CN221280960U - Adhesive heat conductivity coefficient tester capable of improving stability - Google Patents

Abstract

The utility model provides an adhesive heat conductivity coefficient tester for improving stability, which comprises a heat conductivity coefficient tester, a first connecting plate, a placing hole, an adjustable clamping plate structure and a reversible placing plate structure, wherein the first connecting plate is fixed at the bottom of the right side of the heat conductivity coefficient tester through bolts. The heat conductivity coefficient tester provided by the utility model has the advantages that the first fixed plate, the adjusting rod and the supporting plate are mutually matched, so that the purpose of conveniently adjusting the position in the measuring process is facilitated by rotating the adjusting rod and then pushing the first fixed plate and the supporting plate to move in the using process; the setting of dwang, second connecting plate, multistage telescopic link, dwang and second fixed plate mutually supporting is favorable to placing the model through the recess that the dwang upper end was seted up at the in-process of survey, places the in-process model of survey and drops, improves the stability of survey in-process.

Description

Adhesive heat conductivity coefficient tester capable of improving stability

Technical Field

The utility model belongs to the technical field of heat conductivity coefficient measuring equipment, and particularly relates to an adhesive heat conductivity coefficient measuring instrument for improving stability.

Background

The heat conductivity coefficient refers to heat transferred through a unit area of a material along a heat flow direction in a unit time at a unit temperature gradient, and people usually use a special measuring instrument to detect the heat conductivity coefficient, namely the heat conductivity coefficient measuring instrument, and the existing heat-insulating and energy-saving measuring instrument comprises the heat conductivity coefficient measuring instrument, a bottom plate, a clamping plate, a fixed shaft block, a connecting plate, a mounting shaft block, a sliding plate, a T-shaped block, a rotating shaft, a limiting round block, a gear, a supporting plate, a telescopic shaft, a smooth plate, a stop block, a compression spring, a rotating hole, a limiting groove, a T-shaped groove, a penetrating hole, a limiting hole and continuous clamping teeth.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the adhesive heat conductivity coefficient tester with improved stability, which aims to prevent a template from falling off by improving a clamping mechanism in the using process and improve a template placing mechanism in the using process so as to facilitate template placing.

The adhesive heat conductivity coefficient tester for improving the stability comprises a heat conductivity coefficient tester, wherein a first connecting plate is fixed at the bottom of the right side of the heat conductivity coefficient tester through bolts; the middle position of the upper right side of the thermal conductivity coefficient tester is provided with a placement hole, and the thermal conductivity coefficient tester is characterized in that the inner wall of the left side of the thermal conductivity coefficient tester is provided with an adjustable clamping plate structure; the upper end of the first connecting plate is provided with a turnover placing plate structure.

Preferably, the adjustable clamping plate structure comprises a first fixed plate, and the left front middle position and the left rear middle position of the first fixed plate are respectively inserted with an adjusting rod; the right middle position bolt of first fixed plate is fixed with the backup pad.

Preferably, the turnover placing plate structure comprises a rotating plate, and a second connecting plate is respectively fixed on the front right side of the bottom end of the rotating plate and the rear right side of the bottom end of the rotating plate through bolts; the inner pin shaft of the second connecting plate is connected with a multi-stage telescopic rod; the multistage telescopic rod is respectively fixed in front of the upper end of the rotating rod and behind the upper end of the rotating rod through bolts; the rotating rod penetrates through the middle position inside the upper end of the second fixing plate.

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

1. According to the thermal conductivity coefficient tester, the first fixing plate, the adjusting rod and the supporting plate are mutually matched, so that the purpose of conveniently adjusting the position in the measuring process is achieved by rotating the adjusting rod and then pushing the first fixing plate and the supporting plate to move in the using process.

2. According to the utility model, the rotating plate, the second connecting plate, the multi-stage telescopic rod, the rotating rod and the second fixing plate are mutually matched, so that the sample plate is placed through the groove formed in the upper end of the rotating plate in the measuring process, the sample plate is placed in the measuring process to fall off, and the stability in the measuring process is improved.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of an adjustable clamping plate structure of the present utility model.

Fig. 3 is a schematic structural view of the reversible placement plate structure of the present utility model.

In the figure:

1. A thermal conductivity meter; 2. a first connection plate; 3. placing the hole; 4. an adjustable clamping plate structure; 41. a first fixing plate; 42. an adjusting lever; 43. a support plate; 5. a reversible placement plate structure; 51. a rotating plate; 52. a second connecting plate; 53. a multi-stage telescopic rod; 54. a rotating lever; 55. and a second fixing plate.

Detailed Description

The utility model is specifically described below with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, the adhesive thermal conductivity coefficient tester for improving stability comprises a thermal conductivity coefficient tester 1, a first connecting plate 2, a placing hole 3, an adjustable clamping plate structure 4 and a reversible placing plate structure 5, wherein the first connecting plate 2 is fixed at the bottom of the right side of the thermal conductivity coefficient tester 1 through bolts; a placing hole 3 is formed in the middle position of the upper right side of the thermal conductivity coefficient tester 1; the left inner wall of the thermal conductivity coefficient tester 1 is provided with an adjustable clamping plate structure 4; the upper end of the first connecting plate 2 is provided with a turnover placing plate structure 5; the adjustable clamping plate structure 4 comprises a first fixed plate 41, an adjusting rod 42 and a supporting plate 43, wherein the left front middle position and the left rear middle position of the first fixed plate 41 are respectively inserted with the adjusting rod 42; a supporting plate 43 is fixed on the middle position of the right side of the first fixing plate 41 through bolts; when the device is used, the heat conductivity coefficient tester 1 is fixed at a proper position, then an external power supply and external control equipment are connected through an external lead, the adjusting rod 42 is rotated during measurement, the positions of the first fixing plate 41 and the supporting plate 43 are adjusted through threaded connection of the adjusting rod 42 and the heat conductivity coefficient tester 1, and the purpose of adjustment in the use process is achieved conveniently.

In this embodiment, referring to fig. 3, the reversible placement plate structure 5 includes a rotating plate 51, a second connecting plate 52, a multi-stage telescopic rod 53, a rotating rod 54 and a second fixing plate 55, where the second connecting plate 52 is respectively bolted to the front right side of the bottom end and the rear right side of the bottom end of the rotating plate 51; the inner pin shaft of the second connecting plate 52 is connected with a multi-stage telescopic rod 53; the multistage telescopic rod 53 is respectively fixed in front of the upper end and behind the upper end of the rotating rod 54 by bolts; the rotating rod 54 penetrates through the middle position inside the upper end of the second fixing plate 55; the adhesive to be detected is placed on the template, the used template is placed in the groove formed in the middle of the upper end of the rotating plate 51, then the multistage telescopic rod 53 starts to work, the rotating plate 51 is pushed to rotate, then the groove formed in the upper end of the rotating plate 51 is sleeved on the outer wall of the right end of the supporting plate 43, the template is clamped, and then the thermal conductivity coefficient tester 1 starts to measure.

In this embodiment, specifically, the inner wall of the placement hole 3 is glued with a silica gel pad; and silica gel blocks are respectively glued at four corners of the bottom end of the thermal conductivity coefficient tester 1.

In this embodiment, specifically, a bearing is disposed at the connection between the first fixing plate 41 and the adjusting rod 42.

In the present embodiment, specifically, the first fixing plate 41 is provided at the left inner middle position of the thermal conductivity meter 1; the adjusting rod 42 is threaded through the left front and left rear of the thermal conductivity meter 1, respectively.

In this embodiment, specifically, bearings are disposed between the front and rear ends of the rotating rod 54 and the second fixing plate 55; the middle position of the upper end of the rotating plate 51 is provided with a groove for placing the sample plate.

In this embodiment, specifically, the rotating plate 51 is pin-connected to the lower right side of the inner wall of the placement hole 3; the second fixing plates 55 are respectively bolted to the front right side of the upper end and the rear right side of the upper end of the first connecting plate 2.

Principle of operation

In the utility model, when in use, the thermal conductivity tester 1 is fixed at a proper position, then an external power supply and external control equipment are connected by using an external lead, during measurement, the adjusting rod 42 is rotated, the positions of the first fixing plate 41 and the supporting plate 43 are adjusted through the threaded connection arrangement of the adjusting rod 42 and the thermal conductivity tester 1, the purpose of adjustment in the use process is facilitated, an adhesive to be detected is placed on a sample plate, the sample plate to be used is placed in a groove formed in the middle position of the upper end of the rotating plate 51, then the multistage telescopic rod 53 starts to work, the rotating plate 51 is pushed to rotate, then the groove formed in the upper end of the rotating plate 51 is sleeved on the outer wall of the right end of the supporting plate 43, clamping work is performed on the sample plate, and then the thermal conductivity tester 1 starts to measure work.

By using the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the utility model.

Claims (5)

1. The adhesive heat conductivity coefficient tester for improving stability comprises a heat conductivity coefficient tester (1), wherein a first connecting plate (2) is fixed at the bottom of the right side of the heat conductivity coefficient tester (1) through bolts; a placement hole (3) is formed in the middle position of the upper right side of the thermal conductivity coefficient tester (1); the adhesive thermal conductivity coefficient tester is characterized in that an adjustable clamping plate structure (4) is arranged on the inner wall of the left side of the thermal conductivity coefficient tester (1) in the adhesive thermal conductivity coefficient tester with improved stability; the upper end of the first connecting plate (2) is provided with a turnover placing plate structure (5).

2. The tester for improving the thermal conductivity of the adhesive with the stability according to claim 1, wherein the adjustable clamping plate structure (4) comprises a first fixed plate (41), and an adjusting rod (42) is respectively inserted into the middle position of the left front surface and the middle position of the left rear surface of the first fixed plate (41); the supporting plate (43) is fixed at the middle position of the right side of the first fixing plate (41) through bolts.

3. The adhesive thermal conductivity tester for improving stability according to claim 1, wherein the reversible placement plate structure (5) comprises a rotating plate (51), and a second connecting plate (52) is respectively and fixedly bolted to the front right side of the bottom end and the rear right side of the bottom end of the rotating plate (51); the inner pin shaft of the second connecting plate (52) is connected with a multi-stage telescopic rod (53); the multistage telescopic rod (53) is respectively fixed at the front of the upper end and the rear of the upper end of the rotating rod (54) through bolts; the rotating rod (54) penetrates through the middle position inside the upper end of the second fixing plate (55).

4. The adhesive thermal conductivity meter for improving stability according to claim 2, wherein the first fixing plate (41) is disposed at a left inner middle position of the thermal conductivity meter (1); the adjusting rod (42) is respectively threaded through the left front face and the left rear face of the heat conductivity coefficient measuring instrument (1).

5. The adhesive thermal conductivity tester for improving stability according to claim 3, wherein the rotating plate (51) is connected to the lower right side of the inner wall of the placement hole (3) through a pin shaft; the second fixing plates (55) are respectively fixed on the front right side of the upper end of the first connecting plate (2) and the rear right side of the upper end through bolts.