CN204286974U - For many temperature thermal shock tester of computing machine - Google Patents

Abstract

The utility model discloses a kind of many temperature for computing machine thermal shock tester, comprise upper cover, inner casing, shell, rotating shaft, three heat insulation large plates, three heat insulation platelets, three temperature controllers and motor, rotating shaft is coaxial and rotating shaft is arranged on inner housing inner with inner casing, three heat insulation large plates are arranged on inner housing inner and are connected with the inwall of rotating shaft and inner casing, and inner casing is divided into three heat-insulation chambers, inner casing is arranged on enclosure, shell is divided into three moist closets by three heat insulation platelets, three temperature controllers are separately positioned in three moist closets of shell, inner casing being provided with hole makes the heat-insulation chamber of inner casing be communicated with the moist closet of shell, rotating shaft is connected with motor.The utility model has the heat-insulation chamber of three different temperatures, plastic cement block can be enable to bear the thermal shock of different temperatures, simultaneously because the temperature of the temperature controller of enclosure is adjustable, the described temperature that can regulate cold and hot test easily, can carry out the thermal shock test of many temperature simultaneously.

Description

For many temperature thermal shock tester of computing machine

Technical field

The utility model relates to a kind of thermal shock tester, particularly relates to a kind of many temperature for computing machine thermal shock tester.

Background technology

Along with the develop rapidly of plastic cement industry and improving constantly of plastic cement performance, plastic parts obtains to be applied more widely, the different field of plastic parts substitutes traditional metal parts, thus reach simplification product structure, save the object of manufacturing cost, therefore plastic cement application has had more requirement to the various performance of plastic cement, higher requirement be there has also been to the thermal stability of plastic cement, part plastic parts needs to carry out work in the environment that temperature variation is larger, therefore need to carry out thermal shock test to plastic parts, traditional thermal shock tester can only carry out high/low-temperature impact, high normal temperature impacts or low normal temp impacts, the thermal shock test of multiple different temperatures can not be carried out simultaneously.

Utility model content

The purpose of this utility model is just to provide a kind of many temperature for computing machine thermal shock tester to solve the problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of thermal shock of many temperature for computing machine tester, comprise upper cover, inner casing, shell, rotating shaft, three heat insulation large plates, three heat insulation platelets, three temperature controllers and motor, described rotating shaft is coaxial and described rotating shaft is arranged on described inner housing inner with described inner casing, three described heat insulation large plates are arranged on described inner housing inner and are connected with the inwall of described rotating shaft and described inner casing, and described inner casing is divided into three heat-insulation chambers, described inner casing is arranged on described enclosure, described shell is divided into three moist closets by three described heat insulation platelets, three described temperature controllers are separately positioned in three moist closets of described shell, described inner casing being provided with hole makes the heat-insulation chamber of described inner casing be communicated with the moist closet of described shell, described rotating shaft is connected with described motor, described upper cover is arranged on the top of described shell and described inner casing.

Plastic parts to be measured is put in the heat-insulation chamber of inner casing, build upper cover, by inner casing and shell thermal-insulating sealing, three temperature controllers of enclosure can regulate the temperature of the moist closet in shell flexibly, the heat-insulation chamber of inner casing is communicated with the moist closet of shell by hole simultaneously, the temperature of the temperature following moist closet in heat-insulation chamber is changed, rotating shaft is simultaneously connected with motor, electric machine rotation drives axis of rotation, axis of rotation drives inner casing to rotate, inner casing is rotated in portion in the enclosure, thus the heat-insulation chamber of inner casing is communicated with the moist closet of different temperatures, change the temperature in heat-insulation chamber, reach different temperatures thermal shock.

Particularly, three described heat insulation large plates, three described heat insulation platelets and three temperature controllers are all uniformly distributed with the axle center of described rotating shaft.This structure can make the space uniform of inner casing and enclosure distribute, make temperature variation evenly.

Particularly, also comprise three firm bankings, three described firm bankings are separately positioned in three heat-insulation chambers of described inner casing.Plastic parts can be fixed in inner casing by this structure, makes it not because inner casing rotates the centrifugal force of generation and is moved.

The beneficial effects of the utility model are:

The utility model is used for the heat-insulation chamber that many temperature thermal shock tester of computing machine has three different temperatures, plastic cement block can be enable to bear the thermal shock of different temperatures, simultaneously because the temperature of the temperature controller of enclosure is adjustable, the described temperature that can regulate cold and hot test easily, can carry out the thermal shock test of many temperature simultaneously.

Accompanying drawing explanation

Fig. 1 is the one-piece construction schematic diagram of the utility model for many temperature thermal shock tester of computing machine

Fig. 2 is the one-piece construction schematic diagram of inner casing of the present utility model;

Fig. 3 is the utility model vertical view.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As Fig. 1, shown in Fig. 2 and Fig. 3, the utility model is used for many temperature thermal shock tester of computing machine, comprise upper cover (not shown in FIG.), inner casing 1, shell 5, rotating shaft 2, three heat insulation large plates 3, three heat insulation platelets 4, three temperature controllers 6, three firm bankings 7 and motor (not shown in FIG.), rotating shaft 2 with inner casing 1 coaxial and rotating shaft 2 to be arranged on inner casing 1 inner, three heat insulation large plates 3 are arranged on inner casing 1 inside and are connected with the inwall of rotating shaft 2 and inner casing 1, and inner casing 1 is divided into three heat-insulation chambers, it is inner that inner casing 1 is arranged on shell 5, shell 5 is divided into three moist closets by three heat insulation platelets 4, three temperature controllers 6 are separately positioned in three moist closets of shell 5, inner casing 1 being provided with hole makes the heat-insulation chamber of inner casing 1 be communicated with the moist closet of shell 5, rotating shaft 2 is connected with motor (not shown in FIG.), upper cover (not shown in FIG.) is arranged on the top of shell 5 and inner casing 1, three heat insulation large plates 3, three heat insulation platelets 4 and three temperature controllers 6 are all uniformly distributed with the axle center of rotating shaft 2, three firm bankings 7 are separately positioned in three heat-insulation chambers of inner casing 1.

The principle of work that the utility model is used for many temperature thermal shock tester of computing machine is as follows:

Plastic parts to be measured is put in the heat-insulation chamber of inner casing 1, and be separately fixed on three firm bankings 7, build upper cover (not shown in FIG.), the temperature of the moist closet in shell 5 is regulated by regulating three temperature controllers 6, the heat-insulation chamber of inner casing 1 is communicated with the moist closet of shell 5 simultaneously, the temperature of the temperature following moist closet in heat-insulation chamber is changed, motor (not shown in FIG.) rotates and drives rotating shaft 2 to rotate, rotating shaft 2 is rotated and is driven inner casing 1 in shell 5 inner rotation, thus the heat-insulation chamber of inner casing 1 is communicated with the moist closet of different temperatures, change the temperature in heat-insulation chamber, make plastic parts bear the thermal shock of different temperatures simultaneously.

Claims (3)

1. the many temperature thermal shock tester for computing machine, it is characterized in that: comprise upper cover, inner casing, shell, rotating shaft, three heat insulation large plates, three heat insulation platelets, three temperature controllers and motor, described rotating shaft is coaxial and described rotating shaft is arranged on described inner housing inner with described inner casing, three described heat insulation large plates are arranged on described inner housing inner and are connected with the inwall of described rotating shaft and described inner casing, and described inner casing is divided into three heat-insulation chambers, described inner casing is arranged on described enclosure, described shell is divided into three moist closets by three described heat insulation platelets, three described temperature controllers are separately positioned in three moist closets of described shell, described inner casing being provided with hole makes the heat-insulation chamber of described inner casing be communicated with the moist closet of described shell, described rotating shaft is connected with described motor, described upper cover is arranged on the top of described shell and described inner casing.

2. the thermal shock of the many temperature for computing machine tester according to claim 1, is characterized in that: three described heat insulation large plates, three described heat insulation platelets and three temperature controllers are all uniformly distributed with the axle center of described rotating shaft.

3. the thermal shock of the many temperature for computing machine tester according to claim 1, is characterized in that: also comprise three firm bankings, and three described firm bankings are separately positioned in three heat-insulation chambers of described inner casing.