The utility model relates to the technical field of heat dissipation of an oxygen generator, in particular to a high-efficiency oxygen generator radiator.



Background technique:

At present, the oxygen generator is a type of machine that produces oxygen. Its principle is to use air separation technology. First, the air is compressed at a high density and then the difference in the condensation point of each component in the air is used to make it gas at a certain temperature. Liquid separation and further distillation are obtained. The oxygen generator with negative ion function can not only purify the air and enhance the positive energy of the physique, it has certain effects on cardiovascular and cerebrovascular diseases, nervous system diseases and improving human immunity.

Existing high-efficiency oxygen concentrator radiators still have some shortcomings. For example, the existing high-efficiency oxygen concentrator radiators mostly use water-cooled pipes to cool and dissipate heat. It is necessary to manually add cold water at regular intervals to maintain its heat dissipation effect. The molecular board and battery block of the oxygen generator have poor heat dissipation performance and the existing high-efficiency oxygen generator radiator requires manual intermittent opening and closing of the heat dissipation equipment. There are often problems such as forgetting to shut down, wasting a lot of power, and increasing the cost of heat dissipation.



Technical realization elements:

The purpose of the utility model is to provide a high-efficiency oxygen generator radiator. By installing semiconductor refrigeration fins, time-controlled switches and spiral water-cooling tubes, the solenoid valves and water pumps can be energized and opened and closed and the working hours can be set through the time-controlled switches. , In the process of cooling the battery block and molecular plate by the spiral water-cooling tube, the semiconductor cooling fin reduces the water temperature in the water tank, and then the cold water is sent to the spiral water-cooling tube by the water delivery pipe of the water pump. The water pump and solenoid valve are turned on for a few seconds and then automatically closed. The water in the spiral water-cooled tube is replaced regularly, the heat dissipation effect of the spiral water-cooled tube is improved, and the cold water is replaced without manpower, which solves the problems raised in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a high-efficiency oxygen generator radiator, including an oxygen generator body, the top and bottom walls of the oxygen generator body are symmetrically welded with a ridge frame, two sets of radiators A molecular plate and a battery block are respectively installed in the middle of the frame, and a spiral water-cooling tube is arranged on the outside of the molecular plate and the battery block. The left bottom of the spiral water-cooling tube extends to the outside of the bottom wall of the oxygen generator body and the spiral water-cooling tube A water tank is connected to the bottom end of the left side, a semiconductor refrigeration chip is installed on the left side of the inner bottom wall of the water tank, a water supply pipe is installed on the right side of the water tank, a water pump is installed on the upper end of the water supply pipe near the water tank, and the top of the water supply pipe The end is communicated with the top of the right end of the spiral water-cooling pipe. A solenoid valve is installed at the upper end of the spiral water-cooling pipe close to the water tank. A plurality of groups of evenly arranged ventilation holes are opened in the left wall of the oxygen generator body. A blower fan is installed in the middle of the wall, a port is opened in the middle of the right wall of the oxygen generator body, an exhaust fan is installed in the port, a time-controlled switch is installed in the middle of the upper surface of the water tank, and the time-controlled switch is respectively connected with the blower , The solenoid valve, the exhaust fan and the water pump are electrically connected, the left side of the back wall of the oxygen generator body is provided with a storage slot, the middle of the inner bottom wall of the storage slot is fixedly installed with a humidification cup, and the left and right sides of the humidification cup Both oxygen supply pipes and oxygen exhaust pipes are respectively arranged, and the oxygen exhaust pipes extend into the body of the oxygen generator.

As a preferred embodiment of the present invention, a dust-proof net cover is installed on the outer wall of the oxygen generator body close to the ventilation hole.

As a preferred embodiment of the present invention, support plates are installed on the left and right sides of the bottom of the oxygen generator body, and anti-skid pads are installed on the lower surface of the support plate.

As a preferred embodiment of the present invention, the left bottom of the spiral water-cooling pipe is fixedly connected to the left side of the bottom wall of the oxygen generator body.

As a preferred embodiment of the present invention, the storage slot has a square hollow plate structure.

Compared with the prior art, the beneficial effects of the present invention are as follows:

1. This utility model is a kind of high-efficiency oxygen generator radiator. Through the installation of semiconductor refrigeration fins, time-controlled switches and spiral water-cooling tubes, the time-controlled switch can be used to set the energized opening and closing time and working time of the solenoid valve and the water pump. During the cooling process of the battery block and molecular plate by the spiral water-cooling tube, the semiconductor cooling chip reduces the temperature of the water in the water tank, and then the cold water is sent to the spiral water-cooling tube by the water delivery pipe of the water pump. The water pump and solenoid valve are turned off automatically after a few seconds to achieve timing. Replacing the water in the spiral water-cooling tube improves the heat dissipation effect of the spiral water-cooling tube, and does not require manpower to replace the cold water.

2. The utility model is a kind of high-efficiency oxygen generator radiator. By installing time-controlled switch, blowing fan and exhaust fan, the opening and closing time and working time of blowing fan and exhaust fan can be set through the time-controlled switch, and the outside air is drawn by the blowing fan. In the oxygen generator body, the exhaust fan discharges the air, and the air flow in the cavity is added to realize the intermittent cooling and cooling of the blowing fan and the exhaust fan, avoiding manual opening and closing or opening all day, reducing power consumption and reducing heat dissipation costs.

Description of the drawings

By reading the detailed description of the non-limiting embodiments with reference to the following drawings, other features, purposes and advantages of the present invention will become more apparent:

Figure 1 is a schematic diagram of the overall cross-sectional structure of a radiator for a high-efficiency oxygen generator of the utility model;

Figure 2 is a schematic diagram of the overall rear view structure of the radiator of a high-efficiency oxygen generator of the present invention.

In the picture: 1. Oxygen concentrator body; 2. Rack frame; 3. Ventilation hole; 4. Dust-proof net cover; 5. Air blower; 6. Spiral water cooling pipe; 7. Solenoid valve; 8. Support plate; 9. , Anti-slip mat; 10. Semiconductor refrigeration sheet; 11. Time-controlled switch; 12. Water pipe; 13. Water tank; 14. Water pump; 15. Battery block; 16. Exhaust fan; 17, Port; 18. Storage tank; 19. Molecular board; 20. Humidification cup; 21. Oxygen exhaust pipe; 22. Oxygen delivery pipe.

Detailed ways

In order to make the technical means, creative features, objectives and effects of the utility model easy to understand, the following describes the utility model further in conjunction with specific implementations.

Please refer to Figure 1-2, this utility model provides a technical solution: a high-efficiency oxygen generator radiator, including an oxygen generator body 1, the inner top wall and bottom wall of the oxygen generator body 1 are symmetrically welded with a rim shape Frame 2, two sets of 凵-shaped frames 2 are respectively equipped with a molecular plate 19 and a battery block 15 in the middle. The molecular plate 19 and the battery block 15 are provided with a spiral water-cooling tube 6 on the outside, and the bottom of the left side of the spiral water-cooling tube 6 Extending to the outside of the bottom wall of the oxygen generator body 1 and the left bottom end of the spiral water-cooling pipe 6 is connected with a water tank 13, the left side of the inner bottom wall of the water tank 13 is installed with a semiconductor refrigeration chip 10, and the right side of the water tank 13 is installed A water pipe 12, a water pump 14 is installed at the upper end of the water delivery pipe 12 close to the water tank 13, the top end of the water delivery pipe 12 communicates with the top of the right end of the spiral water-cooling pipe 6, and a solenoid valve 7 is installed at the upper end of the spiral water-cooling pipe 6 near the water tank 13 , The left wall of the oxygen generator body 1 is provided with a plurality of evenly arranged vents 3, a blower fan 5 is installed in the middle of the left wall of the oxygen generator body 1, and the inner middle of the right wall of the oxygen generator body 1 A port 17 is opened, and an exhaust fan 16 is installed in the port 17, a time-controlled switch 11 is installed in the middle of the upper surface of the water tank 13, and the time-controlled switch 11 is connected to the blower fan 5, the solenoid valve 7, the exhaust fan 16 and the water pump respectively. 14 is electrically connected. A storage slot 18 is opened on the left side of the rear wall of the oxygen generator body 1, and a humidification cup 20 is fixedly installed in the middle of the inner bottom wall of the storage slot 18. The left and right sides of the humidification cup 20 are An oxygen supply pipe 22 and an oxygen exhaust pipe 21 are respectively arranged, and the oxygen exhaust pipe 21 extends into the oxygen generator body 1.

In this embodiment (as shown in Figures 1 and 2) by installing the semiconductor refrigeration chip 10, the time-controlled switch 11 and the spiral water-cooling tube 6, the solenoid valve 7 and the water pump 14 can be set to open and close through the time-controlled switch 11. Time and working hours. During the process of cooling the battery block 15 and the molecular plate 19 by the spiral water-cooling tube 6, the temperature of the water in the water tank 13 is reduced by the semiconductor refrigeration fin 10, and then the cold water is sent to the spiral water-cooling tube by the water delivery pipe 12 of the water pump 14 In 6, the water pump 14 and the solenoid valve 7 are turned on for a few seconds and then automatically closed, realizing the regular replacement of the water in the spiral water-cooling pipe 6 and improving the heat dissipation effect of the spiral water-cooling pipe 6 without manpower to replace the cold water. By installing a time control switch 11, a blower fan 5 and the exhaust fan 16, the opening and closing time and working time of the blowing fan 5 and the exhaust fan 16 can be set through the time-controlled switch 11. The blowing fan 5 extracts the outside air and sends it to the oxygen generator body 1, and then the exhaust fan 16 exhausts the air. The air flow in the cavity is added to realize the intermittent heat dissipation and cooling of the blowing fan 5 and the exhaust fan 16, avoiding manual opening and closing or all-day opening, reducing power consumption and reducing heat dissipation costs.

Wherein, a dust-proof net cover 4 is installed on the outer wall of the oxygen generator body 1 close to the outside of the ventilation hole 3.

In this embodiment (as shown in FIG. 1 ), by installing a dust-proof net cover 4, the dust-proof net cover 4 can prevent external dust from entering the oxygen generator body 1 and corroding the equipment in the oxygen generator body 1.

Wherein, support plates 8 are installed on the left and right sides of the bottom of the oxygen generator body 1, and anti-skid pads 9 are installed on the lower surface of the support plate 8 shown.

In this embodiment (as shown in FIG. 1), the anti-skid pad 9 is installed, and the anti-skid pad 9 can be used to increase friction and prevent slippage.

Wherein, the bottom of the left side of the spiral water-cooling pipe 6 is fixedly connected to the left side of the bottom wall of the oxygen generator body 1.

In this embodiment (as shown in FIG. 1), the spiral water-cooling tube 6 is fixedly connected to the oxygen generator body 1, and the spiral water-cooling tube 6 is restricted to prevent shaking during the water inlet and outlet.

Wherein, the storage slot 18 has a square hollow plate structure.

In this embodiment (as shown in FIG. 2), the storage slot 18 is a square hollow plate structure, so that equipment accessories and personal belongings can be placed, making the device more user-friendly.

Working principle: It should be noted that this utility model is a high-efficiency oxygen generator radiator, which includes the oxygen generator body 1, the rim frame 2, the ventilation holes 3, the dust-proof net cover 4, the blowing fan 5, and the spiral water cooling pipe 6. Solenoid valve 7, support plate 8, non-slip mat 9, semiconductor refrigeration sheet 10, time control switch 11, water pipe 12, water tank 13, water pump 14, battery block 15, exhaust fan 16, port 17, storage slot 18, molecule The plate 19, the humidification cup 20, the oxygen exhaust pipe 21, and the oxygen supply pipe 22 are all common standard parts or parts known to those skilled in the art, and their structure and principles are all known to those skilled in the technical manual. It is known through conventional test methods that when a high-efficiency oxygen generator radiator is used, the time-controlled switch 11 and the semiconductor refrigeration fin 10 are connected to an external power source, and the radiator 10, the time-controlled switch 11 and the spiral water cooling system are installed. Tube 6, the solenoid valve 7 and the water pump 14 can be energized, open and closed time and working time can be set through the time-controlled switch 11. When the spiral water-cooled tube 6 cools the battery block 15 and the molecular plate 19, the semiconductor cooling fin 10 lowers the water tank The water temperature in 13 is then sent by the water supply pipe 12 of the water pump 14 to the spiral water cooling pipe 6. The water pump 14 and solenoid valve 7 are turned on for a few seconds and then automatically closed, realizing regular replacement of the water in the spiral water cooling pipe 6 and lifting the spiral water cooling pipe. The heat dissipation effect of 6, and no need to replace the cold water, by installing the time-controlled switch 11, the blower fan 5 and the exhaust fan 16, the time-controlled switch 11 can be used to set the opening and closing time and working time of the blower fan 5 and the exhaust fan 16 by the blower fan 5. The outside air is extracted and sent to the oxygen generator body 1, and then exhausted by the exhaust fan 16, and the air flow in the cavity is added to realize the intermittent cooling and cooling of the blowing fan 5 and the exhaust fan 16, avoiding manual opening and closing or opening all day, reducing Power consumption reduces the cost of heat dissipation, and the use effect is ideal.

The basic principles and main features of the utility model and the advantages of the utility model are shown and described above. For those skilled in the art, it is obvious that the utility model is not limited to the details of the above exemplary embodiments, and does not deviate from the utility model. In the case of the spirit or basic characteristics of the utility model, the utility model can be realized in other specific forms. Therefore, no matter from which point of view, the embodiments should be regarded as exemplary and non-restrictive. The scope of the present invention is defined by the appended claims rather than the above description, so it is intended to fall on the rights. All changes in the meaning and scope of the required equivalent elements are included in the present invention. Any reference signs in the claims should not be regarded as limiting the claims involved.

In addition, it should be understood that although this specification is described in accordance with the implementation modes, not each implementation mode only includes an independent technical solution. This narration in the specification is only for clarity, and those skilled in the art should regard the specification as a whole The technical solutions in the various embodiments can also be appropriately combined to form other implementations that can be understood by those skilled in the art.