CN215415654U - Program-controlled high-temperature aging room - Google Patents

Abstract

A program-controlled high-temperature aging room comprises a feeding area, an aging area, a discharging area and a backflow area, wherein a feeding device is arranged in the feeding area, a plurality of aging production lines are arranged in the aging area, a discharging device is arranged in the discharging area, the aging production lines are used for transferring and connecting aging tools, the feeding area is used for feeding the aging tools, the discharging area is used for discharging the aging tools, and the backflow area is used for returning the aging tools to the feeding device after the aging tools are discharged from the discharging area and then enter the aging area again; the test product carried by the aging jig enters the aging room through the feeding device and the discharging device without manual feeding and discharging; the aging flow water layer frame on the aging production line can independently feed and discharge materials and is not influenced by other aging flow water layer frames.

Description

Program-controlled high-temperature aging room

Technical Field

The utility model relates to the technical field of aging rooms, in particular to a program-controlled high-temperature aging room.

Background

The aging room is equipment for simulating a severe environment test, which improves the stability, quality and competitiveness of a product.

The traditional ageing room feeds and discharges materials manually, the testing temperature in the ageing room is very high, and workers need to wear protective equipment when entering and exiting the ageing room and are not beneficial to maintaining the testing temperature in the ageing room; the problem of automatic business turn over material can be solved in current ageing room of tunnel type, but the ageing rack car of tunnel type adopts more to bear the weight of the element that awaits measuring, and ageing rack car temperature in the ageing rack car after the ejection of compact need to return test area again is still very high, is unfavorable for manual operation.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above disadvantages of the prior art, the present invention provides a program-controlled high-temperature aging room.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a programme-controlled high temperature ageing room, includes feeding area, ageing zone, ejection of compact district and backward flow district, be equipped with feed arrangement in the feeding area, be equipped with a plurality of ageing assembly lines in the ageing zone, be equipped with discharging device in the ejection of compact district, ageing assembly line is used for shifting and connects ageing smelting tool, the feeding area is used for the feeding of ageing smelting tool, the ejection of compact district is used for the ejection of compact of ageing smelting tool, the backward flow district is used for ageing smelting tool to flow back to feed arrangement and get into the ageing zone again after the ejection of compact of discharging zone.

As a further improvement of the utility model: the aging assembly line is provided with a plurality of aging assembly layer frames which are parallel to each other.

As a further improvement of the utility model: and the aging flow water layer frame is provided with a tray roller and a conductive device.

As a further improvement of the utility model: the ageing smelting tool is arranged on the tray rolling shaft and is connected with the conducting device.

As a further improvement of the utility model: ageing smelting tool includes power supply unit, smelting tool frame and test rack, power supply unit fixes on smelting tool frame and test rack, smelting tool frame and test rack fixed connection, be equipped with a plurality of product mount on the test rack, the product mount passes through the fixing base to be fixed on the test rack, power supply unit is connected with electrically conductive device.

As a further improvement of the utility model: the conductive device is a conductive copper bar, the conductive copper bar is arranged above the tray roller, the conductive copper bar comprises a positive conductive copper bar and a negative conductive copper bar, the positive conductive copper bar is arranged on the left side above the tray roller, and the negative conductive copper bar is arranged on the right side above the tray roller.

As a further improvement of the utility model: the fixed position of the negative conductive copper bar is horizontally below the fixed position of the positive conductive copper bar.

As a further improvement of the utility model: the power supply device comprises a positive pole electrifying seat and a negative pole electrifying seat, the positive pole electrifying seat is fixed on the left side of the bottom surface of the detection frame, and the negative pole electrifying seat is fixed on the right side of the surface of the jig frame.

As a further improvement of the utility model: the positive pole circular telegram seat offsets with anodal electrically conductive copper bar, the negative pole circular telegram seat offsets with the negative pole electrically conductive copper bar.

As a further improvement of the utility model: the feeding device and the discharging device are provided with moving brackets which are arranged on the vertical moving grooves, and the moving brackets are connected with the aging flow water layer frame through vertical movement on the vertical moving grooves.

As a further improvement of the utility model: the moving bracket is connected with a vertical moving motor.

As a further improvement of the utility model: the feeding device is arranged on a feeding slide way of the feeding area, and the discharging device is arranged on a discharging slide way of the discharging area.

As a further improvement of the utility model: the backflow area is arranged on one side of the aging area.

As a further improvement of the utility model: and an aging jig backflow roller is arranged on the backflow area.

As a further improvement of the utility model: the feeding slide way and the discharging slide way extend out of two sides of the backflow area.

As a further improvement of the utility model: the movable bracket is connected with the backflow rolling shaft of the aging jig.

As a further improvement of the utility model: the conductive device is connected with the power distribution cabinet, and the power distribution cabinet is arranged outside the aging area.

As a further improvement of the utility model: the feeding area and the discharging area are provided with automatic lifting rolling doors, and door frames of the automatic lifting rolling doors are provided with sealing components.

As a further improvement of the utility model: still include high temperature resistant camera, high temperature resistant camera is established above feeding district, ageing district, ejection of compact district and backward flow district.

As a further improvement of the utility model: the feed side in feed area and the delivery side in ejection of compact district are equipped with the observation window, the both sides in ageing district are equipped with the observation window, the observation window is used for observing the test result on the ageing smelting tool from ageing room both sides.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the test product carried by the aging jig enters the aging room through the feeding device and the discharging device without manual feeding and discharging;

(2) the aging flow water layer frame on the aging production line can independently feed and discharge materials and is not influenced by other aging flow water layer frames;

(3) the power supply device on the aging jig is connected with the conductive device on the aging flow water layer frame to supply power for the test product on the aging jig, and the aging jig moves on the aging flow water layer frame without power failure;

(4) and observation windows are arranged on the feeding area, the aging area and the discharging area, so that the aging test result can be observed conveniently.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial schematic view of a portion a in fig. 1.

Fig. 3 is a schematic structural diagram of an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the aging jig of the present invention.

FIG. 5 is a schematic diagram of the aging pipeline of the present invention.

FIG. 6 is a schematic diagram of a partial configuration of the burn-in pipeline of the present invention.

Fig. 7 is a schematic structural diagram of the aging tool in use state in the aging line.

Detailed Description

The utility model will now be further described with reference to the accompanying description and examples: like shown in fig. 1 ~ 6 programme-controlled high temperature ageing room, including feeding district 1, ageing zone 2, ejection of compact district 3 and backward flow district 4, be equipped with feed arrangement 11 in the feeding district, be equipped with a plurality of ageing assembly line 21 in the ageing zone 2, be equipped with discharging device 31 in the ejection of compact district 3, ageing assembly line 21 is used for shifting and connects ageing smelting tool 5, feeding district 1 is used for ageing smelting tool 5's feeding, ejection of compact district 3 is used for ageing smelting tool 5's the ejection of compact, backward flow district 4 is used for ageing smelting tool 5 to flow back to feed arrangement 11 and get into ageing zone 2 again after the 3 ejection of compact of ejection of compact districts.

Be equipped with the ageing running water layer frame 22 of a plurality of on the ageing assembly line 21, parallel arrangement between the ageing running water layer frame 22, be equipped with tray roller bearing 221 and electrically conductive device 222 on the ageing running water layer frame 22, electrically conductive device 222 is electrically conductive copper bar, electrically conductive copper bar establishes in tray roller bearing 221 top, electrically conductive copper bar 222 includes anodal electrically conductive copper bar 223 and negative pole electrically conductive copper bar 224, anodal electrically conductive copper bar 223 is established in tray roller bearing 221 top left side, the electrically conductive copper bar 224 of negative pole is established on tray roller bearing 221 top right side, the fixed position of negative pole electrically conductive copper bar 224 is in anodal electrically conductive copper bar 223's fixed position level below.

Ageing smelting tool 5 is established on tray roller 221, ageing smelting tool 5 is connected with electrically conductive device 222, ageing smelting tool 5 includes power supply unit 51, smelting tool frame 52 and test rack 53, power supply unit 51 is fixed on smelting tool frame 52 and test rack 53, smelting tool frame 52 and test rack 53 fixed connection, be equipped with a plurality of product mount 501 on the test rack 53, product mount 501 passes through fixing base 502 to be fixed on test rack 53, power supply unit 51 is connected with electrically conductive device 222, power supply unit 51 includes power supply wheel 511, power supply unit 51 is through power supply wheel 511 and the inconsistent electric connection of electrically conductive copper bar.

The power supply device 51 comprises a positive pole electrifying seat 511 and a negative pole electrifying seat 512, the positive pole electrifying seat 511 is fixed on the left side of the bottom surface of the detection frame 53, and the negative pole electrifying seat 512 is fixed on the right side of the surface of the jig frame 52; the positive electrode electrifying seat 511 abuts against the positive electrode conductive copper bar 223, and the negative electrode electrifying seat 512 abuts against the negative electrode conductive copper bar 554.

The feeding device 11 and the discharging device 31 are provided with a moving bracket 111, the moving bracket 111 is arranged on a vertical moving groove 112, the moving bracket 111 is connected with a vertical moving motor, and the moving bracket 111 is connected with the aging flow water layer frame 22 through vertical movement on the vertical moving groove 112.

The conductive device 222 is connected with a power distribution cabinet, and the power distribution cabinet is arranged outside the aging area; the feeding area 1 and the discharging area 3 are provided with automatic lifting rolling doors, and door frames of the automatic lifting rolling doors are provided with sealing components; the aging room is provided with a high-temperature resistant camera which is arranged above the feeding area, the aging area, the discharging area and the backflow area; the feed side of feed zone 1 and the discharge side of discharge zone 3 are equipped with observation window 6, the both sides of ageing zone 2 are equipped with observation window 6.

The implementation case is as follows:

a program-controlled high-temperature aging room as shown in figures 3-5, which comprises a feeding area, an aging area, a discharging area and a backflow area, wherein a feeding device is arranged in the feeding area, 2 aging assembly lines are arranged in the aging area, a discharging device is arranged in the discharging area, the backflow area is arranged on one side of the aging area, 4 aging assembly line racks are arranged on the aging assembly line, the aging assembly line racks are arranged in parallel, tray rollers and conductive devices are arranged on the aging assembly line racks, the feeding device is arranged on a feeding slide way of the feeding area, the discharging device is arranged on a discharging slide way of the discharging area, a movable bracket is arranged on the feeding device and the discharging device, a tool moving shaft is arranged on the movable bracket, the movable bracket is arranged on a vertical moving groove, the feeding device is arranged on a feeding slide way of the feeding area, and the discharging device is arranged on a discharging slide way of the discharging area, the feeding device bears the ageing jig and enters the ageing running water layer frame, the ageing jig comprises a power supply device, a jig frame and a detection frame, the power supply device is fixed on the jig frame and the detection frame, the jig frame is fixedly connected with the detection frame, a plurality of product fixing frames are arranged on the detection frame, the product fixing frames are fixed on the detection frame through fixing seats, the power supply device comprises a power supply wheel, the power supply device is electrically connected with the conductive copper bars in a propping mode through the power supply wheel, the conductive device is a conductive copper bar, the conductive copper bar is arranged above the tray roller, the conductive copper bar comprises an anode conductive copper bar and a cathode conductive copper bar, the fixing position of the cathode conductive copper bar is below the fixing position level of the anode conductive copper bar, the anode conductive copper bar is arranged on the left side above the tray roller, the cathode conductive copper bar is arranged on the right side above the tray roller, anodal circular telegram seat offsets with anodal conductive copper bar, negative pole circular telegram seat offsets with negative pole conductive copper bar, for the test product power supply on the ageing smelting tool, the ageing smelting tool passes through the discharging device ejection of compact and flows back in the ageing region through ageing smelting tool backward flow roller bearing on the ejection of compact district.

In summary, after reading the present disclosure, those skilled in the art can make various other corresponding changes without creative mental labor according to the technical solutions and concepts of the present disclosure, and all of them are within the protection scope of the present disclosure.

Claims (10)

1. The utility model provides a programme-controlled high temperature ageing room, its characterized in that, includes feeding zone, ageing zone, ejection of compact district and backward flow district, be equipped with feed arrangement in the feeding zone, be equipped with a plurality of ageing assembly lines in the ageing zone, be equipped with discharging device in the ejection of compact district, ageing assembly line is used for shifting and connects ageing smelting tool, the feeding zone is used for the feeding of ageing smelting tool, the ejection of compact district is used for the ejection of compact of ageing smelting tool, the backward flow district is used for ageing smelting tool to flow back to feed arrangement and reentrant ageing zone after the ejection of compact district's ejection of compact.

2. The program-controlled high-temperature aging room according to claim 1, wherein a plurality of aging flow water layer frames are arranged on the aging flow line, and the aging flow water layer frames are parallel to each other.

3. The program-controlled high-temperature aging room of claim 2, wherein the aging flow water shelf is provided with a tray roller and a conductive device.

4. The programmed high temperature burn-in chamber of claim 3, wherein the burn-in jig is connected to the conductive device.

5. The program-controlled high-temperature aging room according to claim 1, wherein the feeding device and the discharging device are provided with moving brackets, and the moving brackets are arranged on the vertical moving grooves.

6. The program-controlled high-temperature aging room according to claim 1, wherein the feeding device is arranged on a feeding slide way of the feeding area, and the discharging device is arranged on a discharging slide way of the discharging area.

7. The programmed high-temperature aging room of claim 1, wherein the reflow zone is disposed at one side of the aging zone.

8. The program-controlled high-temperature aging room according to claim 7, wherein the reflow zone is provided with a reflow roller of the aging tool.

9. The program-controlled high-temperature burn-in room of claim 4, wherein the conducting device is connected to a power distribution cabinet, and the power distribution cabinet is arranged outside the burn-in area.

10. The program-controlled high-temperature aging room according to claim 1, wherein the feeding area and the discharging area are provided with automatic lifting rolling doors, and door frames of the automatic lifting rolling doors are provided with sealing components.

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