CN210320432U

CN210320432U - Air cooler

Info

Publication number: CN210320432U
Application number: CN201920704263.9U
Authority: CN
Inventors: 陈太明
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-16
Filing date: 2019-05-16
Publication date: 2020-04-14
Anticipated expiration: 2029-05-16

Abstract

The utility model relates to the technical field of air coolers, and provides an air cooler which comprises an installation structure, a cooling system, a water supply system and an air supply system, wherein the cooling system comprises a curtain core module, the curtain core module comprises a curtain core made of water-absorbing materials, and the curtain core is provided with a ventilation hole; the water supply system comprises a water storage module and a water supply module, the water storage module is provided with a water storage cavity for storing water, the water supply module is communicated with the water storage cavity and can convey water in the water storage cavity to the upper part of the curtain core so as to supply water for the curtain core from the upper part of the curtain core, the mounting structure is provided with an air inlet and an air outlet, the curtain core module, the water storage module and the water supply module are all arranged on the mounting structure, and the air supply system can enable air to be sent into the mounting structure from the air inlet and flow through the curtain core and finally be sent out through the air outlet so as to realize the output of cold air; the water delivery module supplies water for the curtain core from the upper part of the curtain core, and water downwards permeates the curtain core under the action of gravity, so that a water tank can be omitted, the use of open water is avoided, and water leakage is effectively prevented.

Description

Air cooler

Technical Field

The utility model relates to an air-cooler technical field especially relates to an air-cooler.

Background

Current air-cooler, the structure is comparatively complicated, and the volume is great, not portable, and its inside basin that sets up usually, and supply water for the basin through the water tank, the basin setting is in curtain core below, and go deep into the basin with curtain core bottom and absorb the water in the basin, thereby can permeate the curtain core, because the existence of bright water in the basin, have higher risk of leaking, when the air-cooler need be moved or the atress slope, lead to leaking easily, bring very big inconvenience for the use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an air-cooler can save the setting of basin, effectively avoids the phenomenon of leaking.

The utility model provides a technical scheme that above-mentioned technical problem adopted is:

an air cooler is provided, comprising a mounting structure, a cooling system, a water supply system and an air supply system, wherein the cooling system comprises a curtain core module, the curtain core module comprises a curtain core, the curtain core is made of water absorption materials, and the curtain core is provided with a vent hole; the water supply system comprises a water storage module and a water delivery module, the water storage module is provided with a water storage cavity for storing water, and the water delivery module is communicated with the water storage cavity and can deliver water in the water storage cavity to the upper part of the curtain core; the air supply system can enable air to be sent into the mounting structure from the air inlet, flow through the curtain core and finally be sent out through the air outlet.

As an improvement of the technical scheme, the water delivery module comprises a delivery passage, the delivery passage comprises a water inlet end and a water outlet end, the water inlet end is communicated with the water storage cavity, and the water outlet end is correspondingly arranged above the curtain core.

As a further improvement of the above technical solution, the water delivery module further comprises a water control device, the water control device comprises an electric valve and a detection device, the electric valve is arranged on the delivery passage, the delivery passage can be opened when the electric valve is opened, and the delivery passage is closed when the electric valve is closed; the electrically operated valve is electrically connected with the detection device, the detection device is used for detecting data capable of reflecting the humidity of the curtain core, and the electrically operated valve can be opened or closed according to the data detected by the detection device.

As a further improvement of the technical scheme, the water storage module is arranged above the curtain core module.

As a further improvement of the technical scheme, the mounting structure is provided with a mounting platform which is positioned above the curtain core module, and the water storage module is mounted on the mounting platform.

As a further improvement of the above technical solution, the air supply system includes an air supply module, the air supply module is disposed in the mounting structure, and the air supply module is used for supplying air to the curtain core.

As a further improvement of the technical scheme, the air supply system further comprises an air duct, the air duct is positioned beside the curtain core module and communicated with the air supply module and the air outlet.

As a further improvement of the above technical solution, the mounting structure includes a first mounting bracket and a second mounting bracket, the water storage module and the curtain core module are disposed on the first mounting bracket, and the first mounting bracket and the second mounting bracket are detachably connected.

As a further improvement of the above technical scheme, be provided with first installation department on the first mounting bracket, be provided with the second installation department on the second mounting bracket, first installation department with the second installation department can mutually support and peg graft.

As a further improvement of the above technical scheme, the curtain core module includes curtain core mounting bracket, the equal cascade and the curtain core, the curtain core with equal cascade sets up on the curtain core mounting bracket, the curtain core with equal cascade comprises water-absorbing material, the curtain core has the structure of netted through-hole, equal cascade covers the upper portion of curtain core to paste and lean on in the top of curtain core, moisture in equal cascade can pass through equal cascade with the contact site of curtain core to the curtain core infiltration.

The utility model has the advantages that:

the cooling system comprises a curtain core module, the curtain core module comprises a curtain core, the curtain core is made of water absorbing materials, and the curtain core is provided with a ventilation hole; the water supply system comprises a water storage module and a water supply module, the water storage module is provided with a water storage cavity for storing water, the water supply module is communicated with the water storage cavity and can convey water in the water storage cavity to the upper part of the curtain core so as to supply water for the curtain core from the upper part of the curtain core, the mounting structure is provided with an air inlet and an air outlet, the curtain core module, the water storage module and the water supply module are all arranged on the mounting structure, and the air supply system can enable air to be sent into the mounting structure from the air inlet and flow through the curtain core and finally be sent out through the air outlet so as to realize the output of cold air; the water delivery module supplies water for the curtain core from the upper part of the curtain core, and water downwards permeates the curtain core under the action of gravity, so that a water tank can be omitted, the use of open water is avoided, and water leakage is effectively prevented.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the following will briefly explain the drawings required to be used in the description of the embodiments:

FIG. 1 is an exploded view of one embodiment of an air cooler;

FIG. 2 is a schematic diagram of a partial structural assembly of an embodiment of an air cooler;

FIG. 3 is a schematic diagram of an air cooler with a partially disassembled structure according to an embodiment;

FIG. 4 is a disassembled schematic view of one embodiment of the mounting structure;

FIG. 5 is a schematic structural view of one embodiment of the first mount;

FIG. 6 is a schematic structural view of one embodiment of a second mount;

FIG. 7 is a schematic view of one embodiment of an air delivery arrangement;

FIG. 8 is a schematic structural view of one embodiment of the air chute and the first mounting bracket;

FIG. 9 is a partial illustration of the relative positions of the air chute and the first chamber;

FIG. 10 is a cross-sectional view of one embodiment of an air cooler air delivery structure portion;

FIG. 11 is a schematic perspective view of an embodiment of an air supply structure;

FIG. 12 is a schematic structural view of an embodiment of a watering system;

FIG. 13 is a schematic view of a portion of one embodiment of a watering system;

FIG. 14 is a schematic view of a portion of another embodiment of a watering system;

FIG. 15 is a schematic structural view of one embodiment of a curtain core module;

FIG. 16 is a schematic structural view of one embodiment of a curtain core mounting bracket;

FIG. 17 is a top view of the embodiment shown in FIG. 15;

FIG. 18 is a cross-sectional view taken at A-A of FIG. 17;

fig. 19 is a cross-sectional view taken at B-B of fig. 17.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The upper, lower, left, right and other directions of the present invention are only described with respect to the mutual position relationship of the components of the present invention in the drawings. The utility model provides an each technical feature can the interactive combination under the prerequisite of conflict each other.

Fig. 1 is an exploded view of an embodiment of an air cooler, referring to fig. 1, the air cooler includes a mounting structure, a cooling system, a water supply system and an air supply system, the mounting structure includes a first mounting bracket 10 and a second mounting bracket 20, the cooling system includes a curtain core module 30, the water supply system includes a water storage module 40 and a water supply module 50, the air supply system includes an air supply module 60, and the air cooler further includes a front cover 70 and a housing 80. The curtain core module 30, the water storage module 40, the water delivery module 50 and the air supply module 60 are all installed on the installation structure, wherein the curtain core module 30, the water storage module 40 and the water delivery module 50 are installed on the first installation frame 10, the air supply module 60 is installed on the second installation frame 20, the shell 80 covers the installation structure, so that the internal function module is covered in the shell, and the front cover 70 is installed on the first installation frame 10. The second mounting frame 20 is provided with an air inlet 201, the first mounting frame 10 is provided with an air outlet 101, and the front cover 70 is installed at the air outlet 101. The air supply system enters external air through the air inlet 201 and sends the external air out through the air outlet 101, the water supply system supplies water for the cooling system to keep the continuous work of the cooling system, and in the air supply process, air flows through the curtain core module 30, so that the cooling is realized. In a specific implementation, the cooling system may further include other cooling modules, for example, an ice adding slot (not shown) is provided, ice cubes may be placed in the ice adding slot, and when the air flows through the ice adding slot first and then flows out from the air outlet, cold air is discharged.

Fig. 2 is a schematic diagram of a partial structure assembly of an embodiment of an air cooler, wherein a housing 70 is omitted, refer to fig. 1 and 2, when the air cooler is installed, the curtain core module 30, the water storage module 40 and the water delivery module 50 can be installed on the first installation frame 10, the air delivery module 60 is installed on the second installation frame 20, so as to form two-part installation modules respectively, and then the housing 80 is covered on the first installation frame 10 or the second installation frame 20, and then the two-part installation modules are assembled, and the front cover 60 is installed on the first installation frame 10, so that the installation of the main structure can be completed, and the modularized rapid installation is realized, and the disassembly and maintenance are also convenient. This two parts installation module equipment accessible first mounting bracket 10 and second mounting bracket 20 are connected and realize, and first mounting bracket 10 and second mounting bracket 20 can adopt the mode of pegging graft to install, and installation easy operation is swift, also can adopt other detachable modes to connect, for example through the buckle joint. Two pairs of mounting holes may be formed in the outer casing 80, and the fastening members 90 may fixedly connect the outer casing 80 to the first and

second mounting frames

10 and 20, respectively, from the outside of the outer casing 80, so as to further enhance the mounting stability.

The front cover 70 includes a front cover frame 71 and a plurality of guide fan blades 72 rotatably connected to the front cover frame 71, the guide fan blades 72 are parallel to each other, and the rotation angle of the guide fan blades 72 is adjusted to adjust the wind direction of the wind discharged from the outlet 101 within a certain range.

Fig. 3 is a schematic diagram of partial structure splitting of an embodiment of an air cooler, referring to fig. 3, the mounting structure includes a first mounting bracket 10 and a second mounting bracket 20, a first mounting portion 12 is provided on the first mounting bracket 10, a second mounting portion 22 is provided on the second mounting bracket 20, and the first mounting portion 12 and the second mounting portion 22 can be mutually matched and plugged, so that quick mounting is realized, and the air cooler is easy to detach.

Fig. 4 is a disassembled schematic view of an embodiment of the mounting structure, referring to fig. 4, the first mounting frame 10 is further provided with a first mounting cavity 13 and a mounting platform 14, and the curtain core module 1 is arranged in the first mounting cavity 13. The side wall of the first mounting cavity 13 can play a role of water retention for the curtain core module. The mounting table 14 is located above the first mounting chamber 13, and the water storage module 2 is mounted on the mounting table 14.

Fig. 5 is a schematic structural view of an embodiment of the first mounting bracket, fig. 6 is a schematic structural view of an embodiment of the second mounting bracket, and referring to fig. 5 and 6, the first mounting portion 12 includes a plurality of fixing posts 121 extending inward from an inner surface of the first frame 11, and the fixing posts 121 may be integrally formed with the first frame 11 or may be fixedly connected to the first frame 11 in a split manner; the second mounting rack 20 comprises a second frame 21 and a second mounting part 22, the second mounting part 22 comprises a plurality of inserting parts 221 which can be matched and inserted with the fixing columns 121, and the positions of the inserting parts 221 correspond to the positions of the fixing columns 121 respectively, so that rapid inserting and mounting are realized; the insertion portion 221 may be integrally formed with the second frame 21, or may be fixedly connected to the second frame 21 in a detachable manner.

Specifically, the insertion part 221 is a columnar structure, and correspondingly, the fixing post 121 is provided with the insertion hole 122 that is matched with the insertion part 221 for insertion, so that the insertion part 221 can be inserted into the insertion hole 122 to realize insertion of the insertion part 221 and the fixing post 121, thereby completing the quick insertion installation of the first installation frame 10 and the second installation frame 20.

In the present embodiment, the mounting structure is a square structure as a whole, the first frame 11 and the second frame 21 are both substantially square structures, the fixing posts 121 are respectively disposed near the inner sides of the four corners of the first frame, and the four fixing posts 121 are combined to form the first mounting portion 12; near four inboard angles that correspond the second frame, set up grafting portion 221 respectively, four grafting portions 221 make up and form second installation department 22, and four fixed columns 121 are respectively corresponding in the position of four grafting portions 221 to make each grafting portion 221 can be pegged graft rather than each fixed column 121 that corresponds, first installation department 12 and second installation department 22 are pegged graft promptly, thereby realize the grafting installation of first mounting bracket 10 and second mounting bracket 20.

A reinforcing structure 123 may be disposed on an outer wall of each fixing post 121 to increase the strength of the fixing post 121. The reinforcing structure 123 may be a structure protruding radially outward from the outer surface of the fixing post 121, and the reinforcing structure 122 extends along the axis of the fixing post 121 and is fixedly connected (may be integrally formed) with the first frame 11, so as to enhance the strength of the fixing post 121, effectively prevent the fixing post 121 from deforming and bending, and ensure the reliability of the inserting installation.

As shown in fig. 5, the reinforcing structure 123 is a reinforcing plate protruding outward from the outer surface of the fixing post 121, and one end of the reinforcing plate is fixed to the first frame 11. The outer surface of the fixing post 121 may be provided with a plurality of similar reinforcing plates, and the height of the protrusions of the reinforcing plates may be set according to specific structural requirements and space limitations.

Be provided with first installation cavity 13 on first mounting bracket 10, can be used to install the inside function module of air-cooler, for example, first installation cavity 13 can be used to install curtain core module, the lateral wall of first installation cavity 13 can play the effect of moisturizing to curtain core module, still be provided with mount table 14 on first mounting bracket 10, mount table 14 is located the top of first installation cavity 13, can be used to install the inside function module of air-cooler, for example, mount table 14 can be used to install water storage module 40 (see fig. 1), thereby form a module, help the holistic fast assembly of air-cooler.

As shown in fig. 3, a second mounting cavity 23 is provided on the second mounting bracket 20, and a second mounting cavity 23 is provided on the second mounting bracket 20, for setting an air supply module 60 (see fig. 1) of the air cooler, thereby forming a module and facilitating the rapid assembly of the whole air cooler.

Above-mentioned mounting structure has simple structure, the advantage of being convenient for installation and dismantlement to, the inside function module of air-cooler can be installed respectively on mounting structure's first mounting bracket 10 and/or second mounting bracket 20 in advance, assembles again, realizes the modular installation, makes air-cooler overall structure install convenient, quick, and the convenient to detach maintenance.

Air supply system of air-cooler, be used for from the air intake drum go into the air-cooler inside with the air, discharge from the air outlet again through cooling system cooling, realize the air-cooler send the branch, current air-cooler, the size of the amount of wind is received the influence of the lectotype of fan and air-cooler inner structure, fan lectotype receives the influence of the whole size of air-cooler, if select high-power fan, then cause occuping of great space, the whole size of air-cooler also needs increase thereupon, if select less fan, the amount of wind of fan receives the hindrance of inside spare part and influences the amount of wind of final air-out, most amount of wind blows out through the curtain core, the hindrance effect of curtain core makes the air output of air-cooler less, can not satisfy the user demand of the big amount of wind. The utility model discloses an air-cooler air supply system includes air supply module and the air supply structure of forming inside the air-cooler, the air supply structure includes the wind channel of reserving in the air-cooler mounting structure, this wind channel directly communicates air supply module and air outlet, make some accessible cooling module of the amount of wind of air supply module blow off, another part blows off through this wind channel, compare with current structure, under the condition that the rated amount of wind of air supply module is the same with the volume size, this air supply system can effectively increase the air output, satisfy the user demand of the big amount of wind, and can form the effect of the mixed air-out of cold wind and natural wind, optimize and use experience, the following part embodiment of this air supply system of detailing:

fig. 7 is a schematic view of an embodiment of an air supply structure, fig. 8 is a schematic view of an embodiment of an air duct and a first mounting bracket, and referring to fig. 7 and 8, the air supply structure includes an air duct 15 disposed in a mounting structure, the air duct 15 is disposed near a curtain core module 30, the air duct 15 is disposed between the curtain core module 20 and the mounting structure and is communicated with an air supply module 60, that is, the air duct 15 is formed by a space reserved near the curtain core module in the mounting structure, the air supply module 60 is disposed at one side of the curtain core module 20 and is used for supplying air to the curtain core module 20, so as to form an air supply system, when the air supply module 60 is in operation, a part of air passes through the curtain core module 20, and another part of air can be directly supplied from the air duct 15 without being blocked, so that an air output amount is increased compared with a scheme without the air duct 15, a requirement for a large air amount can be satisfied, the cold air sent out by the curtain core module 20 and the natural air directly sent out by the air duct 15 are mixed for air outlet, so that the use experience can be optimized.

Wind channel 15 specifically forms on first mounting bracket 10, be provided with first installation cavity 13 on the first mounting bracket, curtain core module 30 sets up in this first installation cavity 13, air supply module 60 sets up the one side at first installation cavity 13 accent, its air-out face is just to the accent of first installation cavity 13, thereby can be directly to the air supply of curtain core module 30, the one side that curtain core module 30 and air supply module 60 are relative is its air inlet face, a settlement distance has between air outlet face of air supply module 60 and the air inlet face of curtain core module 30, help the even transport of wind.

In the present embodiment, the air duct 15 is provided above the first installation chamber 13. The first installation cavity 13 is provided with a sidewall 131 to be separated from the air duct 15, to have an air guiding function, and to facilitate installation and fixation of the curtain core module 30, and the sidewall 131 extends in the air blowing direction of the air blowing module 60, so that the air duct 15 forms a straight-through structure, which facilitates reduction of wind resistance.

The air outlet surface of the air supply module 60 covers part or all of the air inlet surface of the curtain core module 30 and covers part or all of the air inlet surface of the air duct 15, so that air sent by the air supply module 60 directly enters the curtain core module 30 and the air duct 15, and air quantity loss is reduced.

The air supply module 60 may be a common blower, and the specific type may be selected according to the air volume requirement and the installation size.

The curtain core module 30 comprises a water-absorbing curtain core 21, a plurality of through holes are formed in the curtain core along the air supply direction of the air supply module 60, when the curtain core is used, water is supplied to the curtain core 21 to wet the curtain core, and air is cooled after passing through the wetted curtain core 21, so that cold air is formed and sent out. The cooling scheme is a conventional method of an air cooler, and is not described herein.

Fig. 9 is a partial illustration of relative positions of the air duct and the first cavity, which all uses an air inlet surface from the first cavity as a main viewing direction, referring to fig. 3, in a specific implementation, the relative positions of the air duct 15 and the first installation cavity 13 may be multiple, the air duct 15 may be disposed on any one side or multiple sides of the first installation cavity 13, as shown in a in fig. 9, the air duct 15 is disposed on both upper and lower sides of the first installation cavity 13, or, as shown in b in fig. 9, the air duct 15 is disposed on both left and right sides of the first installation cavity 13, and as shown in c in fig. 9, the air duct 15 is disposed around the first installation cavity 13. The air duct 15 forms an auxiliary air outlet duct near the first mounting cavity 13, so that part of air of the air supply module 60 can be directly sent out from the air duct 15, and the purpose of increasing the integral air output is achieved.

Fig. 10 is a cross-sectional view of an embodiment of an air supply structure of an air cooler, fig. 11 is a schematic perspective view of an embodiment of an air supply structure, and referring to fig. 10 and 11, an air supply module 60 corresponds to an air inlet 201 of the air cooler, a curtain core module 30 corresponds to an air outlet 101 of the air cooler, an air duct 15 is communicated with the air outlet 101, and a water storage module 40 is used for supplying water to the curtain core module 30, so as to wet a curtain core 31; the first mounting frame 10 is provided with a mounting table 14 for the water storage module 40, and when the water storage module 40 is mounted on the mounting table 14, the water storage module 40 is positioned above the air duct 15, and water can be supplied to the curtain core module from above. When the air supply module 60 works, external air can be blown into the air cooler from the air inlet 201 and supplied to the curtain core module 30 and the air duct 15, and the cold air sent out from the curtain core module 30 and the natural air sent out from the air duct 15 are directly sent out from the air outlet 101, so that the air outlet with large air volume is realized, and the mixed air outlet of the cold air and the natural air is formed.

Fig. 12 is a schematic structural diagram of an embodiment of a water supply system, fig. 13 is a partial schematic structural diagram of an embodiment of a water supply system, and referring to fig. 12 and 13, the water supply system includes a water storage module 40 and a water delivery module 50, the water storage module 40 includes a water storage cavity 41 for storing water, the water delivery module 50 includes a delivery passage 51 and a water control device, the delivery passage 51 is communicated with the water storage cavity 41, and the water control device is used for opening or closing the delivery passage 51, so that water can be supplied to the curtain core, the arrangement of a water tank is omitted, the use of open water is avoided, and water leakage can be prevented.

The water control device comprises an electric valve 52 and a detection device, the electric valve 52 is arranged on the conveying channel 51, the conveying channel 51 can be opened when the electric valve 52 is opened, the conveying channel 51 is closed when the electric valve 52 is closed, and the pair of electric valves 52 can be conventional electromagnetic valves; the electric valve 52 is electrically connected to a detection device for detecting data reflecting the humidity of the curtain core, the detection device can detect the humidity data of the curtain core through a sensor, or the resistivity probe 53 can detect the resistivity at the time of conduction to reflect the humidity data of the curtain core, and the electric valve 52 can be opened or closed according to the data detected by the detection device, so that water supply can be performed or the water supply can be stopped.

In this embodiment, the detecting device includes a probe 53 for measuring the resistivity and a detector, the probe 53 is usually in contact with the curtain core, and the detector is used for detecting the resistivity of the probe 53. When the resistivity of the probe 53 is detected to be lower than a set value (or the minimum value of a set range), the electric valve 52 is opened, so that the conveying channel 51 is opened, water automatically flows out along the conveying channel 51 under the action of gravity, and water supply is realized; when the resistivity of the probe 53 is detected to be larger than a set value (or the maximum value of a set range), the electric valve 52 is closed, so that the conveying channel 51 is closed, the water conveying is stopped, the curtain core is prevented from overflowing due to over-saturated water absorption, the water leakage can be avoided, and the water leakage problem of the air cooler is effectively solved.

The curtain core module 30 or the first mounting frame 10 is provided with a probe mounting groove 332 corresponding to one side of the bottom of the curtain core 31, the probe 53 is fixedly mounted in the probe mounting groove 332, one end of the probe 53 extends into the lower part of the curtain core 31, the surface of the probe is contacted with or abutted against the bottom of the curtain core 31, and the other end of the probe 53 extends out of the edge of the curtain core mounting frame 33 so as to be connected with the detector. The curtain core mounting frame 33 is provided with a slot 333 corresponding to the part of the probe 53 extending out of the curtain core mounting frame 33, and the slot 333 covers the part of the probe 53 extending out of the curtain core mounting frame 33 inside, so that the insertion and the protection are convenient.

The probe 53 may include a clip 531 and an insert 532, the clip 531 and the clip 531 are both conductors, the clip 531 is electrically connected to the detector, the insert 532 is always in contact with the curtain core 31, and the detector may detect the resistivity of the insert 532 when the insert 532 is in contact with the clip 531. The detector may be a single chip microcomputer for analyzing the measurement result of the probe 53 and opening or closing the electric valve according to the result. In this embodiment, inserted sheet 532 sets up on curtain core module 30, during concrete implementation, also can set up on setting up first mounting bracket 10, clamping piece 531 sets up on being used for the second mounting bracket 20 with first mounting bracket 10 butt joint installation, when the air-cooler equipment is accomplished, inserted sheet 532 is pegged graft with clamping piece 531, thereby be in the on-state, but real-time detection inserted sheet 532's resistivity, thereby the humidity of real time monitoring curtain core, when the air-cooler is dismantled to needs, with first mounting bracket 10 and second mounting bracket 20 split back, this clamping piece 531 breaks away from with inserted sheet 532, thereby the disconnection switches on.

In practical implementation, the structure of the conveying channel 51 may be various, and may be a single-pipe in-out structure, or a single-pipe in-out structure (not shown). The conveying passage 51 may include a main water inlet passage and a plurality of water outlet passages, the main water inlet passage is communicated with the water storage chamber 41, the water outlet passages are respectively communicated with the main water inlet passage, and the electric valve 52 is disposed on the main water inlet passage, so that the water discharge can be controlled in a unified manner. The water outlets of the water outlet channels are correspondingly positioned above the curtain core 31, the water outlets of the water outlet pipelines can be arranged at different positions above the curtain core 31 according to specific requirements, and the water storage pipelines convey water to different positions above the curtain core 31 simultaneously, so that all the positions of the curtain core 31 can permeate quickly.

The water outlet end 512 of the conveying channel 51 is arranged at a position lower than the water storage cavity 41; the water inlet end 511 of the conveying channel 51 is communicated with the bottom of the water storage cavity 41 or a position close to the bottom on the side of the water storage cavity 41, so as to facilitate the smooth conveying of water.

The water storage module 40 is arranged above the curtain core 31, the water delivery module 50 comprises a delivery passage 51, the water inlet end 511 of the delivery passage 51 is communicated with the water storage cavity 41, and the water outlet end 512 is correspondingly arranged above the curtain core 31, so that water can be delivered to the upper part of the curtain core 31, and therefore, water can be delivered under the action of gravity, and a driving device for actively delivering water is omitted; due to the gravity, water flows downwards, the water delivery module 50 can be communicated with the bottom of the water storage cavity 41, or the position close to the bottom on the side part of the water storage cavity 41, so that water can automatically flow into the water delivery device, and the water delivery module 50 can also be integrally positioned below the water storage cavity 41, thereby being beneficial to smooth delivery of water. The water storage cavity is provided with a water replenishing port 42, the water storage cavity 41 can be replenished with water through the water replenishing port 42, and the water replenishing port 42 is provided with a sealing cover 53, so that the water storage cavity 41 can be sealed to prevent water leakage.

Fig. 14 is a partially disassembled schematic view of an embodiment of an air cooler and a water supply system thereof, fig. 15 is a schematic structural view of an embodiment of a curtain core module, and referring to fig. 14 and 15 in combination with the above description, the curtain core module 30 includes a curtain core 31, a curtain core mounting bracket 33 and a uniform water curtain 32, the curtain core 31 is disposed on the curtain core mounting bracket 33, both the curtain core 31 and the uniform water curtain are made of water-absorbing materials, the uniform water curtain 32 covers the upper portion of the curtain core 31 and is attached to the top of the curtain core 31, the water-sending module 20 can send water to the uniform water curtain 32 on the upper portion of the curtain core module 30, water in the uniform water curtain 32 can permeate to the curtain core 31 through a contact portion of the uniform water curtain 32 and the curtain core 31, the uniform water curtain 32 can serve to uniformly distribute water, so that 31 curtain cores can uniformly permeate. The water uniforming curtain 32 may be disposed to cover the entire top of the curtain core 31, so that the water distribution may be performed to the curtain core 31 as a whole.

On the basis of using this curtain core module 30, the setting of basin can be saved in the inside of air-cooler, has avoided the use of bright water to effectively solve the problem of leaking, make the air-cooler be adapted to portable use, in addition, still saved the occupation space that the basin set up, provide bigger space for the reasonable layout of each module in the air-cooler, thereby reduce the whole volume of air-cooler.

The inside installation cavity that can hold curtain core 31 that sets up of curtain core mounting bracket 33, curtain core 31 sets up in this installation cavity, equal cascade 32 covers at the top of curtain core 31, and set up in curtain core mounting bracket 33 together with curtain core 31, curtain core mounting bracket 33 upper portion is provided with nip 331, this nip is used for spacing the border of equal cascade 32, prevent that equal cascade 32 from shifting or dropping, the thickness of equal cascade 32 can be selected according to the distance h between the top of curtain core 31 and the bottom of nip 331, when selecting equal cascade 32 that thickness is greater than this distance h, nip 331 bottom is pressed in the upper surface of equal cascade 32, thereby press equal cascade 32 to curtain core 31, make equal cascade 32 and curtain core 31 keep closing up and lean on, help the quick infiltration of water. The curtain core 31 can be formed by arranging and bonding a plurality of pieces of absorbent paper, and the bonding positions of the adjacent pieces of absorbent paper are staggered, so that a plurality of uniformly distributed reticular through holes are formed.

The pressing part 331 is correspondingly located above the curtain core 31, the uniform water curtain 32 is arranged between the pressing part 331 and the curtain core 31, and the curtain core mounting frame 33 and the pressing part 331 thereof have a limiting effect on the uniform water curtain 32, so that the uniform water curtain 32 can be prevented from moving. The thickness of the uniform water curtain 32 can be selected according to the distance h between the top of the curtain core 31 and the bottom of the stitching portion 331, and when the uniform water curtain 32 with the thickness larger than the distance h is selected, the bottom of the stitching portion 331 is pressed against the upper side surface of the uniform water curtain 32, so that the uniform water curtain 32 is pressed against the curtain core 31, the uniform water curtain 32 is kept against the curtain core 31, and the rapid penetration of water is facilitated.

In this embodiment, an insertion piece mounting groove 332 is disposed on the curtain core mounting bracket 33 corresponding to the bottom side of the curtain core 31, an insertion piece 532 of the probe is fixedly mounted in the insertion piece mounting groove 332, a first end 5321 of the insertion piece 532 extends into the lower portion of the curtain core 31, and the surface thereof contacts or abuts against the bottom of the curtain core 31, and a first end 5322 of the insertion piece 532 extends from the edge of the curtain core mounting bracket 33 so as to be connected and conducted with the insertion piece 531 (see fig. 14). The curtain core mounting rack 33 is provided with a slot 333 corresponding to the second end 5322 of the insertion sheet 532, and the slot 333 covers the second end 5322 of the insertion sheet 532 inside for convenient insertion and protection.

Fig. 16 is a schematic structural view showing an example of the curtain core mounting bracket, and referring to fig. 16, the curtain core mounting bracket 33 includes an upper bracket body 334, a lower bracket body 335, and an intermediate bracket body 336, and the intermediate bracket body 336 is connected and supported between the upper bracket body 334 and the lower bracket body 335. The pressing portions 331 are respectively disposed at two sides of the upper frame body 334, and each pressing portion 331 respectively corresponds to the vicinity of two side edges of the uniform water curtain 32.

The lower frame 335 is provided with a bottom mounting portion 33634 for accommodating the bottom of the curtain core 31, so that the bottom of the curtain core 31 can be limited. The intermediate frame 336 may position the longitudinal edges of the curtain core 10 to ensure that the curtain core 31 is stably mounted in the curtain core mounting bracket 33.

Fig. 17 is a top view of the embodiment shown in fig. 15, fig. 18 is a sectional view taken along line a-a of fig. 17, fig. 19 is a sectional view taken along line B-B of fig. 17, and referring to fig. 17 to 19, the intermediate frame body 336 is provided with curtain mounting grooves 336a and 336B, the curtain 34 is mounted in the curtain mounting grooves 336a and 336B, and both sides of the curtain core 31 are attached to the curtain 34, so as to limit the left and right sides of the curtain core 31. The curtain mounting groove 336a of the middle frame body 336 on one side of the upper frame body 334 may be formed by providing a first rib 3361 protruding inward from the bottom surface of the pressing portion 331 at a position on the pressing portion 331 spaced apart from the inner wall of the middle frame body 336 by a predetermined distance. The first rib 3361 and the inner wall of the middle frame 336 form the curtain mounting groove 231, which can limit the upper edge of the curtain 34; the curtain mounting groove 336b of the intermediate frame body 336 at one side of the lower frame body 335 may be formed by providing a second rib 3362 parallel to the inner wall of the intermediate frame body 336 on the inner surface of the lower frame body. A curtain mounting groove 336b is formed between the second rib 3362 and the inner wall of the middle frame body 336, and can limit the lower edge of the curtain 34. The shielding curtain 34 is made of water-absorbing filter material, and can play a role in retaining water for the curtain core 31.

The middle frame body 336 is provided with a curtain core limiting part 3363, and the curtain core limiting part 3363 is used for limiting the positions of the longitudinal edges of the front side and the rear side of the curtain core 31 and ensuring that the curtain core 31 can be stably placed in the curtain core mounting frame 33.

The embodiment of the utility model provides an air-cooler has solved the problem that the air-cooler leaked, in some preferred embodiments, has still optimized the problem in the aspect of installation, air supply, feedwater, cooling etc for the air-cooler has obtained whole improvement, thereby has brought bigger facility and better use for daily use and has experienced.

The above description is only for the preferred embodiment of the present invention, but the present invention is not limited to the above embodiment, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and these equivalent modifications or substitutions are included in the scope defined by the claims of the present application.

Claims

1. An air cooler, its characterized in that: comprises a mounting structure, a cooling system, a water supply system and an air supply system, wherein,

the cooling system comprises a curtain core module, wherein the curtain core module comprises a curtain core, the curtain core is made of water-absorbing materials, and the curtain core is provided with a ventilation hole;

the water supply system comprises a water storage module and a water delivery module, the water storage module is provided with a water storage cavity for storing water, and the water delivery module is communicated with the water storage cavity and can deliver the water in the water storage cavity to the upper part of the curtain core;

the air supply system can enable air to be sent into the mounting structure from the air inlet, flow through the curtain core and finally be sent out through the air outlet.

2. The air cooler according to claim 1, characterized in that: the water delivery module comprises a delivery passage, the delivery passage comprises a water inlet end and a water outlet end, the water inlet end is communicated with the water storage cavity, and the water outlet end is correspondingly arranged above the curtain core.

3. The air cooler according to claim 2, characterized in that: the water delivery module further comprises a water control device, the water control device comprises an electric valve and a detection device, the electric valve is arranged on the conveying channel, the conveying channel can be opened when the electric valve is opened, and the conveying channel is closed when the electric valve is closed; the electrically operated valve is electrically connected with the detection device, the detection device is used for detecting data capable of reflecting the humidity of the curtain core, and the electrically operated valve can be opened or closed according to the data detected by the detection device.

4. The air cooler according to claim 1, characterized in that: the water storage module is arranged above the curtain core module.

5. The air cooler according to claim 4, characterized in that: the mounting structure is provided with a mounting platform, the mounting platform is positioned above the curtain core module, and the water storage module is mounted on the mounting platform.

6. The air cooler according to claim 1, characterized in that: the air supply system comprises an air supply module, the air supply module is arranged in the mounting structure, and the air supply module is used for supplying air to the curtain core.

7. The air cooler according to claim 6, characterized in that: the air supply system further comprises an air duct, the air duct is located beside the curtain core module and communicated with the air supply module and the air outlet.

8. The air cooler according to claim 1, characterized in that: the mounting structure comprises a first mounting frame and a second mounting frame, the water storage module and the curtain core module are arranged on the first mounting frame, and the first mounting frame and the second mounting frame are connected in a detachable mode.

9. The air cooler according to claim 8, characterized in that: be provided with first installation department on the first mounting bracket, be provided with the second installation department on the second mounting bracket, first installation department with the second installation department can mutually support and peg graft.

10. The air-cooler according to any one of claims 1 to 9, characterized in that: the curtain core module includes curtain core mounting bracket, equal water curtain with the curtain core, the curtain core with equal water curtain sets up on the curtain core mounting bracket, the curtain core with equal water curtain constitutes by the material that absorbs water, the curtain core has the structure of netted through-hole, equal water curtain covers the upper portion of curtain core, and paste and lean on in the top of curtain core, moisture in equal water curtain can pass through equal water curtain with the contact site of curtain core with the curtain core infiltration.