CN214852408U - MOS pipe digital integrated circuit device - Google Patents

Abstract

The utility model provides a MOS manages digital integrated circuit device belongs to MOS pipe digital integrated circuit technical field, include: loading case, top cap, connecting pipe, cooler bin, first raceway, mounting panel, header tank, spiral pipe, first fan, second raceway, manger plate mechanism, intake pipe and second fan. The utility model provides a MOS manage that present loading of digital integrated circuit case heat dispersion is poor, cause the higher problem of temperature in the whole MOS manages digital integrated circuit device internal environment.

Description

MOS pipe digital integrated circuit device

The technical field is as follows:

the utility model belongs to the technical field of MOS manages digital integrated circuit, concretely relates to MOS manages digital integrated circuit device.

Background art:

a MOS transistor digital integrated circuit is a circuit in which carriers are conductive.

The MOS tube digital integrated circuit emits heat during working, and the temperature in the internal environment of the whole MOS tube digital integrated circuit device is higher due to poor heat dissipation performance of the existing loading box, so that the normal work and the service life of the MOS tube digital integrated circuit are influenced.

The utility model has the following contents:

the utility model provides a MOS manages digital integrated circuit device, it is poor to have solved the current case heat dispersion that loads of MOS pipe digital integrated circuit, causes the higher problem of temperature in the whole MOS pipe digital integrated circuit device internal environment.

The utility model provides a MOS manages digital integrated circuit device, include:

the loading box is used for loading the MOS tube digital integrated circuit board, the top end of the loading box is opened, and gas outlet channels communicated with the heat dissipation area of the MOS tube digital integrated circuit board in the loading box are arranged in the box walls on two sides of the loading box;

a top cap having a reservoir chamber therein;

two ends of the connecting pipe respectively extend into the air outlet channels of the box walls on the two sides of the loading box;

a cooling box located within the loading box;

the upper end and the lower end of the first water delivery pipe are respectively connected with the liquid storage cavity of the top cover and the cooling box;

a mounting plate arranged laterally, the mounting plate being fixed to a rear wall of the loading box and located below the cooling box;

a water collection tank fixed to a rear wall of the loading tank and located below the mounting plate;

a spiral pipe wound around the cooling tank and extending in a vertical direction, the upper end of the spiral pipe being connected to the middle portion of the connection pipe and communicating with the inner space of the connection pipe, the lower end of the spiral pipe being connected to the water collection tank;

a first fan installed in an upper end portion of the spiral pipe;

the upper end and the lower end of the second water conveying pipe are respectively connected with the cooling tank and the water collecting tank;

the water retaining mechanism is used for controlling the liquid in the second water conveying pipe to flow in and out, and is arranged on the second water conveying pipe;

the upper end of the air inlet pipe extends into the lower end part of the spiral pipe, and the lower end of the air inlet pipe extends to the lower part of the water collecting tank; and

the second fan is arranged on the air inlet pipe;

the spiral pipe and the cooling box are both made of heat conducting materials.

Furthermore, a movable groove which is communicated with one side is formed in the mounting plate, the water retaining mechanism comprises a spring, a movable rod, a fixed plate, a water retaining plate and a movable baffle plate, one end of the movable rod is connected with the water retaining plate, the other end of the movable rod extends out of the loading box from the movable groove, the movable rod penetrates through the inner ring of the spring and the fixed plate, the fixed plate is fixed in the movable groove of the mounting plate, one end of the spring is fixedly connected with the fixed plate, and the movable baffle plate is fixedly sleeved on the front end of the movable rod;

operating the movable rod to enable the water baffle to extend to be in contact with the left side wall in the second water delivery pipe, wherein the water baffle blocks the flow of liquid in the second water delivery pipe, and the spring is in a normal state;

and operating the movable rod to enable the water baffle to extend to a position keeping a distance with the left side wall in the second water delivery pipe, wherein at the moment, the water baffle cannot block the flow of the liquid in the second water delivery pipe, and the spring is in a compressed state.

Further, the lower end of the air inlet pipe is connected with an air suction cover.

Further, the part of the spiral pipe, which is in contact with the wall of the cooling box, is provided with a notch.

Furthermore, the top cover is provided with a water inlet communicated with the liquid storage cavity, and the water inlet is clamped with a sealing plug.

Further, the spiral tube and the cooling box are both made of an iron material.

The utility model adopts the first fan and the second fan to form wind power, the hot air in the loading box is conveyed to the spiral pipe from the air inlet pipe, the hot air in the spiral pipe transfers heat to the cooling liquid in the cooling box through the spiral pipe to complete heat exchange, the part of gas is transferred to the air outlet channel and returns to the loading box again through the air outlet channel, in the process, the temperature is reduced by adopting the water cooling and heat exchange modes and the circulation temperature reduction is met, the heat dissipation requirement of the MOS pipe digital integrated circuit board is met, the liquefied water in the spiral pipe enters the water collecting box along the spiral pipe wall, the cooling liquid with higher temperature after being heated in the cooling box also enters the water collecting box for storage, the liquefied water in the spiral pipe is prevented from being leaked to the circuit board to damage the circuit board and the cooling liquid in the cooling box from being heated to be heated, if the temperature of the cooling liquid is not raised, the heat transfer effect is reduced, the cooling liquid stored in the liquid storage cavity in the top cover can be used by the cooling box, the service time of the cooling box is prolonged, and the problem that the MOS tube digital integrated circuit device needs to be disassembled and assembled due to the replacement of cooling liquid in the cooling box is avoided, so that the normal work of a circuit board of the MOS tube digital integrated circuit device is influenced; the utility model discloses MOS manages digital integrated circuit device has solved MOS pipe digital integrated circuit and has loaded the case heat dispersion current poor, causes the higher problem of temperature in the whole MOS pipe digital integrated circuit device internal environment.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Description of the drawings:

the accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic structural view of the water blocking mechanism;

reference numerals: 10. a loading bin; 101. an air outlet channel; 20. a top cover; 201. a reservoir chamber; 202. a water inlet hole; 30. a connecting pipe; 40. a cooling tank; 50. a first water delivery pipe; 60. mounting a plate; 601. a movable groove; 70. a water collection tank; 80. a spiral tube; 90. a first fan; 100. a second water delivery pipe; 110. a water retaining mechanism; 1101. a spring; 1102. a movable rod; 1103. a fixing plate; 1104. a water baffle; 1105. a movable baffle; 120. an air inlet pipe; 130. a second fan; 140. an air intake cover; 150. and sealing the plug.

The specific implementation mode is as follows:

in order to make the technical solution of the present invention's purpose, technical solution and advantages clearer, the following description will be combined with the drawings of the specific embodiments of the present invention, to carry out clear and complete description on the technical solution of the embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-2, the present embodiment provides a MOS transistor digital integrated circuit device, including: the water cooling system comprises a loading box 10, a top cover 20, a connecting pipe 30, a cooling box 40, a first water conveying pipe 50, a mounting plate 60, a water collecting tank 70, a spiral pipe 80, a first fan 90, a second water conveying pipe 100, a water retaining mechanism 110, an air inlet pipe 120 and a second fan 130.

The loading box 10 is used for loading the MOS transistor digital integrated circuit board, and the MOS transistor digital integrated circuit is arranged on the whole MOS transistor digital integrated circuit board.

The top end of the loading box 10 is open, and the two side walls are provided with air outlet channels 101 communicated with the MOS tube digital integrated circuit board heat dissipation area inside the loading box 10.

The top cover 20 has a reservoir chamber 201 therein.

Two ends of the connecting pipe 30 extend into the air outlet channels 101 of the two side box walls of the loading box 10 respectively;

the cooling box 40 is located inside the loading box 10, and the cooling box 40 may be fixed on a rear wall of the loading box 10.

The upper end and the lower end of the first water pipe 50 are respectively connected with the liquid storage chamber 201 of the top cover 20 and the cooling box 40.

The mounting plate 60 is disposed laterally, and the mounting plate 60 is fixed to the rear wall of the loading compartment 10 and below the cooling compartment 40.

The water collection tank 70 is fixed on the rear wall of the loading tank 10 below the mounting plate 60.

The spiral pipe 80 is wound on the cooling tank 40 and extends in a vertical direction, the upper end of the spiral pipe 80 is connected with the middle portion of the connection pipe 30 and the inner space of the connection pipe is communicated with the inner space of the connection pipe, and the lower end of the spiral pipe 80 is connected with the water collection tank 70.

The first fan 90 is installed in the upper end portion of the spiral duct 80.

The upper end and the lower end of the second water pipe 100 are respectively connected with the cooling tank 40 and the water collecting tank 70, and the second water pipe 100 is a square pipe.

The water blocking mechanism 110 is used for controlling the liquid in the second water pipe 100 to enter and exit, and the water blocking mechanism 110 is installed on the second water pipe 100.

The upper end of the intake pipe 120 extends into the lower end portion of the spiral pipe 80 and the lower end extends below the water collection tank 70.

The second fan 130 is installed on the intake duct 120.

The coil 80 and the cooling tank 40 are made of a heat conductive material.

The cooling box 40 and the top cover 20 are filled with low-temperature cooling liquid, the cooling liquid can be water, the first fan 90 and the second fan 130 are started, hot air in the loading box 10 enters the spiral pipe 80 through the air inlet pipe 120, heat of the hot air is transferred to the cooling liquid of the cooling box 40 through the spiral pipe 80, the cooled air enters the air outlet channel 101 through the connecting pipe 30 and reenters the loading box 10 through the air outlet channel 101, after the temperature of the cooling liquid in the cooling tank 40 is raised through heat exchange, the cooling liquid in the cooling tank needs to be replaced, the water blocking mechanism 110 maintains the second water pipe 100 in an open state, the cooling liquid in the cooling tank 40 enters the water collecting tank 70 from the second water pipe 100, and the cooling liquid in the liquid storage chamber 201 of the loading box 10 enters the water collecting tank 70 through the first water conveying pipe 50, and the second water conveying pipe 100 is maintained in a closed state through the water blocking mechanism 110.

Furthermore, a movable groove 601 penetrating through one side is formed in the mounting plate 60, the water blocking mechanism 110 comprises a spring 1101, a movable rod 1102, a fixed plate 1103, a water blocking plate 1104 and a movable baffle 1105, one end of the movable rod 1102 is connected with the water blocking plate 1104, the other end of the movable rod 1102 extends out of the loading box 10 from the movable groove 601, the movable rod 1102 penetrates through the inner ring of the spring 1101 and the fixed plate 1103, the fixed plate 1103 is fixed in the movable groove 601 of the mounting plate 60, one end of the spring 1101 is fixedly connected with the fixed plate 1103, and the movable baffle 1105 is sleeved and fixed at the front end of the movable rod 1102;

the movable rod 1102 is operated to extend the water baffle 1104 to contact with the left side wall in the second water pipe 100, at this time, the water baffle 1104 blocks the flow of the liquid in the second water pipe 100, and the spring 1101 is in a normal state;

the movable rod 1102 is operated to extend the water baffle 1104 to a position spaced apart from the left side wall in the second water pipe 100, at this time, the water baffle 1104 cannot block the flow of the liquid in the second water pipe 100, the movable baffle 1105 compresses the spring 1101, the spring 1101 is in a compressed state, the movable rod 1102 is released, and the movable rod 1102 returns to the original position under the restoring force of the spring 1101.

The water retaining mechanism 110 is simple in structure and convenient and fast to operate.

Further, an intake cover 140 is connected to a lower end of the intake duct 120, and the intake cover 140 increases a coverage of intake air of the intake duct 120.

Further, the contact part of the spiral pipe 80 and the wall of the cooling box 40 forms a gap, so that the contact thickness of the spiral pipe 80 and the cooling box 40 is reduced, and the heat exchange transmission efficiency is enhanced.

Further, the top cover 20 is provided with a water inlet 202 communicated with the liquid storage chamber 201, the water inlet 202 is connected with a sealing plug 150 in a clamping manner, and the sealing plug 150 is opened to facilitate the injection of liquid into the liquid storage chamber 201.

Further, the coil 80 and the cooling box 40 are made of a ferrous material.

The utility model adopts the first fan 90 and the second fan 130 to form wind power, the hot air in the loading box 10 is conveyed to the spiral pipe 80 from the air inlet pipe 120, the hot air in the spiral pipe 80 transfers heat to the cooling liquid in the cooling box 40 through the spiral pipe 80 to complete heat exchange, the part of gas is transferred to the air outlet channel 101 and returns to the loading box 10 again through the air outlet channel 101, in the process, the cooling is realized by adopting the water cooling and heat exchange modes, and the circulating cooling meets the heat dissipation requirement of the MOS tube digital integrated circuit board, the liquefied water in the spiral pipe 80 enters the water collecting box 70 along the wall of the spiral pipe 80, the cooling liquid with higher temperature after being heated in the cooling box 40 also enters the water collecting box 70 to store, the liquefied water in the spiral pipe 80 is prevented from being omitted to the circuit board to damage the circuit board, and the heat transfer effect is prevented from being deteriorated if the heating temperature of the cooling liquid in the cooling box 40 is not discharged, the cooling liquid stored in the liquid storage cavity 201 in the top cover 20 can be used by the cooling box 40, so that the service time of the cooling box 40 is prolonged, and the problem that the MOS tube digital integrated circuit device needs to be disassembled and assembled due to the replacement of the cooling liquid in the cooling box 40 is avoided, and the normal work of a circuit board of the MOS tube digital integrated circuit device is influenced; the utility model discloses MOS manages digital integrated circuit device has solved that MOS manages digital integrated circuit current loading case 10 heat dispersion is poor, causes the higher problem of temperature in the whole MOS manages digital integrated circuit device internal environment.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the technical means, but also comprises the technical scheme consisting of the equivalent replacement of the technical features. The present invention is not to be considered as the best thing, and belongs to the common general knowledge of the technicians in the field.

Claims (6)

1. A MOS transistor digital integrated circuit device, comprising:

the loading box (10) is used for loading the MOS tube digital integrated circuit board, the top end of the loading box (10) is opened, and an air outlet channel (101) communicated with a heat dissipation area of the MOS tube digital integrated circuit board in the loading box (10) is arranged in the box walls on two sides;

a cap (20) having a reservoir chamber (201) therein;

the two ends of the connecting pipe (30) extend into the air outlet channels (101) of the box walls on the two sides of the loading box (10) respectively;

a cooling box (40) located within the loading box (10);

the upper end and the lower end of the first water delivery pipe (50) are respectively connected with the liquid storage cavity (201) of the top cover (20) and the cooling box (40);

a mounting plate (60) arranged laterally, the mounting plate (60) being fixed to a rear wall of the loading box (10) and located below the cooling box (40);

a water collection tank (70) fixed to a rear wall of the loading tank (10) and located below the mounting plate (60);

a spiral pipe (80) wound around the cooling tank (40) and extending in a vertical direction, an upper end of the spiral pipe (80) being connected to a middle portion of the connection pipe (30) and an inner space of the connection pipe being communicated with each other, and a lower end of the spiral pipe (80) being connected to the water collection tank (70);

a first fan (90) installed in an upper end portion of the spiral pipe (80);

the upper end and the lower end of the second water conveying pipe (100) are respectively connected with the cooling tank (40) and the water collecting tank (70);

the water retaining mechanism (110) is used for controlling the liquid in the second water conveying pipe (100) to enter and exit, and the water retaining mechanism (110) is installed on the second water conveying pipe (100);

an intake pipe (120) having an upper end extended into a lower end portion of the spiral pipe (80) and a lower end extended below the header tank (70); and

a second fan (130) mounted on the intake duct (120);

the coil (80) and the cooling box (40) are both made of a heat conductive material.

2. The MOS transistor digital integrated circuit device of claim 1, wherein: the water retaining mechanism is characterized in that a movable groove (601) which is communicated with one side is formed in the mounting plate (60), the water retaining mechanism (110) comprises a spring (1101), a movable rod (1102), a fixing plate (1103), a water retaining plate (1104) and a movable baffle (1105), one end of the movable rod (1102) is connected with the water retaining plate (1104), the other end of the movable groove (601) extends out of the loading box (10), the movable rod (1102) penetrates through the inner ring of the spring (1101) and the fixing plate (1103), the fixing plate (1103) is fixed in the movable groove (601) of the mounting plate (60), one end of the spring (1101) is fixedly connected with the fixing plate (1103), and the movable baffle (1105) is fixedly sleeved on the front end of the movable rod (1102).

3. The MOS transistor digital integrated circuit device of claim 2, wherein: the lower end of the air inlet pipe (120) is connected with an air suction cover (140).

4. The MOS transistor digital integrated circuit device according to claim 3, wherein: the part of the spiral pipe (80) which is contacted with the wall of the cooling box (40) forms a notch.

5. The MOS transistor digital integrated circuit device according to claim 4, wherein: the top cover (20) is provided with a water inlet hole (202) communicated with the liquid storage cavity (201), and the water inlet hole (202) is clamped with a sealing plug (150).

6. The MOS transistor digital integrated circuit device according to claim 5, wherein: the coil (80) and the cooling box (40) are both made of iron material.

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