CN117812903B

CN117812903B - Intelligent government affair self-service terminal device

Info

Publication number: CN117812903B
Application number: CN202410222025.XA
Authority: CN
Inventors: 龚国贤; 谢静; 龚国涛; 刘洋; 高园
Original assignee: Yinglaide Technology Co ltd
Current assignee: Yinglaide Technology Co ltd
Priority date: 2024-02-28
Filing date: 2024-02-28
Publication date: 2024-05-17
Anticipated expiration: 2044-02-28
Also published as: CN117812903A

Abstract

The application relates to the field of terminal devices, and particularly discloses an intelligent government affair self-service terminal device, which comprises: the device comprises a box body, a server, an air outlet pipe, an air inlet pipe and a cooling module; the box body forms an inner cavity for installing the server; the side wall of the box body is embedded with an air outlet pipe and an air inlet pipe; the air outlet pipe and the air inlet pipe are positioned at two sides of the inner cavity and are oppositely arranged; the inner wall of the inner cavity is provided with a plurality of air outlet holes communicated with the air outlet pipe; the inner wall of the inner cavity forms a plurality of air suction holes communicated with the air inlet pipe; the cooling module consists of a cooling box arranged on the box body and communicated with the air outlet pipe and the air inlet pipe, and a cooling structure arranged in the cooling box and used for reducing the temperature of the air. The application has the effect of realizing internal circulation air cooling.

Description

Intelligent government affair self-service terminal device

Technical Field

The application relates to the field of terminal devices, in particular to an intelligent government affair self-service terminal device.

Background

With the development of society, more government service is handled on the internet by self-service equipment;

the related art is provided with a Chinese patent with the application number of CN202120543556.0, the heat dissipation mechanism comprises a water storage tank, a water suction pump, a water pipe A, a water pipe B and a copper pipe, wherein the water storage tank is arranged on one side of a fixed box body, the water suction pump is arranged at the top of the water storage tank, the water pipe A is arranged on one side of the water suction pump, one end of the water pipe A penetrates through the top of the water storage tank, two ends of the water pipe B are respectively communicated with the water suction pump and the copper pipe, the copper pipe is wound and arranged on the outer side of a machine case, and one end of the copper pipe is communicated with the water storage tank;

with respect to the related art in the above, the inventors consider that there are the following drawbacks: 1. the heat dissipation in the technology is realized by installing a water storage tank for water cooling, so that the production cost is increased in actual production; 2. the intelligent government service self-service terminal belongs to precise electronic equipment, a copper pipe is arranged on the outer side of a case in the technology, and condensed water is easily formed on the outer wall of the copper pipe due to the contact of the copper pipe and the heat in the case, so that the case is easily wet; 3. the copper pipe is only arranged on the outer wall of the case, so that the cooling effect is irrational and the cooling can be realized only by reducing the stability of the outer wall of the case.

Disclosure of Invention

In order to solve the problem of unsatisfactory cooling effect, the application provides an intelligent government affair self-service terminal device.

The intelligent government affair self-service terminal device provided by the application adopts the following technical scheme:

An intelligent government affair self-service terminal device, comprising: the device comprises a box body, a server, an air outlet pipe, an air inlet pipe and a cooling module;

The box body forms an inner cavity for installing the server; the side wall of the box body is embedded with an air outlet pipe and an air inlet pipe; the air outlet pipe and the air inlet pipe are positioned at two sides of the inner cavity and are oppositely arranged;

the inner wall of the inner cavity is provided with a plurality of air outlet holes communicated with the air outlet pipe; the inner wall of the inner cavity forms a plurality of air suction holes communicated with the air inlet pipe;

The cooling module consists of a cooling box arranged on the box body and communicated with the air outlet pipe and the air inlet pipe, and a cooling structure arranged in the cooling box and used for reducing the temperature of the air.

By adopting the technical scheme, the server is cooled by adopting an air cooling mode, so that the phenomenon that the internal precise instrument is wetted by the traditional water cooling mode can be effectively prevented; the cooling effect can be ensured to be realized under the condition of protecting the internal electronic equipment, and the mode is more suitable for cooling the electronic product.

Optionally, the side wall of the box body is concaved inwards to form an embedded groove for embedding the air outlet pipe and the air inlet pipe;

The air outlet pipes are distributed in a continuous U shape on the surface of the embedded groove, and the air outlet pipes are provided with horizontal parts parallel to the bottom of the inner cavity; wherein, a space exists between the horizontal parts where the air outlet pipes are positioned;

the air inlet pipes are distributed in a continuous U shape on the surface of the embedded groove, and the extending direction is opposite to the extending direction of the air outlet pipe;

The air inlet pipe forms a parallel part consistent with the air outlet pipe, and the parallel part on the air inlet pipe is positioned between two adjacent parallel parts on the air outlet pipe in the same plane.

By adopting the technical scheme, the air inlet pipe and the air outlet pipe are embedded on the inner wall of the box body, and the air flowing in the air inlet pipe and the air outlet pipe can cool the inner wall of the box body, so that the energy effect is reduced, and the cooling effect is improved; furthermore, it is provided that; the positions of the air outlet and the air inlet are staggered, and the paths of the air outlet and the air inlet are staggered when cooling, so that the cold air can be kept in the cavity for a longer period of time, and the cooling effect is improved.

Optionally, the air outlet holes are arranged on the surface of the parallel part on the air outlet pipe and are arranged in a straight line along the extending direction of the parallel part;

the air suction holes are arranged on the surface of the parallel part of the air inlet pipe and are arranged in a straight line along the extending direction of the parallel part;

Wherein, on the same plane, the air suction holes and the air outlet holes are arranged in a staggered way.

By adopting the technical scheme, the positions of the gas outlet and the gas suction are staggered, and the paths of the gas outlet and the gas suction are staggered when cooling; thus, cold air can be kept in the cavity in a staggered mode for a longer time, and the cooling effect is improved.

Optionally, the cooling box forms a cooling cavity, and the inner wall of the cooling cavity forms an outlet communicated with the air outlet pipe and an inlet communicated with the air inlet pipe;

The inlet and the outlet are arranged oppositely;

A refrigerant for cooling the gas is arranged in the cooling cavity;

Wherein, the cooling structure sets up in the cooling chamber.

By adopting the technical scheme, the refrigerant can cool the gas in the air suction pipe, so that the stability of the gas for cooling is always kept at a constant temperature; the effect of guaranteed cooling; the arrangement can realize the internal circulation of air, and can realize good cooling without exchanging with the outside air.

Optionally, the cooling structure includes: a driving shaft, an eccentric disc and a rotating ring;

The driving shaft is rotatably arranged at the center of the bottom of the cooling cavity; an eccentric disc is fixedly arranged on the driving shaft, and the axis of the eccentric disc and the axis of the driving shaft are horizontally arranged in the same plane; the outer wall of the eccentric disc is sleeved with a rotating ring; part of the outer wall of the rotating ring is abutted against the inner wall of the cooling cavity; the side wall of the rotating ring forms a sealing plate for isolating the passage between the inlet and the outlet;

wherein the rotating ring is formed to contain a refrigerant.

By adopting the technical scheme, the rotating ring is driven to eccentrically move by the rotating energy of the driving shaft, so that gas can flow in the cooling cavity; the flowing process is summarized and contacted with the refrigerant arranged in the rotating ring, so that the cooling treatment of the gas is realized during the exchange; thus realizing the internal circulation of air in the air cooling process; the existing box body is prevented from being provided with an opening which is connected with the outside, and internal circulation is realized; the dust outside is prevented from entering the cavity due to contact with the outside; thus, the dust-proof effect can be achieved.

Optionally, the side wall of the cooling box forms a moving part corresponding to the sealing plate;

The inner wall of the moving part is rotatably provided with a rotating block;

the sealing plate passes through the rotating block and moves in the moving part.

Optionally, a plurality of shutter plates are rotatably arranged on the inner wall of the inner cavity;

The shutter plates are arranged in a straight line along the height direction of the inner wall of the cavity;

gears are fixedly arranged at the ends of the shutter plates;

wherein, the inner cavity is movably provided with a rack meshed with the gear.

By adopting the technical scheme, when the gas is discharged and sucked, the louver plates can disperse the gas flow, so that the gas is more uniform when entering the cavity; meanwhile, the shutter plate is linked with the driving shaft, so that a power source is saved, and the linkage between parts is increased.

Optionally, an air pressure groove is formed at the bottom of the inner cavity, and the air pressure groove is communicated with the moving part;

The rack part is positioned in the air pressure groove, and the end part of the rack positioned in the air pressure groove is connected with the inner wall of the air pressure groove through a first elastic piece;

A piston block is arranged in the air pressure groove in a sliding way;

Wherein, the piston block is hinged with the end part of the sealing plate;

A plurality of air outlets are formed on the air outlet plate;

the air outlet corresponds to each shutter plate; the bottom of the box body is provided with a plurality of supporting feet;

The height of the support legs is larger than that of the cooling box; the box body can be far away from the ground through the arrangement, the ground is a position with lower temperature, and the refrigerating effect of the cooling box is better.

By adopting the technical scheme, the gear can be automatically driven to rotate when the driving shaft rotates, so that the linkage shutter plate can be automatically moved; therefore, the equipment can realize the flaring of the shutter plate and the internal circulation of the air flow only by setting one driving force, thereby reducing the energy consumption and saving the cost.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the air cooling of the server is realized, and the traditional water cooling is banned so that no moist phenomenon occurs;

2. The cooling structure is arranged, so that the air subjected to cooling treatment can be subjected to cooling treatment, and then the temperature of the air for cooling is kept constant, and the cooling effect is ensured;

3. the internal circulation realized by air cooling can avoid external dust from entering the cavity.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a left side view of an embodiment of the present application;

FIG. 3 is a right side view of an embodiment of the present application;

FIG. 4 is a partial block diagram of the present embodiment, mainly showing the distribution pattern of the gas outlet holes and the gas suction holes;

FIG. 5 is a partial construction view of the present embodiment, mainly showing installation views of the air outlet pipe and the air inlet pipe;

FIG. 6 is a block diagram of an air outlet plate in this embodiment;

FIG. 7 is a schematic diagram of a cooling structure in the present embodiment;

fig. 8 is a partial structural view of the present embodiment, mainly showing the structure of the gear and the rack.

Reference numerals: 1.2, inner cavity; 3. sealing door, 4, embedded groove, 5, air outlet pipe, 6, air inlet pipe, 7, air outlet hole; 8. an air suction hole; 9. horizontal part, 10, cooling module, 11, cooling box, 13, cooling cavity, 14, outlet, 15, inlet; 16. the device comprises a driving shaft, a 17 eccentric disc, a 18 rotating ring, a 19 sealing plate; 20. the movable part, the rotary block, the concave cavity, the shutter plate and the concave cavity are arranged in the hollow cavity, wherein the movable part, the rotary block, the concave cavity, the shutter plate and the concave cavity are respectively arranged at the positions of the movable part, the movable part and the concave cavity; 24. 26, a wind outlet plate; 27. 28, air pressure groove, 29, piston block; 30. 31, support legs; 32. and a server.

Detailed Description

The application is described in further detail below with reference to fig. 1-8.

The embodiment of the application discloses an intelligent government affair self-service terminal device. Referring to fig. 1 to 8, the smart government affair self-service terminal device includes: the cooling system comprises a box body 1, a server 32, an air outlet pipe 5, an air inlet pipe 6 and a cooling module 10;

The box body 1 forms an inner cavity 2 for installing the server 32, and a sealing door 3 is arranged at the opening of the inner cavity 2; specifically, two opposite outer wall surfaces of the box body 1 along the length direction are concavely formed into an embedded groove 4, and an air outlet pipe 5 and an air inlet pipe 6 are respectively paved on the surfaces of the embedded grooves 4 on two sides; more specifically, the inner walls of the two sides of the inner cavity 2 are respectively provided with an air outlet hole 7 communicated with the air outlet pipe 5 and an air suction hole 8 communicated with the air inlet pipe 6;

By adopting the technical scheme, the server 32 is cooled by adopting an air cooling mode, so that the phenomenon that the internal precise instrument is wetted by the traditional water cooling mode can be effectively prevented; the cooling effect can be ensured to be realized under the condition of protecting the internal electronic equipment, and the mode is more suitable for cooling the electronic product.

In some embodiments, the air outlet pipe 5 is distributed in a continuous U shape on the surface of the embedded groove 4 and is provided with a plurality of horizontal parts 9 parallel to the bottom of the inner cavity 2; wherein, the horizontal parts 9 formed by two adjacent air outlet pipes 5 have a space; the air inlet pipe 6 is also in continuous U-shaped distribution on the surface of the embedded groove 4, and the extending direction is opposite to the extending direction of the air outlet pipe 5; wherein, the air inlet pipe 6 also forms a parallel part consistent with the air outlet pipe 5; more specifically, the parallel parts on the air inlet pipe 6 are positioned between two adjacent parallel parts on the air outlet pipe 5 in the same plane;

By adopting the technical scheme, firstly, the air inlet pipe 6 and the air outlet pipe 5 are embedded on the inner wall of the box body 1, and the air flowing in the air inlet pipe 6 and the air outlet pipe 5 can cool the inner wall of the box body 1, so that the energy effect is reduced, and the cooling effect is improved; furthermore, it is provided that; the positions of the air outlet and the air inlet are staggered, and the paths of the air outlet and the air inlet are staggered when cooling, so that the cold air can be kept in the cavity for a longer period of time, and the cooling effect is improved.

Specifically, the air outlet holes 7 are arranged on the surface of the parallel part of the air outlet pipe 5 and are arranged in a straight line along the extending direction of the parallel part; the air suction holes 8 are arranged on the surface of the parallel part of the air inlet pipe 6 and are arranged in a straight line along the extending direction of the parallel part; wherein, on the same plane, the air suction holes 8 and the air outlet holes 7 are arranged in a staggered way;

through the arrangement of the structure, when the air outlet hole 7 sprays air, the spraying path is staggered with the air suction path of the air suction hole 8, so that the air can rotate for a longer time in the inner cavity 2, and the effect of the cooling server 32 is improved.

In a preferred embodiment, the bottom of the box 1 is provided with a cooling module 10 for cooling the gas in the gas inlet pipe 6, so that the gas of the cooling server 32 is always kept constant and stable; the cooling module 10 consists of a cooling box 11 which is arranged at the bottom of the box body 1 and is communicated with the air inlet pipe 6 and the air outlet pipe 5, and a cooling structure which is arranged in the cooling box 11;

In some embodiments, the cooling box 11 is circular and the surface is concave to form a circular cooling cavity 13; an outlet 14 communicated with the air outlet pipe 5 and an inlet 15 communicated with the air inlet pipe 6 are formed on the inner wall of the cooling cavity 13, and the outlet 14 and the inlet 15 are oppositely arranged; in particular, part of the inner walls of the outlet 14 and the inlet 15 extend tangentially to the side wall of the cooling chamber 13; the cooling structure comprises a refrigerant in the cooling cavity 13, and the gas enters the cooling box 11 and contacts with the refrigerant so as to cool the gas;

In another embodiment, the cooling structure further comprises: a driving shaft 16, an eccentric disc 17 and a rotating ring 18;

The bottom of the cooling cavity 13 is positioned at the center position and is rotatably provided with a driving shaft 16, and the driving shaft 16 is driven by an externally arranged motor; an eccentric disc 17 is fixedly arranged on the driving shaft 16, and the central axis of the eccentric disc 17 is horizontally arranged with the central axis of the driving shaft 16 so that the eccentric disc 17 eccentrically rotates along with the driving shaft 16; the outer wall of the eccentric disc 17 is provided with a rotating ring 18, and the inner wall of the rotating ring 18 is in sliding connection with the outer wall of the eccentric disc 17; wherein the outer wall portion of the side wall of the rotating ring 18 collides with the inner wall of the cooling chamber 13 when eccentrically rotating; more specifically, the side wall of the rotating ring 18 forms a sealing plate 19 separating the inlet 15 and the outlet 14; wherein the rotating ring 18 contains a refrigerant;

By adopting the technical scheme, the rotating energy of the driving shaft 16 is used to drive the rotating ring 18 to eccentrically move, so that gas can flow in the cooling cavity 13; the flowing process is summarized and is contacted with the refrigerant arranged in the rotary ring 18, so that the cooling treatment of the gas is realized during the exchange; thus realizing the internal circulation of air in the air cooling process; the existing box body 1 is prevented from being provided with an opening which is connected with the outside, and internal circulation is realized; the dust outside is prevented from entering the cavity due to contact with the outside; thus, the dust-proof effect can be achieved.

More specifically, the side wall of the cooling box 11 is located between the inlet 15 and the outlet 14 to form a moving portion 20 for moving the sealing plate 19; the inner wall of the moving part 20 is rotatably provided with a rotating block 21, and the sealing plate 19 passes through the rotating block 21 and moves in the moving part 20;

By the arrangement of the above structure, when the driving shaft 16 rotates, gas enters the cooling cavity 13 from the inlet 15; eccentric movement of the rotating ring 18 will squeeze the gas out of the outlet 14; during the flow, the refrigerant in the spin ring 18 reduces the temperature of the gas by contacting the side wall of the spin ring 18;

in another preferred embodiment, the cavity 2 is provided with an air outlet hole 7 and a concave surface portion of the air inlet to form a cavity 22; the side wall of the concave cavity 22 is rotatably provided with the shutter plates 23, and the shutter plates 23 are arranged in a straight line along the height extending direction of the concave cavity 22; specifically, the end parts of the shutter plates 23 are respectively provided with a gear 24, and the inner cavity 2 is also provided with a rack meshed with the gear 24; wherein, the inner wall of the inner cavity 2 is provided with an air outlet plate 26; a plurality of air outlets 27 are formed on the air outlet plate 26; the air outlet 27 corresponds to each shutter plate 23;

Specifically, the bottom of the case 1 forms an air pressure groove 28 communicating with the moving part 20; one end part of the rack is positioned in the air pressure groove 28, and the first elastic piece 30 and the bottom of the air pressure groove 28 are arranged; connecting; a piston block 29 is also arranged in the air pressure groove 28 in a sliding manner, and more specifically, the piston block 29 is hinged with the end part of the sealing plate 19; the sealing plate 19 moves in the moving part 20 when the driving shaft 16 rotates, and the piston block 29 is abutted to reciprocate while moving; then, air pressure is generated in the air pressure groove 28 to drive the rack to reciprocate, so that the shutter plate 23 can be driven to reciprocate; so that the gas from the gas outlet 7 can more uniformly enter the inner cavity 2; on the other hand, when the shutter plates 23 positioned at the air suction holes 8 are turned over, the wind direction can be changed before the air is sucked into the air suction holes 8, so that the gas rotates more uniformly in the inner periphery of the inner cavity 2, and the cooling effect on the server 32 is improved; by adopting the technical scheme, the louver plates 23 can disperse the air flow when the air is discharged and sucked, so that the air is more uniform when entering the cavity; and the shutter plate 23 is linked with the driving shaft 16, so that the power source is saved, and the linkage between the parts is increased.

In another preferred embodiment, four legs 31 are provided at the bottom of the case 1, the legs 31 being greater in height than the cooling box 11; such arrangement can make the case 1 far away from the ground, which is a position of lower temperature, and can make the refrigerating effect of the cooling box 11 better.

The implementation principle of the intelligent government affair self-service terminal device provided by the embodiment of the application is as follows: when the device is in use, the server 32 operates in the box 1; the motor drives the driving shaft 16 to start rotating, and drives the rotating ring 18 to eccentrically rotate along the inner wall of the cooling cavity 13 while rotating; during rotation, suction is carried out from the inlet 15, and then the gas is contacted with the refrigerant in the rotating ring 18 so as to cool the gas; then the eccentric movement of the rotary ring 18 extrudes gas into the outlet 14, and the outlet 14 is connected with the gas outlet pipe 5; at this time, the gas flows in the gas outlet pipe 5, and can be sprayed out into the inner cavity 2 through the gas outlet hole 7 to cool the server 32;

when the eccentric disc 17 rotates, the sealing plate 19 moves in the moving part 20 and drives the piston block 29 to move, so as to drive the rack to reciprocate and drive the shutter plate 23 to synchronously turn over; so that the gas at the gas outlet 7 can be dispersed into the inner cavity 2, and the cooling effect is improved. .

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. An wisdom government affair self-service terminal device, its characterized in that: comprising the following steps: the device comprises a box body, a server, an air outlet pipe, an air inlet pipe and a cooling module;

The box body forms an inner cavity for installing the server; the air outlet pipe and the air inlet pipe are embedded in the side wall of the box body; the air outlet pipe and the air inlet pipe are positioned at two sides of the inner cavity and are oppositely arranged;

The inner wall of the inner cavity is provided with a plurality of air outlet holes communicated with the air outlet pipe; the inner wall of the inner cavity is provided with a plurality of air suction holes communicated with the air inlet pipe;

the cooling module consists of a cooling box which is arranged on the box body and communicated with the air outlet pipe and the air inlet pipe, and a cooling structure which is arranged in the cooling box and used for reducing the temperature of gas;

The cooling box forms a cooling cavity, and the inner wall of the cooling cavity forms an outlet communicated with the air outlet pipe and an inlet communicated with the air inlet pipe;

The inlet and the outlet are arranged oppositely;

a refrigerant for cooling the gas is arranged in the cooling cavity;

wherein, the cooling structure is arranged in the cooling cavity;

The cooling structure comprises: a driving shaft, an eccentric disc and a rotating ring;

The driving shaft is rotatably arranged at the center of the bottom of the cooling cavity; an eccentric disc is fixedly arranged on the driving shaft, and the axis of the eccentric disc and the axis of the driving shaft are horizontally arranged in the same plane; the outer wall of the eccentric disc is sleeved with the rotating ring; part of the outer wall of the rotating ring is abutted against the inner wall of the cooling cavity; the side wall of the rotating ring forms a sealing plate for isolating a passage between the inlet and the outlet;

wherein the rotating ring is formed to contain a refrigerant.

2. The intelligent government self-service terminal device according to claim 1, wherein: the side wall of the box body is concaved inwards to form an embedded groove for embedding the air outlet pipe and the air inlet pipe;

the air inlet pipes are distributed in a continuous U shape on the surface of the embedded groove, and the extending direction of the air inlet pipes is opposite to the extending direction of the air outlet pipes;

The air inlet pipe is provided with a parallel part consistent with the air outlet pipe, and the parallel part on the air inlet pipe is positioned between two adjacent parallel parts on the air outlet pipe in the same plane.

3. The intelligent government self-service terminal device according to claim 2, wherein: the air outlet holes are arranged on the surface of the parallel part on the air outlet pipe and are arranged in a straight line along the extending direction of the parallel part;

4. The intelligent government self-service terminal device according to claim 1, wherein: the side wall of the cooling box forms a moving part corresponding to the sealing plate;

the inner wall of the moving part is rotatably provided with a rotating block;

the sealing plate passes through the rotating block and moves within the moving portion.

5. The intelligent government self-service terminal device according to claim 1, wherein: the inner wall of the inner cavity is rotatably provided with a plurality of shutter plates;

gears are fixedly arranged at the ends of the shutter plates;

wherein, the inner cavity is movably provided with a rack meshed with the gear.

6. The intelligent government self-service terminal device according to claim 5, wherein: the bottom of the inner cavity is provided with an air pressure groove which is communicated with the moving part;

a piston block is arranged in the air pressure groove in a sliding manner;

wherein the piston block is hinged with the end part of the sealing plate.

7. The intelligent government self-service terminal device according to claim 6, wherein: an air outlet plate is arranged on the inner wall of the inner cavity;

a plurality of air outlets are formed on the air outlet plate;

The air outlet corresponds to each shutter plate.

8. The intelligent government self-service terminal device according to claim 1, wherein: the bottom of the box body is provided with a plurality of supporting feet;

The height of the support legs is larger than that of the cooling box.