CN219799710U - UPS power supply testing device - Google Patents

Abstract

The utility model discloses a UPS power supply testing device which comprises a supporting vertical plate and a power supply testing machine body, wherein the supporting vertical plate is fixedly arranged at the rear side of the upper end of the power supply testing machine body, a lifting jig table is arranged in the middle of the upper end of the power supply testing machine body, a power supply limiting frame is arranged at the upper end of the lifting jig table, a UPS power supply body is arranged at the inner side of the power supply limiting frame, an electric downshifter is arranged at the inner side of the upper end of the supporting vertical plate, downshifting limiters are arranged at the two ends of the electric downshifter, rolling compaction panels are arranged at the lower ends of the downshifting limiters and the electric downshifter, a testing probe is arranged at the lower end of the rolling compaction panel, and the power supply testing machine body is electrically connected with an external power supply. The UPS power supply testing device disclosed by the utility model has the technical effects of automatically lifting and testing, thereby effectively improving the safety of personnel testing.

Description

UPS power supply testing device

Technical Field

The utility model relates to the field of UPS power supply testing, in particular to a UPS power supply testing device.

Background

UPS power sources are widely used in industry, communication, data storage devices, control devices and emergency protection systems thereof, and quality, performance and stability of the UPS power source are critical to products, and performance detection is required after the UPS power source is manufactured, so that a UPS power source test device is required.

In the prior art CN207601285U, during the downward movement test, a manual mode is adopted to perform the downward movement test, so that when the dangerous condition occurs in the test, the personnel cannot react and leave in time, and the problem of safety is not very high during the test.

Disclosure of Invention

The utility model discloses a UPS power supply testing device, which aims to solve the technical problems that when the existing UPS power supply testing device is used for downward movement testing, the downward movement testing is carried out in a manual mode, so that personnel cannot timely react and leave when dangerous conditions occur in the testing, and the testing is not very safe.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a UPS power testing arrangement, includes support riser and power testing organism, the support riser installation is fixed on the upper end rear side position of power testing organism, be provided with the lift tool platform in the middle of the upper end of power testing organism, the upper end of lift tool platform is provided with the spacing frame of power, the inboard of the spacing frame of power is provided with the UPS power body, the upper end inboard of support riser is provided with electronic downshift ware, electronic downshift ware's both ends are provided with downshift limiter, downshift limiter and electronic downshift ware's lower extreme is provided with the roll and compresses tightly the panel, the lower extreme that the roll compresses tightly the panel is provided with test probe, power testing organism and external power source electric connection.

Through being provided with the spacing frame structure of power to UPS power supply body can fix a position and place in the spacing frame of power, thereby make UPS power supply body's power source interface be located the roll and compress tightly the panel lower extreme test probe under, electronic ware is moving down like this when the extension, thereby drive the roll and compress tightly the panel and move down, then roll and compress tightly the panel and drive test probe and insert to UPS power supply body's power source interface in, test probe passes through connecting wire and power test organism electric connection, thereby test element in the power test organism is passed through, the test of being convenient for is used like this, roll and support the riser and roll in moving down, and because of moving down the spacing of stopper, thereby roll and compress tightly the panel and more stable when moving down, roll and compress tightly the panel and pass through electronic ware and can go up and down automatically, need not personnel manual operation test like this, meet danger and can in time leave, personnel's test safety has been improved greatly.

In a preferred scheme, move down the stopper and include location round bar, welding bottom block, spacing orifice plate and anticreep baffle ring, the through-hole department of spacing orifice plate is provided with the location round bar, the upper end of location round bar is provided with the anticreep baffle ring, the lower extreme of location round bar is provided with the welding bottom block, the welding bottom block is connected on rolling compaction panel, spacing orifice plate is connected on electronic downshift ware.

Through being provided with the stopper structure that moves down to be convenient for spacing removal.

In a preferred scheme, electronic ware that moves down includes installation disc, protrusion panel, welding end piece and electric telescopic cylinder, the outer end of welding end piece is provided with the protrusion panel, the inboard of protrusion panel is provided with electric telescopic cylinder, the piston rod lower extreme of electric telescopic cylinder is provided with the installation disc, the installation disc is connected on the roll compacting panel, the welding end piece is connected on supporting the riser.

Through being provided with electronic ware structure that moves down to can automatic test use.

In a preferred scheme, the lifting jig table comprises a jig table surface and a lifting cylinder, wherein the jig table surface is arranged at the upper end of a piston rod of the lifting cylinder, and the jig table surface is movably sleeved on the power supply testing machine body through the lifting cylinder.

Through being provided with lifting jig platform structure to be convenient for change high position and test.

In a preferred scheme, the rolling compaction panel comprises a rear end panel, rolling balls and a compaction plate shell, wherein the rear end panel is arranged at the inner end of the compaction plate shell, the rolling balls are arranged at the inner through holes of the rear end panel, the rear end panel is in rolling contact with the supporting vertical plate through the rolling balls, and the compaction plate shell is connected to the electric downward shifter.

By the aid of the rolling compaction panel structure, rolling lifting is facilitated.

In a preferred scheme, the two downward movement limiters are arranged in total, and the downward movement limiters are symmetrically arranged at two ends of the electric downward movement device.

Through being provided with electronic ware structure that moves down to move down the stopper and be convenient for install and place the use.

In a preferred embodiment, the support riser and the power test block are connected by welding, and the outer sides of the support riser and the power test block are aligned.

Through being provided with power test organism structure to support the riser and be convenient for stably place the use.

From the above, a UPS power supply testing device, including supporting riser and power supply test organism, it fixes on the upper end rear side position of power supply test organism to support the riser installation, be provided with the lift tool platform in the middle of the upper end of power supply test organism, the upper end of lift tool platform is provided with the spacing frame of power, the inboard of the spacing frame of power supply is provided with the UPS power supply body, the upper end inboard of supporting the riser is provided with electronic downshift ware, electronic downshift ware's both ends are provided with downshift limiter, the lower extreme of downshift limiter and electronic downshift ware is provided with the roll and compresses tightly the panel, the lower extreme of roll and compressing tightly the panel is provided with test probe, power supply test organism and external power source electric connection. The UPS power supply testing device provided by the utility model has the technical effects of automatically lifting and testing, thereby effectively improving the safety of personnel testing.

Drawings

Fig. 1 is a schematic perspective view of a UPS power source testing apparatus according to the present utility model.

Fig. 2 is a schematic diagram of a down-shift limiter of a UPS power supply testing apparatus according to the present utility model.

Fig. 3 is a schematic diagram of an electric down shifter of a UPS power testing apparatus according to the present utility model.

Fig. 4 is a schematic diagram of a lifting fixture table of a UPS power source testing apparatus according to the present utility model.

Fig. 5 is a schematic diagram of a rolling compaction panel of a UPS power testing apparatus according to the present utility model.

In the accompanying drawings: 1. a downward movement limiter; 11. positioning a round rod; 12. welding a bottom block; 13. limiting through hole plates; 14. an anti-falling baffle ring; 2. an electric downshifting device; 21. a disk is installed; 22. a protruding panel; 23. welding the end block; 24. an electric telescopic cylinder; 3. rolling and compacting the panel; 31. a rear end panel; 32. rolling the ball; 33. a compacting plate housing; 4. supporting a vertical plate; 5. a test probe; 6. a power supply test body; 7. lifting the jig table; 71. a jig table top; 72. lifting the lifting cylinder; 8. a power supply limit frame; 9. and a UPS power supply body.

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.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify 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 utility model.

Referring to fig. 1 to 5, a UPS power supply testing apparatus includes a supporting riser 4 and a power supply testing machine body 6, the supporting riser 4 is installed and fixed at a rear side position of an upper end of the power supply testing machine body 6, a lifting jig table 7 is provided in the middle of an upper end of the power supply testing machine body 6, a power supply limit frame 8 is provided at an upper end of the lifting jig table 7, a UPS power supply body 9 is provided at an inner side of the power supply limit frame 8, an electric downer 2 is provided at an inner side of an upper end of the supporting riser 4, downer limiters 1 are provided at both ends of the electric downer 2, a rolling compaction panel 3 is provided at lower ends of the downer limiters 1 and the electric downer 2, a test probe 5 is provided at a lower end of the rolling compaction panel 3, the power supply testing machine body 6 is electrically connected with an external power supply, and when in use, a person places the UPS power supply body 9 in the power supply limit frame 8, therefore, the power interface of the UPS power supply body 9 is located under the test probe 5 at the lower end of the rolling compaction panel 3, the electric downshifter 2 drives the rolling compaction panel 3 to move downwards when being extended, then the rolling compaction panel 3 drives the test probe 5 to be inserted into the power interface of the UPS power supply body 9, the test probe 5 is electrically connected with the power test machine body 6 through a connecting wire, thus the test element in the power test machine body 6 is convenient to test and use, the rolling compaction panel 3 rolls with the supporting vertical plate 4 in the downward movement, and the rolling compaction panel 3 is more stable when being moved downwards due to the limit of the downshifting limiter 1, the rolling compaction panel 3 can automatically lift through the electric downshifter 2, thus people are not required to manually operate the test, danger is met, the test safety of the people is greatly improved.

Referring to fig. 1 and 2, in a preferred embodiment, the downward movement limiter 1 includes a positioning round bar 11, a welding bottom block 12, a limiting through hole plate 13 and an anti-falling baffle ring 14, the positioning round bar 11 is disposed at a through hole of the limiting through hole plate 13, the anti-falling baffle ring 14 is disposed at an upper end of the positioning round bar 11, the welding bottom block 12 is disposed at a lower end of the positioning round bar 11, the welding bottom block 12 is connected to the rolling compaction panel 3, the limiting through hole plate 13 is connected to the electric downward movement device 2, the limiting through hole plate 13 of the downward movement limiter 1 is welded to the electric downward movement device 2, so that the limiting through hole plate 13 is stably placed, the limiting through hole plate 13 is conveniently and limitedly placed due to the inner through hole, the positioning round bar 11 is conveniently placed, the lower end of the positioning round bar 11 is connected to the rolling compaction panel 3 through the welding bottom block 12, so that the rolling compaction panel 3 is conveniently and stably moved due to the positioning round bar 11 is located in the through hole of the limiting through hole plate 13, and the anti-falling off of the positioning round bar 11 due to the anti-falling baffle ring 14 at the upper end is avoided.

Referring to fig. 1 and 3, in a preferred embodiment, the electric downshifter 2 includes a mounting disc 21, a protruding panel 22, a welding end block 23 and an electric telescopic cylinder 24, the outer end of the welding end block 23 is provided with the protruding panel 22, the inner side of the protruding panel 22 is provided with the electric telescopic cylinder 24, the lower end of a piston rod of the electric telescopic cylinder 24 is provided with the mounting disc 21, the mounting disc 21 is connected to the rolling compaction panel 3, the welding end block 23 is connected to the supporting riser 4, the welding end block 23 of the electric downshifter 2 is welded to the supporting riser 4, so that the welding end block 23 is convenient to mount and fix, the protruding panel 22 at the outer end of the welding end block 23 is convenient to be stably placed, the protruding panel 22 is convenient to mount the disc 21 due to the electric telescopic cylinder 24 at the inner side, so that the lower end of the electric telescopic cylinder 24 effectively changes the position of the electric telescopic cylinder 24 when the electric telescopic cylinder is telescopic, and the mounting disc 21 is connected to the rolling compaction panel 3, so that the rolling compaction panel 3 is convenient to lift and change the tested position.

Referring to fig. 1 and 4, in a preferred embodiment, the lifting jig table 7 includes a jig table surface 71 and a lifting cylinder 72, the upper end of a piston rod of the lifting cylinder 72 is provided with the jig table surface 71, the jig table surface 71 is movably sleeved on the power test body 6 through the lifting cylinder 72, and the jig table surface 71 of the lifting jig table 7 is movably sleeved on the power test body 6 through the lifting cylinder 72, so that the position of the jig table surface 71 is effectively changed when the lifting cylinder 72 is lifted, and thus the test height position is conveniently changed.

Referring to fig. 1 and 5, in a preferred embodiment, the rolling compaction panel 3 includes a rear end panel 31, rolling balls 32 and a compaction plate housing 33, the rear end panel 31 is provided at an inner end of the compaction plate housing 33, the rolling balls 32 are provided at an inner through hole of the rear end panel 31, the rear end panel 31 is in rolling contact with the supporting riser 4 through the rolling balls 32, the compaction plate housing 33 is connected to the electric downshifter 2, the compaction plate housing 33 of the rolling compaction panel 3 is connected to the electric downshifter 2, so that the test height of the compaction plate housing 33 is effectively changed when the electric downshifter 2 is extended and retracted, and the compaction plate housing 33 is more stable when the compaction plate housing 33 is lifted due to the rolling contact of the rolling balls 32 on the rear end panel 31 with the supporting riser 4.

Referring to fig. 1, in a preferred embodiment, there are two down limiters 1 in total, and the down limiters 1 are symmetrically disposed on both ends of the electric down shifter 2, so that the down limiters 1 facilitate the limitation on the outer sides of both ends of the electric down shifter 2.

Referring to fig. 1, in a preferred embodiment, the support riser 4 and the power test block 6 are connected by welding, and the outer sides of the support riser 4 and the power test block 6 are aligned to facilitate installation and securement, while the outer sides are aligned so that no obstruction occurs during use.

Working principle: when the UPS power supply is used, a person places the UPS power supply body 9 in the power supply limiting frame 8, so that the power supply interface of the UPS power supply body 9 is positioned under the test probe 5 at the lower end of the rolling compaction panel 3, the rolling compaction panel 3 is driven to move downwards when the electric downer 2 is extended, then the rolling compaction panel 3 drives the test probe 5 to be inserted into the power supply interface of the UPS power supply body 9, the test probe 5 is electrically connected with the power supply test machine body 6 through a connecting wire, thereby the test element in the power supply test machine body 6 is convenient to test, the rolling compaction panel 3 rolls with the supporting vertical plate 4 in the downwards moving process, the rolling compaction panel 3 is more stable when the rolling compaction panel 3 moves downwards due to the limiting of the downwards moving limiter 1, the rolling compaction panel 3 can automatically lift through the electric downer 2, the situation that the person is not needed to manually operate the test, the person can timely leave the test probe, and the test safety of the person is greatly improved.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (7)

1. The utility model provides a UPS power testing arrangement, includes support riser (4) and power testing organism (6), its characterized in that, support riser (4) installation and fix on the upper end rear side position of power testing organism (6), be provided with lift tool platform (7) in the middle of the upper end of power testing organism (6), the upper end of lift tool platform (7) is provided with power limiting frame (8), the inboard of power limiting frame (8) is provided with UPS power body (9), the upper end inboard of support riser (4) is provided with electronic downshift ware (2), the both ends of electronic downshift ware (2) are provided with downshift stopper (1), the lower extreme of downshift stopper (1) and electronic downshift ware (2) is provided with rolling compaction panel (3), the lower extreme of rolling compaction panel (3) is provided with test probe (5), power testing organism (6) and external power source electric connection.

2. The UPS power supply testing apparatus according to claim 1, wherein the downward movement limiter (1) includes a positioning round rod (11), a welding bottom block (12), a limiting through hole plate (13) and an anti-falling baffle ring (14), the positioning round rod (11) is disposed at a through hole of the limiting through hole plate (13), the anti-falling baffle ring (14) is disposed at an upper end of the positioning round rod (11), the welding bottom block (12) is disposed at a lower end of the positioning round rod (11), the welding bottom block (12) is connected to the rolling compaction panel (3), and the limiting through hole plate (13) is connected to the electric downward movement device (2).

3. A UPS power supply testing apparatus according to claim 1, characterized in that the electric downshifter (2) comprises a mounting disc (21), a protruding panel (22), a welding end block (23) and an electric telescopic cylinder (24), the outer end of the welding end block (23) is provided with the protruding panel (22), the inner side of the protruding panel (22) is provided with the electric telescopic cylinder (24), the lower end of the piston rod of the electric telescopic cylinder (24) is provided with the mounting disc (21), the mounting disc (21) is connected to the rolling compaction panel (3), and the welding end block (23) is connected to the supporting riser (4).

4. The UPS power source testing device according to claim 1, wherein the lifting jig table (7) comprises a jig table top (71) and a lifting cylinder (72), the upper end of a piston rod of the lifting cylinder (72) is provided with the jig table top (71), and the jig table top (71) is movably sleeved on the power source testing machine body (6) through the lifting cylinder (72).

5. A UPS power supply testing apparatus according to claim 1, wherein the rolling compaction panel (3) comprises a rear end panel (31), rolling balls (32) and a compaction plate housing (33), the rear end panel (31) is provided at the inner end of the compaction plate housing (33), the rolling balls (32) are provided at the inner through holes of the rear end panel (31), the rear end panel (31) is in rolling contact with the supporting riser (4) through the rolling balls (32), and the compaction plate housing (33) is connected to the electric downshifter (2).

6. A UPS power supply testing apparatus according to claim 1, wherein there are two down limiters (1) in total, and the down limiters (1) are symmetrically disposed on both ends of the electric down limiter (2).

7. A UPS power testing apparatus according to claim 1, wherein the support riser (4) and the power testing body (6) are connected by welding, and the outer sides of the support riser (4) and the power testing body (6) are aligned.