CN112129455A - Manometer shell that possesses heat dissipation function - Google Patents

Abstract

The invention discloses a pressure gauge shell with a heat dissipation function, which comprises a shell main body and an annular heat dissipation outer cover arranged outside the shell main body, wherein fan boxes are fixedly arranged on two sides of the heat dissipation outer cover, and heat dissipation fans are arranged inside the fan boxes; the shell main body comprises a front shell and a rear shell which are fixedly connected through a connecting piece, the outer surface of the front shell is provided with a dial groove, and two temperature sensors are fixedly mounted in the front shell; an air cavity is formed in the radiating outer cover, air holes are formed in the inner surface of the radiating outer cover, fixing columns are arranged on the inner surface of the radiating outer cover close to two sides of the radiating outer cover, and fixing grooves are formed in the outer portion of the shell main body; the top of shell main part is provided with the access pipe, the rear end surface fixed mounting of heat dissipation dustcoat has the master control case. The invention has the heat dissipation function and meets different use requirements of users.

Description

Manometer shell that possesses heat dissipation function

Technical Field

The invention relates to the field of pressure gauge shells, in particular to a pressure gauge shell with a heat dissipation function.

Background

The pressure gauge is a meter which takes an elastic element as a sensitive element and measures and indicates the pressure higher than the ambient pressure, is very commonly applied and almost extends to all the fields of industrial processes and scientific researches. The method is widely available in the fields of heating power pipe networks, oil and gas transmission, water and gas supply systems, vehicle maintenance plants and shops and the like. Especially in the industrial process control and technical measurement process, the elastic sensitive element of the mechanical pressure gauge has the characteristics of high mechanical strength, convenient production and the like, so that the mechanical pressure gauge is more and more widely applied, and the pressure gauge shell is used for installing the pressure gauge and protecting the pressure gauge so as to prevent the pressure gauge from being damaged.

The existing pressure gauge shell does not have a heat dissipation function, so that the pressure gauge is easy to damage because of the internal parts of the pressure gauge caused by overheating, certain influence is brought to the use of the pressure gauge shell, and therefore the pressure gauge shell with the heat dissipation function is provided.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current manometer shell, do not possess the heat dissipation function, lead to the manometer to damage because overheated inside spare part of manometer that leads to has brought the problem of certain influence for the use of manometer shell easily, provide a manometer shell that possesses the heat dissipation function.

The invention solves the technical problems through the following technical scheme that the fan box comprises a shell main body and an annular heat dissipation outer cover arranged outside the shell main body, wherein fan boxes are fixedly arranged on two sides of the heat dissipation outer cover, and heat dissipation fans are arranged inside the fan boxes;

the shell main body comprises a front shell and a rear shell which are fixedly connected through a connecting piece, the outer surface of the front shell is provided with a dial groove, and two temperature sensors are fixedly mounted in the front shell;

an air cavity is formed in the radiating outer cover, air holes are formed in the inner surface of the radiating outer cover, fixing columns are arranged on the inner surface of the radiating outer cover close to two sides of the radiating outer cover, and fixing grooves are formed in the outer portion of the shell main body;

the top end of the shell main body is provided with an access pipe, and the outer surface of the rear end of the heat dissipation outer cover is fixedly provided with a main control box;

a data receiving module, a data processing module and a master control module instruction sending module are arranged in the master control box;

the data receiving module is used for receiving first temperature information and second temperature information acquired by the two temperature sensors and long-time running information sent by the outside, and generating the first temperature information and the second temperature information to the data processing module, and the data processing module is used for processing the first temperature information, the second temperature information and the long-time running information after receiving the first temperature information, the second temperature information and the long-time running information, processing the first temperature information into first running information, processing the second temperature information into second running information, and processing the long-time running information into third running information;

the first operation information, the second operation information and the third operation information are sent to a master control module, and the master control module is used for converting the first operation information, the second operation information and the third operation information into a first operation instruction, a second operation instruction and a third operation instruction;

the first operation instruction, the second operation instruction and the third operation instruction are sent to the instruction sending module, the instruction sending module sends the first operation instruction to the cooling fan on one side, sends the second operation instruction to the cooling fan on the other side, and sends the third operation instruction to the two cooling fans at the same time.

Preferably, the connecting piece includes the connecting hole of seting up in the inside of procapsid and the outside spliced pole of fixed mounting at back casing, spliced pole threaded connection is in the inside of connecting hole.

Preferably, the outer surface of the fan box is provided with an air inlet, and a protective net is embedded in the air inlet.

Preferably, the fixing column comprises an outer column body and a top column inserted in the outer column body.

Preferably, a push-out spring is arranged at a position, close to one side, inside the outer cylinder, one end of the push-out spring is fixedly connected with the top column, and the other end of the push-out spring is fixedly connected with the inner wall of the outer cylinder.

Preferably, the air holes are communicated with the air cavities, the number of the air holes is a plurality of groups, and the air holes are symmetrically arranged in pairs.

Preferably, the specific processing procedure of the first operation information is as follows:

the method comprises the following steps: extracting first temperature information, and marking the first temperature information as K;

step two: acquiring first temperature information K once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting first temperature information K acquired each time according to a formula K1+ K2 … … + Kx ═ K_And；

step four: then by formula K_And/x＝K_{are all made of}Obtaining the temperature mean value K_{Are all made of}；

Step five: setting a temperature threshold K_Threshold(s)Calculating the temperature mean value K_{Are all made of}With a temperature threshold K_Threshold(s)The difference value of (A) is obtained as a temperature difference K_{Difference (D)}；

Step six: when the temperature difference K_{Difference (D)}And when the value is larger than the preset value, generating first operation information.

Preferably, the specific processing procedure of the second operation information is as follows:

the method comprises the following steps: extracting second temperature information, and marking the second temperature information as P;

step two: acquiring second temperature information P once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting the second temperature information P acquired each time according to a formula P1+ P2 … … + Px ═ P_And；

step four: then by the formula P_And/x＝P_{are all made of}Obtaining a temperature mean value P_{Are all made of}；

Step five: setting a temperature threshold P_Threshold(s)Calculating the temperature mean value P_{Are all made of}With a temperature threshold value P_Threshold(s)Difference of (D) to obtain a temperature difference P_{Difference (D)}；

Step six: when the temperature difference P_{Difference (D)}And when the value is larger than the preset value, generating second operation information.

Preferably, the specific processing procedure of the third operation information is as follows: after receiving the long-time operation information, extracting first temperature information and second temperature information, and generating third operation information when any first temperature in the first temperature information or the second temperature information exceeds a preset temperature;

and the third operation information is converted into a third operation instruction and then is simultaneously sent to the two cooling fans, and the two cooling fans simultaneously operate to dissipate heat after receiving the third operation instruction.

Compared with the prior art, the invention has the following advantages:

1. according to the pressure meter shell with the heat dissipation function, the heat dissipation outer cover is arranged, the heat dissipation fan is arranged in the fan box on the heat dissipation outer cover, and the heat dissipation fan can convey air into the air holes from the air cavity and then flow into the outer surface of the shell main body from the air holes in operation, so that the shell main body is dissipated by accelerating the air flow speed of the outer surface of the shell main body, the shell main body can be stably dissipated, and the shell has the heat dissipation function;

2. meanwhile, temperature information in the shell main body is monitored in real time through the temperature sensors, the temperature information is collected through the two temperature sensors, the received temperature information is processed, when the temperature information exceeds a preset value, first operation information, second operation information and third operation information are generated to control different cooling fans to operate, the shell can stably cool, and meanwhile waste of electric energy and loss of equipment caused by the fact that the cooling fans still operate when heat dissipation is not needed are avoided.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall view of the main body of the housing of the present invention;

FIG. 3 is a view of the combination of the housing body and the heat-dissipating cover of the present invention;

FIG. 4 is a view of the connection of the housing body and the heat-dissipating housing of the present invention;

FIG. 5 is a view of the overall structure of the anchor post of the present invention;

FIG. 6 is a block diagram of the master control box of the present invention.

In the figure: 1. a housing main body; 11. a front housing; 12. a rear housing; 13. connecting holes; 14. connecting columns; 15. a dial plate groove; 2. a heat dissipation housing; 21. a wind cavity; 22. a wind hole; 3. a fan box; 31. an air inlet; 32. a protective net; 4. a temperature sensor; 5. fixing a column; 51. an outer cylinder; 52. a top pillar; 53. ejecting a spring; 6. a heat radiation fan; 7. a master control box; 8. fixing grooves; 9. and (6) accessing the pipe.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 6, the present embodiment provides a technical solution: a pressure gauge shell with a heat dissipation function comprises a shell main body 1 and an annular heat dissipation outer cover 2 arranged outside the shell main body 1, wherein fan boxes 3 are fixedly arranged on two sides of the heat dissipation outer cover 2, and heat dissipation fans 6 are arranged inside the fan boxes 3;

the annular radiating outer cover 2 is arranged outside the shell main body 1, and is also provided with a fan box 3, and a radiating fan 6 in the fan box 3 operates to radiate the shell main body 1;

the shell body 1 comprises a front shell body 11 and a rear shell body 12 which are fixedly connected through a connecting piece, a dial groove 15 is arranged on the outer surface of the front shell body 11, and two temperature sensors 4 are fixedly arranged in the front shell body 11;

the connecting piece comprises a connecting hole 13 arranged in the front shell body 11 and a connecting column 14 fixedly arranged outside the rear shell body 12, and the connecting column 14 is in threaded connection with the inside of the connecting hole 13;

the two temperature sensors 4 are used for monitoring temperature information inside the front shell 11, and the front shell 11 and the rear shell 12 are arranged in a split manner, so that a user can conveniently install a pressure gauge inside the front shell 11 and the rear shell 12, and a connecting column 14 is connected to the inside of the connecting hole 13 in a threaded manner, so that the user can further conveniently connect the front shell 11 and the rear shell 12;

an air cavity 21 is formed in the heat dissipation outer cover 2, air holes 22 are formed in the inner surface of the heat dissipation outer cover 2, fixing columns 5 are arranged on the inner surface of the heat dissipation outer cover 2 close to two sides of the inner surface, and fixing grooves 8 are formed in the outer portion of the shell main body 1;

the air cavity 21 is used for guiding air, the air hole 22 is used for supplying air, and the fixing column 5 on the heat dissipation outer cover 2 is clamped into the fixing groove 8 outside the shell main body 1 to stably fix the heat dissipation outer cover 2;

the fixing post 5 comprises an outer post body 51 and a top post 52 inserted in the outer post body 51.

An ejection spring 53 is arranged in the outer cylinder 51 at a position close to one side, one end of the ejection spring 53 is fixedly connected with the ejection column 52, and the other end of the ejection spring 53 is fixedly connected with the inner wall of the outer cylinder 51.

The ejector spring 53 ejects the ejector 52 from the outer cylinder 51 to fix the heat dissipation cover 2 to the case main body 1.

The top end of the shell main body 1 is provided with an access pipe 9, and the outer surface of the rear end of the heat dissipation outer cover 2 is fixedly provided with a main control box 7;

the access pipe 9 is used for connecting with an external pressure pipe, and the main control box 7 is used for controlling the cooling fan 6;

a data receiving module, a data processing module and a master control module instruction sending module are arranged in the master control box 7;

the data receiving module is used for receiving first temperature information and second temperature information acquired by the two temperature sensors 4 and long-time running information sent by the outside, and generating the first temperature information and the second temperature information to the data processing module, and the data processing module processes the first temperature information, the second temperature information and the long-time running information after receiving the first temperature information, the second temperature information and the long-time running information, processes the first temperature information into first running information, processes the second temperature information into second running information, and processes the long-time running information into third running information;

the first operation information, the second operation information and the third operation information are sent to the master control module, and the master control module is used for converting the first operation information, the second operation information and the third operation information into a first operation instruction, a second operation instruction and a third operation instruction;

the first operation instruction, the second operation instruction and the third operation instruction are sent to the instruction sending module, the instruction sending module sends the first operation instruction to the cooling fan 6 on one side, sends the second operation instruction to the cooling fan 6 on the other side, and sends the third operation instruction to the two cooling fans 6 at the same time.

An air inlet 31 is formed in the outer surface of the fan box 3, and a protective net 32 is embedded in the air inlet 31.

The wind holes 22 are communicated with the wind cavity 21, the number of the wind holes 22 is a plurality of groups, and the wind holes 22 are symmetrically arranged in pairs.

The specific processing procedure of the first operation information is as follows:

the method comprises the following steps: extracting first temperature information, and marking the first temperature information as K;

step two: acquiring first temperature information K once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting first temperature information K acquired each time according to a formula K1+ K2 … … + Kx ═ K_And；

step four: then by formula K_And/x＝K_{are all made of}Obtaining the temperature mean value K_{Are all made of}；

Step five: setting a temperature threshold K_Threshold(s)Calculating the temperature mean value K_{Are all made of}With a temperature threshold K_Threshold(s)The difference value of (A) is obtained as a temperature difference K_{Difference (D)}；

Step six: when the temperature difference K_{Difference (D)}And when the value is larger than the preset value, generating first operation information.

The specific processing procedure of the second operation information is as follows:

the method comprises the following steps: extracting second temperature information, and marking the second temperature information as P;

step two: acquiring second temperature information P once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting the second temperature information P acquired each time according to a formula P1+ P2 … … + Px ═ P_And；

step four: then by the formula P_And/x＝P_{are all made of}Obtaining a temperature mean value P_{Are all made of}；

Step five: setting a temperature threshold P_Threshold(s)Calculating the temperature mean value P_{Are all made of}With a temperature threshold value P_Threshold(s)Is obtained as a temperatureDifference P_{Difference (D)}；

Step six: when the temperature difference P_{Difference (D)}And when the value is larger than the preset value, generating second operation information.

The specific processing procedure of the third operation information is as follows: after receiving the long-time operation information, extracting first temperature information and second temperature information, and generating third operation information when any first temperature in the first temperature information or the second temperature information exceeds a preset temperature;

the third operation information is converted into a third operation instruction and then simultaneously transmitted to the two cooling fans 6, and the two cooling fans 6 simultaneously operate to dissipate heat after receiving the third operation instruction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (9)

1. The pressure gauge shell with the heat dissipation function is characterized by comprising a shell main body (1) and an annular heat dissipation outer cover (2) arranged outside the shell main body (1), wherein fan boxes (3) are fixedly arranged on two sides of the heat dissipation outer cover (2), and heat dissipation fans (6) are arranged inside the fan boxes (3);

the shell main body (1) comprises a front shell (11) and a rear shell (12) which are fixedly connected through a connecting piece, a dial groove (15) is formed in the outer surface of the front shell (11), and two temperature sensors (4) are fixedly mounted in the front shell (11);

an air cavity (21) is formed in the heat dissipation outer cover (2), air holes (22) are formed in the inner surface of the heat dissipation outer cover (2), fixing columns (5) are arranged on the inner surface of the heat dissipation outer cover (2) close to two sides of the inner surface of the heat dissipation outer cover, and fixing grooves (8) are formed in the outer portion of the shell main body (1);

an access pipe (9) is arranged at the top end of the shell main body (1), and a main control box (7) is fixedly arranged on the outer surface of the rear end of the heat dissipation outer cover (2);

a data receiving module, a data processing module and a master control module instruction sending module are arranged in the master control box (7);

the data receiving module is used for receiving first temperature information and second temperature information acquired by the two temperature sensors (4) and long-time running information sent by the outside, and generating the first temperature information and the second temperature information to the data processing module, and the data processing module is used for processing the first temperature information, the second temperature information and the long-time running information after receiving the first temperature information, the second temperature information and the long-time running information, processing the first temperature information into first running information, processing the second temperature information into second running information, and processing the long-time running information into third running information;

the first operation information, the second operation information and the third operation information are sent to a master control module, and the master control module is used for converting the first operation information, the second operation information and the third operation information into a first operation instruction, a second operation instruction and a third operation instruction;

the first operation instruction, the second operation instruction and the third operation instruction are sent to the instruction sending module, the instruction sending module sends the first operation instruction to the cooling fan (6) on one side, sends the second operation instruction to the cooling fan (6) on the other side, and sends the third operation instruction to the two cooling fans (6) at the same time.

2. The pressure gauge housing with the heat dissipation function of claim 1, wherein: the connecting piece is including offering connecting hole (13) and the spliced pole (14) of fixed mounting outside rear housing (12) in front casing (11) inside, spliced pole (14) threaded connection is in the inside of connecting hole (13).

3. The pressure gauge housing with the heat dissipation function of claim 1, wherein: an air inlet (31) is formed in the outer surface of the fan box (3), and a protective net (32) is embedded in the air inlet (31).

4. The pressure gauge housing with the heat dissipation function of claim 1, wherein: the fixing column (5) comprises an outer column body (51) and a top column (52) inserted in the outer column body (51).

5. The pressure gauge housing with the heat dissipation function of claim 4, wherein: an ejection spring (53) is arranged at a position, close to one side, in the outer cylinder (51), one end of the ejection spring (53) is fixedly connected with the ejection column (52), and the other end of the ejection spring (53) is fixedly connected with the inner wall of the outer cylinder (51).

6. The pressure gauge housing with the heat dissipation function of claim 1, wherein: the air holes (22) are communicated with the air cavity (21), the number of the air holes (22) is a plurality of groups, and the air holes (22) are symmetrically arranged in pairs.

7. The pressure gauge housing with the heat dissipation function of claim 1, wherein: the specific processing procedure of the first operation information is as follows:

the method comprises the following steps: extracting first temperature information, and marking the first temperature information as K;

step two: acquiring first temperature information K once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting first temperature information K acquired each time according to a formula K1+ K2 … … + Kx ═ K_And；

step four: then by formula K_And/x＝K_{are all made of}Obtaining the temperature mean value K_{Are all made of}；

Step five: setting a temperature threshold K_Threshold(s)Calculating the temperature mean value K_{Are all made of}With a temperature threshold K_Threshold(s)The difference value of (A) is obtained as a temperature difference K_{Difference (D)}；

Step six: when the temperature difference K_{Difference (D)}And when the value is larger than the preset value, generating first operation information.

8. The pressure gauge housing with the heat dissipation function of claim 1, wherein:

the specific processing procedure of the second operation information is as follows:

the method comprises the following steps: extracting second temperature information, and marking the second temperature information as P;

step two: acquiring second temperature information P once every preset time, and continuously acquiring x times, wherein x is more than or equal to 3;

step three: extracting the second temperature information P acquired each time according to a formula P1+ P2 … … + Px ═ P_And；

step four: then by the formula P_And/x＝P_{are all made of}Obtaining a temperature mean value P_{Are all made of}；

Step five: setting a temperature threshold P_Threshold(s)Calculating the temperature mean value P_{Are all made of}With a temperature threshold value P_Threshold(s)Difference of (D) to obtain a temperature difference P_{Difference (D)}；

Step seven: when the temperature is highDegree difference P_{Difference (D)}And when the value is larger than the preset value, generating second operation information.

9. The pressure gauge housing with the heat dissipation function of claim 1, wherein: the specific processing procedure of the third running information is as follows: after receiving the long-time operation information, extracting first temperature information and second temperature information, and generating third operation information when any first temperature in the first temperature information or the second temperature information exceeds a preset temperature;

and the third operation information is converted into a third operation instruction and then is simultaneously sent to the two cooling fans (6), and the two cooling fans (6) simultaneously operate to dissipate heat after receiving the third operation instruction.

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