CN113883604A

CN113883604A - Air conditioner capable of purifying air and controlling humidity

Info

Publication number: CN113883604A
Application number: CN202111393940.8A
Authority: CN
Inventors: 曾乐兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-01-04

Abstract

The invention relates to an air conditioner, in particular to an air conditioner capable of purifying air and controlling humidity, which comprises an installation frame, a first support frame, a water adsorption flow guide frame, a cover plate and the like, wherein the installation frame is arranged on the first support frame; the mounting bracket front side has cup jointed first carriage, and the inside rigid coupling of first carriage has adsorbed water conservancy diversion frame, and first carriage front side rotation type is connected with the apron. The condensed water generated by the operation of the equipment can be collected by the water storage frame in a centralized way, and the swing injection frame can inject the condensed water, so that the dust in the air is adsorbed by the condensed water, the dust content in the air can be reduced, and the effect of effectively utilizing the condensed water to purify the air is achieved.

Description

Air conditioner capable of purifying air and controlling humidity

Technical Field

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of purifying air and controlling humidity.

Background

With the development of science and technology, air conditioners are gradually popularized in the lives of people and become an indispensable part of the lives of modern people, the types of the air conditioners are also divided into a plurality of types, including wall-mounted air conditioners, cabinet-type air conditioners, window-type air conditioners and ceiling-mounted air conditioners, and the products have the characteristics, wherein the wall-mounted air conditioners are not limited by the installation positions and are common air conditioners.

Traditional air conditioner can provide nice and cool for people, but traditional air conditioner does not possess the function of air-purifying, there are more dust in the air and can influence the refrigeration efficiency of air conditioner, reduce the life of air conditioner, dust in the air is drifted and is caused the air quality to reduce simultaneously, influence people's healthy, and can produce the comdenstion water at the refrigerated in-process of air conditioner, the temperature of comdenstion water is lower, but traditional air conditioner is direct to discharge the comdenstion water, can not utilize it, lead to the waste of comdenstion water, and simultaneously, the inside air-blower of air conditioner operates temperature after a period, traditional air conditioner can not lower the temperature to the air-blower, can further reduce the life of air conditioner.

Disclosure of Invention

In view of the above, it is necessary to provide an air conditioner capable of purifying air and controlling humidity, which can purify air by sufficiently and efficiently using condensed water, humidify air by sufficiently using condensed water, and effectively cool a blower by using condensed water, so as to solve the problems that the prior art proposed in the above-mentioned background art does not have a function of purifying air, cannot use condensed water, and cannot cool a blower.

The technical scheme is as follows: an air conditioner capable of purifying air and controlling humidity comprises a mounting frame, a first supporting frame, an adsorbed water diversion frame, a cover plate, a collecting frame, a sliding bottom plate, a protecting frame, an evaporator, an air blower, a condensed water diversion frame, a motor, a condensed water storage assembly and a dust adsorption assembly, wherein the front side of the mounting frame is sleeved with the first supporting frame, the inside of the first supporting frame is fixedly connected with the adsorbed water diversion frame, the front side of the first supporting frame is rotatably connected with the cover plate, the lower part in the first supporting frame is fixedly connected with the collecting frame, the inside of the collecting frame is slidably connected with the sliding bottom plate, the bottom of the outer side of the first supporting frame is fixedly connected with the protecting frame, the inside of the first supporting frame is fixedly connected with the evaporator, the inside of the first supporting frame is fixedly connected with the air blower, the air blower is positioned between the adsorbed water diversion frame and the evaporator, the lower part in the first supporting frame is fixedly connected with the condensed water diversion frame, and the condensed water diversion frame is positioned below the evaporator, first carriage outside bottom has the motor through bolted connection, and the motor is located inside the protecting frame, and on the motor was located to the comdenstion water savings subassembly, the dust absorption subassembly was located on the comdenstion water conservancy diversion frame.

Further, the condensed water storage component comprises a rocker arm, a transmission rod, a sliding slotting frame, a first pushing frame, a water storage frame, an excess drain pipe, a telescopic drain pipe, a guide drain board and a one-way valve, wherein the rocker arm is fixedly connected to one end of the motor output shaft, the transmission rod is rotatably connected to one end of the rocker arm, the sliding slotting frame is slidably connected to the bottom of the outer side of the condensed water diversion frame, the first pushing frame is welded to the bottom of the outer side of the sliding slotting frame and slidably matched with the first supporting frame, penetrates through the first supporting frame, is rotatably connected with the transmission rod, the water storage frame is fixedly connected to the bottom of the inner side of the first supporting frame, the water storage frame is communicated with the collection frame, the excess drain pipe is communicated with the right side of the outer top of the water storage frame, the excess drain pipe is fixedly connected to the bottom of the outer side of the condensed water diversion frame, the excess drain pipe is communicated with the right side of the sliding slotting frame, and the telescopic drain pipe is communicated with the left side of the outer top of the water storage frame, the flexible drain pipe is fixedly connected with the bottom of the outer side of the condensed water flow guide frame, the flexible drain pipe is communicated with the left side of the sliding slotting frame, the flexible drain pipe is telescopic with the excess drain pipe, the bottom of the outer side of the condensed water flow guide frame is symmetrically and fixedly connected with the guide drain plate, the guide drain plate is tightly attached to the sliding slotting frame, and the upper part of the guide drain plate is symmetrically and fixedly connected with the check valve.

Further, the dust adsorption component comprises a first straight gear, a second support frame, a reciprocating extrusion frame, a swing rod, a one-way pipe, a flow guide frame and a swinging injection frame, the first straight gear is fixedly connected to an output shaft of the motor and is positioned above the rocker arm, the bottom of the outer side of the first support frame is rotatably connected with the second straight gear, the second straight gear is meshed with the first straight gear, the rear side of the outer wall of the water storage frame is fixedly connected with the second support frame, the second support frame is slidably connected with the reciprocating extrusion frame, the reciprocating extrusion frame penetrates through the second support frame, the swing rod is rotatably connected to the second straight gear and is rotatably connected with the reciprocating extrusion frame, the outer wall of the rear side of the second support frame is symmetrically communicated with the one-way pipe, the rear side of the collection frame is fixedly connected with the flow guide frame, the flow guide frame is communicated with the one-way pipe, the flow guide frame is fixedly connected to the top of the first support frame, the swinging injection frame is rotatably connected to the upper part of the flow guide frame, the swing jet frame passes through the flow guide frame and is communicated with the flow guide frame.

Further, on still including injection range adjustment subassembly water conservancy diversion frame, injection range adjustment subassembly was located on the water conservancy diversion frame, injection range adjustment subassembly is including the slide rail board, fluting fastener frame, second propulsion frame and zigzag grooving board, water conservancy diversion frame upper portion outside rigid coupling has the slide rail board, the slidingtype is connected with fluting fastener frame on the slide rail board, fluting fastener frame sprays the spacing cooperation of frame with the swing, the slidingtype is connected with the second propulsion frame on the water conservancy diversion frame, fixedly connected with zigzag grooving board on the second propulsion frame, zigzag grooving board and the spacing cooperation of fluting fastener frame.

Further, still including solid impurity separation subassembly, solid impurity separation subassembly is located on the collection frame, solid impurity separation subassembly is including the filter plate, the release frame, a supporting seat, the swinging bracket, guide frame and blow off pipe, the inside rigid coupling of collection frame has the filter plate, the filter plate is located sliding bottom plate top, the symmetrical slidingtype connection has the release frame on the collection frame, release frame closely laminates with the filter plate, the symmetrical rigid coupling in front of guide frame lower part has the supporting seat, the pivoted type is connected with the swinging bracket on the supporting seat, the swinging bracket is with the spacing cooperation of release frame, the swinging bracket is with reciprocal extrusion frame spacing cooperation, collection frame outer bottom rigid coupling has the guide frame, the guide frame communicates with each other with the collection frame, the guide frame outer bottom connects there is the blow off pipe, the blow off pipe passes first carriage and protection frame.

Further, still including separation element with higher speed, on separation element locates sliding bottom plate with higher speed, separation element with higher speed pushed away the frame including T type driving frame and fluting, and sliding bottom plate bottom rigid coupling has T type driving frame, and the rigid coupling has the fluting to push away the frame on the reciprocal frame of extruding, and the fluting pushes away the frame and is located second carriage top, and the fluting pushes away the spacing cooperation of frame and T type driving frame.

Further, still including mending wet subassembly, mend wet subassembly and locate on first carriage, mend wet subassembly including the evaporation tank, the honeycomb duct, fixed trompil piece, slip trompil board, blowout pipe and fluting floating frame, first carriage top rigid coupling has the evaporation tank, evaporation tank and air-blower contact, the side switch on the front of water conservancy diversion frame upper portion has the honeycomb duct, the honeycomb duct passes adsorption water conservancy diversion frame and evaporation tank, honeycomb duct bottom rigid coupling has fixed trompil piece, the honeycomb duct bottom communicates with each other with fixed trompil piece, the last sliding connection of fixed trompil piece has slip trompil board, the switch-on of fixed trompil piece bottom has the blowout pipe, sliding connection has fluting floating frame on the fixed trompil piece, fluting floating frame and the spacing cooperation of slip trompil board.

Furthermore, the upper part of the evaporation tank is open, the contact area between the condensed water in the evaporation tank and the air is increased, the humidification efficiency is improved, and the heat conduction performance of the evaporation tank is high, so that the heat generated by the operation of the air blower is conducted to the condensed water in the evaporation tank.

Furthermore, the circumference of the ejection pipe is provided with small holes for spraying condensed water and turning over the condensed water in the evaporation tank, so that the effect of improving the cooling efficiency of the air blower by the condensed water is achieved.

The beneficial effects are that:

the condensed water generated by the operation of the equipment can be collected by the water storage frame in a centralized way, and the swing injection frame can inject the condensed water, so that the dust in the air is adsorbed by the condensed water, the dust content in the air can be reduced, and the effect of effectively utilizing the condensed water to purify the air is achieved.

The swing spraying frame can swing when spraying the condensed water, so that the swing spraying frame can spray the condensed water in a wider range, the condensed water can adsorb more dust in the air, and the air purification efficiency is effectively improved.

Through the filter plate for dust and condensed water separation in the condensate water after adsorbing the dust, the dust passes through the blow off pipe and discharges, and the comdenstion water then flows to the retaining frame inside and be used for air-purifying once more, thereby can reuse comdenstion water air-purifying, be favorable to improving the utilization ratio of comdenstion water.

The comdenstion water still can get into inside the evaporation tank, and the heat that the air-blower operation produced can be with the comdenstion water evaporation of evaporation tank inside to can cool down the air-blower, in order to prolong its life, can increase the humidity of air simultaneously, be favorable to improving the air quality.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a schematic view of a first partially disassembled solid structure of the present invention.

Fig. 6 is a schematic view of a second partially disassembled solid structure of the present invention.

FIG. 7 is a schematic view of a first partial body configuration of the condensate reservoir assembly of the present invention.

FIG. 8 is a schematic view of a second partial body configuration of the condensate reservoir assembly of the present invention.

FIG. 9 is a perspective view of a third portion of the condensate reservoir assembly of the present invention.

FIG. 10 is a schematic view of a first partial body configuration of a dust adsorbent assembly of the present invention.

FIG. 11 is a schematic view of a second partial body configuration of a dust adsorbing assembly according to the present invention.

Fig. 12 is a perspective view of a third embodiment of the dust adsorbing assembly of the present invention.

Fig. 13 is a partially disassembled perspective view of the dust adsorbing assembly of the present invention.

Fig. 14 is a perspective view of a fourth part of the dust adsorbing assembly of the present invention.

Fig. 15 is a schematic perspective view of a first injection range adjustment assembly according to the present invention.

Fig. 16 is a schematic perspective view of a second spray range adjustment assembly according to the present invention.

Fig. 17 is a schematic view of a first partial body configuration of a solid impurity separation module according to the present invention.

Fig. 18 is a perspective view of a third embodiment of the present invention.

Fig. 19 is a schematic view of a second partial body configuration of the solid impurity separation module of the present invention.

Fig. 20 is a perspective view of the ejector rack of the present invention.

FIG. 21 is a perspective view of a third portion of the solid impurity separation module of the present invention.

Fig. 22 is a perspective view of the separation acceleration assembly of the present invention.

FIG. 23 is a schematic view of a first partially assembled body of the moisturizing assembly of the present invention.

FIG. 24 is a schematic view of a second partially assembled body of the moisturizing assembly of the present invention.

Fig. 25 is a schematic view of a partially cut-away perspective structure of the moisturizing assembly of the present invention.

Reference numerals: 1_ mounting frame, 2_ first supporting frame, 201_ adsorbed water guide frame, 202_ cover plate, 203_ collecting frame, 204_ sliding bottom plate, 3_ protective frame, 4_ evaporator, 5_ blower, 6_ condensed water guide frame, 7_ motor, 8_ condensed water storage component, 81_ rocker arm, 82_ transmission rod, 83_ sliding slotted frame, 84_ first pushing frame, 85_ water storage frame, 851_ excess drain pipe, 86_ telescopic drain pipe, 87_ guide drain plate, 88_ check valve, 9_ dust adsorption component, 91_ first straight gear, 92_ second straight gear, 93_ second supporting frame, 94_ reciprocating extrusion frame, 95_ swing rod, 96_ check pipe, 97_ guide frame, 98_ swing injection frame, 10_ injection range adjustment component, 101_ slide rail plate, 102_ slotted clamp column linear frame, 103_ second pushing frame, 104_ slotted plate, 11_ solid impurity separation component, 111_ filter plate, 112_ push-out frame, 113_ support seat, 114_ swing frame, 115_ guide frame, 116_ sewage pipe, 12_ accelerated separation component, 121_ T type transmission frame, 122_ slotted push frame, 13_ moisturizing component, 131_ evaporation tank, 132_ guide pipe, 133_ fixed perforated block, 134_ sliding perforated plate, 135_ ejection pipe, 136_ slotted floating frame.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

An air conditioner capable of purifying air and controlling humidity, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14 and fig. 15, comprises a mounting frame 1, a first supporting frame 2, a water-absorbing flow guiding frame 201, a cover plate 202, a collecting frame 203, a sliding bottom plate 204, a protecting frame 3, an evaporator 4, a blower 5, a condensed water flow guiding frame 6, a motor 7, a condensed water storage assembly 8 and a dust absorbing assembly 9, wherein the first supporting frame 2 is sleeved on the front side of the mounting frame 1, the water-absorbing flow guiding frame 201 is fixedly connected inside the first supporting frame 2, the cover plate 202 is rotatably connected on the front side of the first supporting frame 2, the collecting frame 203 is fixedly connected on the inner lower portion of the first supporting frame 2, the sliding bottom plate 204 is slidably connected inside the collecting frame 203, the protecting frame 3 is fixedly connected on the outer side bottom of the first supporting frame 2, the evaporator 4 is fixedly connected inside the first supporting frame 2, the inside rigid coupling of first carriage 2 has air-blower 5, air-blower 5 is located between adsorbed water conservancy diversion frame 201 and the evaporimeter 4, the lower part rigid coupling has the comdenstion water conservancy diversion frame 6 that is used for collecting the comdenstion water in the first carriage 2, comdenstion water conservancy diversion frame 6 is located evaporimeter 4 below, there is the motor 7 that is used for driving this equipment function in 2 outside bottoms of first carriage through bolted connection, motor 7 is located inside protection frame 3, a comdenstion water storage component 8 for collecting the comdenstion water is concentrated locates on motor 7, a dust adsorption component 9 for utilizing the comdenstion water to adsorb the dust in with the air locates on comdenstion water conservancy diversion frame 6.

The condensed water storage component 8 comprises a rocker arm 81, a transmission rod 82, a sliding slotted frame 83, a first pushing frame 84, a water storage frame 85, an excessive drainage pipe 851, a telescopic drainage pipe 86, a guide drainage plate 87 and a one-way valve 88, wherein one end of an output shaft of the motor 7 is fixedly connected with the rocker arm 81, the rocker arm 81 is positioned below the motor 7, one end of the rocker arm 81 is rotatably connected with the transmission rod 82, the bottom of the outer side of the condensed water guide frame 6 is slidably connected with the sliding slotted frame 83, the bottom of the outer side of the sliding slotted frame 83 is welded with the first pushing frame 84, the first pushing frame 84 is slidably matched with the first supporting frame 2, the first pushing frame 84 penetrates through the first supporting frame 2, the first pushing frame 84 is rotatably connected with the transmission rod 82, the bottom of the inner side of the first supporting frame 2 is fixedly connected with the water storage frame 85 for collecting condensed water, the water storage frame 85 is communicated with the collection frame 203, the right side of the top of the water storage frame 85 is communicated with the excessive drainage pipe 851, excessive drain pipe 851 and the outside bottom rigid coupling of comdenstion water conservancy diversion frame 6, excessive drain pipe 851 and the switch-on of slip fluting frame 83 right side, the switch-on of the outer top left side of retaining frame 85 has flexible drain pipe 86, flexible drain pipe 86 and the 6 outside bottom rigid couplings of comdenstion water conservancy diversion frame, flexible drain pipe 86 and the switch-on of slip fluting frame 83 left side, flexible drain pipe 86 is scalable with excessive drain pipe 851 self, the symmetrical rigid coupling in the outside bottom of comdenstion water conservancy diversion frame 6 has direction drain bar 87, direction drain bar 87 is the rectangle structure, direction drain bar 87 closely laminates with slip fluting frame 83, the symmetrical rigid coupling in direction drain bar 87 upper portion has the check valve 88 that is used for making the unidirectional flow of comdenstion water.

The dust adsorption component 9 comprises a first straight gear 91, a second straight gear 92, a second support frame 93, a reciprocating extrusion frame 94, a swing rod 95, a one-way pipe 96, a flow guide frame 97 and a swinging injection frame 98, wherein the output shaft of the motor 7 is fixedly connected with the first straight gear 91, the first straight gear 91 is positioned above the swing arm 81, the bottom of the outer side of the first support frame 2 is rotatably connected with the second straight gear 92, the second straight gear 92 is meshed with the first straight gear 91, the rear side of the outer wall of the water storage frame 85 is fixedly connected with the second support frame 93, the second support frame 93 is slidably connected with the reciprocating extrusion frame 94, the reciprocating extrusion frame 94 passes through the second support frame 93, the bottom of the second straight gear 92 is rotatably connected with the swing rod 95 for transmitting power, the swing rod 95 is rotatably connected with the reciprocating extrusion frame 94, the one-way pipe 96 for one-way conveying condensed water is symmetrically communicated on the outer wall of the rear side of the second support frame 93, the rear side of the collecting frame 203 is fixedly connected with a flow guide frame 97, the flow guide frame 97 adopts a cavity structure, the flow guide frame 97 is communicated with a one-way pipe 96, the flow guide frame 97 is fixedly connected with the inner top of the first supporting frame 2, a swinging injection frame 98 for injecting condensed water is rotatably connected to the upper part of the flow guide frame 97, and the swinging injection frame 98 penetrates through the flow guide frame 97 and is communicated with the flow guide frame 97.

The mounting frame 1 and the device thereon are mounted on the wall through bolts, the device generates steam during operation, the steam is attached to the evaporator 4 and forms condensed water, the condensed water on the evaporator 4 flows onto the condensed water guide frame 6 and flows to the left side inside the sliding slotted frame 83, the manual control motor 7 is started and drives the rocker arm 81 and the device thereon to rotate slowly, the first pushing frame 84 and the device thereon reciprocate slowly from side to side due to the action of the transmission rod 82, during the leftward movement of the sliding slotted frame 83 and the device thereon, the condensed water on the left side inside the sliding slotted frame 83 flows to the space formed by the left side guide drain plate 87 and the sliding slotted frame 83 through the check valve 88 on the left side guide drain plate 87, the condensed water collected previously in the space formed by the right side guide drain plate 87 and the sliding slotted frame 83 enters the inside the water storage frame 85 through the excessive drain pipe 851, meanwhile, the condensed water on the condensed water diversion frame 6 can also flow to the right side inside the sliding slotted frame 83, the condensed water in the space formed by the left side guide drainage plate 87 and the sliding slotted frame 83 can enter the water storage frame 85 through the telescopic drainage pipe 86 in the process of resetting the sliding slotted frame 83 and the device thereon, the condensed water on the right side inside the sliding slotted frame 83 can flow to the space formed by the right side guide drainage plate 87 and the sliding slotted frame 83 through the check valve 88 on the right side guide drainage plate 87, and the condensed water on the condensed water diversion frame 6 can also flow to the left side inside the sliding slotted frame 83, so that the condensed water can only pass through the check valve 88 in one direction due to the action of the check valve 88, thereby the condensed water can be collected, the condensed water inside the water storage frame 85 can enter the second support frame 93, when the first spur gear 91 and the device thereon rotate, the second spur gear 92 and the device thereon can be driven to rotate, under the action of the oscillating rod 95, the reciprocating extrusion frame 94 and the device thereon can reciprocate back and forth, so that the condensed water inside the second supporting frame 93 intermittently enters the diversion frame 97 through the one-way pipe 96, the swing injection frame 98 can inject the condensed water into the first supporting frame 2, in this process, the dust inside the first support frame 2 is adsorbed by the condensed water sprayed in the air, the condensed water after dust adsorption flows into the collection frame 203 through the adsorption water guide frame 201, and then the condensed water after dust adsorption in the collection frame 203 is manually treated by people, since the blower 5 blows external hot air into the first support frame 2 during operation, while the swing spray frame 98 sprays the condensed water, it can cool the hot wind in the first supporting frame 2, and then manually control the motor 7 to be switched off, and so on, the purposes of purifying air and cooling hot air by using the condensed water generated by the operation of the equipment can be realized.

Example 2

On the basis of the embodiment 1, as shown in fig. 15 and 16, the spray range adjusting assembly 10 is further included on the guide frame 97, the injection range adjusting assembly 10 for increasing the injection range of the swing injection frame 98 is arranged on the guide frame 97, the injection range adjusting assembly 10 comprises a sliding rail plate 101, a slotted clamp column frame 102, a second pushing frame 103 and a fold-line-shaped slotted plate 104, the sliding rail plate 101 is fixedly connected to the outer side of the upper portion of the guide frame 97, the sliding rail plate 101 is slidably connected with a slotted clamp column frame 102, the slotted clamp column frame 102 is in limit fit with the swing injection frame 98, the guide frame 97 is slidably connected with the second pushing frame 103, at least one part of the second pushing frame 103 is located inside the guide frame 97, the second pushing frame 103 is fixedly connected with the fold-line-shaped slotted plate 104, the fold-line-shaped slotted plate 104 is provided with a fold-line-shaped sliding groove, and the fold-line-shaped slotted plate 104 is in limit fit with the slotted clamp column frame 102.

Along with the increase of the condensate water in the diversion frame 97, water flow can push the second pushing frame 103 and the device on the second pushing frame to move upwards, and due to the action of the zigzag-shaped slotting plate 104, the slotting clamping column frame 102 and the device on the slotting clamping column frame can reciprocate and drive the swinging spraying frame 98 to swing in a reciprocating mode, so that the spraying range is enlarged, more dust is adsorbed, meanwhile, hot air can be cooled more quickly, when the condensate water in the diversion frame 97 is reduced, the second pushing frame 103 and the device on the second pushing frame can reset under the action of gravity, and therefore the efficiency of air purification and hot air cooling can be improved.

Example 3

Based on embodiment 2, as shown in fig. 17, 18, 19, 20 and 21, the present invention further includes a solid-impurity separation assembly 11, the solid-impurity separation assembly 11 for separating dust and impurities in condensed water is disposed on the collection frame 203, the solid-impurity separation assembly 11 includes a filter plate 111, a push-out frame 112, a support base 113, a swing frame 114, a guide frame 115 and a drain pipe 116, the collection frame 203 is fixedly connected with the filter plate 111 for filtering condensed water after dust adsorption, the filter plate 111 is located above the sliding bottom plate 204, the collection frame 203 is symmetrically and slidably connected with the push-out frame 112 for pushing out dust and impurities on the filter plate 111, the push-out frame 112 is tightly attached to the filter plate 111, the support base 113 is symmetrically and fixedly connected to the front side of the lower portion of the diversion frame 97, the swing frame 114 is rotatably connected to the support base 113, the swing frame 114 is in limit fit with the push-out frame 112, the swing frame 114 is in limit fit with the reciprocating extrusion frame 94, the guide frame 115 is fixedly connected to the outer bottom of the collecting frame 203, the guide frame 115 is communicated with the collecting frame 203, the drain pipe 116 used for providing a discharge channel for dust impurities is communicated to the outer bottom of the guide frame 115, and the drain pipe 116 penetrates through the first supporting frame 2 and the protective frame 3.

The filter plate 111 filters the condensed water after absorbing dust, so that dust impurities are left on the filter plate 111, the pushing frame 112 also reciprocates back and forth and pushes the dust impurities on the filter plate 111 to the inside of the guide frame 115 due to the action of the swing frame 114 in the process of reciprocating the reciprocating extrusion frame 94 and the device thereon back and forth, and the dust impurities in the inside of the guide frame 115 are discharged through the sewage discharge pipe 116, so that a person is replaced to manually clean the dust impurities in the inside of the collection frame 203.

Example 4

Based on embodiment 3, as shown in fig. 19 and 22, the dust-impurity separation device further includes an acceleration separation assembly 12, the acceleration separation assembly 12 for improving the separation efficiency of dust and impurities is disposed on the sliding bottom plate 204, the acceleration separation assembly 12 includes a T-shaped transmission frame 121 and a slotted push frame 122, the bottom of the sliding bottom plate 204 is fixedly connected with the T-shaped transmission frame 121, the reciprocating extrusion frame 94 is fixedly connected with the slotted push frame 122, the slotted push frame 122 is symmetrically provided with inclined sliding slots, the slotted push frame 122 is located above the second support frame 93, and the slotted push frame 122 is in limit fit with the T-shaped transmission frame 121.

In the process of reciprocating the reciprocating extrusion frame 94 and the upper device thereof back and forth, the T-shaped transmission frame 121 and the upper device thereof can reciprocate up and down due to the function of the slotted push frame 122, and when the sliding bottom plate 204 and the upper device thereof move down, the condensed water filtered inside the collection frame 203 can enter the water storage frame 85, so as to accelerate the filtering speed of the filter plate 111, thereby effectively improving the separation efficiency of dust and impurities.

Example 5

In addition to embodiment 4, as shown in fig. 23, 24 and 25, the humidity compensating assembly 13 is further included, the humidity compensating assembly 13 for humidifying air is disposed on the first support frame 2, the humidity compensating assembly 13 includes an evaporation tank 131, a flow guide tube 132, a fixed perforated block 133, a sliding perforated plate 134, a spraying tube 135 and a slotted floating frame 136, the evaporation tank 131 is fixedly connected to the top of the first support frame 2, the evaporation tank 131 contacts with the blower 5, the flow guide tube 132 is connected to the front side of the upper portion of the flow guide frame 97, the flow guide tube 132 passes through the water absorbing flow guide frame 201 and the evaporation tank 131, the fixed perforated block 133 is fixedly connected to the bottom end of the flow guide tube 132, the bottom end of the flow guide tube 132 is connected to the fixed perforated block 133, the sliding perforated plate 134 for temporarily blocking the fixed perforated block 133 is slidably connected to the fixed perforated block 133, the spraying tube 135 for spraying condensed water is connected to the bottom of the fixed perforated block 133, the sliding perforated block 133 is slidably connected to the slotted floating frame 136, an L-shaped sliding groove is formed in the slotted floating frame 136, and the slotted floating frame 136 is in limit fit with the sliding perforated plate 134.

A part of the condensed water in the diversion frame 97 will flow into the diversion pipe 132 and be sprayed out through the spraying pipe 135, so that the condensed water in the evaporation tank 131 is present, because the blower 5 will generate heat when operating, it will evaporate the condensed water in the evaporation tank 131 and increase the humidity in the air, in the process of spraying the condensed water by the spraying pipe 135, the condensed water in the evaporation tank 131 will be stirred, thereby increasing the evaporation efficiency of the condensed water in the evaporation tank 131, so as to humidify the air, when the condensed water in the evaporation tank 131 increases to a certain amount, the slotted floating frame 136 will move upwards under the buoyancy of the water and drive the sliding perforated plate 134 to move rightwards, so that the sliding perforated plate 134 will block the fixed perforated block 133, the spraying pipe 135 will not spray out the condensed water any more, when the condensed water in the evaporation tank 131 decreases, the slotted floating frame 136 and the upper device will reset accordingly, so that the ejection pipe 135 sprays water again, and thus, the air can be humidified by the condensed water generated by the operation of the apparatus.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An air conditioner capable of purifying air and controlling humidity is characterized by comprising a mounting frame (1), a first supporting frame (2), a water adsorption diversion frame (201), a cover plate (202), a collecting frame (203), a sliding bottom plate (204), a protecting frame (3), an evaporator (4), an air blower (5), a condensed water diversion frame (6), a motor (7), a condensed water storage assembly (8) and a dust adsorption assembly (9), wherein the front side of the mounting frame (1) is sleeved with the first supporting frame (2), the water adsorption diversion frame (201) is fixedly connected inside the first supporting frame (2), the cover plate (202) is rotatably connected on the front side of the first supporting frame (2), the collecting frame (203) is fixedly connected on the lower portion inside of the first supporting frame (2), the sliding bottom plate (204) is slidably connected inside the collecting frame (203), the protecting frame (3) is fixedly connected on the bottom outside the first supporting frame (2), inside fixedly connected with evaporimeter (4) of first carriage (2), the inside rigid coupling of first carriage (2) has air-blower (5), air-blower (5) are located between absorption water conservancy diversion frame (201) and evaporimeter (4), lower part rigid coupling has comdenstion water conservancy diversion frame (6) in first carriage (2), comdenstion water conservancy diversion frame (6) are located evaporimeter (4) below, there are motor (7) first carriage (2) outside bottom through bolted connection, motor (7) are located inside protecting frame (3), comdenstion water is deposited subassembly (8) and is located on motor (7), dust adsorption component (9) are located on comdenstion water conservancy diversion frame (6).

2. The air conditioner capable of purifying air and controlling humidity according to claim 1, wherein the condensed water storage assembly (8) comprises a rocker arm (81), a transmission rod (82), a sliding slotted frame (83), a first pushing frame (84), a water storage frame (85), an excess water drain pipe (851), a telescopic water drain pipe (86), a guiding water drain plate (87) and a one-way valve (88), one end of an output shaft of the motor (7) is fixedly connected with the rocker arm (81), one end of the rocker arm (81) is rotatably connected with the transmission rod (82), the bottom of the outer side of the condensed water guiding frame (6) is slidably connected with the sliding slotted frame (83), the bottom of the outer side of the sliding slotted frame (83) is welded with the first pushing frame (84), the first pushing frame (84) is slidably matched with the first supporting frame (2), the first pushing frame (84) penetrates through the first supporting frame (2), and the first pushing frame (84) is rotatably connected with the transmission rod (82), first carriage (2) inboard bottom rigid coupling has retaining frame (85), retaining frame (85) and collection frame (203) switch-on, the outer top right side switch-on of retaining frame (85) has excess drain pipe (851), excess drain pipe (851) and comdenstion water conservancy diversion frame (6) outside bottom rigid coupling, excess drain pipe (851) and slip fluting frame (83) right side switch-on, the outer top left side switch-on of retaining frame (85) has flexible drain pipe (86), flexible drain pipe (86) and comdenstion water conservancy diversion frame (6) outside bottom rigid coupling, flexible drain pipe (86) and slip fluting frame (83) left side switch-on, flexible drain pipe (86) and excess drain pipe (851) self are scalable, the symmetry rigid coupling in flow diversion frame (6) outside bottom has direction drain bar (87), direction drain bar (87) and slip fluting frame (83) closely laminate, direction drain bar (87) upper portion symmetry rigid coupling has check valve (88).

3. The air conditioner capable of purifying air and controlling humidity according to claim 2, wherein the dust adsorption assembly (9) comprises a first spur gear (91), a second spur gear (92), a second support frame (93), a reciprocating extrusion frame (94), a swing rod (95), a one-way pipe (96), a guide frame (97) and a swing injection frame (98), the first spur gear (91) is fixedly connected to an output shaft of the motor (7), the first spur gear (91) is positioned above the swing arm (81), the bottom of the outer side of the first support frame (2) is rotatably connected with the second spur gear (92), the second spur gear (92) is meshed with the first spur gear (91), the rear side of the outer wall of the water storage frame (85) is fixedly connected with the second support frame (93), the second support frame (93) is slidably connected with the reciprocating extrusion frame (94), and the reciprocating extrusion frame (94) passes through the second support frame (93), the second straight gear (92) is connected with a swing rod (95) in a rotating mode, the swing rod (95) is connected with a reciprocating extrusion frame (94) in a rotating mode, one-way pipes (96) are symmetrically communicated on the outer wall of the rear side of a second supporting frame (93), a flow guide frame (97) is fixedly connected to the rear side of a collecting frame (203), the flow guide frame (97) is communicated with the one-way pipes (96), the flow guide frame (97) is fixedly connected with the inner top of a first supporting frame (2), a swinging injection frame (98) is rotatably connected to the upper portion of the flow guide frame (97), and the swinging injection frame (98) penetrates through the flow guide frame (97) and is communicated with the flow guide frame.

4. The air conditioner as claimed in claim 3, wherein the air conditioner is capable of performing air purification and humidity control, the device is characterized by further comprising a jet range adjusting assembly (10) and a flow guide frame (97), wherein the jet range adjusting assembly (10) is arranged on the flow guide frame (97), the jet range adjusting assembly (10) comprises a sliding rail plate (101), a slotting clamping column frame (102), a second pushing frame (103) and a fold-line-shaped slotting plate (104), the sliding rail plate (101) is fixedly connected to the outer side of the upper portion of the flow guide frame (97), the slotting clamping column frame (102) is slidably connected onto the sliding rail plate (101), the slotting clamping column frame (102) is in limit fit with the swing jet frame (98), the second pushing frame (103) is slidably connected onto the flow guide frame (97), the fold-line-shaped slotting plate (104) is fixedly connected onto the second pushing frame (103), and the fold-line-shaped slotting plate (104) is in limit fit with the slotting clamping column frame (102).

5. The air conditioner capable of purifying air and controlling humidity according to claim 4, further comprising a solid impurity separation assembly (11), wherein the solid impurity separation assembly (11) is disposed on the collection frame (203), the solid impurity separation assembly (11) comprises a filter plate (111), a push-out frame (112), a support base (113), a swing frame (114), a guide frame (115) and a drainage pipe (116), the filter plate (111) is fixedly connected inside the collection frame (203), the filter plate (111) is disposed above the sliding bottom plate (204), the push-out frame (112) is symmetrically and slidably connected to the collection frame (203), the push-out frame (112) is tightly attached to the filter plate (111), the support base (113) is symmetrically and fixedly connected to the front side of the lower portion of the guide frame (97), the support base (113) is rotatably connected to the swing frame (114), and the push-out frame (112) are in a spacing fit, the swing frame (114) is in limit fit with the reciprocating extrusion frame (94), the outer bottom of the collecting frame (203) is fixedly connected with a guide frame (115), the guide frame (115) is communicated with the collecting frame (203), the outer bottom of the guide frame (115) is communicated with a sewage discharge pipe (116), and the sewage discharge pipe (116) penetrates through the first supporting frame (2) and the protective frame (3).

6. The air conditioner capable of purifying air and controlling humidity according to claim 5, further comprising an acceleration separation assembly (12), wherein the acceleration separation assembly (12) is disposed on the sliding bottom plate (204), the acceleration separation assembly (12) comprises a T-shaped transmission frame (121) and a slotted push frame (122), the T-shaped transmission frame (121) is fixedly connected to the bottom of the sliding bottom plate (204), the slotted push frame (122) is fixedly connected to the reciprocating extrusion frame (94), the slotted push frame (122) is disposed above the second support frame (93), and the slotted push frame (122) is in limit fit with the T-shaped transmission frame (121).

7. The air conditioner capable of purifying air and controlling humidity according to claim 6, further comprising a moisture supplementing assembly (13), wherein the moisture supplementing assembly (13) is disposed on the first support frame (2), the moisture supplementing assembly (13) comprises an evaporation tank (131), a flow guide pipe (132), a fixed opening block (133), a sliding opening plate (134), a spray pipe (135) and a slotted floating frame (136), the top of the first support frame (2) is fixedly connected with the evaporation tank (131), the evaporation tank (131) is in contact with the air blower (5), the front side of the upper portion of the flow guide frame (97) is communicated with the flow guide pipe (132), the flow guide pipe (132) passes through the water-absorbing flow guide frame (201) and the evaporation tank (131), the bottom end of the flow guide pipe (132) is fixedly connected with the fixed opening block (133), the bottom end of the flow guide pipe (132) is communicated with the fixed opening block (133), the sliding opening plate (134) is slidably connected on the fixed opening block (133), the bottom of the fixed perforated block (133) is communicated with a spraying pipe (135), the fixed perforated block (133) is connected with a slotted floating frame (136) in a sliding mode, and the slotted floating frame (136) is in limit fit with the sliding perforated plate (134).

8. The air conditioner for purifying and controlling humidity according to claim 7, wherein the evaporation tank (131) is opened at an upper portion thereof to increase a contact area of the condensed water therein with the air, thereby improving humidification efficiency, and the evaporation tank (131) has a high heat-conductive property to conduct heat generated by the operation of the blower (5) to the condensed water in the evaporation tank (131).

9. An air conditioner capable of purifying and controlling humidity according to claim 7, wherein the ejection pipe (135) is provided with small holes in the circumferential direction for spraying the condensed water to turn over the condensed water in the evaporation tank (131) and improve the cooling efficiency of the blower (5) by the condensed water.