CN219799291U - Heat altered shape Vicat softening point temperature apparatus cooling device - Google Patents

Heat altered shape Vicat softening point temperature apparatus cooling device Download PDF

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CN219799291U
CN219799291U CN202321226804.4U CN202321226804U CN219799291U CN 219799291 U CN219799291 U CN 219799291U CN 202321226804 U CN202321226804 U CN 202321226804U CN 219799291 U CN219799291 U CN 219799291U
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cooling
tank
base
softening point
point temperature
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CN202321226804.4U
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陈哲
申娟
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Tianjin Building Quality Construction Projects Testing Co ltd
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Tianjin Building Quality Construction Projects Testing Co ltd
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Abstract

The utility model relates to the technical field of cooling of thermal deformation Vicat temperature measuring instruments, in particular to a thermal deformation Vicat softening point temperature measuring instrument cooling device which comprises a measuring instrument body, wherein a cooling box is arranged in the measuring instrument body, a base is fixedly arranged at the bottom of the measuring instrument body, the base is of a hollow structure, a liquid storage tank is fixedly arranged on the inner bottom wall of the base, a water pump is fixedly arranged on one side surface of the liquid storage tank, a liquid inlet end and a liquid outlet end of the water pump are respectively fixedly provided with a liquid conveying pipe and a first telescopic pipe, and the other end of the first telescopic pipe extends into the measuring instrument body and is communicated with one side of the cooling box. This thermal deformation vitamin card softening point temperature apparatus cooling device, through the water pump with the liquid coolant input of liquid reserve tank in into the cooling tank, the liquid coolant can thoroughly cool down the heat dissipation to experimental oil tank and handle, this mode easy operation, the radiating rate is fast, effectual, can improve the work efficiency of device.

Description

Heat altered shape Vicat softening point temperature apparatus cooling device
Technical Field
The utility model relates to the technical field of cooling of thermal deformation Vicat temperature measuring instruments, in particular to a cooling device of a thermal deformation Vicat softening point temperature measuring instrument.
Background
The prior thermal deformation Vicat softening point experiment is realized by using a temperature tester, and mainly comprises a bracket, a sample rack, a test oil tank and the like, when in test, a sample is placed on a bulge of the sample rack and is placed in the test oil tank, the thermal deformation and Vicat softening point conditions of the sample in the process of increasing the oil temperature at uniform speed are measured by stressing the sample, the temperature of methyl silicone oil in the device is very high after the temperature tester is tested, if the next group of materials to be tested needs to be cooled to normal temperature for about 6-8 hours, the time is long, and when the test is needed to be continuously carried out, the temperature of the oil is cooled to the room temperature, so that the test can only be carried out for several times in one day, thereby not only reducing the working efficiency, but also influencing the utilization rate of the test instrument.
Chinese patent CN205192991U discloses thermal deformation vicat softening point temperature tester cooling device, and this novel cooling is carried out experimental oil tank through the S-shaped pipe for this novel environmental protection and energy saving, cooling rate is fast effectual.
By comparing the novel structure, the novel structure has the following defects that the novel structure is contacted with the test oil tank only through the S-shaped pipe, and the test oil tank is cooled in a heat transfer mode, but the contact area between the S-shaped pipe and the test oil tank is limited in the novel structure, so that the heat dissipation efficiency is required to be further improved.
Disclosure of Invention
Aiming at the defects of the prior art, the utility model provides the cooling device for the thermal deformation Vicat softening point temperature measuring instrument, which has the advantages of simple structure, convenient operation, high cooling and radiating speed, good effect, capability of improving the working efficiency and the like.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a thermal deformation vitamin A softening point temperature tester cooling device, includes the apparatus body, the inside of apparatus body is provided with experimental oil tank, the inside of apparatus body just is provided with the cooling tank under the experimental oil tank, the bottom fixed mounting of apparatus body has the base, the inside of base is hollow structure, fixed mounting has the liquid reserve tank on the interior diapire of base, one side surface fixed mounting of liquid reserve tank has the water pump, the feed liquor end and the play liquid end of water pump respectively fixed mounting have transfer line and first flexible pipe, the other end of transfer line is linked together with the interior bottom of liquid reserve tank, the other end of first flexible pipe extends to the inside of apparatus body and is linked together with one side of cooling tank, the opposite side switch-on of cooling tank has the second flexible pipe, the other end of second flexible pipe extends to the inside of base and is linked together with one side that the liquid reserve tank kept away from the water pump, fixed mounting has the solenoid valve on the second flexible pipe.
According to the technical scheme, the cooling liquid in the liquid storage tank is input into the cooling tank through the water pump, and when the cooling liquid is in contact with each surface of the test oil tank, the cooling liquid can thoroughly cool and dissipate heat on each surface of the test oil tank.
Further, the support rods are fixedly installed on the surfaces of two sides of the test oil tank, and the other ends of the support rods are connected with the inner wall of the tester body.
The beneficial effect of adopting above-mentioned further scheme is, fixes experimental oil tank through the supporting rod for experimental oil tank can firmly fix in the apparatus body.
Further, the radiating openings are formed in the surfaces of the two sides of the base, and dust screens are fixedly mounted on the inner walls of the two radiating openings.
The beneficial effect of adopting above-mentioned further scheme is, through seting up the thermovent for the inside air of base can flow, through setting up the dust screen, makes the unable entering of dust in the air inside the base.
Further, the inside of base just is located one side that the liquid reserve tank kept away from the water pump and is provided with the fan, the flexible pipe of second is located between liquid reserve tank and the fan, the fan with two the dust screen is located same horizontal line, the fan is connected with the inner wall of base through both ends fixed mounting's dead lever.
The beneficial effect of adopting above-mentioned further scheme is, through setting up the fan for the fan can cool down the inside coolant liquid of liquid reserve tank and the inside flexible pipe of second, makes the coolant liquid can recycle repeatedly, has reached energy-concerving and environment-protective effect.
Furthermore, the inner bottom wall of the cooling box is inclined, and two support columns are fixedly arranged on the inner bottom wall of the cooling box.
The beneficial effect of adopting above-mentioned further scheme is, through setting up the support column, when experimental oil tank enters into the cooling tank, can support experimental oil tank.
Further, two electric push rods are fixedly mounted on the inner bottom wall of the tester body, and the movable ends of the two electric push rods are connected with the bottom of the cooling box.
The beneficial effect of adopting above-mentioned further scheme is, through setting up two electric putter for electric putter can drive the cooler bin and can reciprocate, makes experimental oil tank can enter into the cooler bin, thereby cools down the heat dissipation to experimental oil tank.
Further, support frames are fixedly arranged around the bottom surface of the base.
The beneficial effect of adopting above-mentioned further scheme is, through setting up four support frames for this novel place subaerial that can stabilize.
Further, a control panel is fixedly arranged on one side surface of the tester body.
The adoption of the further scheme has the beneficial effects that by arranging the control panel, a worker can control the starting and closing of the electric push rod, the fan and the electromagnetic valve through the control panel.
Compared with the prior art, the utility model provides a thermal deformation Vicat softening point temperature measuring instrument cooling device, which has the following beneficial effects:
this thermal deformation vitamin A softening point temperature apparatus cooling device, in entering the cooling tank with the coolant liquid input of liquid reserve tank through the water pump, start two electric putter, two electric putter drive the cooling tank and upwards move for experimental oil tank enters into the cooling tank, thereby make each surface of experimental oil tank all be arranged in the coolant liquid, increase with the area of contact of coolant liquid, make the coolant liquid can carry out the heat dissipation treatment of thoroughly cooling to experimental oil tank, this mode easy operation, the radiating rate is fast, effectual, can improve the work efficiency of device.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a side view of the base of the present utility model;
fig. 3 is an enlarged view of fig. 1 a in accordance with the present utility model.
In the figure: 1. a meter body; 2. a base; 3. a liquid storage tank; 4. a water pump; 5. an infusion tube; 6. a first telescopic tube; 7. a test oil tank; 8. a cooling box; 9. a second telescopic tube; 10. an electromagnetic valve; 11. a heat radiation port; 12. a dust screen; 13. a blower; 14. a support rod; 15. a support column; 16. an electric push rod; 17. a support frame; 18. and a control panel.
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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1, a cooling device for a thermal deformation vicat softening point temperature tester in this embodiment includes a tester body 1, a test oil tank 7 is provided in the tester body 1, support rods 14 are fixedly mounted on two side surfaces of the test oil tank 7, the other ends of the two support rods 14 are fixedly connected with an inner wall of the tester body 1, a cooling box 8 is provided in the tester body 1 and under the test oil tank 7, an inner bottom wall of the cooling box 8 is inclined, a base 2 is fixedly mounted at the bottom of the tester body 1, a hollow structure is provided in the base 2, a liquid storage tank 3 is fixedly mounted on an inner bottom wall of the base 2, a supporting frame 17 is fixedly mounted around the bottom surface of the base 2, and a control panel 18 is fixedly mounted on one side surface of the tester body 1.
By providing the inner bottom wall of the cooling tank 8 in an inclined shape, it is convenient for the worker to discharge the cooling liquid in the cooling tank 8.
Wherein, through setting up control panel 18 for the staff can control the start-up and the closing of electric putter 16, fan 13 and solenoid valve 10 through control panel 18, through setting up four support frames 17, make this novel place subaerial that can stabilize, has strengthened this novel steadiness.
Referring to fig. 1 and 3, in this embodiment, a water pump 4 is fixedly installed on a surface of one side of a liquid storage tank 3, a liquid inlet end and a liquid outlet end of the water pump 4 are respectively and fixedly provided with a liquid delivery pipe 5 and a first telescopic pipe 6, the other end of the liquid delivery pipe 5 is communicated with an inner bottom of the liquid storage tank 3, the other end of the first telescopic pipe 6 extends to the inside of a tester body 1 and is communicated with one side of a cooling tank 8, a second telescopic pipe 9 is communicated with the other side of the cooling tank 8, the other end of the second telescopic pipe 9 extends to the inside of a base 2 and is communicated with one side of the liquid storage tank 3 far away from the water pump 4, a solenoid valve 10 is fixedly installed on the second telescopic pipe 9, in addition, two support columns 15 are fixedly installed on an inner bottom wall of the cooling tank 8, two electric push rods 16 are fixedly installed on the inner bottom wall of the tester body 1, and movable ends of the two electric push rods 16 are connected with the bottom of the cooling tank 8.
Wherein, the top of two support columns 15 is all fixed mounting has the backup pad, and the top of cooling tank 8 is open structure.
In addition, the front of the liquid storage tank 3 is communicated with a liquid inlet pipe which extends to the outer side of the base 2.
When the movable ends of the two electric pushers 16 move to the maximum distance, the top of the cooling box 8 is just contacted with the two support rods 14, the bottom of the test oil tank 7 is just contacted with the support plate at the top of the support column 15, and in addition, the lengths of the first telescopic tube 6 and the second telescopic tube 9 are long enough to support the cooling box 8 to move up and down.
When the test oil tank 7 leaves from the cooling tank 8, the contaminated cooling liquid on the surface of the test oil tank 7 slides down due to the gravity, so that the cooling liquid can not influence the test when the test oil tank 7 performs the next test.
The cooling liquid in the liquid storage tank 3 is input into the cooling box 8 through the water pump 4, two electric push rods 16 are started, the two electric push rods 16 drive the cooling box 8 to move upwards, the test oil tank 7 enters into the cooling box 8, the bottom of the test oil tank 7 is contacted with the supporting plates at the tops of the two supporting columns 15, and accordingly the test oil tank 7 is supported, the surfaces of the test oil tank 7 are located in the cooling liquid, the cooling liquid can thoroughly cool the test oil tank 7, after cooling is finished, the two electric push rods 16 are started, the cooling box 8 is driven to move downwards, the test oil tank 7 leaves from the cooling box 8, and therefore next test is conducted.
Referring to fig. 1 and 2, in the present embodiment, heat dissipation openings 11 are formed on two side surfaces of a base 2, dust screens 12 are fixedly mounted on inner walls of the two heat dissipation openings 11, a fan 13 is disposed inside the base 2 and on one side of a liquid storage tank 3 far away from a water pump 4, a second telescopic tube 9 is disposed between the liquid storage tank 3 and the fan 13, the fan 13 and the two dust screens 12 are disposed on the same horizontal line, and the fan 13 is connected with the inner walls of the base 2 through fixing rods fixedly mounted at two ends.
The fan 13 is started, so that the fan 13 can cool the cooling liquid in the liquid storage tank 3 and the second telescopic pipe 9, the cooling liquid can be recycled repeatedly, the energy-saving and environment-friendly effects are achieved, and dust in the air can be prevented from entering the base 2 by the dust screen 12.
The working principle of the embodiment is as follows: the water pump 4 is started through the control panel 18, the cooling liquid in the liquid storage tank 3 is input into the cooling tank 8 through the water pump 4, the cooling tank 8 can be filled with liquid, the two electric push rods 16 are started, the two electric push rods 16 drive the cooling tank 8 to move upwards, the test oil tank 7 enters into the cooling tank 8, the bottom of the test oil tank 7 is contacted with the supporting plates at the tops of the two supporting columns 15, the test oil tank 7 is supported, the surfaces of the test oil tank 7 are located in the cooling liquid, the cooling liquid can thoroughly cool and dissipate heat, after cooling is finished, the two electric push rods 16 are started, the cooling tank 8 is driven to move downwards, the test oil tank 7 is separated from the cooling tank 8, the next test is performed, the electromagnetic valve 10 is started, the cooling liquid in the cooling tank 8 is discharged, and meanwhile, the fan 13 is started, the fan 13 can cool the cooling liquid in the liquid storage tank 3 and the second telescopic pipe 9, the cooling liquid can be repeatedly recycled, and the energy-saving and environment-friendly effects are achieved.
The electrical components appearing herein are all electrically connected with the master controller and the power supply, the master controller can be a conventional known device for controlling a computer and the like, and the prior art of power connection is not described in detail herein.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a thermal deformation Vicat softening point temperature apparatus cooling device, includes apparatus body (1), its characterized in that: the inside of apparatus body (1) is provided with experimental oil tank (7), the inside of apparatus body (1) just is provided with cooling tank (8) under experimental oil tank (7), the bottom fixed mounting of apparatus body (1) has base (2), the inside of base (2) is hollow structure, fixed mounting has liquid reserve tank (3) on the inner diapire of base (2), one side fixed surface mounting of liquid reserve tank (3) has water pump (4), the feed liquor end and the play liquid end of water pump (4) fixed mounting have transfer line (5) and first flexible pipe (6) respectively, the other end of transfer line (5) is linked together with the interior bottom of liquid reserve tank (3), the other end of first flexible pipe (6) extends to the inside of apparatus body (1) and is linked together with one side of cooling tank (8), the other side of cooling tank (8) is linked together there is second flexible pipe (9), the other end of second flexible pipe (9) extends to the inside of base (2) and is kept away from on one side of water pump (4) and is kept away from on the fixed mounting of solenoid valve (10).
2. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: support rods (14) are fixedly arranged on the surfaces of two sides of the test oil tank (7), and the other ends of the two support rods (14) are connected with the inner wall of the tester body (1).
3. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: the two side surfaces of the base (2) are provided with heat dissipation openings (11), and dust screens (12) are fixedly arranged on the inner walls of the two heat dissipation openings (11).
4. A heat deformable vicat softening point temperature tester cooling device as in claim 3, wherein: the inside of base (2) and be located one side that water pump (4) was kept away from to liquid reserve tank (3) are provided with fan (13), second flexible pipe (9) are located between liquid reserve tank (3) and fan (13), fan (13) and two dust screen (12) are located same horizontal line, fan (13) are connected with the inner wall of base (2) through both ends fixed mounting's dead lever.
5. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: the inner bottom wall of the cooling box (8) is inclined, and two support columns (15) are fixedly arranged on the inner bottom wall of the cooling box (8).
6. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: two electric push rods (16) are fixedly mounted on the inner bottom wall of the tester body (1), and the movable ends of the two electric push rods (16) are connected with the bottom of the cooling box (8).
7. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: the periphery of the bottom surface of the base (2) is fixedly provided with a supporting frame (17).
8. The heat deformable vicat softening point temperature tester cooling device as claimed in claim 1, wherein: one side surface of the tester body (1) is fixedly provided with a control panel (18).
CN202321226804.4U 2023-05-20 2023-05-20 Heat altered shape Vicat softening point temperature apparatus cooling device Active CN219799291U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321226804.4U CN219799291U (en) 2023-05-20 2023-05-20 Heat altered shape Vicat softening point temperature apparatus cooling device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321226804.4U CN219799291U (en) 2023-05-20 2023-05-20 Heat altered shape Vicat softening point temperature apparatus cooling device

Publications (1)

Publication Number Publication Date
CN219799291U true CN219799291U (en) 2023-10-03

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321226804.4U Active CN219799291U (en) 2023-05-20 2023-05-20 Heat altered shape Vicat softening point temperature apparatus cooling device

Country Status (1)

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CN (1) CN219799291U (en)

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