subassembly of bilateral transport manipulator adopts the bilateral structure of mirror image distribution for the ageing test line setting of electronic product is reasonable effective, further improves ageing test efficiency.

Description

Semi-automatic ageing room of large-function inverter and energy storage product

Technical Field

The invention relates to the technical field of ageing equipment, in particular to a semi-automatic ageing room for a large-function inverter and an energy storage product.

Background

In order to detect and improve reliability, stability and safety of electronic products, aging test of electronic products has become an important step in the manufacturing process. The aging test refers to long-term use of the analog electronic product in a severe environment to detect whether the electronic product has sufficient reliability, stability and safety.

The existing aging test requires workers to carry electronic products into an aging warehouse, but when the volume and the weight of the electronic products are large, certain carrying difficulty and potential safety hazards exist, and meanwhile, a large number of aging tests are difficult to meet.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a semi-automatic aging room for a large-function inverter and an energy storage product.

The invention adopts the following technical scheme:

a semi-automatic aging room for a large-function inverter and energy storage products, comprising:

the aging device comprises a first aging frame and a second aging frame which are symmetrically distributed; the first aging rack and the second aging rack comprise an aluminum rack and a plurality of aging units assembled and fixed on the aluminum rack, and the aging units are used for performing aging tests; one end of the first aging frame is provided with a product inlet, one end of the second aging frame is provided with a product outlet, and the other end of the second aging frame is provided with a jig outlet;

bilateral transport manipulator, bilateral transport manipulator locates between first ageing frame and the ageing frame of second, bilateral transport manipulator includes X axle slide rail, sliding connection in X epaxial slide rail's lifting seat, sliding connection in lifting seat's Y axle transport subassembly, Y axle transport subassembly is including mirror image distribution and the first Y axle transport group and the second Y axle transport group of the unanimous structure, bilateral transport manipulator carries the product to the ageing unit of both sides in.

Preferably, the product inlet and the jig outlet are arranged on the same side.

Preferably, the product inlet is provided with a machine inlet track mechanism, the jig outlet is provided with a machine outlet track mechanism, and the machine inlet track mechanism and the machine outlet track mechanism are consistent in structure and opposite in movement direction.

Preferably, the feeding track mechanism and the discharging track mechanism comprise conveying tracks and jacking rotating assemblies arranged between the conveying tracks; the jacking rotating assembly comprises a jacking cylinder, a jacking plate fixed at the upper end of the jacking cylinder, a rotating plate arranged at the upper end of the jacking plate and a rotating motor in driving connection with the rotating plate;

the lower extreme of rotor plate is fixed with the rotation gear, the upper end of rotating electrical machines is equipped with synchronous pivoted drive gear, drive gear meshes with the rotation gear and realizes the rotation of rotor plate.

Preferably, the product outlet comprises an outlet and a return opening which are arranged in an up-down aligned manner, and the outlet and the return opening are both provided with a roller jacking mechanism;

the roller jacking mechanism comprises a bottom plate, a lifting plate arranged above the bottom plate, a plurality of rollers fixed at the upper end of the lifting plate and a roller assembly fixed on the bottom plate; the roller assembly comprises a mounting plate, a supporting column and a plurality of rollers, wherein the supporting column is fixed at the lower end of the mounting plate, the rollers are fixed at the upper end of the mounting plate, the mounting plate and the rollers are arranged at the upper end of the lifting plate, and the supporting column vertically penetrates through the lifting plate; the roller and the roller are perpendicular to each other in movement direction.

Preferably, the product inlet, the product outlet and the jig outlet are all provided with automatic doors.

Preferably, the first Y-axis carrying group and the second Y-axis carrying group each comprise a claw and a Y-axis sliding rail assembled and connected to the rear side of the claw, and the claw moves along the Y-axis sliding rail.

Preferably, the both sides of Y axle transport subassembly are equipped with symmetrical distribution's locating component, locating component includes the locating plate and locates the promotion cylinder in the locating plate outside, promote the cylinder and promote the locating plate and move inwards and realize the location.

Preferably, a retaining unlocking component is fixedly arranged on the inner side of the positioning plate, the retaining unlocking component comprises a connecting plate, a guide rail fixed at the upper end of the connecting plate, a sliding block connected to the upper end of the guide rail in a sliding manner, and a driving cylinder fixed at the upper end of the connecting plate, and a bearing is fixedly arranged at one end of the sliding block; the driving cylinder drives the sliding block to slide on the guide rail.

Preferably, a plurality of detection stations are formed on the inner side of the aluminum frame, the aging unit is assembled in the detection stations, the side face of the aluminum frame is provided with a movable door which can be opened and closed, and the movable door is arranged in one-to-one correspondence with the detection stations.

The semi-automatic aging room for the large-function inverter and the energy storage product has the following beneficial effects:

according to the semi-automatic aging room for the large-function inverter and the energy storage products, the products are conveyed to the designated aging detection stations through the bilateral conveying mechanical arm, so that conveying automation is realized, aging test efficiency is improved, and personnel cost is reduced; in addition, the ageing device consists of a first ageing rack and a second ageing rack which are symmetrically distributed, the first ageing rack and the second ageing rack are respectively provided with a plurality of ageing test stations, the internal layout of the ageing device is reasonable, and meanwhile, the Y-axis carrying assembly of the bilateral carrying manipulator adopts a mirror-image distributed bilateral structure, so that the ageing test line arrangement of the electronic product is reasonable and effective, and the ageing test efficiency is further improved; the aging detection method can also be applied to aging detection of electronic products except the large-function inverter and the energy storage products, and has strong applicability.

Drawings

FIG. 1 is a schematic diagram of a first overall structure of a semi-automatic aging room for a large-function inverter and energy storage products of the present invention;

FIG. 2 is a schematic diagram of a second overall construction of a semi-automatic aging room for a large-function inverter and energy storage product of the present invention;

FIG. 3 is a top view of a semi-automatic aging room for a large-function inverter and energy storage product of the present invention;

FIG. 4 is a schematic view of the overall structure of the in-flight track mechanism and the out-flight track mechanism in the present invention;

FIG. 5 is an exploded view of the structure of the in-flight and out-flight track mechanism of the present invention;

fig. 6 is a schematic view of a first overall structure of a roller jacking mechanism according to the present invention;

FIG. 7 is a schematic view of a second overall structure of a roller lifting mechanism according to the present invention;

FIG. 8 is a schematic diagram of the overall structure of a dual-sided handling robot in accordance with the present invention;

FIG. 9 is a schematic view of the overall structure of the Y-axis handling assembly of FIG. 8;

fig. 10 is a working state diagram of the anti-back unlocking assembly in the invention.

Reference numerals in the drawings: 1-an aging device; 11-a first aging rack; 111-product inlet; 12-a second aging rack; 121-jig outlet; 122-product outlet; 123-an outlet; 124-a return port;

13-a feeding track mechanism; 131-a conveying track; 132-jack-up swivel assembly; 133-lifting the cylinder; 134-jacking plate; 135-rotating plate; 136-a rotating electric machine; 137-a rotary gear; 138-a drive gear; 14-an outgoing track mechanism;

15-a roller jacking mechanism; 151-a bottom plate; 152-lifting plates; 153-roller; 154-a roller assembly; 155-a mounting plate; 156-support columns; 157-rollers;

16-automatic door; 17-aluminum frame; 18-a detection station; 19-a moving door;

2-a bilateral carrying manipulator; 21-X axis slide rail; 22-lifting seat; a 23-Y axis handling assembly; 231-a first Y-axis handling group; 232-a second Y-axis handling group; 233-hook; 234-Y axis slide rail; 24-positioning assembly; 241-positioning plate; 242-pushing cylinder;

3-a backstop block; 31-a spring; 4-a backstop unlocking component; 41-connecting plates; 42-a guide rail; 43-sliding block; 44-driving a cylinder; 45-bearing.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 10, a semi-automatic aging room for a large-function inverter and an energy storage product according to an embodiment of the present invention is connected to a production line for the large-function inverter and the energy storage product, so as to realize an aging test for the large-function inverter and the energy storage product; the semi-automatic ageing room of the large-function inverter and the energy storage product comprises an ageing device 1 and a double-sided carrying manipulator 2, wherein the ageing device 1 comprises a first ageing rack 11 and a second ageing rack 12 which are symmetrically distributed, the double-sided carrying manipulator 2 is arranged between the first ageing rack 11 and the second ageing rack 12 so as to carry the electronic product to a detection station 18 in the first ageing rack 11 and the second ageing rack 12, and after the ageing test is completed, the double-sided carrying manipulator 2 moves the electronic product out of the ageing device 1 to complete the ageing test.

Referring to fig. 1 to 3, the aging device 1 includes a first aging rack 11 and a second aging rack 12 symmetrically distributed; wherein the front end of first ageing rack 11 is equipped with product import 111, and the front end of second ageing rack 12 is equipped with tool export 121, and the rear end of second ageing rack 12 is equipped with product export 122, when carrying out the ageing test, places the product on the tool, and product and tool enter into ageing room through product import 111, accomplish ageing test after, product and tool phase separation, the product leaves ageing room through product export 122 and carries out next process, and empty tool then leaves ageing room from tool export 121.

Specifically, as shown in fig. 3 to 5, an in-feed rail mechanism 13 for feeding the jig and the product into the aging room is provided at the product inlet 111, and an out-feed rail mechanism 14 for feeding the jig out of the aging room is provided at the jig outlet 121, wherein the in-feed rail mechanism 13 and the out-feed rail mechanism 14 are identical in structure but opposite in movement direction. The feeding track mechanism 13 and the discharging track mechanism 14 both comprise conveying tracks 131 for realizing feeding and discharging and jacking rotating assemblies 132 arranged between the conveying tracks 131, the conveying tracks 131 adopt double-speed chain conveying belts, and the conveying speed is accurate and stable, so that accurate synchronous conveying can be ensured; the jacking rotating assembly 132 comprises a jacking cylinder 133, a jacking plate 134 fixed at the upper end of the jacking cylinder 133, a rotating plate 135 arranged at the upper end of the jacking plate 134, and a rotating motor 136 for driving the rotating plate 135 to rotate; the jacking cylinder 133 pushes the jacking plate 134 to realize jacking; a rotary gear 137 is fixedly arranged at the lower end of the rotary plate 135, a transmission gear 138 which synchronously rotates is arranged on a transmission shaft of the rotary motor 136, and the transmission gear 138 is meshed with the rotary gear 137 to realize the rotation of the rotary plate 135; in addition, in order to prevent the product from moving during the rotation and lifting process, a stop block 3 is provided on one side of the rotation plate 135, and a spring 31 is provided at the lower end of the stop block 3, wherein the spring 31 can lift the stop block 3 and lock the product to play a stop role.

Specifically, as shown in fig. 6 to 7, the product outlet 122 includes an outlet 123 and a return 124 aligned up and down, the product after the aging test is moved out of the aging room through the outlet 123, and the return 124 is used for sending the product to be detected again into the aging room. In order to better realize the feeding and discharging of the machine opening 123 and the machine returning opening 124, a roller jacking mechanism 15 is arranged at each of the machine outlet 123 and the machine returning opening 124, and the roller jacking mechanism 15 comprises a bottom plate 151, a lifting plate 152 arranged above a place, a plurality of rollers 153 fixed at the upper end of the lifting plate 152 and a roller assembly 154 fixed on the bottom plate 151; the roller assembly 154 includes a mounting plate 155, a supporting column 156 fixed at the lower end of the mounting plate 155 and vertically penetrating through the elevating plate 152, and a plurality of rollers 157 fixed at the upper end of the mounting plate 155; wherein the movement direction of the roller 157 and the drum 153 is perpendicular. As shown in fig. 7, when the lifting plate 152 is lifted, the drum 153 contacts the bottom of the jig, and the jig can be sent into or out of the aging room along the drum 153; on the contrary, as shown in fig. 6, when the lifting plate 152 is lowered, the roller 157 contacts the bottom of the jig, and the jig can be connected to the dual-side handling robot 2 along the roller 157.

Specifically, in order to play a role in dust prevention, an automatic door 16 capable of automatically opening and closing is arranged at each of a product inlet 111, a product outlet 122 and a jig outlet 121, each of the first aging rack 11 and the second aging rack 12 comprises an aluminum rack 17, a plurality of detection stations 18 are formed inside the aluminum rack 17, an aging unit (not shown in the figure) is assembled in the detection stations 18, and the product and the aging unit can be subjected to aging test by plugging in; the side of the aluminum frame 17 is provided with a movable door 19 which can be opened and closed, the movable door 19 and the detection station 18 are arranged in one-to-one correspondence, the dustproof and heat insulation effects are achieved, and a user needs to pull the movable door 19 to finish wiring of the electronic product and the aging unit.

Referring to fig. 8 to 10, the dual-sided carrying manipulator 2 includes an X-axis sliding rail 21, a lifting seat 22 and a Y-axis carrying assembly 23 connected in sequence, wherein the X-axis sliding rail 21 drives the Y-axis carrying assembly 23 to move in the X-axis direction, and the lifting seat 22 drives the Y-axis carrying assembly 23 to move in the Z-axis direction; in order to simultaneously convey the products into the first aging rack 11 and the second aging rack 12 on both sides, the Y-axis conveying assembly 23 adopts a double-sided structure, and includes a first Y-axis conveying group 231 and a second Y-axis conveying group 232 which are mirror images and have identical structures. The first Y-axis carrying set 231 and the second Y-axis carrying set 232 each comprise a claw 233 and a Y-axis sliding rail 234 assembled and connected to the rear side of the claw 233, and the claw 233 buckles 1 the product and realizes push-pull along the Y-axis sliding rail 234; the first Y-axis conveyance group 231 and the second Y-axis conveyance group 232 are each configured with a power unit and individually controlled.

Specifically, as shown in fig. 9, symmetrically distributed positioning assemblies 24 are disposed on two sides of the Y-axis handling assembly 23, the positioning assemblies 24 include positioning plates 241 and pushing cylinders 242 disposed on the outer sides of the positioning plates 241, and the positioning plates 241 on the two sides are driven by the pushing cylinders 242 to move inwards to clamp the product on the inner side so as to achieve positioning.

Specifically, a retaining and unlocking assembly 4 is fixedly arranged on the inner side of a positioning plate 241, the retaining and unlocking assembly 4 comprises a connecting plate 41, a guide rail 42 fixed on the upper end of the connecting plate 41, a sliding block 43 connected to the upper end of the guide rail 42 in a sliding manner, and a driving cylinder 44 fixed on the upper end of the connecting plate 41, and a bearing 45 is fixedly arranged at one end of the sliding block 43; as shown in fig. 10, the driving cylinder 44 drives the sliding block 43 to slide along the guide rail 42, and when the sliding block moves to a certain displacement, the bearing 45 moves to the upper end of the stop block 3, and the spring 31 is pressed to make the stop block 3 move downward, so as to perform an unlocking function.

The working principle of the semi-automatic aging room for the large-function inverter and the energy storage product is as follows:

placing a product on a jig, then placing the jig on a feeding track mechanism 13 through a product inlet 111, lifting the jig by the feeding track mechanism 13 and rotating the jig by 90 degrees so as to facilitate the double-sided carrying manipulator 2 to carry the jig, moving a hook 233 to the feeding track mechanism 13 by the double-sided carrying manipulator 2, pulling the jig back by the hook 233, then moving the jig to a corresponding detection station 18 by the double-sided carrying manipulator 2, then manually wiring the product with an ageing unit on the detection station 18, and performing ageing test; the jig without the product is then moved to the jig outlet 121, and at the jig outlet 121, the jig is lifted and rotated by 90 ° by the out-feed rail mechanism 14, and is sent out of the aging device 1.

Then, the burn-in finished product is manually unwound, the double-sided carrying manipulator 2 removes the burn-in finished product from the inspection station 18 and carries the product to the product outlet 122, and the burn-in finished product is carried out of the burn-in apparatus 1.

According to the semi-automatic aging room for the large-function inverter and the energy storage products, the products are conveyed to the designated aging detection station 18 through the bilateral conveying mechanical arm 2, so that conveying automation is realized, aging test efficiency is improved, and personnel cost is reduced; in addition, the aging device 1 is composed of a first aging frame 11 and a second aging frame 12 which are symmetrically distributed, the first aging frame 11 and the second aging frame 12 are provided with a plurality of detection stations 18, the internal layout of the aging device 1 is reasonable, meanwhile, the Y-axis carrying assembly 23 of the bilateral carrying manipulator 2 adopts a mirror-image-distributed bilateral structure, so that the aging test line arrangement of the electronic product is reasonable and effective, and the aging test efficiency is further improved; the aging detection method can also be applied to aging detection of electronic products except the large-function inverter and the energy storage products, and has strong applicability.

The foregoing examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. Semi-automatic ageing room of large-scale inverter and energy storage product, its characterized in that includes:

the aging device comprises a first aging frame and a second aging frame which are symmetrically distributed; the first aging rack and the second aging rack comprise an aluminum rack and a plurality of aging units assembled and fixed on the aluminum rack, and the aging units are used for performing aging tests; one end of the first aging frame is provided with a product inlet, one end of the second aging frame is provided with a product outlet, and the other end of the second aging frame is provided with a jig outlet; the product outlet comprises an outlet and a return opening which are arranged in an up-down aligned manner, and the outlet and the return opening are respectively provided with a roller jacking mechanism for realizing the movement of the product; the product inlet is provided with an inlet track mechanism for realizing movement of the product, and the jig outlet is provided with an outlet track mechanism for realizing movement of the jig;

bilateral transport manipulator, bilateral transport manipulator locates between first ageing frame and the ageing frame of second, bilateral transport manipulator includes X axle slide rail, sliding connection in X epaxial slide rail's lifting seat, sliding connection in lifting seat's Y axle transport subassembly, Y axle transport subassembly is including mirror image distribution and the first Y axle transport group and the second Y axle transport group of the unanimous structure, bilateral transport manipulator carries the product to the ageing unit of both sides in.

2. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the product inlet and the jig outlet are arranged on the same side.

3. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the machine inlet track mechanism and the machine outlet track mechanism are consistent in structure and opposite in movement direction.

4. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 3, wherein: the machine inlet track mechanism and the machine outlet track mechanism comprise conveying tracks and jacking rotating assemblies which are arranged between the conveying tracks and slide; the jacking rotating assembly comprises a jacking cylinder, a jacking plate fixed at the upper end of the jacking cylinder, a rotating plate arranged at the upper end of the jacking plate and a rotating motor in driving connection with the rotating plate;

the lower extreme of rotor plate is fixed with the rotation gear, the upper end of rotating electrical machines is equipped with synchronous pivoted drive gear, drive gear meshes with the rotation gear and realizes the rotation of rotor plate.

5. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the roller jacking mechanism comprises a bottom plate, a lifting plate arranged above the bottom plate, a plurality of rollers fixed at the upper end of the lifting plate and a roller assembly fixed on the bottom plate; the roller assembly comprises a mounting plate, a supporting column and a plurality of rollers, wherein the supporting column is fixed at the lower end of the mounting plate, the rollers are fixed at the upper end of the mounting plate, the mounting plate and the rollers are arranged at the upper end of the lifting plate, and the supporting column vertically penetrates through the lifting plate; the roller and the roller are perpendicular to each other in movement direction.

6. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the product inlet, the product outlet and the jig outlet are all provided with automatic doors.

7. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the first Y-axis carrying group and the second Y-axis carrying group comprise a hook claw and a Y-axis sliding rail which is assembled and connected to the rear side of the hook claw, and the hook claw moves along the Y-axis sliding rail.

8. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the Y-axis conveying assembly comprises a Y-axis conveying assembly and is characterized in that symmetrically distributed positioning assemblies are arranged on two sides of the Y-axis conveying assembly, each positioning assembly comprises a positioning plate and a pushing cylinder arranged on the outer side of the positioning plate, and each pushing cylinder pushes the positioning plate to move inwards to achieve positioning.

9. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 8, wherein: the inner side of the positioning plate is fixedly provided with a backstop unlocking component, the backstop unlocking component comprises a connecting plate, a guide rail fixed at the upper end of the connecting plate, a sliding block connected to the upper end of the guide rail in a sliding manner, and a driving cylinder fixed at the upper end of the connecting plate, and one end of the sliding block is fixedly provided with a bearing; the driving cylinder drives the sliding block to slide on the guide rail.

10. The semi-automatic aging room for a large-function inverter and energy storage product according to claim 1, wherein: the inside a plurality of detection stations that form of aluminium frame, ageing unit assembles in detection station, the aluminium frame side is equipped with the dodge gate that can open and shut, dodge gate and detection station one-to-one set up.