CN220251695U - Energy-saving walk-in test device - Google Patents

Abstract

The utility model relates to the technical field of walk-in test devices, in particular to an energy-saving walk-in test device which comprises a movable mounting frame, a test box body, a vacuum frame, a sealing door, a handle, visual glass, a reciprocating type in-box air circulation assembly, a control center, a sloping plate, a clamping block and a fixed clamping frame, wherein the bottom of the test box body is fixedly arranged at the top of the movable mounting frame, a placing groove is formed in the top of the movable mounting frame, the bottom of the vacuum frame is arranged in the placing groove, one side of the sealing door is rotatably arranged at the front side of the test box body, both ends of the handle are fixed on the sealing door, and mounting grooves are formed in both sides of the interior of the test box body.

Description

Energy-saving walk-in test device

Technical Field

The utility model particularly relates to an energy-saving walk-in type test device, and belongs to the technical field of walk-in type test devices.

Background

Generally, the walk-in test device is one of important detection devices in the product research and development and test stages, and is mainly used for detecting the tolerance of the product to the external environment and the performance of long-term exposure to the service life of the natural environment, so that the defects of the product are optimized, and the service environment and service life of the product are detected.

The publication number is: CN217654124U, an energy-saving walk-in test device, it includes high temperature level compressor, high temperature level compressor discharge end passes through the pipeline and connects evaporative condenser feed end, evaporative condenser discharge end passes through the pipeline and connects heat exchange coil feed end, heat exchange coil sets up in the high temperature secondary refrigerant case and submergence carries out the heat exchange in the secondary refrigerant, and heat exchange coil discharge end passes through the first solenoid valve feed end of pipeline connection, first solenoid valve discharge end passes through the first expansion valve feed end of pipeline connection.

The walk-in test device mentioned in the above-mentioned comparison document can adopt cascade operation or high-temperature level independent operation according to the requirement, so as to achieve the purpose of energy saving; meanwhile, part of condensation heat can be recovered and stored in the high-temperature secondary refrigerant box, heat energy is provided for defrosting of the test box, the energy-saving effect is further improved, but the omnibearing air circulation refrigeration can not be carried out in the test box, meanwhile, the heat preservation and noise reduction functions are not realized, and large parts are inconvenient to place and take out, so that the use is inconvenient.

Disclosure of Invention

The utility model aims to solve the problems and provide the energy-saving walk-in type test device which can carry out omnibearing air circulation refrigeration on the inside of a test box body, has the functions of heat preservation and noise reduction on the test box body, and is convenient for placing and taking out large parts.

The energy-saving walk-in test device comprises a movable mounting frame, a test box body, a vacuum frame, a sealing door, a handle, visible glass, a reciprocating type in-box air circulation assembly, a control center, a sloping plate, a clamping block and a fixed clamping frame, wherein the bottom of the test box body is fixedly arranged at the top of the movable mounting frame, a placing groove is formed in the top of the movable mounting frame, the bottom of the vacuum frame is arranged in the placing groove, one side of the sealing door is rotatably arranged at the front side of the test box body, both ends of the handle are fixed on the sealing door, the visible glass is fixedly arranged on the sealing door, mounting grooves are formed in both sides of the inside of the test box body, the reciprocating type in-box air circulation assembly is fixedly arranged in the mounting grooves, the control center is fixedly arranged at one side of the vacuum frame, the top of the fixed clamping frame is fixedly arranged at the bottom of the movable mounting frame, the clamping block is clamped in the fixed clamping frame, and the bottom of the sloping plate is fixedly arranged at the top of the clamping block.

Preferably, in order to carry out circulation refrigeration to the inside air of test box, reciprocating type incasement air cycle subassembly includes servo motor, threaded rod, slider, fixed block, slide bar, movable block, electronic balladeur train, gag lever post, electronic slider, cyclic mounting case, air-supply line, aspiration pump, refrigerator and play tuber pipe, servo motor fixed mounting is in inside one side of fixed slot, threaded rod one end is installed servo motor's output, fixed block one side is fixed the inside opposite side of mounting groove, the fixed block opposite side is rotated and is installed the threaded rod other end, slider slidable mounting is in on the threaded rod, the slider with threaded rod threaded connection, the slide bar both ends are all fixed another inside the mounting groove.

The moving block is arranged on the outer side of the sliding rod in a penetrating way, two sides of the electric sliding frame are respectively fixed on one side of the sliding block and one side of the moving block, two ends of the limiting rod are both fixed in the electric sliding frame, the electric sliding block is arranged on the outer side of the limiting rod in a penetrating way, the electric sliding block is arranged in the electric sliding frame in a sliding way, the top of the circulating installation box is fixed at the bottom of the electric sliding block, the refrigerator is installed inside the circulating installation box, one side of the air suction pump is installed on one side wall of the refrigerator, one end of the air inlet pipe is installed on the other side of the air suction pump, and one end of the air outlet pipe is installed on the other side wall of the refrigerator in a penetrating mode.

The utility model has the technical effects and advantages that: according to the utility model, through the reciprocating type air circulation assembly in the box, the inside of the test box can be subjected to omnibearing air circulation refrigeration, so that the energy consumption is reduced, the energy saving effect is better, and meanwhile, the vacuum rack has the functions of heat insulation and noise reduction on the test box, so that the walk-in test effect is better, and the large part is conveniently placed and taken out, so that the use is more convenient.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic bottom view of the overall structure of the present utility model;

FIG. 3 is a schematic view of a portion of the structure of the present utility model;

fig. 4 is a schematic cross-sectional view of the air circulation assembly in the reciprocating box of the present utility model.

In the figure: 1. moving the mounting frame; 2. a test box; 3. a vacuum rack; 4. sealing the door; 5. a handle; 6. visual glass; 7. a reciprocating in-box air circulation assembly; 701. a servo motor; 702. a threaded rod; 703. a slide block; 704. a fixed block; 705. a slide bar; 706. a moving block; 707. an electric carriage; 708. a limit rod; 709. an electric slide block; 710. a cyclic mounting box; 711. an air inlet pipe; 712. an air extracting pump; 713. a refrigerator; 714. an air outlet pipe; 8. a control center; 9. a sloping plate; 10. a clamping block; 11. and fixing the clamping frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an energy-saving walk-in test device comprises a mobile mounting frame 1, a test box body 2, a vacuum frame 3, a sealing door 4, a handle 5, visual glass 6, a reciprocating type intra-box air circulation assembly 7, a control center 8, a sloping plate 9, a clamping block 10 and a fixed clamping frame 11, wherein the bottom of the test box body 2 is fixedly mounted at the top of the mobile mounting frame 1, a placing groove is formed in the top of the mobile mounting frame 1, the placing groove is used for placing the vacuum frame 3, the bottom of the vacuum frame 3 is mounted in the placing groove, the vacuum frame 3 has the effects of heat insulation and noise reduction on the test box body 2, one side of the sealing door 4 is rotatably mounted on the front side of the test box body 2, both ends of the handle 5 are fixed on the sealing door 4, visual glass 6 is fixedly mounted on the sealing door 4, two sides of the inside of the test box body 2 are provided with mounting grooves, the reciprocating type intra-box air circulation assembly 7 is fixedly mounted in the mounting grooves, the control center 8 is fixedly mounted on one side of the vacuum frame 3, the control center 8 has the control effect on the inside the test box body 2, the fixed clamping block 11 is fixedly mounted at the bottom of the mobile mounting frame 1, the clamping block 10 is fixedly mounted on the bottom of the clamping block 10, the clamping block 10 is fixedly mounted on the bottom of the mobile mounting frame 10, and the sloping plate is fixedly mounted on the bottom of the inside the clamping frame 10, and is convenient to fix the top.

When the test box is actually used, the clamping block 10 fixed at the bottom of the inclined plate 9 is clamped in the fixed clamping frame 11 by manpower, the handle 5 is moved to drive the sealing door 4 to rotate, so that large parts can be conveniently moved into the test box 2 for testing, the use is more convenient, the manpower is saved, the sealing door 4 is reversely rotated by manpower again, the test box 2 can be ensured to be in a sealed state, the tests such as low temperature, high-low temperature change and high-low temperature alternation are conveniently carried out, the inside of the test box 2 can be observed by utilizing the visual glass 6, the inside of the test box 2 can be controlled by the control center 8, the inside of the test box 2 can be subjected to omnibearing air circulation refrigeration by utilizing the reciprocating type in-box air circulation assembly 7, and the vacuum frame 3 not only can have a heat preservation effect on the test box 2, so that the test device is more energy-saving.

The reciprocating type in-box air circulation assembly 7 comprises a servo motor 701, a threaded rod 702, a sliding block 703, a fixed block 704, a sliding rod 705, a moving block 706, an electric sliding frame 707, a limiting rod 708, an electric sliding block 709, a circulating installation box 710, an air inlet pipe 711, an air pump 712, a refrigerator 713 and an air outlet pipe 714, wherein the servo motor 701 is fixedly installed on one side in a fixed groove, one end of the threaded rod 702 is installed at the output end of the servo motor 701, one side of the fixed block 704 is fixed on the other side in the installation groove, the other side of the fixed block 704 is rotatably installed on the other end of the threaded rod 702, the fixed block 704 is used for fixing the threaded rod 702, the sliding block 703 is slidably installed on the threaded rod 702, the sliding block 703 is in threaded connection with the threaded rod 702, two ends of the sliding rod 705 are both ends of the sliding rod 705 are fixed in the other installation groove, and the sliding rod 705 has a limiting effect on the moving block 706.

The movable block 706 is installed outside the slide bar 705 in a penetrating way, two sides of the electric sliding frame 707 are respectively fixed on one side of the sliding block 703 and one side of the movable block 706, two ends of the limiting rod 708 are both fixed inside the electric sliding frame 707, the limiting rod 708 has a limiting function on the electric sliding frame 709, the electric sliding frame 709 is installed outside the limiting rod 708 in a penetrating way, the electric sliding frame 709 is installed inside the electric sliding frame 707 in a sliding way, the top of the circulating installation box 710 is fixed at the bottom of the electric sliding frame 709, the circulating installation box 710 can move in the test box 2 in an omnibearing way, the refrigerator 713 is installed inside the circulating installation box 710 and can refrigerate air, one side of the air pump 712 is installed on one side wall of the refrigerator 713, the air circulation speed is accelerated, one end of the air inlet pipe 711 is installed on the other side of the air pump 712, and one end of the air outlet pipe 714 is installed on the other side wall of the refrigerator 713 in a penetrating way.

When the multifunctional test box is used, the servo motor 701 works to drive the threaded rod 702 to rotate, the top and the bottom of the sliding block 703 are respectively contacted with the upper wall and the lower wall in the installation groove, the installation groove has a limiting effect on the sliding block 703, so that the sliding block 703 can slide on the threaded rod 702 instead of rotating, the electric sliding frame 707 can be driven to move back and forth, the other side of the electric sliding frame 707 is fixed on one side of the moving block 706, the moving block 706 can slide on the sliding rod 705, the moving process of the electric sliding frame 707 is more stable, the stability of the electric sliding frame 707 is improved, meanwhile, the electric sliding block 709 can slide in the electric sliding frame 707, the position of the circulating installation box 710 can be adjusted in all directions, and the air pump 712 can move air in the test box 2 into the refrigerator 713 through the air inlet pipe 711 and then flow into the test box 2 again through the air outlet pipe 714, so that the function of circulating and refrigerating of the air in the test box 2 is realized.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The utility model provides an energy-saving walk-in test device, includes mobile mounting frame (1), test box (2), vacuum frame (3), sealing door (4), handle (5), visual glass (6), reciprocating motion incasement air cycle subassembly (7), control center (8), swash plate (9), fixture block (10) and fixed card frame (11), its characterized in that: test box (2) bottom fixed mounting is in mobile mounting frame (1) top, the standing groove has been seted up at mobile mounting frame (1) top, vacuum frame (3) bottom is installed inside the standing groove, sealing door (4) one side is rotated and is installed test box (2) front side, handle (5) both ends are all fixed on sealing door (4), visual glass (6) fixed mounting is in on sealing door (4), test box (2) inside both sides are provided with the mounting groove, reciprocating type incasement air cycle subassembly (7) fixed mounting is in inside the mounting groove.

2. An energy efficient walk-in test apparatus as claimed in claim 1, wherein: the control center (8) is fixedly arranged on one side of the vacuum frame (3), the top of the fixed clamping frame (11) is fixed at the bottom of the movable mounting frame (1), the clamping block (10) is clamped inside the fixed clamping frame (11), and the bottom of the inclined plate (9) is fixed at the top of the clamping block (10).

3. An energy efficient walk-in test apparatus as claimed in claim 1, wherein: the reciprocating type in-box air circulation assembly (7) comprises a servo motor (701), a threaded rod (702), a sliding block (703), a fixed block (704), a sliding rod (705), a moving block (706), an electric sliding frame (707), a limiting rod (708), an electric sliding block (709), a circulation mounting box (710), an air inlet pipe (711), an air pump (712), a refrigerator (713) and an air outlet pipe (714), and the servo motor (701) is fixedly mounted on one side of the inside of the mounting groove.

4. An energy efficient walk-in test apparatus as claimed in claim 3, wherein: one end of the threaded rod (702) is installed at the output end of the servo motor (701), one side of the fixed block (704) is fixed at the other side of the inside of the installation groove, and the other side of the fixed block (704) is rotatably installed at the other end of the threaded rod (702).

5. The energy-efficient walk-in test apparatus according to claim 4, wherein: the sliding block (703) is slidably mounted on the threaded rod (702), the sliding block (703) is in threaded connection with the threaded rod (702), and two ends of the sliding rod (705) are fixed in the other mounting groove.

6. The energy-efficient walk-in test apparatus according to claim 5, wherein: the moving block (706) is arranged on the outer side of the sliding rod (705) in a penetrating mode, two sides of the electric sliding frame (707) are respectively fixed on one side of the sliding block (703) and one side of the moving block (706), and two ends of the limiting rod (708) are fixed inside the electric sliding frame (707).

7. The energy-efficient walk-in test apparatus according to claim 6, wherein: the electric sliding block (709) is arranged on the outer side of the limiting rod (708) in a penetrating mode, the electric sliding block (709) is slidably arranged inside the electric sliding block (707), and the top of the circular mounting box (710) is fixed to the bottom of the electric sliding block (709).

8. An energy efficient walk-in test apparatus as claimed in claim 3, wherein: the refrigerator (713) is arranged inside the circulating installation box (710), one side of the air suction pump (712) is arranged on one side wall of the refrigerator (713), one end of the air inlet pipe (711) is arranged on the other side of the air suction pump (712), and one end of the air outlet pipe (714) is arranged on the other side wall of the refrigerator (713) in a penetrating mode.