DE202023103918U1 - A stabilizing mechanism for insulated cabinet and a temperature control device - Google Patents

Abstract

Stabilizing mechanism for insulating cabinet, characterized in that it comprises a support assembly (100), comprising base plate (101) and connecting shafts (102) provided on the inner wall of the base plate (101).

Description

Technical area

The utility model relates to the field of boiler cooling technology, in particular to a stabilization mechanism for insulating cabinets and a temperature control device.

Background technology

Due to the general insulating effect of boilers in thermal power plants, the outer insulation wall of boilers in northern power plants, and high summer temperatures, smart instruments that are exposed to high temperatures for a long period of time and also need to monitor important data are at risk of sudden failure or damage , which is not conducive to the accurate measurement of the instrumentation and greatly reduces the service life of the instrumentation, opening the cabinet door for the current boiler instrument cabinets in thermal power plants and using the axial fan to directly blow on the instruments in the cabinet, the Furnace top is cooled by convection of cold and hot air by installing fins on the insulation wall of the boiler in a large environment, but the above solutions are affected by environmental factors and have no active cooling effect, and the stability of the boiler instrument cabinet is poor , which affects the measurement accuracy of the instruments in the cabinet.

Contents of the utility model

The purpose of this part is to summarize some aspects of the embodiments of the utility model and to briefly describe some preferred embodiments. Some simplifications or omissions may be made in this part, the abstract and the utility model designation of this application in order not to obscure the purpose of this part, the abstract and the utility model designation, and such simplifications or omissions cannot be used to limit the scope of the application to limit utility models.

Considering the poor stability of the current boiler instrument cabinet, affecting the measurement accuracy of the instruments in the cabinet, a stabilization mechanism is provided.

In order to solve the above-mentioned technical problems, the utility model provides the following technical solutions: wherein it includes a stabilization mechanism, characterized in that the support assembly includes a base plate provided on the bottom of the cabinet body and connecting shafts provided on the inner wall of the base plate.

As a preferred solution for the stabilization mechanism of the utility model, a threaded rod is provided on the inner wall of the connecting shaft.

As a preferred solution for the stabilization mechanism of the utility model, a mounting block is provided at the upper end of the threaded rod, with a support disk being provided at the lower end of the threaded rod.

As a preferred solution for the stabilization mechanism of the utility model, the connecting shaft further includes a handle disposed on top of the mounting block. As a preferred solution for the stabilization mechanism of the utility model, the four connecting shafts are each distributed on the end surface of the base plate.

The beneficial effect of the utility model is that by adjusting the support assembly, the effect of supporting the cabinet body is achieved, which improves the stability of the cabinet body and solves the problem of poor stability of the boiler instrument cabinet, which affects the measurement accuracy of the instruments in the cabinet. In view of the above and/or existing problems of the temperature control device for insulated cabinet, the utility model is provided. So the problem to be solved by the utility model is that the cabinet door for the current boiler instrument cabinets in thermal power plants is opened, and the axial fan is used to blow directly on the instruments in the cabinet, with the furnace top by installing fins on the Insulating wall of the boiler in a large environment is cooled by convection of cold and hot air, but the above solutions are influenced by environmental factors and do not have an active cooling effect.

In order to solve the above technical problems, the utility model provides the following technical solutions: the temperature control device for insulating cabinet includes an insulating assembly and a cooling assembly, the insulating assembly comprising a cabinet body, a mounting bracket provided on the inner wall of the cabinet body, and a mounting bracket on the inner wall of the cabinet body provided temperature sensor includes, wherein the cooling arrangement on a Violet copper plate provided on one side of the cabinet body and a mounting plate provided on one side of the cabinet body.

As a preferred solution for the temperature control device of the utility model, the cabinet body includes a cabinet door provided on one side, a gasket provided on one side of the cabinet door, a mounting block provided on top of the cabinet body, and a hanging ring provided on top of the mounting block.

As a preferred solution for the temperature control device of the utility model, the mounting bracket includes a first mounting plate provided on the inner wall of the cabinet body, a second mounting plate provided on a side of the first mounting plate, and a sliding slot provided on the inner wall of the first mounting plate, wherein the second mounting plate has a mounting hole one side and a sliding block on the other side of the second mounting plate.

As a preferred solution for the temperature control device of the utility model, the violet copper plate includes a first bolt provided on the inner wall, a semiconductor cooling plate provided on one side of the violet copper plate, aluminum foil sheets provided on the other side of the violet copper plate, and heat-conducting copper tubes provided inside the aluminum foil sheet.

As a preferred solution for the temperature control device of the utility model, the mounting plate includes a second bolt provided on the inner wall and an axial fan provided on one side of the mounting plate.

The advantageous effect of the temperature control device of the utility model is that the heat inside the cabinet is dissipated by adjusting the insulation arrangement, through the semiconductor cooling plate for cabinet internal cooling, and through the effect of the purple copper plate and the heat-conducting copper pipes to achieve the effect of cooling the cabinet, thereby solving the problem of opening the cabinet door for the current boiler instrument cabinets in thermal power plants and using the axial fan to blow directly on the instruments in the cabinet, with the furnace top by installing louvers on the boiler insulation wall in one large environment is cooled by convection of cold and hot air, although the above solutions are influenced by environmental factors and do not have an active cooling effect.

characters

• 1 ist eine strukturelle Darstellung der Temperaturkontrolleinrichtung für Isolierschrank des Gebrauchsmusters;
• 2 ist eine Seitenansicht des Schrankkörpers der Temperaturkontrolleinrichtung für Isolierschrank des Gebrauchsmusters;
• 3 ist eine strukturelle Darstellung der Montagehalterung der Temperaturkontrolleinrichtung für Isolierschrank des Gebrauchsmusters;
• 4 ist eine strukturelle Darstellung der Kühlanordnung der Temperaturkontrolleinrichtung für Isolierschrank des Gebrauchsmusters;
• 5 ist eine strukturelle Darstellung der Verbindung zwischen der violetten Kupferplatte und dem Halbleiterkühlblech der Temperaturkontrolleinrichtung für Isolierschrank des Gebrauchsmusters;
• 6 ist eine strukturelle Darstellung des Stabilisierungsmechanismus des Gebrauchsmusters;
• 7 ist eine strukturelle Darstellung des Stützmechanismus des Stabilisierungsmechanismus des Gebrauchsmusters.

In order to more clearly illustrate the technical solution in the exemplary embodiments of the utility model, a brief description follows of the figures that must be used in the description of the exemplary embodiments, it being obvious that the figures in the following description are only examples of the utility model and other figures can be obtained based on the figures without any creative effort for general technical personnel. Where:

• 1 is a structural representation of the temperature control device for utility model insulated cabinet;
• 2 Fig. 10 is a side view of the cabinet body of the utility model insulated cabinet temperature control device;
• 3 is a structural representation of the mounting bracket of the temperature control device for utility model insulated cabinet;
• 4 is a structural representation of the cooling arrangement of the temperature control device for utility model insulated cabinet;
• 5 Fig. 10 is a structural illustration of the connection between the violet copper plate and the semiconductor heat sink of the utility model insulated cabinet temperature control device;
• 6 is a structural representation of the stabilization mechanism of the utility model;
• 7 is a structural representation of the support mechanism of the utility model's stabilization mechanism.

Specific Embodiments

In order to make the above-mentioned purpose, features and advantages of the utility model clearer and more understandable, the specific embodiments of the utility model are described in more detail below using the figures in the description.

Many specific details are set forth in the following description to facilitate a complete understanding of the utility model, but the utility model may be implemented in ways other than those described herein, and one skilled in the art may make similar extensions without contradicting the meanings of the utility model, so that the utility model is not limited by the specific embodiments described below.

Second, by “an embodiment” or “embodiment” herein is meant a particular feature, structure or property described in at least one embodiment of the utility model. The word “in one embodiment,” which appears in various places throughout this specification, does not all refer to the same embodiment, nor is it a separate or selective embodiment that mutually excludes other embodiments.

Example 1

In the 5 until 6 A third embodiment of the utility model is shown, which provides a stabilization mechanism, thereby solving the problem that the stability of the boiler instrument cabinet is poor, which affects the measurement accuracy of the instruments in the cabinet.

In particular, the support assembly 100 includes base plate 101 and connecting shafts 102 provided on the inner wall of the base plate 101.

In particular, a threaded rod 102a is provided on the inner wall of the connecting shaft 102.

In particular, a mounting block 102b is provided at the upper end of the threaded rod 102a, with a support disk 102d being provided at the lower end of the threaded rod 102a.

In particular, the connecting shaft 102 further includes a handle 102c disposed on top of the mounting block 102b.

Specifically, the four connecting shafts 102 are distributed on the end surface of the base plate 101. In summary, by adjusting the support assembly 100, the handle 102 rotates and drives the threaded rod 102a to rotate, thereby moving the support disk 102d downward so that the support disk 102d supports the floor to support the cabinet body 201 , thereby achieving the effect of supporting the cabinet body 201, improving the stability of the device.

It should be noted that the above exemplary embodiments only serve to illustrate the technical solutions of the utility model and do not limit them. Although the utility model is described in detail with reference to the better embodiments, it should be understood by those skilled in the art that the technical solutions of the utility model can be modified or equivalently replaced without departing from the spirit and scope of the technical solutions of the utility model should be covered by the claims of the utility model.

Embodiment 2

In 1 A first embodiment of the utility model is shown which provides a temperature control device for an insulated cabinet, wherein the temperature control device for an insulated cabinet includes an insulating assembly 200 and a cooling assembly 300.

In particular, the insulating arrangement 200 comprises a cabinet body 201, a mounting bracket 202 provided on the inner wall of the cabinet body 201 and a temperature sensor 203 provided on the inner wall of the cabinet body 201, the cooling arrangement 300 comprising a violet copper plate 301 provided on one side of the cabinet body 201 and a Mounting plate 302 provided on one side of the cabinet body 201.

Below, a mounting bracket 202 is provided in the cabinet body 201 to achieve the effect of quick assembly and disassembly of electrical instruments, and through the purple copper plate 301 attached to one side of the cabinet body 201, the effect of heat dissipation in the cabinet is achieved, thereby solving the problem of opening the cabinet door for the current boiler instrument cabinets in thermal power plants and using the axial fan to blow directly on the instruments in the cabinet, with the furnace top by installing louvers on the boiler insulation wall in one large environment is cooled by convection of cold and hot air, although the above solutions are influenced by environmental factors and do not have an active cooling effect.

In summary, by adjusting the insulation assembly 200 and the mounting bracket 202, the effect of quick assembly and disassembly of electrical instruments is achieved, and by adjusting the cooling mechanism and the effect of the purple copper plate 301, the effect of heat dissipation in the cabinet is achieved reached.

Example 3

In the 1 until 5 A third exemplary embodiment of the present utility model is shown, which is based on the second exemplary embodiment.

In particular, the cabinet body 201 includes a cabinet door 201a provided on one side and a mounting block 201b provided on top of the cabinet body 201, the cabinet door 201a including a gasket 201a-1 provided on one side, the mounting block 201b including a hanging ring 201b-1 provided thereon, wherein the mounting bracket 202 includes a first mounting plate 202a provided on the inner wall of the cabinet body 201, a second mounting plate 202b provided on one side of the first mounting plate 202a, the first mounting plate 202a comprising a sliding slot 202a-1 provided on the inner wall, the second mounting plate 202b a mounting hole 202b-1 on one side and a sliding block 202b-2 on the other side of the second mounting plate 202b.

The violet copper plate 301 includes a first bolt 301a provided on the inner wall, a semiconductor cooling plate 301b provided on one side of the violet copper plate 301, aluminum foil sheets 301c provided on the other side of the violet copper plate 301, and heat-conducting copper tubes 301d provided inside the aluminum foil sheet 301c, the mounting plate 302 includes a second bolt 302a provided on the inner wall and an axial fan 302b provided on one side of the mounting plate 302. In summary, the temperature sensor 203 is set by the temperature sensor 203 to the upper temperature limit when using the device, and when the internal temperature of the cabinet body 201 reaches the upper limit, the semiconductor heat sink 301b starts to work to control the temperature inside the cabinet body 201, the heat generated inside the cabinet body 201 is dissipated by the purple copper plate 301, the aluminum foil sheets 301c and heat-conducting copper pipes 301d, the heat of the aluminum foil sheets 301c is dissipated by the action of the axial fan 302b, thereby completing the complete heat exchange, and the seal inside the cabinet body 201 is improved by adjusting the gasket 201a-1.

Claims (10)

Stabilizing mechanism for insulating cabinet, characterized in that it comprises a support assembly (100), comprising base plate (101) and connecting shafts (102) provided on the inner wall of the base plate (101). Stabilization mechanism Claim 1 , characterized in that a threaded rod (102a) is provided on the inner wall of the connecting shaft (102). Stabilization mechanism Claim 2 , characterized in that a mounting block (102b) is provided at the upper end of the threaded rod (102a), with a support washer (102d) being provided at the lower end of the threaded rod (102a). Stabilization mechanism Claim 2 or 3 , characterized in that the connecting shaft (102) further comprises a handle (102c) disposed on top of the mounting block (102b). Stabilization mechanism Claim 4 , characterized in that the number of connecting shafts (102) is four, which are distributed on the end surface of the base plate (101). Temperature control device for insulating cabinet, characterized in that it is the temperature control device for insulating cabinet according to one of the Claims 1 until 5 ; an insulating arrangement (200), comprising a cabinet body (201) on the end surface of the base plate (101), a mounting bracket (202) provided on the inner wall of the cabinet body (201), and a temperature sensor (203) provided on the inner wall of the cabinet body (201). ) includes; and a cooling assembly (300), comprising a violet copper plate (301) provided on a side of the cabinet body (201) and a mounting plate (302) provided on a side of the cabinet body (201). Temperature control device for insulated cabinet Claim 5 , characterized in that the cabinet body (201) has a cabinet door (201a) provided on one side, a seal (201a-1) provided on one side of the cabinet door (201a), a mounting block (201b) provided on top of the cabinet body (201) and a suspension ring (201b-1) provided on top of the mounting block (201b). Temperature control device for insulated cabinet Claim 6 , characterized in that the mounting bracket (202) has a first fastening plate (202a) provided on the inner wall of the cabinet body (201), a second fastening plate (202b) provided on one side of the first fastening plate (202a) and one on the inner wall of the first fastening plate (202a) provided sliding slot (202a-1), wherein the second mounting plate (202b) has a mounting hole (202b-1) on one side and a sliding block (202b-2) on the other side of the second mounting plate (202b). Temperature control device for insulated cabinet Claim 6 , characterized in that the violet copper plate (301) has a first bolt (301a) provided on the inner wall, a semiconductor cooling plate (301b) provided on one side of the violet copper plate (301), and aluminum foil sheets provided on the other side of the violet copper plate (301). (301c) and heat-conducting copper tubes (301d) provided within the aluminum foil sheet (301c). Temperature control device for insulated cabinet Claim 9 , characterized in that the mounting plate (302) comprises a second bolt (302a) provided on the inner wall and an axial fan (302b) provided on one side of the mounting plate (302).

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