CN213208067U - Atomizing generating device of cooling fan - Google Patents

Abstract

The utility model discloses an atomization generating device of a cooling fan, wherein a top shell is provided with a fog making cavity, one end of the bottom of the cavity is fixed with an atomizer, and the other end of the bottom of the cavity is movably connected with a floating switch bracket; the upper part of the top shell is connected with an upper water tank in a laminating and sealing manner, the bottom of the upper water tank is provided with a switch valve, and the switch valve is in floating type dynamic fit with the floating switch support; the atomizer works to produce fog, after the water level of the fog producing cavity is reduced, the switch valve is pushed open through the raised end of the floating switch bracket, water in the upper water tank flows into the fog producing cavity to control the water level of the fog producing cavity, and the water level of the fog producing cavity and the power of the atomizer work in a matched mode to produce the maximum fog amount; when the fan works, a small part of air enters the mist making cavity from the air inflow hole by utilizing the air pressure of the air duct, and the mist is blown out from the water mist outlet hole; the structure can ensure that the water quantity of the mist making cavity is stable, and the mist quantity output and the mist making quantity are stable and balanced integrally.

Description

Atomizing generating device of cooling fan

Technical Field

The utility model relates to a thermantidote specifically is an atomizing generating device of thermantidote.

Background

The atomization water tank of the existing cooling fan is an independent body, an atomizer is arranged at the bottom of the water tank, the water level of the water tank is high or low, the water level is high when water is added, the atomizer works at rated power due to the fact that the water level is too high and the gravity of the water at the bottom is large, and the fog quantity formed on the water surface when the atomizer works is small, so that the fog quantity requirement is difficult to meet; after working for a period of time, when the water level drops to a lower level, more fog is formed; the whole device can not control the output of the uniform fog quantity, and the fog making quantity is unstable.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a simple structure, reasonable in design provides one kind and establishes the water tank and take place the atomizing generating device of the thermantidote of water smoke at the fuselage top.

The scheme for solving the technical problems is as follows:

an atomization generating device of a cooling fan comprises a top shell, wherein a concave fog making cavity is arranged on the top shell, an air inlet hole and a water fog outlet hole are formed in the middle upper wall of the fog making cavity, an atomizer is fixed at one end of the bottom of the cavity, and a floating switch bracket is movably connected to the other end of the bottom of the cavity;

an upper water tank is hermetically connected above the top shell, the fog making cavity is in a sealed state after the top shell is connected with the upper water tank, and a switch valve is arranged at the bottom of the upper water tank and is in lever contact connection with one end of the floating switch bracket;

the top of the upper water tank is connected with a water tank cover.

The preferable technical scheme is further as follows: the atomization generating device of the cooling fan also comprises a fan, wherein an air inlet hole is formed in a fan shell of the fan and is arranged on an air outlet channel of the fan; the air inlet hole is connected with an air inlet pipeline, the other end of the air inlet pipeline is connected with an air inlet hole, and the air inlet hole is communicated with the air inlet pipeline, the air inlet hole, the mist making cavity and the water mist outlet hole.

The preferable technical scheme is further as follows: the water mist outlet hole is connected with a mist outlet channel in an extending mode, and a mist spray nozzle is installed in the mist outlet channel.

The preferable technical scheme is further as follows: and a lower concave water tank is arranged on the upper water tank, and the bottom of the lower concave water tank is connected with a switch valve.

The preferable technical scheme is further as follows: the switch valve is an elastic switch valve.

The preferable technical scheme is further as follows: one end of the floating switch bracket is a hollow floating ball, and the other end of the floating switch bracket is a lever-type jacking end; the switch valve comprises a lower water hole arranged at the bottom of the upper water tank, a switch rod movably penetrates through the lower water hole, and a hole cap is connected to the top of the switch rod; the bottom section of the switch rod is fixedly connected with a return spring, the upper end of the return spring is pressed against the bottom of the reverse side of the upper water tank, and the lower end of the return spring is connected with the bottom end of the switch rod; the bottom end of the switch rod is in contact connection with the top pressure end of the floating switch support.

The preferable technical scheme is further as follows: the reverse side of the top shell is connected with the machine body.

The preferable technical scheme is further as follows: the bottom of the fog making cavity is provided with a water flowing hole with a water plug, the reverse side of the water flowing hole is connected with a water pipe, and the water pipe is connected and led to a bottom water tank of the cooling fan.

The preferable technical scheme is further as follows: the rear half part of the top shell is provided with a concave fog making cavity, and the front half part is fixed with a controller.

The preferable technical scheme is further as follows: the upper water tank is transparent.

The utility model discloses an atomizing generating device of thermantidote has: the top shell is provided with a fog making cavity, one end of the bottom of the cavity is fixed with an atomizer, and the other end of the bottom of the cavity is movably connected with a floating switch bracket; the upper part of the top shell is connected with an upper water tank in a laminating and sealing manner, the bottom of the upper water tank is provided with a switch valve, and the switch valve is in floating type dynamic fit with the floating switch support; the atomizer works to produce fog, after the water level of the fog producing cavity is reduced, the switch valve is pushed open through the raised end of the floating switch bracket (lever principle), water of the upper water tank flows into the fog producing cavity to control the water level of the fog producing cavity, so that the water level of the fog producing cavity and the power of the atomizer work in a matching way to produce maximum fog amount; when the fan works, a small part of air enters the mist making cavity from the air inflow hole by utilizing the air pressure of the air duct, and the mist is blown out from the water mist outlet hole; the structure can ensure that the water quantity of the mist making cavity is stable (basically the same water level is kept for a long time), and the mist making cavity integrally generates balanced mist quantity output and has stable mist making quantity.

Drawings

FIG. 1 is an exploded view of the product atomization generator of the present invention;

FIG. 2 is a sectional view of a cooling fan of the present invention;

FIG. 3 is a split view of the fan and the air inlet pipeline of the product of the present invention;

FIG. 4 and FIG. 5 are perspective views of the cooling fan opening water tank cover of the present invention;

FIG. 6 is a split view of a cooling fan of the present invention;

FIG. 7 is an exploded view of the atomization generator of the present invention;

FIG. 8 is a cross-sectional view of the product atomization generator of the present invention;

FIG. 9 is a perspective view of the switching valve of the present invention;

FIG. 10 is a disassembled view of a cooling fan according to the present invention;

fig. 11, fig. 12, fig. 13 and fig. 14 are perspective views of a cooling fan according to the present invention;

fig. 15 is an exploded view of an atomization generator according to example 2 of the present invention;

fig. 16 is a disassembled view of the cooling fan in the embodiment 2 of the present invention;

fig. 17 is a sectional view of a cooling fan according to embodiment 2 of the present invention;

fig. 18, 19, 20 and 21 are perspective views of a cooling fan in embodiment 2 of the present invention.

Detailed Description

Example 1:

an atomization generating device of a cooling fan comprises a top shell 1, wherein a concave fog making cavity 11 is arranged on the top shell 1, an air inlet hole 11A and a water fog outlet hole 11B are formed in the middle upper wall of the fog making cavity 11, an atomizer 11C is fixed at one end of the bottom of the cavity, and the other opposite end of the bottom of the cavity is movably connected with a floating switch bracket 11D; an upper water tank 2 is hermetically connected above the top shell 1, the mist making cavity 11 is in a sealed state after the top shell 1 is connected with the upper water tank 2, a switch valve 21 is arranged at the bottom of the upper water tank 2, and the switch valve 21 is in lever contact connection with one end of a floating switch bracket 11D; the top of the upper water tank 2 is connected with a water tank cover 3; the atomizer works to produce fog, after the water level of the fog producing cavity is reduced, the switch valve is pushed open through the tilting end of the floating switch bracket (lever principle), the water of the upper water tank flows into the fog producing cavity, after the water level of the fog producing cavity is sufficient, the floating end of the floating switch bracket floats, the switch valve is closed, and the floating switch bracket dynamically adjusts the water level of the fog producing cavity, so that the water level of the fog producing cavity and the power of the atomizer work in a matching way to produce the maximum fog amount; while preventing the possibility of flooding due to an excessively high water level.

An atomization generating device of a cooling fan further comprises a fan 4, wherein an air inlet hole 41 is formed in a fan shell of the fan 4, and the air inlet hole 41 is arranged on an air outlet channel of the fan 4; the air inlet hole 11A is connected with an air inlet pipeline 11A1, the other end of the air inlet pipeline 11A1 is connected with an air inlet hole 41, and the air inlet hole 41 is communicated with the air inlet pipeline 11A1, the air inlet hole 11A, the mist making cavity 11 and the water mist outlet hole 11B; when the fan of the cooling fan works, a small part of air enters from the air inlet 41 by using the air pressure of the air duct, then enters into the mist making cavity from the air inlet 11A, and the air flow and the mist are blown out from the water mist outlet 11B together; the water mist outlet 11B is connected with a mist outlet channel 11B1 in an extending mode, and a mist spray nozzle 11B2 is installed in the mist outlet channel 11B 1. The water mist enters the water mist outlet 11B and is sprayed out through the spray nozzle 11B2 to cool and humidify the air. Spray nozzle 11B2 is provided on the front of the cooling fan.

The upper water tank 2 is provided with a concave water tank 201, the bottom of the concave water tank 201 is connected with a switch valve 21, the water filling amount is increased, and meanwhile, water is easier to gather.

The switching valve 21 is an elastic switching valve, and automatically closes the drain hole.

One end of the floating switch bracket 11D is a hollow floating ball, and the other end is a lever-type tilting jacking end; the switch valve 21 comprises a lower water hole 211 arranged at the bottom of the upper water tank 2, a switch rod 212 is movably connected to the lower water hole 211 in a penetrating manner, and a hole cover cap 213 is connected to the top of the switch rod 212; the bottom section of the switch rod 212 is fixedly connected with a return spring 214, the upper end of the return spring 214 is pressed against the bottom of the reverse side of the upper water tank 2, and the lower end of the return spring is connected with the bottom end of the switch rod 212; the bottom end of the switch lever 212 is in contact-type connection with the top end of the floating switch holder 11D. When the one end of the floater of the float switch bracket 11D descends, the opposite other end tilts to jack up the switch rod 212, the water outlet 211 is opened by the cover cap 213, the water of the upper water tank 2 flows into the mist making cavity 11, one end of the floater of the float switch bracket 11D floats after the mist making cavity 11 is full of water, the opposite other end descends, the switch rod 212 descends by the aid of the reset spring 214, the cover cap 213 closes the water outlet 211, the water of the upper water tank 2 cannot flow into the mist making cavity 11, and the water level of the mist making cavity 11 is dynamically adjusted through the float switch bracket 11D and the switch valve 21.

The reverse side of the top shell 1 is fixedly connected with a body of the cooling fan.

The bottom of the mist making cavity 11 is provided with a water flowing hole with a water plug, the reverse side of the water flowing hole is connected with a water pipe, and the water pipe is connected and led to a bottom water tank of the cooling fan. When the mist making is not used, the water plug is opened, the mist making cavity 11 and the upper water tank 2 flow to the bottom water tank, and water in the mist making cavity 11 and the upper water tank 2 is drained.

The rear half part of the top shell 1 is provided with a concave fog making cavity 11, and the front half part is fixed with a controller.

The upper water tank 2 is transparent, and the water level is convenient to observe.

Another structural embodiment of the atomization generating apparatus 2:

an atomization generating device of a cooling fan comprises a top shell 1, wherein a concave fog making cavity 11 is formed in the top shell 1, an air inlet hole 11A is formed in the middle upper wall of the fog making cavity 11, an atomizer 11C is fixed at one end of the bottom of the cavity, and a floating switch bracket 11D is movably connected to the other end of the bottom of the cavity;

an upper water tank 2 is hermetically connected above the top shell 1, the mist making cavity 11 is in a sealed state after the top shell 1 is connected with the upper water tank 2, a switch valve 21 is arranged at the bottom of the upper water tank 2, and the switch valve 21 is in lever contact connection with one end of a floating switch bracket 11D;

the bottom of the upper water tank 2 is connected with a standing mist outlet pipeline 110, the mist outlet pipeline 110 penetrates through the top of the upper water tank 2 and is exposed outside, the top of the mist outlet pipeline 110 is provided with a spray nozzle 11B2, the bottom of the mist outlet pipeline 110 is provided with a mist outlet 11B, the mist outlet 11B is arranged at the outer bottom of the upper water tank 2, and the spray nozzle 11B2, the mist outlet 11B and the mist making cavity 11 are communicated;

the top of the upper water tank 2 is connected with a water tank cover 3;

the atomizer works to produce fog, after the water level of the fog producing cavity is reduced, the switch valve is pushed open through the tilting end of the floating switch bracket (lever principle), the water of the upper water tank flows into the fog producing cavity, after the water level of the fog producing cavity is sufficient, the floating end of the floating switch bracket floats, the switch valve is closed, and the floating switch bracket dynamically adjusts the water level of the fog producing cavity, so that the water level of the fog producing cavity and the power of the atomizer work in a matching way to produce the maximum fog amount; while preventing the possibility of flooding due to an excessively high water level.

When the fan of the cooling fan works, a small part of air enters from the air inlet 41 by using the air pressure of the air duct, then enters into the mist making cavity from the air inlet 11A, and the air flow and the mist are blown out from the water mist outlet 11B together; the water mist enters the water mist outlet 11B and is sprayed out through the spray nozzle 11B2 to cool and humidify the air. Spray nozzle 11B2 is provided on the front of the cooling fan.

The upper water tank 2 is provided with a lower concave water tank 201, and the bottom of the lower concave water tank 201 is connected with a switch valve 21.

The on-off valve 21 is an elastic on-off valve.

One end of the floating switch bracket 11D is a hollow floating ball, and the other end is a lever-type jacking end; the switch valve 21 comprises a lower water hole 211 arranged at the bottom of the upper water tank 2, a switch rod 212 is movably connected to the lower water hole 211 in a penetrating manner, and a hole cover cap 213 is connected to the top of the switch rod 212; the bottom section of the switch rod 212 is fixedly connected with a return spring 214, the upper end of the return spring 214 is pressed against the bottom of the reverse side of the upper water tank 2, and the lower end of the return spring is connected with the bottom end of the switch rod 212; the bottom end of the switch lever 212 is in contact-type connection with the top end of the floating switch holder 11D.

The reverse side of the top shell 1 is connected with the machine body.

The bottom of the mist making cavity 11 is provided with a water flowing hole with a water plug, the reverse side of the water flowing hole is connected with a water pipe, and the water pipe is connected and led to a bottom water tank of the cooling fan.

The rear half part of the top shell 1 is provided with a concave fog making cavity 11, and the front half part is fixed with a controller. The upper water tank 2 is transparent.

The above is only the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention; without departing from the principles of the present invention, several modifications and refinements are considered within the scope of the present invention.

Claims (10)

1. The utility model provides an atomizing generating device of thermantidote which characterized in that: the fog-making device comprises a top shell, wherein a concave fog-making cavity is arranged on the top shell, an air inlet hole and a water fog outlet hole are formed in the middle upper wall of the fog-making cavity, an atomizer is fixed at one end of the bottom of the cavity, and a floating switch bracket is movably connected to the other end of the bottom of the cavity;

an upper water tank is hermetically connected above the top shell, the fog making cavity is in a sealed state after the top shell is connected with the upper water tank, and a switch valve is arranged at the bottom of the upper water tank and is in lever contact connection with one end of the floating switch bracket;

the top of the upper water tank is connected with a water tank cover.

2. The atomization generating device of the cooling fan according to claim 1, characterized in that: the fan shell of the fan is provided with an air inlet hole, and the air inlet hole is arranged on an air outlet channel of the fan; the air inlet hole is connected with an air inlet pipeline, the other end of the air inlet pipeline is connected with an air inlet hole, and the air inlet hole is communicated with the air inlet pipeline, the air inlet hole, the mist making cavity and the water mist outlet hole.

3. The atomization generating device of the cooling fan according to claim 1, characterized in that: the water mist outlet hole is connected with a mist outlet channel in an extending mode, and a mist spray nozzle is installed in the mist outlet channel.

4. The atomization generating device of the cooling fan according to claim 1, characterized in that: and a lower concave water tank is arranged on the upper water tank, and the bottom of the lower concave water tank is connected with a switch valve.

5. The atomization generating device of the cooling fan according to claim 1, characterized in that: the switch valve is an elastic switch valve.

6. The atomization generating device for the cooling fan according to claim 1, 4 or 5, wherein: one end of the floating switch bracket is a hollow floating ball, and the other end of the floating switch bracket is a lever-type jacking end; the switch valve comprises a lower water hole arranged at the bottom of the upper water tank, a switch rod movably penetrates through the lower water hole, and a hole cap is connected to the top of the switch rod; the bottom section of the switch rod is fixedly connected with a return spring, the upper end of the return spring is pressed against the bottom of the reverse side of the upper water tank, and the lower end of the return spring is connected with the bottom end of the switch rod; the bottom end of the switch rod is in contact connection with the top pressure end of the floating switch support.

7. The atomization generating device of the cooling fan according to claim 1, characterized in that: the reverse side of the top shell is connected with the machine body.

8. The atomization generating device of the cooling fan according to claim 1, characterized in that: the bottom of the fog making cavity is provided with a water flowing hole with a water plug, the reverse side of the water flowing hole is connected with a water pipe, and the water pipe is connected and led to a bottom water tank of the cooling fan.

9. The atomization generating device of the cooling fan according to claim 1, characterized in that: the rear half part of the top shell is provided with a concave fog making cavity, and the front half part is fixed with a controller.

10. The atomization generating device of the cooling fan according to claim 1, characterized in that: the upper water tank is transparent.

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