CN213632597U - Vibration tool - Google Patents

Abstract

The utility model provides a vibration tool, which comprises a base, a side pressure plate and a slide rail, wherein the slide rail is arranged on the base, and the side pressure plate is arranged with the slide rail; the side pressing plate comprises a side pressing plate base and a buckling plate, and the buckling plate is buckled with the side pressing plate base; the buckle plate is provided with a plurality of convex edges, the surfaces of the convex edges are coated with 3M double-sided adhesive tapes, and the convex edges are bonded with the high-strength rubber pad through the 3M double-sided adhesive tapes; the pulling aid or the fixing screw of the front panel of the heat conduction box is avoided, the heat conduction box is prevented from sliding or shaking relative to the test tool in the test process, and unnecessary damage and damage to the shell, the panel, the pulling aid and the like of the heat conduction box are avoided.

Description

Vibration tool

Technical Field

The utility model relates to a computer vibration frock field especially relates to a vibration frock.

Background

The test tool is a clamping tool applied to various product environments (such as acceleration, vibration, impact and other tests) and stress screening tests, and the reasonability of tool design is related to the working efficiency and the test safety. In the environment and stress screening test process of the metal shell heat conduction box meeting the CPCI and ANSI/VITA standard structure design specifications, except that the heat conduction box with the locking strip can be used for fixing the heat conduction box and the test tool case through the extrusion of the locking strip and the tool, the rest heat conduction boxes without the locking strip are in the test process, the installation is inconvenient, the complex steps lead to low efficiency or lead to unnecessary damage and damage to products in the test process due to the fact that the heat conduction box, the tool and the like cannot be effectively fixed, and the problem is particularly prominent when a plurality of heat conduction boxes are required to be simultaneously tested at one time. Most of tools in the existing market have the defects of expensive manufacturing cost, low compatibility of different modules, low repeated usability and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the not enough of above-mentioned prior art, provide a vibration frock, can be effectual fixed, avoid unnecessary damage, destruction.

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

the utility model provides a vibration tool, which comprises a base, a side pressure plate and a slide rail, wherein the slide rail is arranged on the base, and the side pressure plate is arranged with the slide rail;

the side pressing plate comprises a side pressing plate base and a buckling plate, and the buckling plate is buckled with the side pressing plate base; the buckle plate is provided with a plurality of ribs, the surfaces of the ribs are coated with 3M double-faced adhesive tapes, and the ribs are bonded with the high-strength rubber pad through the 3M double-faced adhesive tapes.

Furthermore, a plurality of square through grooves are formed in the side pressure plate base, and a module heat conduction box guide rail is formed between adjacent square through grooves in the vertical direction.

Further, the module heat conduction box guide rails are placed on the inner sides of the two walls of the side pressing plate base.

Furthermore, the plurality of convex edges and the plurality of square through grooves are spliced one by one.

Further, a top cover plate is installed on the side pressing plate base, and the top cover plate and the side pressing plate base are installed through screws.

Furthermore, the side pressing plates comprise a first side pressing plate and a second side pressing plate, the first side pressing plate and the second side pressing plate are arranged at intervals, and the interval distance can be adjusted.

Further, the slide rail comprises a first slide rail, a second slide rail and a third slide rail which are arranged at intervals; the first side pressure plate is mounted with the first slide rail or the second slide rail through a screw; and the second side pressing plate is installed with the third sliding rail through a screw.

The utility model has the advantages that: the pulling aid or the fixing screw of the front panel of the 3U/6U module heat conduction box is avoided, the module heat conduction box does not slide or shake relative to the test tool in the test process, and unnecessary damage and damage to a shell, the panel, the pulling aid and the like of the module heat conduction box are avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of a vibration tool of the present invention;

fig. 2 is one of the schematic diagrams of the explosion structure of the vibration tool of the present invention;

fig. 3 is a schematic perspective view of a vibration tool of the present invention;

FIG. 4 is a schematic view of the buckle plate;

FIG. 5 is a schematic view of the structure of the side platen base;

fig. 6 is a second schematic view of an explosion structure of a vibration tool according to the present invention;

fig. 7 is one of the schematic views of the installation structure of the vibration tool of the present invention;

fig. 8 is a second schematic structural view of a vibration tool according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 6, a vibration tool includes a base 1, a side platen 2 and a slide rail 3, wherein the slide rail 3 is mounted on the base 1, and the side platen 2 and the slide rail 3 are mounted together;

the side pressing plate 2 comprises a side pressing plate base 201 and a buckling plate 202, and the buckling plate 202 is buckled with the side pressing plate base 201; the buckle plate 202 is provided with a plurality of ribs 203, the surfaces of the ribs 203 are pasted with 3M double-sided adhesive tapes 204, and the ribs 203 are adhered with a high-strength rubber pad 205 through the 3M double-sided adhesive tapes 204.

A plurality of square through grooves 206 are formed in the side platen base 201, and heat transfer box guide rails 207 are formed between the adjacent square through grooves 206 in the vertical direction. The module heat conduction box guide rail 207 can be inserted into the heat conduction box, and the buckle plate 202 can effectively prevent relative shaking generated by the tool.

The heat conductive box guide 207 is provided inside both walls of the side platen base 201.

The rib 203 is inserted into the square through groove 206.

The side platen base 201 is provided with a top cover plate 208, and the top cover plate 208 and the side platen base 201 are installed through screws.

The side press plate 2 comprises a first side press plate 211 and a second side press plate 212, and the first side press plate 211 and the second side press plate 212 are arranged at intervals.

The slide rail 3 comprises a first slide rail 311, a second slide rail 312 and a third slide rail 313 which are arranged at intervals; the first side pressing plate 211 is mounted with the first slide rail 311 or the second slide rail 312 through screws; the second side press plate 212 is mounted to the third slide rail 313 by screws.

The first embodiment is as follows:

as shown in fig. 7, a vibration tool includes a base 1, a first slide rail 311, a second slide rail 312 and a third slide rail 313 are installed on the base 1, wherein a first side pressing plate 211 is installed on the first slide rail 311, a second side pressing plate 212 is installed on the third slide rail 313, the first side pressing plate 211 and the second side pressing plate 212 have the same structure, and both include a base 201, a plurality of square through grooves 206 are provided on the base 201, the square through grooves 206 are arranged at intervals, the square through grooves 206 are divided into two rows, the number of the square through grooves 206 provided in each row is the same, and the two rows of the square through grooves 206 are symmetrically arranged.

The buckling plates 202 are buckled on the first side pressing plate 211 and the second side pressing plate 212, and the distribution of the convex ribs 203 arranged on the buckling plates 202 is the same as that of the square through grooves 206. The rib 203 is adhered with a 3M double-sided adhesive tape 204, and the 3M double-sided adhesive tape 204 is adhered with a rubber pad 205. The bonded rib 203 snaps into the square channel 206. The heat conductive box can be inserted into the heat conductive box guide 207. Wherein, the distance between the first side pressing plate 211 and the second side pressing plate 212 is 233.5 mm.

Example two

As shown in fig. 8, a vibration tool includes a base 1, a first slide rail 311, a second slide rail 312, and a third slide rail 313 are installed on the base 1, wherein a first side pressing plate 211 is installed on the second slide rail 312, a second side pressing plate 212 is installed on the third slide rail 313, the structures of the first side pressing plate 211 and the second side pressing plate 212 are the same, and an interval between the second slide rail 312 and the third slide rail 313 is 100 mm.

The heat conduction boxes are arranged through the test tool sliding groove array, and the number of the heat conduction boxes can be determined according to actual needs. The heat conduction box moves in the heat conduction box guide rail 207, and the heat conduction box guide rail 207 plays a limiting role, so that the installation is convenient and fast.

Only the first side pressing plate 211 and the second side pressing plate 212 need to be disassembled, and the two structural members can simultaneously realize the disassembly and the assembly of a single or a plurality of heat conduction boxes, so that the convenience and the high efficiency of the installation are realized.

After the heat conducting box is placed on the tool body by the first slide rail 311, the second slide rail 312 and the third slide rail 313, the first side pressing plate 211 and the second side pressing plate 212 are respectively locked from two sides. The heat conduction box is firmly pressed and fixed by the high-strength rubber pad 205, so that the heat conduction box of the module does not slide or shake relative to the test tool in the test process.

The holes on the base of the test tool can be selected according to the type of the actual test bed and the hole pitch, and 4 screws are selected to penetrate through the phi 10.5mm through holes to connect and fix the test tool and the test bed, so that the test tool and the test bed body can be quickly disassembled and assembled.

The base adopts the design of adjustable interval, makes first side clamp 211 and second side clamp 212 interval optional 100mm and 233.5mm, through adjusting the side clamp interval, and a frock can satisfy the clamping of 3U module and 6U module.

The heat conduction boxes are arranged in a sliding groove array in the vertical direction of the test tool, the number of the heat conduction boxes can be determined according to actual needs, and the single or multiple heat conduction boxes can be assembled and disassembled at the same time only by disassembling the two structural members, namely the first side pressing plate and the second side pressing plate, so that the convenience and high efficiency in installation are realized; the left pressing plate, the right pressing plate and the heat conduction box are pasted with high-strength rubber pads, soft contact connection between the heat conduction box and the tool is realized, the heat conduction box is firmly fixed on the test tool through compression of the high-strength rubber pad buffer cushion, and surface damage (scratches, pressure damages and the like) caused by direct contact between the first pressing plate, the second pressing plate and the heat conduction box is prevented; the frock metalwork adopts the screw concatenation to form, and every part all can be dismantled, and high strength rubber pad blotter passes through the two-sided sticky subsides of ultra-thin 3M at side pressure board convex part, but dirty or damaged back direct use new rubber pad blotter replace appears in the rubber pad blotter, makes the frock can use for a long time. The base adopts the design of adjustable interval, makes two side pressure boards interval optional 100mm and 233.5mm, realizes the side pressure board interval change through adjusting the guide rail, and a frock can satisfy the clamping of 3U module and 6U module.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. The utility model provides a vibration frock which characterized in that: the device comprises a base (1), side pressing plates (2) and sliding rails (3), wherein the sliding rails (3) are arranged on the base (1), and the side pressing plates (2) and the sliding rails (3) are arranged mutually;

the side pressing plate (2) comprises a side pressing plate base (201) and a buckling plate (202), and the buckling plate (202) is buckled with the side pressing plate base (201); the buckle plate (202) is provided with a plurality of ribs (203), the surface of each rib (203) is covered with a 3M double-faced adhesive tape (204), and the ribs (203) are bonded with a high-strength rubber pad (205) through the 3M double-faced adhesive tapes (204).

2. The vibration tool according to claim 1, characterized in that: a plurality of square through grooves (206) are formed in the side platen base (201), and a module heat conduction box guide rail (207) is formed between the adjacent square through grooves (206) in the vertical direction.

3. The vibration tool according to claim 2, characterized in that: the module heat-conducting box guide rails (207) are placed on the inner sides of the two walls of the side platen bases (201).

4. The vibration tool according to claim 3, characterized in that: the plurality of convex ribs (203) are spliced with the plurality of square through grooves (206) one by one.

5. The vibration tool according to claim 4, characterized in that: and a top cover plate (208) is arranged on the side platen base (201), and the top cover plate (208) and the side platen base (201) are arranged through screws.

6. The vibration tool according to claim 5, characterized in that: the side pressing plate (2) comprises a first side pressing plate (211) and a second side pressing plate (212), the first side pressing plate (211) and the second side pressing plate (212) are arranged at intervals, and the interval distance can be adjusted.

7. The vibration tool according to claim 6, characterized in that: the sliding rail (3) comprises a first sliding rail (311), a second sliding rail (312) and a third sliding rail (313) which are arranged at intervals; the first side pressure plate (211) is mounted with the first sliding rail (311) or the second sliding rail (312) through screws; the second side pressure plate (212) is installed with a third sliding rail (313) through screws.

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