CN218902394U - Atomization cooling assembly, atomization cooling device and atomization cooling equipment - Google Patents

Abstract

The utility model discloses an atomization cooling component, an atomization cooling device and atomization cooling equipment, wherein the atomization cooling component comprises a chassis, at least one spray head, a liquid channel arranged on the chassis and a metal hose arranged between each spray head and the chassis; the upper end of the metal hose is communicated with the spray head, and the lower end of the metal hose is communicated with the liquid channel. This atomizing cooling subassembly can shift to other places, and the direction of shower nozzle can be adjusted in a flexible way, in the in-process of using, and the portability is high, and the spraying scope is wide, and the cooling effect is good.

Description

Atomization cooling assembly, atomization cooling device and atomization cooling equipment

Technical Field

The utility model relates to the technical field of cooling equipment, in particular to an atomization cooling component, an atomization cooling device and atomization cooling equipment.

Background

With the warming of the global air temperature, the environmental temperature is continuously increased, and the outdoor activities and working environments of people are getting worse. Especially in summer high temperature dry weather, people gathering in house courtyards or when moving in outdoor places such as open squares, stadiums, amusement parks, seaside beach, fishing parks, barbecue parks, etc., in these outdoor environments air conditioning cannot be used and people must endure ubiquitous heat. The spray cooling equipment is generally used for controlling the environmental temperature, and water is atomized into water mist through a spray head in the spray cooling equipment to achieve the cooling effect.

The existing spray cooling equipment cannot move, and the spray head is fixedly arranged on a building or an object which is difficult to move, such as an eave, a sunshade umbrella and the like, so that the portability is low in the use process; because the direction of the spray head is fixed, the spray direction of the spray head cannot be adjusted, and the application range is low.

Disclosure of Invention

The utility model aims to overcome the problems in the prior art and provide an atomization cooling component which can be transferred to other places, the direction of a spray head can be flexibly adjusted, and the atomization cooling component has the advantages of high portability, wide spray range and good cooling effect in the use process.

Another object of the present utility model is to provide an atomization cooling arrangement comprising an atomization cooling arrangement as described above.

A third object of the present utility model is to provide an atomizing cooling device comprising the above-mentioned atomizing cooling assembly.

The aim of the utility model is achieved by the following technical scheme:

an atomization cooling component comprises a chassis, at least one spray head, a liquid channel arranged on the chassis and a metal hose arranged between each spray head and the chassis; the upper end of the metal hose is communicated with the spray head, and the lower end of the metal hose is communicated with the liquid channel.

The working principle of the atomization cooling component is as follows:

during operation, a water pipe is prepared, one end of the water pipe is connected to a water source (such as a faucet), the other end of the water pipe is connected to the chassis, the water pipe is communicated with the liquid channel, a user can move the chassis to a place needing cooling, then bends the metal hose, adjusts the direction of the spray head, opens the faucet, and after tap water enters the liquid channel from the water pipe, the tap water is split through a plurality of metal hoses, finally atomized into water mist from the spray head to spray, and the principle of water evaporation and heat absorption is utilized to take away heat of surrounding air, so that the surrounding temperature is reduced, the cooling effect is achieved, and a comfortable environment is provided for people.

Preferably, the metal hose comprises a brass tube and a protective layer sleeved outside the brass tube. By arranging the brass tube, the brass tube is convenient to deform, the brass tube can be deformed into a state of standing, bending and folding, the deformed state can be kept unchanged, and the direction of the spray head can be flexibly adjusted; in addition, through setting up the protective layer, can play the effect of protection to the brass pipe.

Further, the protective layer is made of PU. The PU material has the characteristics of good physical properties, bending resistance, good softness and high tensile strength, and simultaneously has air permeability.

Preferably, the upper end of the chassis is provided with an upward protruding column body, the column body is provided with a vertical flow passage, the upper end of the vertical flow passage is communicated with the metal hose, and the lower end of the vertical flow passage is communicated with the liquid passage. And a vertical flow passage is arranged, so that the pipe is convenient to connect with a metal hose.

Preferably, the upper end of the vertical runner is connected with the metal hose through a first quick connector. Through setting up first quick-operation joint, be convenient for vertical runner and metal collapsible tube pass through first quick-operation joint quick connect and dismantlement, it is more convenient to use.

Preferably, the chassis is of a shell-like structure, which aims to reduce the weight of the chassis.

An atomization cooling device comprises a water pipe and an atomization cooling component, wherein one end of the water pipe is communicated with a liquid channel. The working principle of the atomization cooling device is as follows: the other end of the water pipe is connected to a water source, such as a water tap, and water is conveyed into the liquid channel through the water pipe, so that atomization cooling of the atomization cooling component is realized.

Preferably, the water pipe is provided with a threaded valve head for connecting a water tap at one end far away from the atomization cooling component; and a valve for controlling the on-off of water flow is also arranged on the water pipe. Through setting up the screw thread valve head, can directly connect the tap with the water pipe on through the screw thread valve head, make things convenient for the use, through setting up the valve, when the water pipe is arranged very long, atomizing cooling subassembly is very far away from tap, through setting up the valve on the water pipe, can control rivers break-make, realize atomizing cooling subassembly and open work and stop work, made things convenient for people to operate the valve, need not remote control.

An atomization cooling device comprises a plurality of atomization cooling assemblies, and a plurality of liquid channels in the atomization cooling assemblies are mutually communicated. Through setting up a plurality of atomizing cooling assemblies, a plurality of atomizing cooling assemblies simultaneous working, atomizing scope is wider, and the cooling effect is better, and a plurality of atomizing cooling assemblies can make up the collocation in a flexible way and use.

Preferably, a plurality of water inlets and outlets are arranged on the side wall of the chassis, and the water inlets and outlets are communicated with the liquid channel; wherein, the water inlet and outlet on two adjacent chassis are communicated through the connecting pipe. Be equipped with a plurality of water inlet and outlet on every chassis, through the connecting pipe intercommunication, can realize interconnection between chassis and the chassis, when the water inlet and outlet on one of them chassis inserts the water pipe, inserts the water source (like tap) with the water pipe time for be full of water in the liquid passageway of all chassis, can realize a plurality of atomizing cooling assemblies simultaneous workings.

Preferably, a switch component is arranged on the water inlet and the water outlet. The water inlet and the water outlet are arranged in a plurality, when part of the water inlet and the water outlet are not communicated with the connecting pipe or the water pipe, the corresponding water inlet and the water outlet can be closed through the switch assembly, and water flow is placed to leak from the water inlet and the water outlet; when the water inlet and the water outlet are communicated with the connecting pipe or the water pipe, the switch component of the water inlet and the water outlet is opened, the communication of the water inlet and the water outlet is ensured, and a plurality of atomization cooling components work simultaneously.

Preferably, the switch assembly is a sealing plug. In the structure, when the water inlet and the water outlet are required to be communicated with the water pipe or the connecting pipe, the water inlet and the sealing plug is firstly required to be pulled out from the water inlet and the water outlet, then the water pipe or the connecting pipe is connected to the sealing plug, the water inlet and the water outlet which are not communicated with the water pipe or the connecting pipe are not connected, and the sealing plug is kept in the water inlet and the water outlet to play a sealing role to prevent water leakage. Through setting up the sealing plug, can be nimble with a plurality of atomizing cooling subassemblies collocation connection.

Preferably, a second quick connector is arranged at the water inlet and outlet, and the sealing plug is connected with the water inlet and outlet, the connecting pipe and the water inlet and outlet through the second quick connector. By arranging the second quick connector, on one hand, the sealing plug is convenient to insert into the second quick connector, the sealing of the water inlet and the water outlet is realized, and meanwhile, the sealing plug is convenient to pull out; on the other hand, the connection of the connecting pipe is convenient.

Compared with the prior art, the utility model has the following beneficial effects:

1. when the atomization cooling component is used, the chassis can be moved to a place needing cooling, the direction of the spray head can be adjusted randomly by bending the metal hose, the flexibility is high, the portability is high, the spraying range is wide, and the cooling effect is good in the use process.

2. According to the atomization cooling device, the water pipe, the thread valve head and the valve are arranged, so that the atomization cooling component can be conveniently used, and the operation is very simple.

3. According to the atomization cooling equipment, the liquid channels in the atomization cooling components are mutually communicated, so that the atomization cooling components can be flexibly combined and matched for use, the atomization range is wider, and the cooling effect is better.

Drawings

Fig. 1 is a schematic perspective view of one embodiment of an atomization cooling component according to the present utility model.

Fig. 2 to fig. 4 are schematic structural views of the atomization cooling component according to the present utility model, in which the water pipe, the metal hose and the spray head are omitted, wherein fig. 2 is a front view, fig. 3 is a perspective view, and fig. 4 is a perspective view of another view direction.

Fig. 5 is a cross-sectional view taken along the direction C-C in fig. 2.

Fig. 6 is a schematic view of the internal structure of the metal hose according to the present utility model.

Fig. 7 is a schematic structural view of the chassis in the present utility model.

Fig. 8 is a schematic structural view of a liquid channel and a vertical channel in the present utility model.

Fig. 9 is a schematic structural diagram of an atomization cooling device in the present utility model.

Fig. 10 is a schematic structural diagram of one embodiment of an atomization cooling device according to the present utility model.

Fig. 11-12 are schematic structural views of two other embodiments of the atomizing cooling device according to the present utility model.

Detailed Description

In order that those skilled in the art will well understand the technical solutions of the present utility model, the following describes the present utility model further with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

Example 1

1-8, this embodiment discloses an atomization cooling component, which comprises a chassis 1, a plurality of spray heads 2, a liquid channel 3 arranged on the chassis 1, and a metal hose 4 arranged between each spray head 2 and the chassis 1; i.e. the number of the spray heads 2 is the same as and corresponds to the number of the metal hoses 4, wherein the upper ends of the metal hoses 4 are communicated with the spray heads 2, and the lower ends of the metal hoses 4 are communicated with the liquid channels 3. The spray head 2 is an atomization spray head, and the metal hose 4 can be bent in all directions, so that the direction of the spray head 2 can be adjusted, and the application range is wide.

Referring to fig. 1 and 6, the metal hose 4 includes a brass tube 4-1 and a protective layer 4-2 sleeved outside the brass tube 4-1. By arranging the brass tube 4-1, the brass tube 4-1 is convenient to deform, the brass tube 4-1 can be deformed into a state of standing, bending and folding, the state can be kept unchanged after deformation, and the direction of the spray head 2 can be flexibly adjusted; in addition, the copper tube 4-1 can be protected by providing the protective layer 4-2.

Referring to fig. 1 and 6, the material of the protective layer 4-2 is PU. The PU material has the characteristics of good physical properties, bending resistance, good softness and high tensile strength, and simultaneously has air permeability.

Referring to fig. 1-8, the upper end of the chassis 1 is provided with an upward protruding column 5, and a vertical flow channel 6 is arranged on the column 5; the upper end of the vertical runner 6 is communicated with the metal hose 4, and the lower end is communicated with the liquid channel 3. A vertical runner 6 is provided for facilitating connection with the metal hose 4.

Referring to fig. 1-8, the upper end of the vertical runner 6 is connected with the metal hose 4 through a first quick connector 7. Through setting up first quick-operation joint 7, be convenient for vertical runner 6 and metal collapsible tube 4 pass through first quick-operation joint 7 quick connect and dismantle, it is more convenient to use.

Referring to fig. 1-8, the number of the spray heads 2 is four, correspondingly, the number of the metal hoses 4 is four, the number of the columns 5 is four, the four columns 5 are distributed on the chassis 1 in a matrix, and the connecting lines of the four columns 5 are rectangular, so that the four spray heads 2 can be uniformly distributed in four directions, and the atomization range is wider.

Referring to fig. 4, the chassis 1 has a cylindrical shell-like structure, and the purpose thereof is to reduce the weight of the chassis 1 and improve stability during placement.

Referring to fig. 1-10, at least one water inlet and outlet 12 is arranged on the side wall of the chassis 1 and is used for connecting with the water pipe 8, and the water inlet and outlet 12 is communicated with the liquid channel 3. When only one water inlet and outlet 12 is arranged, the water inlet and outlet 12 is communicated with the water pipe 8, then the water pipe 8 is connected to the water tap 11, and the water inlet and outlet 12 is communicated with the water tap 11 through the water pipe 8, so that atomization cooling can be realized; when a plurality of water inlets 12 are arranged, one water inlet 12 is communicated with the water faucet 11 through the water pipe 8, and the other water inlets 12 are sealed and closed through a switch component (such as a sealing plug 14); when a plurality of atomizing cooling components are arranged at the water inlet and outlet 12 and more than two atomizing cooling components are used, one water inlet and outlet 12 of one atomizing cooling component is communicated with the water tap 11 through the water pipe 8, and the other water inlet and outlet 12 or water outlets 12 are communicated with the water inlet and outlet 12 of the other atomizing cooling component through the connecting pipe 13; the water inlet and outlet 12 of the unconnected water pipe 8 and the connecting pipe 13 are sealed by a switch assembly; the atomization cooling component connected with the water pipe 8 is connected with the faucet 11 through the water pipe 8, and after tap water is introduced, the atomization cooling components are realized to perform atomization cooling jointly, so that the flexibility is strong, the atomization range is wide, and the use process is very convenient.

Referring to fig. 1 to 9, the working principle of the atomization cooling component is as follows:

during operation, a water pipe 8 is prepared, one end of the water pipe 8 is connected to a water source (such as a faucet 11), the other end of the water pipe 8 is connected to the chassis 1, the water pipe 8 is communicated with the liquid channel 3, a user can move the chassis 1 to a place needing to be cooled, then the metal hose 4 is bent, the direction of the spray head 2 is adjusted, the faucet 11 is opened, tap water enters the liquid channel 3 from the water pipe 8, the tap water is split through the metal hoses 4, finally atomized into water mist from the spray head 2 to spray, the heat of surrounding air is taken away by utilizing the principle of water evaporation and heat absorption, the surrounding temperature is reduced, the cooling effect is achieved, and a comfortable environment is provided for people.

Example 2

Referring to fig. 9, this embodiment discloses an atomization cooling device, which includes a water pipe 8 and the atomization cooling component described in embodiment 1, wherein one end of the water pipe 8 is communicated with the liquid channel 3. The working principle of the atomization cooling device is as follows: the other end of the water pipe 8 is connected to a water source, such as a faucet 11, the other end of the water pipe 8 is connected to a water inlet and outlet 12, and water is conveyed into the liquid channel 3 through the conveying of the water pipe 8, so that the atomization cooling of the atomization cooling component is realized.

Referring to fig. 9, the water pipe 8 is provided with a threaded valve head 9 for connecting a tap 11 at one end far away from the atomization cooling component; the water pipe 8 is also provided with a valve 10 for controlling the on-off of water flow. Through setting up screw thread valve head 9, can directly connect tap 11 with water pipe 8 through screw thread valve head 9 on, make things convenient for the use, through setting up valve 10, when water pipe 8 is arranged very long, atomizing cooling subassembly is very far away from tap 11, through setting up valve 10 on water pipe 8, can control rivers break-make, realize atomizing cooling subassembly and open work and stop work, made things convenient for people to operate valve 10, need not remote control.

Example 3

Referring to fig. 10, this embodiment discloses an atomization cooling arrangement comprising a plurality of atomization cooling arrangements as described in embodiment 1, wherein the liquid channels 3 of the plurality of atomization cooling arrangements are in communication with each other. Through setting up a plurality of atomizing cooling assemblies, a plurality of atomizing cooling assemblies simultaneous working, atomizing scope is wider, and the cooling effect is better, and a plurality of atomizing cooling assemblies can make up the collocation in a flexible way and use.

Referring to fig. 1-8 and 10, a plurality of water inlets and outlets 12 are arranged on the side wall of the chassis 1, and the water inlets and outlets 12 are communicated with the liquid channel 3; wherein, the water inlets and outlets 12 on two adjacent chassis 1 are communicated through the connecting pipe 13; one water inlet and outlet 12 is connected with a water pipe 8, and the water pipe 8 is communicated with a water source. The water inlet and outlet 12 is arranged on each chassis 1, the chassis 1 and the chassis 1 are communicated through the connecting pipe 13, and when one of the water inlet and outlet 12 of the chassis 1 is connected with the water pipe 8, the water pipe 8 is connected with a water source (such as a tap 11), the liquid channels 3 of all the chassis 1 are filled with water, so that a plurality of atomization cooling components can work simultaneously.

Referring to fig. 1-8 and 10, the water inlet 12 is provided with a switch assembly. The purpose is that because the water inlet and outlet 12 is provided with a plurality of water inlets and outlets, when part of the water inlets and outlets 12 are not connected with the connecting pipe 13 or the water pipe 8, the corresponding water inlets and outlets 12 can be closed through the switch assembly, and water flows are placed to leak out from the water inlets and outlets 12; when the water inlet and outlet 12 is communicated with the connecting pipe 13 or the water pipe 8, the switch component of the water inlet and outlet 12 is opened, so that the communication of the water inlet and outlet 12 is ensured, and a plurality of atomization cooling components work simultaneously.

Referring to fig. 1-8 and 10, the switch assembly is a sealing plug 14. In the above structure, when the water inlet/outlet 12 needs to be connected with the water pipe 8 or the connecting pipe 13, the water inlet sealing plug 14 is first pulled out from the water inlet/outlet 12, then the water pipe 8 or the connecting pipe 13 is connected with the sealing plug 14, the water inlet/outlet 12 connected with the water pipe 8 or the connecting pipe 13 is not connected, and the sealing plug 14 is kept in the water inlet/outlet 12 to play a sealing role to prevent water leakage. By providing the sealing plug 14, a plurality of atomized cooling components can be flexibly matched and connected.

Referring to fig. 1-8 and 10, the number of water inlets and outlets 12 on each chassis 1 is 4, and the 4 water inlets and outlets 12 are all communicated with the liquid channel 3. The atomizing cooling components can be arranged in series through the connecting pipes 13, after the atomizing cooling components are connected in series, 4 water inlet and outlet ports 12 on each chassis 1 are connected with the connecting pipes 13, the other two water inlet and outlet ports are sealed through the sealing plugs 14, and when the water inlet and outlet ports 12 on one chassis 1 are connected with a water source, one water inlet and outlet port 12 on the chassis 1 is sealed through the sealing plug 14.

Referring to fig. 10, the number of the atomizing cooling components in the present embodiment is 4, and the head and tail of the 4 atomizing cooling components are connected in series through the connecting pipe 13.

Referring to fig. 10, the water pipe 8 and the connecting pipe 13 are hoses.

Referring to fig. 1-8 and 10, a second quick connector 15 is disposed at the water inlet/outlet 12, and the water pipe 8, the water inlet/outlet 12, the sealing plug 14, the water inlet/outlet, the connecting pipe 13 and the water inlet/outlet 12 are all connected by the second quick connector 15. By arranging the second quick connector 15, on one hand, the sealing plug 14 is convenient to insert into the second quick connector 15, the sealing of the water inlet and outlet 12 is realized, and meanwhile, the sealing plug 14 is also convenient to pull out; on the other hand, the connection of the connection pipe 13 is facilitated.

Referring to fig. 1-8 and 10, the first and second quick connectors 7 and 15 are identical in structure. This can improve interchangeability.

Further, the upper end of the metal hose 4 is connected with the spray head 2 through the first quick connector 7 or the second quick connector 15, which aims at facilitating disassembly and connection.

Referring to fig. 5 and 8, the liquid channel 3 is a cross-shaped channel which is mutually crossed and communicated, four openings are correspondingly arranged around the cross-shaped channel, and the openings are the water inlet and outlet 12. The cross-shaped channel comprises four branch channels 3-1, and four vertical flow channels 6 are correspondingly communicated with the four branch channels 3-1. The purpose of the device is that four metal hoses 4 can be evenly distributed and communicated with four branch channels 3-1, so that water flow can be distributed more uniformly, and the effect of spraying and cooling is improved.

Example 4

Referring to fig. 11 and 12, other structures in this embodiment are the same as those in embodiment 3, except that the connection manner of the plurality of atomizing cooling modules is as follows: the four water inlet and outlet ports 12 in one atomization cooling component can be respectively communicated with the other four atomization cooling components through the connecting pipe 13, one water inlet and outlet port 12 which is not connected with the connecting pipe 13 is connected with the water pipe 8, and when the atomization cooling component is used, the water pipe 8 is communicated with a water source (such as a tap 11); or three water inlet and outlet ports 12 in one atomization cooling component can be respectively communicated with the other three atomization components, and the other water inlet and outlet port 12 is connected with a water pipe 8, and when in use, the water pipe 8 is communicated with a water source.

The foregoing is illustrative of the present utility model, and is not to be construed as limiting thereof, but rather as various changes, modifications, substitutions, combinations, and simplifications which may be made without departing from the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. An atomization cooling component is characterized by comprising a chassis, at least one spray head, a liquid channel arranged on the chassis and a metal hose arranged between each spray head and the chassis; the upper end of the metal hose is communicated with the spray head, and the lower end of the metal hose is communicated with the liquid channel.

2. The atomizing cooling assembly of claim 1, wherein the metal hose comprises a brass tube and a protective layer sleeved outside the brass tube.

3. The atomizing cooling assembly according to claim 1, wherein an upward protruding column is arranged at the upper end of the chassis, a vertical flow channel is arranged on the column, the upper end of the vertical flow channel is communicated with the metal hose, and the lower end of the vertical flow channel is communicated with the liquid channel; the upper end of the vertical flow passage is connected with the metal hose through a first quick connector.

4. An atomising cooling device comprising a water tube and an atomising cooling assembly according to any of claims 1 to 3, wherein one end of the water tube is in communication with the liquid channel.

5. The atomizing cooling device of claim 4, wherein said water tube is provided with a threaded valve head on an end remote from said atomizing cooling assembly for connection to a faucet; and a valve for controlling the on-off of water flow is also arranged on the water pipe.

6. An atomizing cooling device, comprising a plurality of atomizing cooling assemblies according to any one of claims 1 to 3, wherein liquid passages in the plurality of atomizing cooling assemblies are in communication with each other.

7. The atomizing cooling device of claim 6, wherein a plurality of water inlet and outlet ports are provided on a side wall of the chassis, and the water inlet and outlet ports are communicated with the liquid channel; wherein, the water inlet and outlet on two adjacent chassis are communicated through the connecting pipe.

8. The atomizing cooling device of claim 7, wherein a switch assembly is provided on the water inlet and outlet.

9. The atomizing cooling device of claim 8, wherein the switch assembly is a sealing plug.

10. The atomizing cooling device according to claim 9, wherein a second quick connector is arranged at the water inlet and outlet, and the sealing plug is connected with the water inlet and outlet, the connecting pipe and the water inlet and outlet through the second quick connector.

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