CN210401271U - Heat-dissipation silicone grease heat-resistance tester for computing server - Google Patents

Abstract

The utility model relates to a tester especially relates to a calculation server heat dissipation silicone grease heat resistance capability test appearance. The technical problem to be solved is as follows: the heat-radiating silicone grease heat-resistant performance tester for the computing server can ensure that silicone grease is heated uniformly during heating and ensure the heat-resistant performance test effect of the silicone grease. A heat-dissipating silicone grease heat-resistant performance tester for a computing server comprises an installation box and the like; both sides of the top of the mounting box are provided with annular slide rails. The utility model discloses a start rotary device and make left and right sides both sides piston make a round trip to promote the silicone grease, make the silicone grease through heating mechanism thermally equivalent, accomplish the heating back when the silicone grease, can observe the number of degrees of both sides thermometer, the heat resistance who differentiates the silicone grease that just so can be quick. The heating mechanism is taken out, the silicone grease flows out of the hollow cylinder into the charging box, the container is not held by hands for charging, the charging box is moved upwards for charging, the charging box can be taken out easily, and the silicone grease can be prevented from leaking to the outside through the arc-shaped gap.

Description

Heat-dissipation silicone grease heat-resistance tester for computing server

Technical Field

The utility model relates to a tester especially relates to a calculation server heat dissipation silicone grease heat resistance capability test appearance.

Background

The heat-dissipating silicone grease uses organic silicone as a main raw material, and is added with materials with excellent heat resistance and heat conductivity to prepare a heat-conducting type silicone grease-shaped compound which is used for heat conduction and heat dissipation of electronic devices such as a power amplifier, a transistor, an electron tube, a CPU and the like, so that the stability of the electrical performance of electronic instruments, meters and the like is ensured, the heat-dissipating silicone grease has excellent electrical insulation property and excellent high and low temperature resistance, water resistance, ozone resistance, weather aging resistance and the like, and the performance of the heat-dissipating silicone grease can be different due to different good or bad heat-dissipating silicone grease, so that the performance detection of the heat-dissipating silicone grease is particularly important in.

At present, people usually fill silicone grease with metal easily, then heat a metal container, so that the silicone grease in the metal container is also heated, and then test the heat resistance of the heated silicone grease.

Therefore, a heat-dissipating silicone grease heat-resistance performance tester for a calculation server, which can ensure uniform heating during a silicone grease heating test, ensure the heat-resistance performance test effect of the silicone grease, and clearly know the heat-resistance performance of the silicone grease, needs to be designed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects that when a heating metal container is used for heating silicone grease at present, the silicone grease is heated unevenly and the heat resistance of the silicone grease cannot be accurately known, the technical problem to be solved is as follows: the heat-radiating silicone grease heat-resistant performance tester for the computing server can ensure that silicone grease is heated uniformly during heating and ensure the heat-resistant performance test effect of the silicone grease.

The technical scheme is as follows: the utility model provides a calculation server heat dissipation silicone grease heat resistance tester, including the install bin, annular slide rail and carousel, install bin top both sides all are equipped with annular slide rail, the last rotation type of annular slide rail is equipped with the carousel, still including the connecting rod, hollow cylinder, a piston, heating mechanism and rotary device, the equal rotary type of carousel both sides eccentric position is equipped with the connecting rod, the annular slide rail top of both sides all is equipped with two hollow cylinders, two hollow cylinders are located the top both sides of carousel respectively, hollow cylinder fixed connection is at the install bin top, hollow cylinder fit in has the piston, the piston of both sides respectively with the articulated connection of the connecting rod tail end of both sides, be equipped with heating mechanism between two hollow cylinders, heating mechanism is used for heating the heat dissipation silicone grease, install the rotary device who is used for driving the carousel rotation in the.

Further, the heating mechanism comprises a heating pipe, a connecting pipe, a heater and a rotary rod, the heating pipe and the connecting pipe are arranged between the tops of the two hollow cylinders, the heating pipe is connected with the connecting pipe, the heater is arranged on the heating pipe, the rotary rod is arranged on the connecting pipe, and the two hollow cylinders are communicated with each other through the heating pipe and the connecting pipe.

Further, the rotating device comprises a motor, a rotating shaft, gears and gear rings, the motor is installed in the installation box, the rotating shaft is arranged on an output shaft of the motor, the gears are arranged on the left side and the right side of the rotating shaft, the gear rings are arranged on the outer sides of the turntables, and the gears on the left side and the right side are respectively meshed with the gear rings on the turntables on the left side and the right side.

Further, still including sealing washer, heat-conducting cylinder and thermometer, the hollow cylinder top in the both sides outside all is equipped with the heat-conducting cylinder with sliding type, is equipped with the sealing washer between heat-conducting cylinder and the hollow cylinder, and heat-conducting cylinder bottom and piston connection are equipped with liquid in the heat-conducting cylinder, are equipped with the thermometer in the heat-conducting cylinder, and the thermometer wears out outside the heat-conducting cylinder.

Further, still including fixed plate and cartridge, heating mechanism below is equipped with the fixed plate, and the both ends of fixed plate are connected with two hollow cylinder respectively, have placed the cartridge on the fixed plate, and the cartridge is with hollow cylinder lateral wall sliding type cooperation.

The beneficial effects are that: the utility model discloses a start rotary device and make left and right sides both sides piston make a round trip to promote the silicone grease, make the silicone grease through heating mechanism thermally equivalent, accomplish the heating back when the silicone grease, can observe the number of degrees of both sides thermometer, the heat resistance who differentiates the silicone grease that just so can be quick. The heating mechanism is taken out, the silicone grease flows out of the hollow cylinder into the charging box, so that the container is not held by hands, and the charging box is moved upwards to charge, so that the charging box can be easily taken out, and the silicone grease can be prevented from leaking outside through the arc-shaped gap.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is an enlarged view of the heating mechanism of the present invention.

Fig. 3 is a schematic top view of a part of the structure of the present invention.

Part names and serial numbers in the figure: 1 mounting box, 2 ring-shaped sliding rails, 3 rotating discs, 4 connecting rods, 5 hollow cylinders, 6 pistons, 7 heating mechanisms, 71 heating pipes, 72 connecting pipes, 73 heaters, 74 rotating rods, 8 rotating devices, 81 motors, 82 rotating shafts, 83 gears, 84 gear rings, 9 sealing rings, 10 heat-conducting cylinders, 11 thermometers, 12 fixing plates and 13 charging boxes.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

First embodiment

As shown in attached figures 1 and 2, the heat-dissipating silicone grease heat resistance tester for the computing server comprises an installation box 1, annular slide rails 2 and a rotary table 3, wherein the annular slide rails 2 are arranged on the left side and the right side of the top of the installation box 1, the rotary table 3 is rotatably arranged on the annular slide rails 2, the tester also comprises a connecting rod 4, a hollow cylinder 5, a piston 6, a heating mechanism 7 and a rotating device 8, the connecting rod 4 is rotatably arranged at the eccentric positions on the two sides of the rotary table 3, the two hollow cylinders 5 are respectively arranged above the annular slide rails 2 on the two sides, the two hollow cylinders 5 are respectively positioned on the two sides above the rotary table 3, the hollow cylinder 5 is vertically arranged, the hollow cylinder 5 is fixedly connected to the top of the installation box 1 in a bolt connection mode, the piston 6 is matched in the hollow cylinder 5, the pistons 6 on the two sides are respectively hinged with the tail, the heating mechanism 7 is used for heating heat-dissipating silicone grease, the installation box 1 is internally provided with a rotating device 8 for driving the turntable 3 to rotate, the heating mechanism 7 comprises a heating pipe 71, a connecting pipe 72, a heater 73 and a rotating rod 74, the heating pipe 71 and the connecting pipe 72 are arranged between the tops of the two hollow cylinders 5, the heating pipe 71 and the connecting pipe 72 are respectively connected with the two hollow cylinders 5 in an inserting manner, the heating pipe 71 is in threaded connection with the connecting pipe 72, the heater 73 is arranged on the outer side of the heating pipe 71, the rotating rod 74 is arranged on the connecting pipe 72, the rotating rod 74 is connected with the connecting pipe 72 in a bolt connection manner, the two hollow cylinders 5 are communicated with each other through the heating pipe 71 and the connecting pipe 72, the rotating device 8 comprises a motor 81, a rotating shaft 82, a gear 83 and a gear ring 84, the motor 81 is installed in the installation, the outer side of the rotary table 3 is provided with a gear ring 84, and the gears 83 on the left and right sides are respectively meshed with the gear rings 84 on the rotary table 3 on the left and right sides.

The utility model discloses a theory of operation: the method comprises the steps of firstly taking down a heating mechanism 7 from a hollow cylinder 5, respectively injecting two types of silicone grease to be tested into the hollow cylinders 5 on two sides, then installing the heating mechanism 7 between the two hollow cylinders 5, starting the heating mechanism 7, then starting a rotating device 8 to enable a turntable 3 to rotate in an annular slide rail 2, enabling the turntable 3 to rotate to enable a connecting rod 4 to push a piston 6 to move up and down in the hollow cylinder 5, enabling the pistons 6 on the left side and the right side to move up and down continuously to enable the silicone grease to move in the hollow cylinders 5 in a circulating mode, heating the silicone grease through the heating mechanism 7 in a circulating mode to be heated uniformly, taking down the heating mechanism 7 after heating the silicone grease for a period of time, discharging the silicone grease from the connecting position of the heating mechanism 7 and the hollow cylinders 5 through the piston 6, and then measuring the temperatures of the two types of silicone grease to judge which silicone grease. When the heating mechanism 7 needs to be taken down from the two hollow cylinders 5, the connecting pipe 72 is rotated through the rotary rod 74, the connecting pipe 72 is retracted into the heating pipe 71, so that the heating pipe 71 and the connecting pipe 72 can be taken down from between the two hollow cylinders 5, when the heating mechanism 7 needs to be installed between the two hollow cylinders 5, the connecting pipe 72 and the heating pipe 71 are respectively aligned to the interfaces of the two hollow cylinders 5, the rotary rod 74 is rotated reversely to drive the connecting pipe 72 to rotate reversely, the connecting pipe 72 is far away from the heating pipe 71, and the connecting pipe 72 and the heating pipe 71 are inserted into the hollow cylinders 5, so that the installation of the heating mechanism 7 is completed, the heating pipe 71 is heated by starting the heater 73, and thus, the heating pipe 71 absorbs heat to uniformly transfer the heat to the silicone grease flowing circularly, and uniform heating of the silicone grease is realized. When the motor 81 is started, the output shaft of the motor 81 rotates to drive the gear 83 to rotate, the gear 83 rotates to drive the gear ring 84 to rotate, the rotary disc 3 rotates in the annular slide rail 2, and therefore the connecting rod 4 can push the piston 6 to move up and down in the hollow cylinder 5.

Second embodiment

On the basis of the first embodiment, as shown in fig. 1 and fig. 3, the heat conduction device further comprises a sealing ring 9, a heat conduction cylinder 10 and a thermometer 11, the tops of the hollow cylinders 5 on the outer sides of the left side and the right side are both provided with the heat conduction cylinder 10 in a sliding manner, the sealing ring 9 is arranged between the heat conduction cylinder 10 and the hollow cylinder 5, the bottom of the heat conduction cylinder 10 is connected with the piston 6, the heat conduction cylinder 10 is connected with the piston 6 in a bolt connection manner, water is filled in the heat conduction cylinder 10, the thermometer 11 is arranged in the heat conduction cylinder 10, the thermometer 11 penetrates out of the heat conduction cylinder 10, and the digital display.

The working principle of the device is as follows: piston 6 reciprocates and makes heat conduction section of thick bamboo 10 reciprocating motion about hollow cylinder 5, and sealing washer 9 plays sealed effect between to heat conduction section of thick bamboo 10 and hollow cylinder 5, and the heat of silicone grease makes water generate heat through heat conduction section of thick bamboo 10 heat transfer to make thermometer 11's temperature show, like this, just avoid the staff to contact the silicone grease, the handle scalds, also can go to distinguish the temperature of two kinds of silicone greases sooner.

The heating device is characterized by further comprising a fixing plate 12 and a charging box 13, wherein the fixing plate 12 is arranged below the heating mechanism 7, two ends of the fixing plate 12 are respectively connected with the two hollow cylinders 5, the fixing plate 12 is connected with the hollow cylinders in a bolt connection mode, the charging box 13 is placed on the fixing plate 12, and the charging box 13 is in sliding fit with the outer side walls of the hollow cylinders 5.

The working principle of the device is as follows: the piston 6 discharges the silicone grease from the joint of the heating mechanism 7 and the hollow cylinder 5, and then the silicone grease falls into the charging box 13 for collection, when the silicone grease is completely discharged, the charging box 13 is moved upwards, so that the charging box 13 can be taken out, the silicone grease can be completely received, the silicone grease is prevented from being lost and flowing to other places, and the material waste is avoided.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (5)

1. The utility model provides a calculation server heat dissipation silicone grease heat resistance tester, including the install bin, annular slide rail and carousel, install bin top both sides all are equipped with annular slide rail, the last rotation type of annular slide rail is equipped with the carousel, a serial communication port, the connecting rod, hollow cylinder, a piston, heating mechanism and rotary device, the equal rotation type of carousel both sides eccentric position is equipped with the connecting rod, the annular slide rail top of both sides all is equipped with two hollow cylinders, two hollow cylinders are located the top both sides of carousel respectively, hollow cylinder fixed connection is at the install bin top, hollow cylinder fit in has the piston, the piston of both sides respectively with the connecting rod tail end hinged joint of both sides be connected, be equipped with heating mechanism between two hollow cylinders, heating mechanism is used for heating the heat dissipation silicone grease, install the rotary device who is used for driving the carousel rotatory in the install.

2. The heat resistance tester for the heat-dissipating silicone grease of the computing server as claimed in claim 1, wherein the heating mechanism comprises a heating tube, a connecting tube, a heater and a rotating rod, the heating tube and the connecting tube are arranged between the tops of the two hollow cylinders, the heating tube is connected with the connecting tube, the heater is arranged on the heating tube, the rotating rod is arranged on the connecting tube, and the two hollow cylinders are communicated with each other through the heating tube and the connecting tube.

3. The heat-dissipating silicone grease heat resistance tester for the computing server as claimed in claim 2, wherein the rotating device comprises a motor, a rotating shaft, gears and gear rings, the motor is installed in the installation box, the rotating shaft is arranged on an output shaft of the motor, the gears are arranged on the left side and the right side of the rotating shaft, the gear rings are arranged on the outer sides of the rotating discs, and the gears on the left side and the right side are respectively meshed with the gear rings on the rotating discs on the left side and the right side.

4. The heat resistance tester for the heat-dissipating silicone grease of the computing server as claimed in claim 3, further comprising a sealing ring, a heat-conducting cylinder and a thermometer, wherein the heat-conducting cylinder is slidably disposed on the top of the hollow cylinder on the outer sides of the left and right sides, the sealing ring is disposed between the heat-conducting cylinder and the hollow cylinder, the bottom of the heat-conducting cylinder is connected to the piston, the heat-conducting cylinder is filled with liquid, the thermometer is disposed in the heat-conducting cylinder, and the thermometer extends out of the heat-conducting cylinder.

5. The heat resistance tester of the heat-dissipating silicone grease of the computing server as claimed in claim 4, further comprising a fixing plate and a cartridge, wherein the fixing plate is disposed below the heating mechanism, two ends of the fixing plate are respectively connected to the two hollow cylinders, the cartridge is disposed on the fixing plate, and the cartridge is slidably fitted to an outer side wall of the hollow cylinder.

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