CN107906725B - Drainage assembly, middle frame assembly and air conditioner - Google Patents

Abstract

The invention provides a drainage assembly, a middle frame assembly and an air conditioner, and relates to the field of air conditioners. The drainage assembly is applied to a middle frame assembly and an air conditioner base, and comprises a water tank and a water channel, wherein the water tank is connected to the middle frame assembly, the water tank and the middle frame assembly form an assembly space together, the assembly space is used for assembling the air conditioner base, the water channel is connected to the air conditioner base, and the water tank can move relative to the middle frame assembly to expand the assembly space and be far away from the water channel, or reduce the assembly space to be connected to the water channel. A middle frame assembly adopts the drainage assembly. An air conditioner adopts the drainage assembly. The drainage assembly, the middle frame assembly and the air conditioner provided by the invention can facilitate the water channel to be detached along with the air conditioner base, thereby facilitating the cleaning of the water channel.

Description

Drainage assembly, middle frame assembly and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a drainage assembly, a middle frame assembly and an air conditioner.

Background

With the continuous progress of society, the public consumer is increasingly concerned about cleaning. For the air conditioner, the problem that dirt adhered to a water channel of the air conditioner is not easy to remove occurs in feedback of most users using the air conditioner.

For an air conditioner running for a short time, after a large amount of condensed water is discharged, dirt in part of the condensed water is deposited on the wall of the water channel, so that the water channel is polluted, bacteria can grow, and the use experience of a user is affected to a certain extent.

The existing air conditioner cleaning method generally does not detach the fan blades, the air channels and the water channels in the air conditioner, so that the positions of the air conditioner are difficult to clean thoroughly. Therefore, the disassembly and cleaning of the fan blade, the air duct and the water channel of the air conditioner are particularly important.

The existing detachable cleaning air conditioner has the problem of more detached parts. Because the model is different from the conventional model, a plurality of parts are added, and the parts are required to be disassembled when the air conditioner is disassembled, so that the fan blades, the air duct and the water channel of the air conditioner can be taken out. The operation difficulty is high, parts are easy to lose, and the user is inconvenient to install.

Disclosure of Invention

In view of the foregoing, the present invention is directed to a drainage assembly for facilitating the disassembly of a water channel following an air conditioner base, thereby facilitating the cleaning of the water channel.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

the utility model provides a drainage subassembly, is applied to middle frame subassembly and installation air conditioner base, drainage subassembly includes water tank and water course, the water tank connect in the middle frame subassembly, and the water tank with the middle frame subassembly forms the assembly space jointly, the assembly space is used for assembling the air conditioner base, the water course connect in the air conditioner base, the water tank can be relative the middle frame subassembly activity is in order to expand the assembly space and keep away from the water course, perhaps, reduce the assembly space to connect in the water course.

Further, the water tank comprises a water tank body and a water outlet structure, one end of the water outlet structure is connected to the first side of the water tank body, a second side, opposite to the first side, of the water tank body is connected to the water channel, and the rotation center of the water tank body is close to one end, far away from the water tank body, of the water outlet structure.

Further, a liquid inlet groove communicated with the inside of the water tank body is formed in the water tank body, a diversion trench is formed in the water channel, and the diversion trench can extend into the liquid inlet groove to be communicated with the water channel and the water tank body.

Further, the liquid inlet groove and the diversion trench extend along an arc path taking the other end of the water outlet structure as the center of a circle.

Further, a first sealing ring is arranged on the inner peripheral wall of the liquid inlet groove, and the first sealing ring is attached to the inner peripheral wall of the liquid inlet groove; and/or, a second sealing ring is arranged on the peripheral wall of the diversion trench, and the second sealing ring is attached to the peripheral wall of the diversion trench.

Compared with the prior art, the drainage assembly has the following advantages:

(1) The water drainage assembly forms an assembly space together between the water tank and the middle frame assembly to assemble the air conditioner base, and the water tank and the middle frame assembly are movably connected to expand the assembly space and far away from the water channel arranged on the air conditioner base, so that the air conditioner base is conveniently detached from the expanded assembly space, the water channel is conveniently cleaned, a large number of disassembly processes are saved, and the water channel cleaning efficiency is improved; or, swing joint can reduce the assembly space to connect in the water course between water tank and the middle frame subassembly to make the water tank can splendid attire from the water course water conservancy diversion to the water of water tank, and with water direction external world, and can restrict the removal of air conditioner base through reducing the assembly space, guaranteed the stable installation of air conditioner base.

(2) According to the water draining assembly, the water outlet structure on the water tank is rotated by taking one end, far away from the water tank main body, of the water outlet structure as the circle center, so that the movement range of the water draining pipe connected to one end, far away from the water tank main body, of the water outlet structure is small, and the water draining pipe is prevented from being damaged due to overlarge pulling force.

Another object of the present invention is to provide a middle frame assembly to facilitate disassembly of the air conditioner base and the water channel to facilitate cleaning of the water channel.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

a middle frame assembly is used for installing an air conditioner base and comprises a moving part, a fixing part and a drainage assembly, wherein the drainage assembly comprises a water tank and a water channel, and the water tank is movably connected with the middle frame assembly. The motion portion, the fixed portion and the water tank jointly form an assembly space for assembling the air conditioner base, the water tank is fixedly connected to the motion portion, the motion portion can move relative to the fixed portion to expand the assembly space and drive the water tank to be far away from the water channel, or the assembly space is reduced until the water tank is connected to the water channel.

Further, be provided with first fastener on the water tank, first fastener includes connecting portion and buckle portion, the one end of connecting portion connect in the water tank, the one end of buckle portion connect in connecting portion keep away from the one end of water tank, and buckle portion extends towards first direction, be provided with the second fastener on the motion portion, set up the first accommodation groove towards the second direction on the second fastener, buckle portion holding in inside the first accommodation groove, first direction with the second direction is opposite.

Further, a first abutting piece is arranged on the water tank and provided with a first stop surface facing a second direction, a second abutting piece is arranged on the fixing part and provided with a second stop surface facing the first direction, and the first stop surface abuts against the second stop surface.

Further, the second supporting member is convexly arranged on the peripheral wall of the moving part, a second accommodating groove is formed in the outer side wall of the water tank, the first supporting member is connected to the side wall of the second accommodating groove, a gap is formed between the first supporting member and the bottom wall of the second accommodating groove, the first supporting member extends out of the second accommodating groove, and the first stop surface is located on one side of the portion, extending out of the second accommodating groove, of the first supporting member. The second supporting piece is provided with a slope surface corresponding to the side surface of the second stopping surface, and/or the part, extending out of the second accommodating groove, of the first supporting piece is provided with a slope surface corresponding to the side surface of the first stopping surface.

Compared with the prior art, the middle frame assembly has the following advantages:

(1) According to the middle frame assembly, the moving part moves relative to the fixed part to drive the water tank connected to the moving part to move, so that the assembling space for assembling the air conditioner base is expanded, the water tank is far away from the water channel connected to the air conditioner base, and the water channel can be detached while the air conditioner base is detached, so that the water channel is cleaned conveniently, a large amount of time and energy for detaching the air conditioner base are saved, and the maintenance and cleaning efficiency of the air conditioner base and the water channel is improved; or, the motion portion can drive the water tank and move about for the fixed part in order to reduce the assembly space and make the water tank connect in installing in the inside water course of assembly space to make the water that derives through the water course can collect and derive to the external world through the water tank, can restrict the installation of air conditioner base through motion portion and water tank, guarantee the installation stability of air conditioner base.

(2) According to the middle frame assembly, the first clamping piece and the first supporting piece are arranged on the water tank and are respectively matched with the second clamping piece and the second supporting piece which are arranged on the moving part, so that the connection stability between the water tank and the moving part is enhanced, the water tank can be stably driven to move to a designated position through the moving part, the water tank and the moving part can be conveniently expanded together or the assembly space is reduced, the convenience in dismounting of the empty base is ensured, and the dismounting efficiency of the air conditioner base can be integrally improved.

It is still another object of the present invention to provide an air conditioner, so that a water channel can be conveniently detached along with a base of the air conditioner, and further, the water channel can be conveniently cleaned.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

an air conditioner includes a drain assembly. The drainage assembly comprises a water tank and a water channel, the water tank is connected with the middle frame assembly, the water tank and the middle frame assembly jointly form an assembly space, the assembly space is used for assembling the air conditioner base, the water channel is connected with the air conditioner base, and the water tank can move relative to the middle frame assembly to expand the assembly space and far away from the water channel, or reduce the assembly space to be connected with the water channel.

The air conditioner has the same advantages as the drainage assembly in the prior art, and is not described herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

fig. 1 is a schematic structural view of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an exploded view of a part of an air conditioner according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a water tank according to an embodiment of the present invention;

FIG. 4 is a schematic view of a part of a moving part according to an embodiment of the present invention;

FIG. 5 is a partial schematic view of a middle frame assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view of a partial structure of a middle frame assembly according to an embodiment of the present invention;

fig. 7 is a schematic partial structure of a middle frame assembly according to an embodiment of the invention.

Reference numerals illustrate:

1-drain assembly, 2-tank, 3-tank body, 4-first clasp, 5-connection, 6-clasp, 7-first retainer, 8-elastic, 9-first wedge, 10-second receptacle, 11-tank wall, 12-tank bottom, 13-water outlet, 14-waterway, 15-mid-frame assembly, 16-movement, 17-fixed, 18-second clasp, 19-first receptacle, 20-second retainer, 21-carrier, 22-second wedge, 23-slide assembly, 24-guide, 25-guide rail, 26-first retainer, 27-second retainer, 28-first retainer, 29-first mating surface, 30-second mating surface, 31-slide structure, 32-slide body, 33-chute, 34-second retainer, 35-third mating surface, 36-fourth mating surface, 37-slide bar, 38-fitting space, 39-guide surface, 40-first groove, 42-second mating surface, 43-second retainer, and 43-stopper surface.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

The invention will be described in detail below with reference to the drawings in connection with embodiments.

First embodiment

Referring to fig. 1 and 2 in combination, a drainage assembly 1 is provided in the present embodiment, wherein the drainage assembly 1 is applied to a middle frame assembly 15 and an air conditioner base. It can be convenient for the water course 14 to follow empty the base and dismantle, and then the dismantlement clearance of water course 14 is convenient for.

The drain assembly 1 includes a water tank 2 and a waterway 14, wherein the water tank 2 is connected to a middle frame assembly 15, and the middle frame assembly 15 and the water tank 2 together form an assembly space 38, and the assembly space 38 is used for installing an air conditioner base. The water channel 14 is connected to the air conditioning base. The water tank 2 can be moved for the middle frame subassembly 15 in order to expand the assembly space 38 and keep away from water course 14 to make the assembly space 38 after the expansion of air conditioner base and the water course 14 that is connected on the air conditioner base can be dismantled, and then the clearance maintenance of air conditioner base and water course 14 of being convenient for has avoided dismantling the inefficiency that whole middle frame or dismantle whole air conditioner and the easy problem of losing of spare part of dismantling. In addition, the water tank 2 can be moved relative to the center frame assembly 15 to narrow the fitting space 38 to connect the water tank 2 to the waterway 14, i.e., after the detached air-conditioning base is installed inside the center frame assembly 15, the fitting space 38 is narrowed by the movement of the water tank 2 relative to the center frame assembly 15 to restrict the air-conditioning base by the water tank 2 so that the air-conditioning base can be stably installed inside the center frame assembly 15, and in addition, water guided out of the waterway 14 can be collected by the water tank 2 connected to the waterway 14 and guided out to the outside through the water tank 2.

It should be noted that, in this embodiment, the water tank 2 has two extreme positions with respect to the middle frame assembly 15, and when the water tank 2 moves to one of the extreme positions with respect to the middle frame assembly 15, the area of the assembly space 38 is the largest, so that the air conditioner base is easily detached from the assembly space 38 after being expanded. After the air conditioning base and the maintenance of the waterway 14 are completed, the air conditioning base can be installed inside the middle frame assembly 15 from the expanded fitting space 38, and the fitting space 38 can be reduced by the movement of the water tank 2 relative to the middle frame assembly 15 to the water tank 2 to be connected to the waterway 14, that is, when the water tank 2 moves to the other limit position relative to the middle frame assembly 15, the fitting space 38 is at a minimum, and when the water tank 2 is connected to the waterway 14. That is, the air conditioning base can be limited by the water tank 2, the installation stability of the air conditioning base is ensured, and the water led out by the water channel 14 is collected by the water tank 2 connected to the water channel 14 and led out to the outside through the water tank 2, so that the installation efficiency of the air conditioning base is improved, and a large amount of manpower is saved.

In this embodiment, the water tank 2 includes a water tank body 3 and a water outlet structure 13, one end of the water outlet structure 13 is connected to a first side of the water tank body 3, and a second side of the water tank body 3 opposite to the first side is connected to a water channel 14. Wherein, the inside of the water tank body 3 has a space for holding water, and the space can be communicated with the water channel 14 so that water guided out of the water channel 14 can flow into the inside of the water tank body 3. In addition, the water outlet structure 13 communicates with the inside of the tank body 3, and the water outlet structure 13 can guide out water inside the tank body 3 to the outside. It should be noted that, the end of the water outlet structure 13 away from the water tank body 3 is used for being connected to a drain pipe, so as to guide water to the outside through the drain pipe.

Wherein the tank body 3 can be rotated with respect to the middle frame assembly 15 to expand or contract the fitting space 38, and the rotation center of the tank body 3 is close to one end of the water outlet structure 13 away from the tank body 3. The water tank main body 3 can ensure that the movement range of the drain pipe connected with the water outlet structure 13 is smaller when rotating, namely the movement range of the drain pipe is smaller, so that the drain pipe can be prevented from being damaged due to overlarge pulling force, and the damage caused by overlarge bending range of the drain pipe can be avoided.

It should be understood that in other embodiments, the water tank body 3 may not rotate around the center of the water outlet structure 13 at the end far away from the water tank body 3, and the water tank body 3 may also rotate around the center of the drain pipe together with the water outlet structure 13, i.e. the water tank body 3 and the water outlet structure 13 rotate around any point on the drain pipe as the center of the circle, so that the movement amplitude and the bending degree of the drain pipe are both low, and the drain pipe can be prevented from being damaged.

That is, the assembly space 38 is formed between the water tank body 3 and the middle frame assembly 15, and the water tank body 3 can rotate relative to the middle frame assembly 15 with the end of the water outlet structure 13 away from the water tank body 3 as a center of a circle, so that the assembly space 38 is expanded and the water tank body 3 is away from the water channel 14, and the disassembly, cleaning and maintenance of the air conditioner base and the water channel 14 connected to the air conditioner base can be completed; or the fitting space 38 is reduced to the second side of the tank body 3 to be connected to the water course 14 such that the water course 14 communicates with the inside of the tank body 3, so that the water course 14 guides water to the inside of the tank body 3 and guides the water to the outside through the water outlet structure 13 and the water discharge pipe.

Further, a liquid inlet groove 41 communicated with the inside of the water tank body 3 is formed in the water tank body 3, a diversion groove 42 is formed in the water channel 14, and the diversion groove 42 can extend into the liquid inlet groove 41 to be communicated with the inside of the water channel 14 and the water tank body 3, so that water in the water channel 14 and guided into the water tank body 3 can flow into the inside of the water tank body 3 through the diversion groove 42 and the liquid inlet groove 41, and stable guiding of water flow is guaranteed.

In this embodiment, among others, the liquid inlet groove 41 is provided protruding outside the second side of the tank body 3, and the liquid inlet groove 41 penetrates the peripheral wall of the tank body 3 so that the water flow can be introduced into the inside of the tank body 3 through the liquid inlet groove 41. In addition, the diversion trench 42 is disposed at one side of the water channel 14 near the water tank body 3, and the passing area surrounded by the outer peripheral wall of the diversion trench 42 is smaller than or equal to the passing area surrounded by the inner peripheral wall of the liquid inlet tank 41, so that the diversion trench 42 can extend into the liquid inlet tank 41. In addition, an opening is formed on one side of the liquid inlet tank 41, so that the diversion trench 42 can be moved out of the liquid inlet tank 41 through the opening when the water tank body 3 rotates relative to the center frame assembly 15, and the water tank body 3 can be far away from the water channel 14.

Further, in the present embodiment, the diversion trench 42 and the liquid inlet groove 41 both extend along an arc path centered on the other end of the water outlet structure 13. When the water tank main body 3 rotates by taking one end of the water outlet structure 13 far away from the water tank main body 3 as a circle center, the diversion trench 42 can be moved out along the liquid inlet tank 41, and the diversion trench 42 and the liquid inlet tank 41 are prevented from mutually propping against each other to influence the rotation of the water tank main body 3. That is, by making the extending paths of the diversion trench 42 and the liquid inlet tank 41 arc-shaped, and the circle center of the extending path of the arc-shaped is consistent with the circle center of the rotation of the water tank body 3, the diversion trench 42 can be moved out along the liquid inlet tank 41, ensuring the smoothness of the rotation of the water tank body 3.

In this embodiment, when the tank body 3 rotates to one of the extreme positions with respect to the middle frame assembly 15, that is, when the installation space 38 is minimum and the second side of the tank body 3 is connected to the water channel 14, the diversion trench 42 extends into the interior of the liquid inlet tank 41, and the outer circumferential wall of the diversion trench 42 is attached to the inner circumferential wall of the liquid inlet tank 41, so that the diversion trench 42 can guide the water flow into the liquid inlet tank 41 and guide the water flow into the tank body 3 through the liquid inlet tank 41. In addition, at this time, the upper edge of the water tank body 3 is flush with the upper edge of the water channel 14, so that the overflow point of the water tank body 3 is prevented from being lowered. When the water tank body 3 rotates relative to the middle frame assembly 15, the diversion trench 42 moves along the liquid inlet tank 41 and moves out of the liquid inlet tank 41 from the opening of the liquid inlet tank 41, so that the water tank body 3 can rotate relative to the middle frame assembly 15 and is far away from the water channel 14.

In the present embodiment, a first seal ring (not shown) is provided on the inner peripheral wall of the liquid inlet tank 41, and the first seal ring is attached to the inner peripheral wall of the liquid inlet tank 41; and/or, a second sealing ring (not shown) is arranged on the peripheral wall of the diversion trench 42, and the second sealing ring is attached to the peripheral wall of the diversion trench 42. Namely, the first sealing ring and/or the second sealing ring are arranged to enable the diversion trench 42 to extend into the liquid inlet tank 41, and the outer peripheral wall of the diversion trench 42 is attached to the inner peripheral wall of the liquid inlet tank 41 through the first sealing ring and/or the second sealing ring, so that water leakage caused by leakage of water flow in a gap between the diversion trench 42 and the liquid inlet tank 41 is avoided. And, set up first sealing washer and/or second sealing washer between guiding gutter 42 and feed liquor groove 41 so that water tank main part 3 when rotating for middle frame subassembly 15 and make guiding gutter 42 stretch into the inside of feed liquor groove 41, can provide certain cushioning effect through first sealing washer and/or second sealing washer guiding gutter 42, avoid guiding gutter 42 striking feed liquor groove 41's inner peripheral wall to cause the damage.

In this embodiment, a first sealing ring may be disposed only on the inner peripheral wall of the liquid inlet tank 41, where one side of the first sealing ring is attached to the inner peripheral wall of the liquid inlet tank 41, and when the diversion trench 42 extends into the liquid inlet tank 41, the outer peripheral wall of the diversion trench 42 is attached to the other side of the first sealing ring; or, only the outer peripheral wall of the diversion trench 42 is provided with a second sealing ring, one side of the second sealing ring is attached to the outer peripheral wall of the diversion trench 42, and when the diversion trench 42 extends into the liquid inlet tank 41, the other side of the second sealing ring is attached to the inner peripheral wall of the liquid inlet tank 41; or, a first sealing ring is arranged on the inner peripheral wall of the liquid inlet groove 41, and a second sealing ring is arranged on the outer peripheral wall of the diversion trench 42, when the diversion trench 42 stretches into the liquid inlet groove 41, one side, away from the inner peripheral wall of the liquid inlet groove 41, of the first sealing ring is attached to one side, away from the outer peripheral wall of the diversion trench 42, of the second sealing ring.

The water drainage assembly 1 provided in the embodiment forms an assembling space 38 together between the water tank 2 and the middle frame assembly 15 to assemble the air conditioner base, and the assembling space 38 is expanded and far away from the water channel 14 arranged on the air conditioner base through the movable connection between the water tank 2 and the middle frame assembly 15, so that the air conditioner base is conveniently detached from the expanded assembling space 38, the water channel 14 is conveniently cleaned, a large number of disassembling processes are saved, and the cleaning efficiency of the water channel 14 is improved; or, the movable connection between the water tank 2 and the middle frame assembly 15 can reduce the assembly space 38 to be connected with the water channel 14, so that the water tank 2 can hold water guided from the water channel 14 to the water tank 2 and guide the water to the outside, and the movement of the air conditioner base can be limited by reducing the assembly space 38, thereby ensuring the stable installation of the air conditioner base. And through keeping away from the one end of water tank main part 3 as the centre of a circle rotation with the play water structure 13 on the water tank 2 to make the range of motion of connecting in the drain pipe that water structure 13 kept away from water tank main part 3 one end less, avoid the drain pipe to receive too big pulling force and receive the damage.

Second embodiment

Referring to fig. 1, 3 and 4, a center assembly 15 is provided in the present embodiment, which facilitates the disassembly of the air conditioning base and the water channel 14 to facilitate the cleaning of the water channel 14. The middle frame assembly 15 includes a fixed portion 17, a moving portion 16, and the drain assembly 1 provided in the first embodiment. Wherein the fixed part 17, the moving part 16 and the water tank 2 together form an assembling space 38 for assembling the air conditioner base. And, the water tank 2 is fixedly connected to the moving part 16, the moving part 16 is movably connected to the fixed part 17, so that the moving part 16 can move relative to the fixed part 17 and drive the water tank 2 to move relative to the fixed part 17 to expand the assembling space 38, and the water tank 2 is driven by the moving part 16 to be away from the water channel 14 while expanding the assembling space 38, thereby being convenient for detaching the air conditioner base and the water channel 14 connected to the air conditioner base. In addition, the moving part 16 can move relative to the fixed part 17 and drive the water tank 2 to move relative to the fixed part 17 so as to reduce the assembly space 38 to connect the water tank 2 to the water channel 14, at this time, the air conditioner base is limited by the moving part 16 and the water tank 2, the installation stability of the air conditioner base is ensured, and the water channel 14 can guide water into the water tank 2 through the connection between the water channel 14 and the water tank 2 so as to hold water in the water tank 2 and guide the water outside.

Through setting up of fixed part 17, motion portion 16 and water tank 2 for need not dismantle middle frame subassembly 15 when dismantling the air conditioner base can accomplish the dismantlement of air conditioner base, the clearance maintenance of the water course 14 on the air conditioner base of being convenient for and connecting the air conditioner base has greatly improved the dismantlement efficiency of air conditioner base, has saved a large amount of manpowers.

In other embodiments, the connection between the water tank 2 and the moving part 16 may be made by integral molding, and the connection between the water tank 2 and the moving part 16 may be made by screw fixation, welding fixation, or the like.

In the present embodiment, one side of the tank body 3 is fixedly connected to the moving part 16, and the water outlet structure 13 extends from the tank body 3 to protrude from the moving part 16, so that a drain pipe can be connected to the tank body 3 through the water outlet structure 13, and the tank body 3 can guide water inside the tank body 3 to the drain pipe through the water outlet structure 13 and drain the water through the drain pipe.

Wherein, be provided with first fastener 4 on the water tank 2, be provided with the second fastener 18 corresponding with first fastener 4 on the motion portion 16, make water tank 2 connect on motion portion 16 through the cooperation of first fastener 4 and second fastener 18. Wherein, first fastener 4 sets up on water tank body 3 to first fastener 4 includes connecting portion 5 and buckle portion 6, and the one end of connecting portion 5 is connected in water tank body 3, and the one end of buckle portion 6 is connected in the one end that connecting portion 5 kept away from water tank body 3 to buckle portion 6 extends along first direction, so that first fastener 4 is L shape. The second fastening member 18 is provided with a first accommodating groove 19 facing the second direction. Wherein the first direction and the second direction are opposite. When the water tank 2 is connected to the moving part 16 through the cooperation of the first fastening part 4 and the second fastening part 18, the fastening part 6 stretches into the first accommodating groove 19, and the water tank 2 is connected to the moving part 16 through the limiting function between the fastening part 6 and the groove wall 11 of the first accommodating groove 19.

The first direction can be set as the gravity direction of the water tank 2, so that the water tank 2 can limit the buckle portion 6 to move along the second direction to be separated from the first accommodating groove 19 under the action of self gravity, i.e. the water tank 2 can be connected to the moving portion 16.

In addition, in the present embodiment, the water tank 2 is further provided with a first abutting piece 7, and the moving portion 16 is further provided with a second abutting piece 20. The first abutting piece 7 and the second abutting piece 20 abut against each other to limit the movement of the water tank 2 along the second direction. So that the water tank 2 can be stably connected to the moving part 16, and the situation that the water tank 2 is separated from the moving part 16 when the moving part 16 moves is avoided. The first supporting member 7 has a first stop surface 43 facing the second direction, the second supporting member 20 has a second stop surface 44 facing the first direction, and the first stop surface 43 supports against the second stop surface 44 to enable the first supporting member 7 and the second supporting member 20 to mutually support, i.e. limit the movement of the first supporting member 7 along the second direction, and further limit the movement of the water tank 2 along the second direction.

That is, in the present embodiment, the movement of the water tank 2 in the second direction is restricted by the mutual engagement of the first abutting piece 7 and the second abutting piece 20, and in addition, the movement of the first fastening piece 4 relative to the second fastening piece 18 in other directions than the second direction is restricted by the insertion of the fastening portion 6 into the first accommodating groove 19, that is, the water tank 2 can be stably connected to the moving portion 16, the water tank 2 is prevented from being separated from the moving portion 16 when the moving portion 16 moves relative to the fixed portion 17, the operability of the water tank 2 is also improved, and the water tank 2 can be ensured to be accurately engaged with the waterway 14 and smoothly separated from the waterway 14 under the driving of the moving portion 16.

In this embodiment, the second abutment 20 is disposed on the outer side of the moving portion 16, wherein the second stop surface 44 is located on one side of the second abutment 20. In addition, a second accommodating groove 10 is formed on the sidewall of the water tank body 3, and the first supporting member 7 is disposed inside the second accommodating groove 10. The first supporting member 7 is connected to the side wall of the second accommodating groove 10, and a gap is formed between the first supporting member 7 and the second accommodating groove 10. Meanwhile, the first supporting piece 7 extends out of the second accommodating portion, so that the portion of the first supporting piece 7 extending out of the second accommodating portion can support against the second supporting piece 20, and the first stop surface 43 is arranged on one side of the portion of the first supporting piece 7 extending out of the second accommodating groove 10.

Wherein, the part of the first supporting piece 7 extending out of the second accommodating groove 10 is a bevel on one side relative to the first stopping surface 43, and/or the part of the second supporting piece 20 is a bevel on one side relative to the second stopping surface 44. That is, the portion of the first supporting member 7 extending out of the second accommodating groove 10 may be inclined with respect to the first stopping surface 43; alternatively, the second abutment 20 is beveled on a side opposite the second stop surface 44; alternatively, the portion of the first supporting member 7 protruding from the second accommodating groove 10 is inclined with respect to the first stopping surface 43, and the portion of the second supporting member 20 is inclined with respect to the second stopping surface 44. So that the first abutting element 7 and the second abutting element 20 can be convenient for the first abutting element 7 to bypass the second abutting element 20 through the inclined plane arranged on the first abutting element 7 and/or the inclined plane arranged on the second abutting element 20 when being matched with each other, and the first stop surface 43 abuts against the second stop surface 44.

Further, in the present embodiment, the first abutting piece 7 includes an elastic portion 8 and a first wedge portion 9, one end of the elastic portion 8 is connected to one of inner side walls of the second accommodating groove 10, and the elastic portion 8 extends along the second direction, wherein a space is formed between the elastic portion 8 and other inner side walls of the second accommodating groove 10 and a bottom wall of the second accommodating groove 10, so that the elastic portion 8 can elastically deform inside the second accommodating groove 10. In addition, the first wedge portion 9 is disposed at the other end of the elastic portion 8, and the first wedge portion 9 extends away from the second accommodating groove 10, i.e., the first wedge portion 9 is a portion of the first supporting member 7 extending out of the second accommodating groove 10. The first stop surface 43 is disposed on one side of the first wedge-shaped portion 9, and the second direction is perpendicular to the first stop surface 43, and the first stop surface 43 faces the second direction, and a side of the first wedge-shaped portion 9 opposite to the first stop surface 43 is an inclined surface. The second abutting piece 20 comprises a bearing part 21 and a second wedge-shaped part 22, the bearing part 21 is arranged on one side of the moving part 16, the second wedge-shaped part 22 is arranged on one side of the bearing part 21 far away from the moving part 16, the second stop surface 44 is arranged on one side of the second wedge-shaped part 22, the straight line of the first direction is perpendicular to the second stop surface 44, in addition, the second stop surface 44 faces the first direction, and one side, opposite to the second stop surface 44, of the second wedge-shaped part 22 is an inclined plane. When the first propping member 7 moves along the first direction relative to the second propping member 20, the inclined surface on the first wedge-shaped portion 9 is attached to the inclined surface on the second wedge-shaped portion 22, and the first propping member 7 is continuously moved, that is, the elastic portion 8 is elastically deformed by propping the second wedge-shaped portion 22, so that the first wedge-shaped portion 9 can bypass the second wedge-shaped portion 22, when the first wedge-shaped portion 9 bypasses the second wedge-shaped portion 22, the elastic restoring force of the elastic portion 8 causes the first wedge-shaped portion 9 to rebound, and the first stop surface 43 is propped against the second stop surface 44, that is, mutual propping between the first propping member 7 and the second propping member 20 can be realized.

In other embodiments, the first abutting member 7 and the second abutting member 20 may be omitted, and the water tank 2 may be connected to the moving portion 16 only by the cooperation of the first fastening member 4 and the second fastening member 18.

Referring to fig. 1 and 5, in this embodiment, the middle frame assembly 15 further includes a sliding assembly 23. The sliding assembly 23 is connected to the fixed portion 17 and the moving portion 16, respectively, such that the moving portion 16 can move relative to the fixed portion 17 by the sliding assembly 23. The sliding assembly 23 includes a guide structure 24 and a sliding structure 31, and the sliding structure 31 is connected to the guide structure 24, the sliding structure 31 being capable of sliding along the guide structure 24.

It should be appreciated that in other embodiments, the sliding assembly 23 may not be provided to allow relative movement between the moving portion 16 and the fixed portion 17. Alternatively, one side of the moving part 16 may be rotatably connected to one side of the fixed part 17, and the other side of the moving part 16 may be rotated around the connection between the fixed part 17 and the moving part 16 to expand or contract the fitting space 38. That is, the moving portion 16 has a first side and a second side disposed opposite to each other, the first side is rotatably connected to the fixed portion 17, and the second side is rotatable with respect to the fixed portion 17 about the first side as a center, so that the second side is away from or near the fixed portion 17 to expand or contract the fitting space 38 or the like.

In the present embodiment, the sliding structure 31 is connected to the moving portion 16, and the guide structure 24 is connected to the fixed portion 17, so that the moving portion 16 can slide with respect to the fixed portion 17 through the sliding connection between the sliding structure 31 and the guide structure 24. It should be appreciated that in other embodiments, the guide structure 24 may be coupled to the moving portion 16, and the corresponding sliding structure 31 coupled to the fixed portion 17, as well as enabling the moving portion 16 to move relative to the fixed portion 17. Here, the guide structure 24 is connected to the fixed portion 17, and the sliding structure 31 is connected to the moving portion 16 is illustrated as an example.

In addition, referring to fig. 6, in the present embodiment, the guide structure 24 extends along an arc path, so that the sliding structure 31 can slide along the guide structure 24 along the arc path. Wherein the guide structure 24 is located at both sides of the fitting space 38, and a straight line in which the length direction of the fitting space 38 is located is perpendicular to a plane in which the circular path is located, so that the sliding structure 31 can expand or contract the width of the fitting space 38 by the moving portion 16 when sliding along the guide structure 24.

It should be appreciated that in other embodiments, the guiding structure 24 may be arranged differently, for example, the guiding structure 24 may extend along a straight path, such that the sliding structure 31 may slide relative to the guiding structure 24 and such that the moving portion 16 moves away from or towards the fixed portion 17, and wherein the straight path is perpendicular to a straight line along which the length of the fitting space 38 is located, such that the moving portion 16 moves relative to the fixed portion 17 to increase or decrease the width of the fitting space 38.

The guide structure 24 includes a guide rail 25, a first limiting portion 26, a second limiting portion 27, and a first retaining portion 28. Wherein the guide rail 25 is connected to the fixing portion 17, and the guide rail 25 extends along an arc path. The sliding structure 31 cooperates with the guide rail 25 such that the sliding structure 31 can slide along the guide rail 25, i.e. such that the moving portion 16 slides along the guide rail 25, the moving portion 16 can move relative to the fixed portion 17.

In addition, the first limiting portion 26 and the second limiting portion 27 are respectively disposed at two ends of the guide rail 25, and the first limiting portion and the second limiting portion are both protruding on the side wall of the guide rail 25, so that when the sliding structure 31 slides along the guide rail 25 to two ends of the guide rail 25, the movement of the sliding structure 31 can be limited by the first limiting portion 26 and the second limiting portion 27, the movement of the moving portion 16 is prevented from being separated from the fixing portion 17, and the air conditioner base can be conveniently dismounted through the displacement between the moving portion 16 and the fixing portion 17 under the condition that the middle frame assembly 15 is not dismounted.

In the present embodiment, the moving portion 16 is movable with respect to the fixed portion 17 to have a closed state and an open state. When the air conditioner base is in the closed state, the sliding structure 31 slides to one end of the guide rail 25 and abuts against the first limiting block, and at this time, the width of the assembling space 38 is minimum, that is, the air conditioner base is limited to be separated from the middle frame assembly 15 through the moving part 16 and the fixing part 17, so that stable support is provided for the air conditioner base. When in the open state, the sliding structure 31 slides to the other end of the guide rail 25 and abuts against the second limiting block, and at this time, the width of the assembly space 38 is the largest, namely, the air conditioner base can be disassembled and assembled through the assembly space 38, so that the disassembly and assembly of the air conditioner base can be completed under the condition that the middle frame assembly 15 is not disassembled, and maintenance personnel can conveniently maintain the air conditioner base. The fixing portion 17 may serve as a first limiting member to limit the moving portion 16, i.e. the setting of the first limiting member may be canceled, and the fixing portion 17 directly limits the moving portion 16 to position the moving portion 16 in the closed state.

It should be understood that in other embodiments, the first stopper and the second stopper may be omitted, and the fixing of the moving portion 16 with respect to the fixed portion 17 may be achieved by other means, for example, an increase in width of both ends of the guide rail 25, or a locking structure (not shown) may be provided in addition to lock the movable portion 16 in the closed state or the open state, or the like.

The first holding portion 28 is connected to a side surface of the guide rail 25, and the first holding portion 28 is protruded from the side surface of the guide rail 25. The first clamping portion 28 extends along the guide rail 25, and the sliding structure 31 is matched with the first clamping portion 28 at the same time when the sliding structure 31 is matched with the guide rail 25, so that the sliding structure 31 is clamped by the first clamping portion 28, and the sliding structure 31 is prevented from being separated from the guide rail 25. That is, the sliding structure 31 can be restricted by the first holding portion 28, and the stability of the sliding structure 31 along the guide rail 25 can be improved.

Referring to fig. 6 and 7 in combination, the sliding structure 31 includes a sliding body 32, a second clamping portion 34, and a plurality of sliding ribs 37. The sliding body 32 is connected to the moving portion 16, and the sliding body 32 is connected to the guide rail 25 such that the sliding body 32 can move along the guide rail 25 and such that the moving portion 16 can move relative to the fixed portion 17. The sliding body 32 is provided with a sliding groove 33 adapted to the guide rail 25, and the guide rail 25 is accommodated inside the sliding groove 33, so that the sliding body 32 can slide along the guide rail 25 through sliding fit between the sliding groove 33 and the guide rail 25, i.e. the moving part 16 can slide relative to the fixed part 17. In the present embodiment, two opposite side walls of the guide rail 25 respectively abut against two opposite inner side walls of the sliding groove 33, so that when the sliding body 32 slides along the guide rail 25, the sliding body 32 can be prevented from being separated from the guide rail 25 by the first limiting block or the second limiting block protruding from the side walls of the guide rail 25 abutting against the sliding body 32 and limiting the sliding of the sliding body 32.

In this embodiment, the guiding structure 24 further includes a guiding body 39, the guiding body 39 is connected to the guiding rail 25 as a carrier of the guiding rail 25, and the guiding body 39 is further connected to the fixing portion 17. That is, in the present embodiment, one end of the guide body 39 is connected to the fixing portion 17, and the guide body 39 has a bearing surface 40 extending along an arc path, and the guide rail 25 is disposed on the bearing surface 40 such that the guide rail 25 can extend along the arc path. In addition, the sliding body 32 is slidably connected to the guide rail 25 through the chute 33, and the side of the sliding body 32 near the opening of the chute 33 is simultaneously abutted against the bearing surface 40, so that the guiding body 39 also provides bearing for the sliding body 32, so that the sliding body 32 can stably slide along the guide rail 25.

In addition, the second retaining portion 34 is connected to the inner peripheral wall of the chute 33, and the second retaining portion 34 cooperates with the first retaining portion 28 to prevent the sliding body 32 from being separated from the guide rail 25. That is, in the present embodiment, the first clamping portion 28 has a first mating surface 29 and a second mating surface 30 that are disposed opposite to each other, the first mating surface 29 being adjacent to the top of the guide rail 25, and the second mating surface 30 being adjacent to the bottom of the guide rail 25. The second clamping portion 34 has a third mating surface 35 and a fourth mating surface 36 disposed opposite to each other, the third mating surface 35 being adjacent to the opening of the chute 33, and the fourth mating surface 36 being adjacent to the bottom wall of the chute 33. The fourth mating surface 36 and the second mating surface 30 abut against each other, so that the sliding body 32 is prevented from being separated from the guide rail 25 by the abutting between the first clamping portion 28 and the second clamping portion 34 when the first clamping portion 28 moves relative to the second clamping portion 34.

Further, in the present embodiment, the fourth mating surface 36 is perpendicular to the side wall of the chute 33, and the second mating surface 30 is perpendicular to the side surface of the guide rail 25. So that the engagement between the fourth engagement surface 36 and the second engagement surface 30 is not easily staggered, improving the stability between the first retaining portion 28 and the second retaining portion 34. It should be understood that in other embodiments, the arrangement of the fourth mating surface 36 and the second mating surface 30 may be different, for example, the fourth mating surface 36 forms an acute included angle with the side wall of the chute 33, and the second mating surface 30 forms an acute included angle with the side surface of the rail 25, such that the first retaining portion 28 and the second retaining portion 34 each form an inverted hook shape, etc.

In addition, the first mating surface 29 is beveled and/or the third mating surface 35 is beveled. That is, the first mating surface 29 is a bevel, or the third mating surface 35 is a bevel, or both the first mating surface 29 and the third mating surface 35 are bevels. That is, the width of the first catching portion 28 gradually increases from the side away from the guide rail 25 to the side close to the guide rail 25, or the width of the second catching portion 34 gradually increases from the top to the bottom, or both the widths of the first catching portion 28 and the second catching portion 34 gradually increase from the top to the bottom.

By the arrangement mode, when the sliding main body 32 is installed with the guide rail 25, the first clamping portion 28 can be conveniently clamped with the second clamping portion 34 through the sliding of the first matching surface 29 relative to the third matching surface 35. The first mating surface 29 is an inclined surface, which means that an obtuse angle is formed between the first mating surface 29 and the side surface of the guide rail 25, and the third mating surface 35 is an inclined surface, which means that an obtuse angle is formed between the third mating surface 35 and the inner side wall of the chute 33.

In the present embodiment, the number of the second clamping portions 34 is plural, and the plurality of the second clamping portions 34 are disposed on the inner sidewall of the chute 33 at intervals.

One side of the plurality of sliding ribs 37 is connected to the inner side wall of the sliding groove 33, the other side of the plurality of sliding ribs 37 is propped against the guide rail 25, and the plurality of sliding ribs 37 are arranged at intervals. So that the contact area between the sliding structure 31 and the guide rail 25 is reduced by the supporting of the plurality of sliding ribs 37 on the guide rail 25, the smoothness of sliding of the sliding body 32 relative to the guide rail 25 can be improved, and the noise caused by the relative sliding between the sliding structure 31 and the guide rail 25 can be reduced. In the present embodiment, the second clamping portion 34 and the sliding ribs 37 are respectively disposed on two opposite sidewalls of the inside of the chute 33, so as to avoid the influence of the sliding ribs 37 on the second clamping portion 34.

A plurality of ribs 37 extend from a side near the wall of the bottom 12 of the chute 33 toward the opening of the chute 33, and the length of the plurality of ribs 37 is smaller than the depth of the chute 33. In addition, a side of the plurality of ribs 37 away from the wall of the bottom 12 of the chute 33 has an inclined surface, so that one end of the plurality of ribs 37 away from the wall of the bottom 12 of the chute 33 has a wedge portion, and the distance between the wedge portion and the other side of the end away from the wall of the bottom 12 of the chute 33 and the other side of the chute 33 is gradually reduced, so that an opening is formed between the plurality of ribs 37 and the other side of the chute 33, so as to facilitate the installation and cooperation between the chute 33 and the guide rail 25.

It should be noted that, the two opposite side surfaces of the guide rail 25 abutting against the two opposite inner side walls of the chute 33 refer to that the thicknesses of the first clamping portion 28 and the second clamping portion 34 are the same, so that the first clamping portion 28 abuts against the inner side wall of the chute 33, the second clamping portion 34 abuts against the side surface of the guide rail 25, and one side of the plurality of ribs 37 away from the inner side wall of the chute 33 abuts against the guide rail 25.

The middle frame assembly 15 provided in the embodiment moves relative to the fixed part 17 through the moving part 16 to drive the water tank 2 connected to the moving part 16 to move so as to expand the assembly space 38 for assembling the air conditioner base and enable the water tank 2 to be far away from the water channel 14 connected to the air conditioner base, so that the water channel 14 can be detached while the air conditioner base is detached, the water channel 14 is cleaned conveniently, a great amount of time and effort for detaching the air conditioner base are saved, and the maintenance and cleaning efficiency of the air conditioner base and the water channel 14 is improved; or, the movement portion 16 can drive the water tank 2 to move relative to the fixing portion 17 to shrink the assembly space 38 and enable the water tank 2 to be connected to the water channel 14 installed in the assembly space 38, so that water energy led out through the water channel 14 can be collected through the water tank 2 and led out to the outside, and the installation of the air conditioner base can be limited through the movement portion 16 and the water tank 2, so that the installation stability of the air conditioner base is ensured. And through setting up first fastener 4 and first support and hold the piece 7 and the second fastener 18 and the second that set up on the motion portion 16 respectively and support and hold piece 20 mutually supporting and strengthen the connection stability between water tank 2 and the motion portion 16 on water tank 2 to guarantee to drive water tank 2 to the appointed position through motion portion 16 steadily, so that water tank 2 and motion portion 16 expand jointly or shrink assembly space 38, and guarantee the easy dismounting who empties the base, can improve the dismouting efficiency of air conditioner base on the whole.

Third embodiment

In this embodiment, an air conditioner is provided, which can facilitate the water channel 14 to be detached along with the air conditioner base, and further facilitate the cleaning of the water channel 14. The air conditioner employs the drain assembly 1 provided in the first embodiment.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (8)

1. A middle frame assembly for installing an air conditioner base, which is characterized by comprising a moving part (16), a fixing part (17) and a drainage assembly (1), wherein the drainage assembly (1) comprises a water tank (2) and a water channel (14), the water tank (2) is connected with the middle frame assembly (15), the moving part (16), the fixing part (17) and the water tank (2) jointly form an assembling space (38) for assembling the air conditioner base, the water channel (14) is connected with the air conditioner base, the water tank (2) is fixedly connected with the moving part (16), and the moving part (16) can move relative to the fixing part (17) to expand the assembling space (38) and drive the water tank (2) to be far away from the water channel (14), or reduce the assembling space (38) to the water tank (2) to be connected with the water channel (14); the water tank (2) has two limit positions relative to the middle frame assembly (15), and when the water tank (2) moves to one of the limit positions, the water tank (2) is connected with the water channel (14);

The water tank (2) comprises a water tank main body (3) and a water outlet structure (13), one end of the water outlet structure (13) is connected to a first side of the water tank main body (3), a second side, opposite to the first side, of the water tank main body (3) is connected to the water channel (14), and the rotation center of the water tank main body (3) is close to one end, away from the water tank main body (3), of the water outlet structure (13).

2. The middle frame assembly according to claim 1, wherein the water tank body (3) is provided with a liquid inlet groove (41) communicated with the interior of the water tank body (3), the water channel (14) is provided with a diversion groove (42), and the diversion groove (42) can extend into the liquid inlet groove (41) to be communicated with the water channel (14) and the water tank body (3).

3. The middle frame assembly according to claim 2, wherein the liquid inlet groove (41) and the diversion trench (42) both extend along an arc path taking the other end of the water outlet structure (13) as a center.

4. The middle frame assembly according to claim 2, wherein a first sealing ring is arranged on the inner peripheral wall of the liquid inlet groove (41), and the first sealing ring is attached to the inner peripheral wall of the liquid inlet groove (41); and/or a second sealing ring is arranged on the peripheral wall of the diversion trench (42), and the second sealing ring is attached to the peripheral wall of the diversion trench (42).

5. The middle frame assembly according to claim 1, wherein a first clamping piece (4) is arranged on the water tank (2), the first clamping piece (4) comprises a connecting portion (5) and a clamping portion (6), one end of the connecting portion (5) is connected to the water tank (2), one end of the clamping portion (6) is connected to one end of the connecting portion (5) away from the water tank (2), the clamping portion (6) extends towards a first direction, a second clamping piece (18) is arranged on the moving portion (16), a first accommodating groove (19) towards a second direction is formed in the second clamping piece (18), and the clamping portion (6) is accommodated in the first accommodating groove (19), and the first direction is opposite to the second direction.

6. The middle frame assembly according to claim 5, wherein a first abutting piece (7) is arranged on the water tank (2), the first abutting piece (7) is provided with a first stop surface (43) facing in a second direction, a second abutting piece (20) is arranged on the fixing part (17), the second abutting piece (20) is provided with a second stop surface (44) facing in the first direction, and the first stop surface (43) abuts against the second stop surface (44).

7. The middle frame assembly according to claim 6, wherein the second supporting member (20) is convexly arranged on the outer peripheral wall of the moving part (16), a second accommodating groove (10) is formed on the outer side wall of the water tank (2), the first supporting member (7) is connected to the side wall of the second accommodating groove (10), a gap is formed between the first supporting member (7) and the bottom wall of the second accommodating groove (10), the first supporting member (7) extends out of the second accommodating groove (10), and the first stopping surface (43) is positioned on one side of the portion, extending out of the second accommodating groove (10), of the first supporting member (7);

the second supporting piece (20) is provided with an inclined surface relative to the side surface of the second stopping surface (44), and/or the part, extending out of the second accommodating groove (10), of the first supporting piece (7) is provided with an inclined surface relative to the side surface of the first stopping surface (43).

8. An air conditioner comprising a center assembly (15) as claimed in any one of claims 1-4.

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