CN221680797U - A pulse oxygen concentrator with heat dissipation structure - Google Patents

Abstract

The utility model relates to the technical field of pulse oxygenerators, in particular to a pulse oxygenerator with a heat dissipation structure; technical problems: in the use process of the traditional pulse oxygenerator, when air passes through the heat dissipation structure, dust is adhered to the inside of the heat dissipation structure, so that the ventilation and heat dissipation efficiency is inconvenient to improve; the technical scheme is as follows: a pulse oxygenerator with a heat radiation structure comprises a heat radiation component, a rotation component and a cleaning component; compared with the traditional pulse oxygenerator in the use process, when air enters the generator body through the heat dissipation structure, dust is attached to the inside of the heat dissipation structure, thereby affecting the ventilation and heat dissipation effects, the inside ventilation heat dissipation that realizes through heat radiation structure of organism can drive clearance structure through starting rotating structure and realize reciprocating sliding, can clear up the dust that is stained with and attaches in heat radiation structure inside through clearance structure to can improve ventilation radiating efficiency.

Description

A pulse oxygen concentrator with heat dissipation structure

Technical Field

The utility model relates to the technical field of pulse oxygen generators, in particular to a pulse oxygen generator with a heat dissipation structure.

Background Art

Oxygen concentrator is a type of machine that produces oxygen, which involves the technical field of oxygen concentrator. With the development of society, the oxygen concentrator industry has become more and more developed, and pulse oxygen concentrators have been continuously improved to meet the needs of production. Its principle is to use air separation technology. First, the air is compressed at a high density, and then the different condensation points of the components in the air are used to separate the gas and liquid at a certain temperature, and then further distilled. In the process of using the pulse oxygen concentrator, most pulse oxygen concentrators have the function of assisting breathing, and the function of efficient heat dissipation is not perfect enough, which is inconvenient to use. Oxygen concentrators are usually equipped with fans for heat dissipation. Since there is a lot of dust in the air, when the air enters the body through the heat dissipation structure, it will cause dust to adhere to the inside of the heat dissipation structure. If the dust is not cleaned for a long time, it will cause dust to block the heat dissipation structure, which will make it inconvenient to improve the ventilation and heat dissipation efficiency.

Utility Model Content

In order to overcome the problem of pulse oxygen concentrators being used, fans are usually installed to dissipate heat. Since there is a lot of dust in the air, when the air enters the machine through the heat dissipation structure, the dust will adhere to the inside of the heat dissipation structure. If the dust is not cleaned for a long time, the dust will clog the heat dissipation structure, making it difficult to improve the ventilation and heat dissipation efficiency.

The technical solution of the utility model is: a pulse oxygen concentrator with a heat dissipation structure, comprising a heat dissipation component, a refrigeration component, a noise reduction component, a rotating component, a cleaning component, an oxygen concentrator body and a machine body; the oxygen concentrator body is arranged inside the machine body, a heat dissipation component with a heat dissipation function is arranged on the side wall of the machine body, a refrigeration component with a refrigeration function is arranged on one side of the heat dissipation component, a cleaning component with a cleaning function is arranged on the other side of the heat dissipation component, a noise reduction component is arranged on one side of the refrigeration component, and a rotating component is arranged on the side wall of the machine body.

Preferably, starting the heat dissipation component can draw external air into the interior of the body, thereby achieving the effect of ventilation and heat dissipation inside the body, and then cooling the air through the refrigeration component, thereby improving the refrigeration and heat dissipation effect. When the airflow rubs against objects, it will generate noise. By hitting the noise reduction component, the circulation speed of the cold air can be slowed down, thereby achieving the effect of reducing noise. When dust is attached to the inside of the heat dissipation component, starting the rotating component can drive the cleaning component to slide back and forth. The dust attached to the inside of the heat dissipation component can be cleaned through the cleaning component, which can prevent the dust from clogging the heat dissipation component, thereby improving the efficiency of ventilation and heat dissipation.

Preferably, the heat dissipation component includes a ventilation plate, ventilation holes and a mounting shell; a ventilation plate is arranged on the side wall of the body, ventilation holes are opened on the side wall of the ventilation plate, multiple groups of ventilation holes are opened, and a mounting shell is arranged on the side wall of the ventilation plate; air enters the body through the multiple groups of ventilation holes, thereby achieving the effect of ventilation and heat dissipation.

Preferably, the heat dissipation component also includes a drive motor, a drive shaft and fan blades; the drive motor is arranged inside the mounting shell, the output end of the drive motor is arranged with a drive shaft, and the side wall of the drive shaft is arranged with fan blades; starting the drive motor can rotate, the drive motor can drive the drive shaft to rotate, the drive shaft can drive the fan blades to rotate, and the air can be drawn into the machine body through multiple groups of ventilation holes through the fan blades, thereby achieving the effect of ventilation and heat dissipation inside the machine body.

Preferably, the refrigeration assembly includes a cold water tank, a circulating water pump, a return pipe, a refrigeration water pipe and a connecting pipe; a cold water tank is arranged inside the machine body, a circulating water pump is arranged above the cold water tank, a connecting pipe is arranged above the circulating water pump, a refrigeration water pipe is arranged above the connecting pipe, multiple groups of refrigeration water pipes are arranged, another connecting pipe is arranged at the other end of the refrigeration water pipe, a return pipe is arranged below the other connecting rod, and the other end of the return pipe is arranged inside the cold water tank; starting the circulating water pump can extract cold water from the cold water tank and transport it to the inside of multiple groups of refrigeration water pipes through the connecting pipe, and the cold water then flows back to the cold water tank through the return pipe, thereby achieving a recycling effect, thereby achieving the purpose of cooling the air, and further improving the refrigeration and heat dissipation effect.

Preferably, the noise reduction component includes sound-absorbing cotton and through holes; the interior of the body is provided with sound-absorbing cotton, and the side walls of the sound-absorbing cotton are provided with through holes, and multiple groups of through holes are provided; when airflow rubs against an object, noise will be generated, and the circulation speed of the cold air can be slowed down by impacting the sound-absorbing cotton, thereby achieving the effect of reducing noise.

Preferably, the rotating assembly includes a reciprocating motor, a rotating shaft and a rotating gear; a reciprocating motor is arranged on the side wall of the machine body, a rotating shaft is arranged at the output end of the reciprocating motor, and a rotating gear is arranged on the side wall of the rotating shaft; starting the reciprocating motor can rotate, the reciprocating motor can drive the rotating shaft to rotate, the rotating shaft can drive the rotating gear to rotate, thereby driving the cleaning assembly to slide back and forth.

Preferably, the cleaning component includes a guide rail, a guide rod, a guide block, a cleaning brush plate and a transmission tooth plate; a guide rail is arranged on the side wall of the machine body, and two groups of guide rails are arranged, a guide rod is arranged inside the guide rail, a guide block is arranged on the side wall of the guide rod, and multiple groups of guide blocks are arranged, a transmission tooth plate is arranged on one side of the guide block, and a rotating gear is meshed and connected with the transmission tooth plate, and a cleaning brush plate is arranged on the other side of the guide block; the rotating gear can drive the transmission tooth plate to slide, and the transmission tooth plate can drive multiple groups of guide blocks to slide through the guide rod, and multiple groups of guide blocks can drive multiple groups of cleaning brush plates to slide. After the dust on the ventilation plate is cleaned, the reciprocating motor is reversed, and the dust attached to the inside of the ventilation plate can be cleaned by multiple groups of brush plates, which can prevent the dust from clogging the ventilation plate, thereby improving the efficiency of ventilation and heat dissipation.

Beneficial effects of the utility model:

1. Compared with the traditional pulse oxygen concentrator, during use, the oxygen concentrator is usually equipped with a fan for heat dissipation. Since there is a lot of dust in the air, when the air enters the machine body through the heat dissipation structure, the dust will adhere to the inside of the heat dissipation structure, thereby affecting the effect of ventilation and heat dissipation. The pulse oxygen concentrator is equipped with a heat dissipation structure and a cleaning structure. The inside of the machine body realizes ventilation and heat dissipation through the heat dissipation structure. By starting the rotating structure, the cleaning structure can be driven to realize reciprocating sliding. The cleaning structure can clean the dust attached to the inside of the heat dissipation structure, thereby improving the efficiency of ventilation and heat dissipation.

2. When airflow rubs against objects, it will generate noise. By hitting the silencer cotton, the circulation speed of cold air can be slowed down, thereby achieving the effect of reducing noise. When dust is attached to the inside of the ventilation plate, the reciprocating motor can be started to rotate, the reciprocating motor can drive the rotating shaft to rotate, the rotating shaft can drive the rotating gear to rotate, the rotating gear can drive the transmission gear plate to slide, the transmission gear plate can drive multiple groups of guide blocks to slide through the guide rod, and the multiple groups of guide blocks can drive multiple groups of cleaning brush plates to slide. After the dust on the ventilation plate is cleaned, the reciprocating motor is reversed, and the dust attached to the inside of the ventilation plate can be cleaned through multiple groups of brush plates, which can prevent the dust from clogging the ventilation plate, thereby improving the efficiency of ventilation and heat dissipation;

3. Start the drive motor to rotate, the drive motor can drive the drive shaft to rotate, the drive shaft can drive the fan blades to rotate, the fan blades can draw air into the machine body through multiple sets of ventilation holes, so as to achieve the effect of ventilation and heat dissipation inside the machine body, and then start the circulating water pump to draw cold water in the cold water tank, and transport it to the inside of multiple sets of refrigeration water pipes through the connecting pipe, and the cold water will flow back to the cold water tank through the return pipe, so as to achieve the effect of recycling, so as to achieve the purpose of cooling the air, and then improve the effect of refrigeration and heat dissipation;

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of a first three-dimensional structure of a pulse oxygen concentrator with a heat dissipation structure of the present invention;

FIG2 is a schematic diagram of a first partial three-dimensional structure of a pulse oxygen concentrator with a heat dissipation structure of the present invention;

FIG3 is a schematic diagram of a second partial three-dimensional structure of a pulse oxygen concentrator with a heat dissipation structure of the present invention;

FIG4 is a schematic diagram of a third partial three-dimensional structure of a pulse oxygen concentrator with a heat dissipation structure of the present invention;

Explanation of the accompanying drawings: 1. heat dissipation component; 2. refrigeration component; 3. noise reduction component; 4. rotating component; 5. cleaning component; 6. oxygen generator body; 7. body; 101. ventilation plate; 102. ventilation hole; 103. mounting shell; 104. driving motor; 105. driving shaft; 106. fan blade; 201. cold water tank; 202. circulating water pump; 203. return pipe; 204. cooling water pipe; 205. connecting pipe; 301. silencer cotton; 302. through hole; 401. reciprocating motor; 402. rotating shaft; 403. rotating gear; 501. guide rail; 502. guide rod; 503. guide block; 504. cleaning brush plate; 505. transmission gear plate.

DETAILED DESCRIPTION

The utility model is further described below in conjunction with the accompanying drawings and embodiments.

Please refer to Figure 1. The utility model provides an embodiment: a pulse oxygen concentrator with a heat dissipation structure, including a heat dissipation component 1, a refrigeration component 2, a noise reduction component 3, a rotating component 4, a cleaning component 5, an oxygen concentrator body 6 and a body 7; the oxygen concentrator body 6 is arranged inside the body 7, the heat dissipation component 1 with a heat dissipation function is arranged on the side wall of the body 7, the refrigeration component 2 with a refrigeration function is arranged on one side of the heat dissipation component 1, the cleaning component 5 with a cleaning function is arranged on the other side of the heat dissipation component 1, the noise reduction component 3 is arranged on one side of the refrigeration component 2, and the rotating component 4 is arranged on the side wall of the body 7.

Please refer to FIG. 2 , the heat dissipation assembly 1 includes a ventilation plate 101, ventilation holes 102 and a mounting shell 103; the side wall of the machine body 7 is provided with a ventilation plate 101, the side wall of the ventilation plate 101 is provided with ventilation holes 102, the ventilation holes 102 are provided with multiple groups, and the side wall of the ventilation plate 101 is provided with a mounting shell 103; air enters the machine body 7 through the multiple groups of ventilation holes 102, so that the effect of ventilation and heat dissipation can be achieved; the heat dissipation assembly 1 also includes a drive motor 104, a drive shaft 105 and The fan blades 106; the drive motor 104 is arranged inside the mounting shell 103, the output end of the drive motor 104 is arranged with a drive shaft 105, and the side wall of the drive shaft 105 is arranged with fan blades 106; the drive motor 104 can be started to rotate, the drive motor 104 can drive the drive shaft 105 to rotate, the drive shaft 105 can drive the fan blades 106 to rotate, and the fan blades 106 can draw air into the body 7 through the multiple sets of ventilation holes 102, so that the body 7 can be The cooling effect is achieved internally; the refrigeration assembly 2 includes a cold water tank 201, a circulating water pump 202, a return pipe 203, a cooling water pipe 204 and a connecting pipe 205; the body 7 is provided with a cold water tank 201 inside, a circulating water pump 202 is provided above the cold water tank 201, a connecting pipe 205 is provided above the circulating water pump 202, a cooling water pipe 204 is provided above the connecting pipe 205, and the cooling water pipe 204 is provided with multiple groups, and the other end of the cooling water pipe 204 is provided with another A connecting pipe 205 is provided, and a return pipe 203 is provided below the other connecting rod, and the other end of the return pipe 203 is provided inside the cold water tank 201; starting the circulating water pump 202 can extract the cold water in the cold water tank 201, and transport it to the inside of multiple groups of refrigeration water pipes 204 through the connecting pipe 205, and the cold water then flows back to the cold water tank 201 through the return pipe 203, which can achieve the effect of recycling, thereby achieving the purpose of cooling the air, and further improving the effect of refrigeration and heat dissipation.

Please refer to Figures 3-4. In this embodiment, the noise reduction component 3 includes a sound-absorbing cotton 301 and a through hole 302. The sound-absorbing cotton 301 is arranged inside the body 7, and the through hole 302 is opened on the side wall of the sound-absorbing cotton 301. There are multiple groups of through holes 302. When the airflow rubs against the object, noise will be generated. By hitting the sound-absorbing cotton 301, the circulation speed of the cold air can be slowed down, thereby achieving the effect of reducing noise. The rotating component 4 includes a reciprocating motor 401, a rotating shaft 402 and a rotating gear. A reciprocating motor 401 is provided on the side wall of the machine body 7, a rotating shaft 402 is provided at the output end of the reciprocating motor 401, and a rotating gear 403 is provided on the side wall of the rotating shaft 402; the reciprocating motor 401 can be started to rotate, the reciprocating motor 401 can drive the rotating shaft 402 to rotate, the rotating shaft 402 can drive the rotating gear 403 to rotate, thereby driving the cleaning assembly 5 to reciprocate and slide; the cleaning assembly 5 includes a guide rail 501, a guide rod 502, a guide A guide rail 501 is arranged on the side wall of the machine body 7, and the guide rail 501 is provided with two groups. A guide rod 502 is arranged inside the guide rail 501, and a guide block 503 is arranged on the side wall of the guide rod 502. The guide block 503 is provided with multiple groups. A transmission tooth plate 505 is arranged on one side of the guide block 503, and the rotating gear 403 is meshed and connected with the transmission tooth plate 505. A cleaning brush plate 504 is arranged on the other side of the guide block 503; the rotating gear 403 is meshed and connected with the transmission tooth plate 505, and a cleaning brush plate 504 is arranged on the other side of the guide block 503; The wheel 403 can drive the transmission tooth plate 505 to slide, the transmission tooth plate 505 can drive multiple groups of guide blocks 503 to slide through the guide rod 502, and the multiple groups of guide blocks 503 can drive multiple groups of cleaning brush plates 504 to slide. After the dust on the ventilation plate 101 is cleaned, the reciprocating motor 401 is reversed, and the dust attached to the inside of the ventilation plate 101 can be cleaned through the multiple groups of brush plates, which can prevent the dust from clogging the ventilation plate 101, thereby improving the efficiency of ventilation and heat dissipation.

When working, the drive motor 104 can be started to rotate, the drive motor 104 can drive the drive shaft 105 to rotate, the drive shaft 105 can drive the fan blades 106 to rotate, and the fan blades 106 can draw air into the body 7 through the multiple sets of ventilation holes 102, so as to achieve the effect of ventilation and heat dissipation inside the body 7;

Restarting the circulating water pump 202 can extract the cold water in the cold water tank 201, and transport it to the inside of the multiple groups of cooling water pipes 204 through the connecting pipe 205. The cold water then flows back to the cold water tank 201 through the return pipe 203, so as to achieve the effect of recycling, thereby achieving the purpose of cooling the air, and further improving the effect of cooling and heat dissipation;

When airflow rubs against an object, noise is generated. By hitting the silencer cotton 301, the circulation speed of the cold air can be slowed down, thereby achieving the effect of reducing noise.

When dust is attached to the inside of the ventilation plate 101, the reciprocating motor 401 can be started to rotate, the reciprocating motor 401 can drive the rotating shaft 402 to rotate, the rotating shaft 402 can drive the rotating gear 403 to rotate, and the rotating gear 403 can drive the transmission gear plate 505 to slide;

The transmission gear plate 505 can drive multiple groups of guide blocks 503 to slide through the guide rod 502, and the multiple groups of guide blocks 503 can drive multiple groups of cleaning brush plates 504 to slide. After the dust on the ventilation plate 101 is cleaned, the reciprocating motor 401 is reversed, and the dust attached to the inside of the ventilation plate 101 can be cleaned through the multiple groups of brush plates, which can prevent the dust from clogging the ventilation plate 101, thereby improving the efficiency of ventilation and heat dissipation.

Through the above steps, starting the heat dissipation component 1 can draw external air into the interior of the body 7, thereby achieving the effect of ventilation and heat dissipation inside the body 7, and then cooling the air through the refrigeration component 2, thereby improving the effect of refrigeration and heat dissipation. When the airflow rubs against the object, it will generate noise. By hitting the noise reduction component 3, the circulation speed of the cold air can be slowed down, thereby achieving the effect of reducing noise. When dust is attached to the inside of the heat dissipation component 1, starting the rotating component 4 can drive the cleaning component 5 to slide back and forth. The cleaning component 5 can clean the dust attached to the inside of the heat dissipation component 1, which can prevent the dust from clogging the heat dissipation component 1, thereby improving the efficiency of ventilation and heat dissipation.

The embodiments of the present invention are described in detail above in conjunction with the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge scope of those skilled in the art without departing from the purpose of the present invention.

Claims (6)

1. A pulse oxygenerator with a heat radiation structure comprises a heat radiation component (1); the method is characterized in that: the device also comprises a refrigeration component (2), a noise reduction component (3), a rotation component (4), a cleaning component (5), an oxygenerator body (6) and a machine body (7); an oxygenerator body (6) is arranged in the machine body (7), a heat dissipation component (1) with a heat dissipation function is arranged on the side wall of the machine body (7), a refrigeration component (2) with a refrigeration function is arranged on one side of the heat dissipation component (1), a cleaning component (5) with a cleaning function is arranged on the other side of the heat dissipation component (1), a noise reduction component (3) is arranged on one side of the refrigeration component (2), and a rotating component (4) is arranged on the side wall of the machine body (7); the cleaning component (5) comprises a guide rail (501), a guide rod (502), a guide block (503), a cleaning brush plate (504) and a transmission toothed plate (505); be provided with guide rail (501) on the lateral wall of organism (7), guide rail (501) are provided with two sets of, and the inside of guide rail (501) is provided with guide bar (502), is provided with guide block (503) on the lateral wall of guide bar (502), and guide block (503) are provided with the multiunit, and one side of guide block (503) is provided with transmission pinion rack (505), and rotation gear (403) are connected with transmission pinion rack (505) meshing, and the opposite side of guide block (503) is provided with clearance brush board (504).

2. The pulse oxygenerator with heat dissipation structure as defined in claim 1, wherein: the heat dissipation assembly (1) comprises a ventilation plate (101), a ventilation hole (102) and a mounting shell (103); a ventilating plate (101) is arranged on the side wall of the machine body (7), ventilating holes (102) are formed in the side wall of the ventilating plate (101), a plurality of groups of ventilating holes (102) are formed in the side wall of the ventilating plate (101), and a mounting shell (103) is arranged on the side wall of the ventilating plate (101).

3. The pulse oxygenerator with heat dissipation structure as defined in claim 2, wherein: the heat dissipation assembly (1) further comprises a driving motor (104), a driving shaft (105) and fan blades (106); a driving motor (104) is arranged in the mounting shell (103), a driving shaft (105) is arranged at the output end of the driving motor (104), and fan blades (106) are arranged on the side wall of the driving shaft (105).

4. The pulse oxygenerator with heat dissipation structure as defined in claim 1, wherein: the refrigeration assembly (2) comprises a cold water tank (201), a circulating water pump (202), a return pipe (203), a refrigeration water pipe (204) and a connecting pipe (205); the inside of organism (7) is provided with cold water tank (201), and the top of cold water tank (201) is provided with circulating water pump (202), and the top of circulating water pump (202) is provided with connecting pipe (205), and the top of connecting pipe (205) is provided with refrigeration water pipe (204), and refrigeration water pipe (204) are provided with the multiunit, and the other end of refrigeration water pipe (204) is provided with another connecting pipe (205), and the below of another connecting rod is provided with back flow (203), and the other end of back flow (203) sets up inside cold water tank (201).

5. The pulse oxygenerator with heat dissipation structure as defined in claim 1, wherein: the noise reduction assembly (3) comprises noise reduction cotton (301) and a through hole (302); the inside of organism (7) is provided with amortization cotton (301), has seted up through-hole (302) on the lateral wall of amortization cotton (301), and the multiunit has been seted up to through-hole (302).

6. The pulse oxygenerator with heat dissipation structure as defined in claim 1, wherein: the rotating assembly (4) comprises a reciprocating motor (401), a rotating shaft (402) and a rotating gear (403); a reciprocating motor (401) is arranged on the side wall of the machine body (7), a rotating shaft (402) is arranged at the output end of the reciprocating motor (401), and a rotating gear (403) is arranged on the side wall of the rotating shaft (402).