CN113730942A - Condensing device and cleaning equipment - Google Patents

Abstract

The invention discloses a condensing device and cleaning equipment, wherein the condensing device comprises a cover body, the cover body is provided with a condensing cavity with an open top and a water outlet communicated with the bottom of the condensing cavity; the condensation member is in a cylindrical shape with two open ends, the outer peripheral wall of the condensation member is matched with the condensation cavity, at least one of the inner peripheral wall of the condensation member and the outer peripheral wall of the condensation member is provided with a plurality of condensation bone positions which are distributed at intervals along the circumferential direction of the condensation member, and each condensation bone position is arranged along the axial extension of the condensation member; one end of the heat conducting piece is used for being connected with the main control board of the cleaning equipment, and the other end of the heat conducting piece is connected with the position, close to the open end of the condensation cavity, of the condensation piece so as to conduct heat of the main control board of the cleaning equipment to the condensation piece. So set up, can avoid the main control board condensation phenomenon to appear at the in-process of cooling down effectively to avoid the main control board to break down, and then prolong the life of main control board.

Description

Condensing device and cleaning equipment

Technical Field

The invention relates to the technical field of condensing devices, in particular to a condensing device and cleaning equipment.

Background

Cleaning equipment usually includes machine main part and main control board, after cleaning equipment starts, the main control board operation, the temperature rise of main control board is accompanied with the phenomenon of generating heat, the temperature of the air around the main control board also can rise, after cleaning equipment stops operating, the main control board stops operating, the temperature of main control board can slowly descend, and the air around the main control board is still in higher temperature, the temperature of main control board upper air is higher than the temperature of main control board, make the main control board can produce the condensation phenomenon at the in-process of cooling, form the tiny drop of water at the surface condensation of main control board, it is ageing easily then easy to accelerate the main control board, it can't work such as the main control board short circuit to make seriously, and, the more moist indoor air, the condensation phenomenon is more serious, the urgent need to improve the event.

Disclosure of Invention

The invention mainly aims to provide a condensing device, which can effectively avoid the condensation phenomenon of a main control board in the process of cooling so as to avoid the main control board from being broken down and further prolong the service life of the main control board.

In order to achieve the above object, the present invention provides a condensing device applied to a cleaning apparatus, the condensing device including:

the cover body is provided with a condensation cavity with an open top and a water outlet communicated with the bottom of the condensation cavity;

the condensation member is in a cylindrical shape with two open ends, the outer peripheral wall of the condensation member is matched with the condensation cavity, at least one of the inner peripheral wall of the condensation member and the outer peripheral wall of the condensation member is provided with a plurality of condensation bone positions which are arranged at intervals along the circumferential direction of the condensation member, and each condensation bone position extends along the axial direction of the condensation member;

one end of the heat conducting piece is used for being connected with a main control board of the cleaning equipment, and the other end of the heat conducting piece is connected with the condensing piece through the open end of the condensing cavity so as to conduct heat of the main control board of the cleaning equipment to the condensing piece.

In some embodiments of the invention, a side of each condensation rib position near the top of the condensation chamber is formed as an inclined surface, and each inclined surface is inclined from the direction from the top of the condensation chamber to the bottom of the condensation chamber.

In some embodiments of the invention, the outer peripheral wall of the condensation member is provided with a plurality of condensation rib positions, and one side of each condensation rib position close to the open end of the condensation cavity is spaced from one side of the outer peripheral wall of the condensation member close to the open end of the condensation cavity.

In some embodiments of the invention, a clamping groove communicated with the condensation cavity is further formed on the surface of the cover body adjacent to the open end of the condensation cavity, and one end of the heat conducting member, which is far away from the main control board of the cleaning device, is matched with the clamping groove and is abutted against the outer peripheral wall of the condensation member.

In some embodiments of the present invention, a groove wall of the clamping groove, which is away from the condensation chamber, is provided with a positioning convex portion, and the heat conducting member is provided with a positioning concave portion which is matched with the positioning convex portion.

In some embodiments of the present invention, the heat conducting member includes a main body section and an output section, one end of the main body section is used for connecting with a main control board of the cleaning device, the other end of the main body section is connected with the output section at an included angle, and the output section is matched with the slot.

In some embodiments of the invention, the drain port is provided in a bottom wall of the condensation chamber;

at least part of the inner peripheral wall of the condensation cavity is formed into a flow guide channel section, and the caliber of the flow guide channel section is gradually reduced from one end, far away from the water outlet, of the flow guide channel section to one end, close to the water outlet, of the flow guide channel section.

The invention also provides cleaning equipment which comprises the condensing device, the main control board and the machine main body, wherein the condensing device and the main control board are both arranged on the machine main body, and one end of the heat conducting piece is connected with the main control board.

In some embodiments of the present invention, the machine main body is provided with an inner cavity and a drainage channel, the drainage channel is located at the bottom of the machine main body, two ends of the drainage channel are respectively communicated with the inner cavity and the outside air, the condensing device and the main control board are both located in the inner cavity of the robot main body, an open end of the condensing cavity is communicated with the inner cavity, and the drainage port of the cover body is aligned with the drainage channel.

In some embodiments of the invention, two sides of the outer peripheral wall of the cover body, which are oppositely arranged with respect to the axis of the condensing part, are provided with first positioning parts, and the machine main body is provided with two second positioning parts, and each first positioning part is matched with the corresponding second positioning part.

According to the technical scheme, through the setting of the cover body, the condensing part and the heat conducting part, when the main control board of the cleaning equipment runs, the heat conducting part conducts heat of the main control board of the cleaning equipment to the condensing part, so that the condensation phenomenon of the main control board of the cleaning equipment is transferred to the condensing part, when the main control board of the cleaning equipment stops running, the temperature of upper air of the condensing part is higher than that of the condensing part, so that the condensing part can generate the condensation phenomenon in the cooling process, small water drops are formed by condensation on the surface of the condensing part and are gathered to form condensed water, and the condensed water slides to the bottom of the cover body along the inner peripheral wall of the condensing part and the outer peripheral wall of the condensing part and is discharged along the water outlet. And, the condensation position on the condensing part can increase the area of contact of condensing part and air, and then promotes condensation efficiency, forms the water conservancy diversion passageway simultaneously between two arbitrary adjacent condensation positions and the condensing part, can play the effect of water conservancy diversion comdenstion water to make things convenient for the comdenstion water to discharge. So set up, can avoid the main control board condensation phenomenon to appear at the in-process of cooling down effectively to avoid the main control board to break down, and then prolong the life of main control board.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is an exploded view of an embodiment of the condensing unit of the present invention;

FIG. 2 is a schematic view of the overall structure of an embodiment of the condensing unit according to the present invention;

FIG. 3 is a schematic diagram of the internal structure of an embodiment of the cold condensing apparatus of the present invention;

FIG. 4 is an exploded view of an embodiment of the cleaning apparatus of the present invention;

FIG. 5 is a schematic view of the internal structure of an embodiment of the cleaning apparatus of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a condensing device, which is characterized in that heat of a main control board of a cleaning device is conducted to a condensing part through a heat conducting part, and the condensation phenomenon of the main control board of the cleaning device is transferred to the condensing part, so that the condensation phenomenon of the main control board in the cooling process is avoided, the main control board is prevented from being broken down, and the service life of the main control board is further prolonged.

Referring to fig. 1 to 3, the condensing device 100 of the present invention includes a cover 110, a condensing element 120, and a heat conducting element 130.

The cover 110 has a condensation chamber 111 with an open top and a drain 112 communicating with the bottom of the condensation chamber 111. The shape of the cover 110 can be various, and the cover 110 can be disposed in a cylindrical shape, a prismatic shape, a square shape, or other shapes, and is not limited herein. The number of the condensation chambers 111 may be one or more (two or more), when the number of the condensation chambers 111 is multiple, the condensation members 120 are installed in each condensation chamber 111, the number of the condensation members 120 in each condensation chamber 111 may be the same or different, the number of the water outlets 112 communicated with each condensation chamber 111 may be one or more, and the number of the water outlets 112 communicated with each condensation chamber 111 may be the same or different.

Specifically, the drain port 112 is disposed on the bottom wall of the condensation chamber 111, so as to facilitate draining of condensed water generated by the condensation member 120 during condensation through the drain port 112. The drain port 112 may be provided on a side wall of the condensation chamber 111 near the bottom wall.

This condensation piece 120 is the open tube-shape setting in both ends, and the periphery wall and the condensation chamber 111 cooperation of condensation piece 120, the periphery wall and the condensation chamber 111 of condensation piece 120 can be clearance fit or interference fit, do not do specifically to limit here. At least one of the internal peripheral wall of this condensing member 120 and the periphery wall of condensing member 120 is equipped with a plurality of (two and more than two) condensation bone positions 121 that arrange along its circumference interval, and each condensation bone position 121 all sets up along the axial extension of condensing member 120, so sets up, can increase the area of contact of condensing member 120 with the air.

Specifically, the internal perisporium of condensing member 120 and the periphery wall of condensing member 120 all are equipped with a plurality of condensation bone positions 121 of arranging along its circumference interval, so set up, compare with one in the internal perisporium of condensing member 120 and the periphery wall of condensing member 120 is equipped with a plurality of condensation bone positions 121 of arranging along its circumference interval, can further increase the area of contact of condensing member 120 with the air, and then promote condensation efficiency. In addition, when the outer circumferential wall of the condensation member 120 is provided with the condensation rib 121, the condensation rib 121 is engaged with the condensation chamber 111.

It should be noted that the condensing member 120 may be directly disposed along the vertical direction, the condensing member 120 may also be disposed along the vertical direction, and the condensing cavity 111 and the condensing member 120 are disposed in a matching manner, which is not limited in this respect. The material of the condensing member 120 is various, the material of the condensing member 120 may be a heat conducting material such as copper, aluminum, iron, etc., and the material of the condensing rib 121 is set with reference to the material of the condensing member 120.

The condensation bone positions 121 have various shapes, the cross sections of the condensation bone positions 121 can be arranged in a circular shape, an oval shape or a square shape, the cross sections of the condensation bone positions 121 can also be arranged in an N-sided shape, N is larger than or equal to 3, such as a triangle, a quadrangle and the like, and the shapes of the condensation bone positions 121 can be the same or different and are not limited specifically.

One end of the heat conduction member 130 is configured to be connected to the main control board 200 (in fig. 4) of the cleaning apparatus 1000 (in fig. 4), and the other end of the heat conduction member 130 is connected to the condensation member 120 through the open end of the condensation chamber 111, so as to conduct heat of the main control board 200 of the cleaning apparatus 1000 to the condensation member 120.

The heat conducting member 130 and the condensing member 120 are connected in various ways, the connection way between the heat conducting member 130 and the condensing member 120 may be that the side of the condensing member 120 away from the water outlet 112 is flush with the open end of the condensing cavity 111, the heat conducting member 130 is abutted against the side of the condensing member 120 away from the water outlet 112, and the connection way between the heat conducting member 130 and the condensing member 120 may also be that the heat conducting member 130 extends into the condensing cavity 111 and is connected with the condensing member 120, which is not listed herein.

The number of the heat conductive members 130 may be one or more. The material of the heat conducting member 130 is very varied, and the material of the heat conducting member 130 can be copper, aluminum, iron, and other heat conducting materials. When a plurality of condensation chambers 111 are provided, one end of the heat conduction member 130, which is far away from the main control board 200 of the cleaning apparatus 1000, is connected to each of the condensation members 120 in each condensation chamber 111.

Preferably, referring to fig. 4, a heat conductive silicone 140 is disposed between one end of the heat conductive member 130 far away from the condensing member 120 and the main control board 200 of the cleaning apparatus 1000, so that the heat conductive silicone 140 has high heat conductivity and excellent heat conductivity, so that heat generated by the main control board 200 of the machine main body 300 can be quickly conducted to the heat conductive member 130 and then conducted to the condensing member 120 through the heat conductive member 130, thereby accelerating heat conduction of the main control board 200 of the machine main body 300. In addition, the heat conductive paste may be coated on the side where the heat conductive member 130 is connected to the main control board 200 of the cleaning apparatus 1000, which may provide the same effect as the heat conductive silicone 140.

Through the above technical solution, when the main control panel 200 of the cleaning device 1000 operates, the heat conducting member 130 conducts the heat of the main control panel 200 of the cleaning device 1000 to the condensing member 120, and further transfers the condensation phenomenon of the main control panel 200 of the cleaning device 1000 to the condensing member 120, when the main control panel 200 of the cleaning device 1000 stops operating, the temperature of the upper air layer of the condensing member 120 is higher than the temperature of the condensing member 120, so that the condensing member 120 can generate the condensation phenomenon in the cooling process, small water drops are formed by condensation on the surface of the condensing member 120, the small water drops are converged to form condensed water, and the condensed water slides to the bottom of the cover body 110 along the inner peripheral wall of the condensing member 120 and the outer peripheral wall of the condensing member 120, and is discharged along the water outlet 112.

And, condensation position 121 on condensing member 120 can increase the area of contact of condensing member 120 and air, and then promotes condensation efficiency, forms the water conservancy diversion passageway simultaneously between two arbitrary adjacent condensation positions 121 and the condensing member 120, can play the effect of water conservancy diversion comdenstion water to make things convenient for the comdenstion water to discharge. So set up, can avoid the main control board 200 condensation phenomenon to appear at the in-process of cooling down effectively to avoid main control board 200 to break down, and then prolong main control board 200's life.

In addition, the following application scenarios also exist for the condensation device 100: the cleaning device 1000 is generally provided with a water tank, the main control board 200 operates, the temperature of the main control board 200 rises and is accompanied by a heating phenomenon, and the heat of the main control board 200 can be diffused to the body of the cleaning device 1000, so that the temperature of the air in the cleaning device 1000 is higher than the temperature of the ambient air and the temperature of the air around the water tank, the hot air formed by the heat dissipation of the main control board 200 is liquefied when meeting the cold air around the water tank, and is condensed to form small water drops, which easily drop on the main control board 200 of the cleaning device 1000 or other electronic components of the cleaning device 1000, so that the aging is accelerated if light, and the main control board 200 of the cleaning device 1000 is short-circuited and cannot work if heavy. At this time, the condensation device 100 of the present invention can also effectively prevent the main control board 200 from condensing during the cooling process, so as to prevent the main control board 200 from malfunctioning, thereby prolonging the service life of the main control board 200.

Referring to fig. 1 to 3, in view of the fact that when the condensation element 120 generates condensation phenomenon, condensed water is easily generated at a side of the condensation rib 121 close to the top of the condensation cavity 111, and if the side of the condensation rib 121 close to the top of the condensation cavity 111 is a plane, it is inconvenient for the condensed water to be guided to the water outlet 112, in order to guide the condensed water at the side of the condensation rib 121 close to the top of the condensation cavity 111 to the water outlet 112, in some embodiments of the present invention, a side of each condensation rib 121 close to the top of the condensation cavity 111 is formed as an inclined surface 121a, and each inclined surface 121a is inclined from a direction of the top of the condensation cavity 111 close to the bottom of the condensation cavity 111. So set up, through the settlement of inclined plane 121a for the comdenstion water can be under the effect of gravity along inclined plane 121a landing to the internal perisporium or periphery wall of condensing part 120, again along the internal perisporium or periphery wall landing to outlet 112 department of condensing part 120, so set up, makes things convenient for one side comdenstion water conservancy diversion that a condensation position of bone 121 is close to condensation chamber 111 top to outlet 112 department.

It should be noted that each inclined surface 121a may be inclined inward in a direction in which the top of the condensation chamber 111 approaches the bottom of the condensation chamber 111, and each inclined surface 121a may also be inclined outward in a direction in which the top of the condensation chamber 111 approaches the bottom of the condensation chamber 111, which is not limited in particular. The inclination angle of each inclined surface 121a may be other angle values such as 30 degrees, 45 degrees, and 60 degrees, and is not particularly limited herein.

Obviously, the side of the condensing element 120 close to the top of the condensing cavity 111 may also be disposed obliquely from the direction in which the top of the condensing cavity 111 is close to the bottom of the condensing cavity 111, so that the condensed water on the side of the condensing element 120 close to the top of the condensing cavity 111 is conveniently guided to the water outlet 112.

Referring to fig. 1 to 3, considering that when the outer peripheral wall of the condensation member 120 is provided with a plurality of condensation rib positions 121 spaced apart from each other along the circumferential direction, one side of the condensation rib position 121 close to the open end of the condensation cavity 111 and one side of the outer peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 may be flush with each other or spaced apart from each other, however, compared with the case where one side of the condensation rib position 121 close to the open end of the condensation cavity 111 and one side of the outer peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 are flush with each other, one side of the condensation rib position 121 close to the open end of the condensation cavity 111 and one side of the outer peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 are spaced apart from each other, so as to form a clamping portion, thereby facilitating the holding of the condensation member 120 by hand or by a tool, and installing the condensation member 120 in the condensation cavity 111, in view of the convenience of installing the condensation member 120, in some embodiments of the present invention, the outer circumferential wall of the condensation member 120 is provided with a plurality of condensation rib positions 121, and a side of each condensation rib position 121 close to the open end of the condensation cavity 111 is spaced from a side of the outer circumferential wall of the condensation member 120 close to the open end of the condensation cavity 111.

Specifically, the distance between the side of each condensation rib 121 close to the open end of the condensation cavity 111 and the side of the peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 may be other values such as 1cm, 1.5cm, 2cm, 2.5cm, and the distance between the side of each condensation rib 121 close to the open end of the condensation cavity 111 and the side of the peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 may be the same or different, and is not particularly limited herein.

In addition, one side of each condensation rib 121 on the inner peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 and one side of the outer peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 are arranged at intervals, and a space is left on one side of the inner peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111, so that the two positions which are oppositely arranged can be abutted against one side of the inner peripheral wall of the condensation member 120 close to the open end of the condensation cavity 111 through a tool, the condensation member 120 is held, and the condensation member 120 is installed in the condensation cavity 111.

Referring to fig. 1 to 3, the heat conducting member 130 and the condensing member 120 may be connected in various manners, in some embodiments of the invention, a clamping groove 113 communicating with the condensing chamber 111 is further disposed on a surface of the cover 110 adjacent to the open end of the condensing chamber 111, and an end of the heat conducting member 130 away from the main control board 200 of the cleaning device 1000 is engaged with the clamping groove 113 and abuts against an outer peripheral wall of the condensing member 120. So set up, can make the heat-conducting piece 130 convenient with being connected of condensing part 120, can make the inseparable butt of heat-conducting piece 130 and condensing part 120 again, make things convenient for heat conduction that heat-conducting piece 130 produced the main control panel 200 of cleaning equipment 1000 to condensing part 120.

The cross section of the clamping groove 113 is arc-shaped, and one end of the heat conducting piece 130, which is far away from the main control board 200 of the cleaning device 1000, is matched with the clamping groove 113, so that the contact area between the heat conducting piece 130 and the condensing piece 120 can be increased, and the heat conducting piece 130 conducts the heat of the main control board 200 of the cleaning device 1000 to the condensing piece 120 conveniently. In addition, the cross section of the slot 113 may be square, circular, or other shapes.

The number of the slots 113 may be one or more, and when the number of the slots 113 is multiple, one end of the heat conducting member 130, which is far away from the main control board 200 of the cleaning device 1000, is matched with the plurality of slots 113.

Specifically, the cover 110 and the heat conducting member 130 are manufactured by a two-shot molding process, in which a certain raw material is molded in a mold, the molded part is taken out, and the same or another raw material is injected into the mold again. So set up, promoted the cooperation precision between draw-in groove 113 of the cover body 110 and the heat-conducting piece 130, and then can strengthen the butt intensity between heat-conducting piece 130 and the condensing part 120, and then make things convenient for heat-conducting piece 130 to conduct the heat that cleaning device 1000's main control panel 200 produced to condensing part 120. Moreover, the outer peripheral wall of the condensing member 120 is in interference fit with the condensing cavity 111, so that the outer peripheral wall of the condensing member 120 is in interference abutment, and the abutment strength between the heat conducting member 130 and the condensing member 120 can be further enhanced.

Referring to fig. 1 to 3, in view of the fact that the heat conducting member 130 is away from the main control board 200 of the cleaning device 1000 and is directly clamped with the clamping groove 113 on the cover, and the heat conducting member 130 is easy to shake during the installation of the heat conducting member 130, so that the heat conducting member 130 is inconvenient to be fixed with the cover 110, in some embodiments of the present invention, a positioning protrusion 114 is disposed on a wall of the clamping groove 113 away from the condensation cavity 111, and the heat conducting member 130 is disposed with a positioning recess 130a engaged with the positioning protrusion 114. In this way, when the heat conducting material 130 is mounted on the cover 110, the heat conducting material 130 can be fixed by the engagement of the positioning protrusion 114 and the positioning recess 130a, so as to prevent the heat conducting material 130 from shaking.

The positioning concave portion 130a can be a positioning hole or a positioning groove, and the positioning convex portion 114 is disposed in the positioning concave portion 130 a. The number of the positioning protrusions 114 is the same as the number of the positioning recesses 130a, and each of the positioning protrusions 114 may be one or more, and when the number of the positioning protrusions 114 is plural, each positioning protrusion 114 is engaged with the corresponding positioning recess 130 a. In addition, the positions of the positioning convex portion 114 and the positioning concave portion 130a can be reversed.

Referring to fig. 1 to 3, in order to facilitate the heat conducting member 130 to be matched with the slot 113 on the cover 110, in some embodiments of the present invention, the heat conducting member 130 includes a main body section 131 and an output section 132, one end of the main body section 131 is used to be connected with the main control board 200 of the cleaning device 1000, the other end of the main body section 131 is connected with the output section 132 at an included angle, and the output section 132 is matched with the slot 113.

It should be noted that the included angle between the main segment 131 and the output segment 132 may be other angle values such as 30 degrees, 45 degrees, 60 degrees, 75 degrees, etc., and is not limited herein. Obviously, in an actual application process, the size of the included angle between the main body segment 131 and the output segment 132 may be adjusted according to the relative position of the main control board 200 of the cleaning apparatus 1000 and the condensing element 120, at this time, the main body segment 131 and the output segment 132 may be pivoted to enable the main body segment 131 to rotate relative to the output segment 132, so as to conveniently adjust the included angle between the main body segment 131 and the output segment 132 according to the relative position of the main control board 200 of the cleaning apparatus 1000 and the condensing element 120, for example, when the main control board 200 of the cleaning apparatus 1000 is located above the condensing element 120, the main body segment 131 may be rotated relative to the output segment 132, so that the main body segment 131 and the output segment 132 are located in the same vertical plane, and further, the main body segment 131 is conveniently connected to the main control board 200 of the cleaning apparatus 1000.

Preferably, the included angle between the main body segment 131 and the output segment 132 is 90 degrees, so that when the condensing device 100 is installed on the left side or the right side of the main control board 200 of the cleaning apparatus 1000, compared with the included angle between the main body segment 131 and the output segment 132 having other angle values, the length of the main body segment 131 can be shortened, the conduction path of the heat of the main control board 200 of the cleaning apparatus 1000 can be shortened, and then the heat generated by the main control board 200 of the cleaning apparatus 1000 can be quickly conducted to the condensing element 120, thereby improving the conduction efficiency.

Further, referring to fig. 1, the main body section 131 includes an input section 131a and a conduction section 131b, the input section 131a is used to be connected with the main control board 200 of the cleaning apparatus 1000, one end of the conduction section 131b is connected with the middle of the input section 131a, and the other end of the conduction section 131b is connected with the output section 132 at an included angle, so that the conduction section 131b is connected with the middle of the input section 131a, so that each position of the input section 131a can be quickly conducted to the conduction section 131b after receiving heat of the main control board 200 of the cleaning apparatus 1000, and the heat conduction member 130 can conveniently conduct heat of the main control board 200 of the cleaning apparatus 1000.

The length of the conductive segment 131b may be 5cm, 6cm, 7cm, or other values, and is not particularly limited. The input segment 131a, the conductive segment 131b, and the output segment 132 may be integrally formed, or the input segment 131a, the conductive segment 131b, and the output segment 132 may be individually formed and sequentially fixed once again.

Referring to fig. 1 to 3, in order to facilitate guiding the condensed water generated by the condensing element 120 to the drain port 112 for draining, in some embodiments of the invention, the drain port 112 is disposed on the bottom wall of the condensing cavity 111; the inner peripheral wall of the condensation chamber 111 is at least partially formed into a flow guide channel section 111a, and the aperture of the flow guide channel section 111a is gradually reduced from one end of the flow guide channel section 111a far away from the water outlet 112 to one end of the flow guide channel section 111a near the water outlet 112. With such an arrangement, the inner wall surface of the diversion channel section 111a forms an inclined diversion surface, so as to facilitate diversion of the condensed water generated by the condensation member 120 to the drainage port 112 for drainage.

Specifically, a flow guiding channel section 111a is formed on one side of the inner peripheral wall of the condensation chamber 111, which is close to the drain port 112, so that not only can the condensed water generated by the condensation member 120 be conveniently guided to the drain port 112 for discharging, but also the condensation member 120 can be conveniently installed in the condensation chamber 111. In addition, the inner peripheral wall of the condensation chamber 111 may also form the flow guide channel section 111 a.

Preferably, one side of the outer peripheral wall of the condensing member 120 close to the water outlet 112 is matched with the position of the flow guide channel section 111a far away from the water outlet 112, so as to conveniently match the condensing member 120 with the condensing cavity 111.

Referring to fig. 4 and 5, the present invention further provides a cleaning apparatus 1000, the cleaning apparatus 1000 includes the above-mentioned condensation device 100, a main control board 200 and a machine main body 300, the condensation device 100 and the main control board 200 are both mounted on the machine main body 300, and one end of the heat conducting member 130 far away from the condensation member 120 is connected to the main control board 200.

By way of example and not limitation, the cleaning device 1000 may be a cleaning robot, a sweeping and mopping robot, a hand-propelled cleaner, a ride-on cleaner, a hand-held cleaning device, or a cleaning base station (e.g., a dust collection base station or a mop wash base station).

Further, the machine body 300 is provided with an inner cavity 300a and a drainage channel 300b, the drainage channel 300b is located at the bottom of the machine body 300, two ends of the drainage channel 300b are respectively communicated with the inner cavity 300a and the outside air, the condensing device 100 and the main control board 200 are both located in the inner cavity 300a of the machine body 300, the open end of the condensing cavity 111 is communicated with the inner cavity 300a, and the drainage port 112 of the cover body 110 is aligned with the drainage channel 300 b. With such an arrangement, the condensing unit 100 is located inside the machine body 300, so that the condensing unit 100 and the machine body 300 can be conveniently integrated, and the condensed water generated by the condensing member 120 can be discharged to the external environment through the drainage channel 300b after being discharged from the drainage port 112 through the drainage channel 300 b.

Specifically, the machine body 300 includes an upper casing 310 and a lower casing 320 connected to the upper casing 310, a cavity is concavely provided on a surface of the lower casing 320 facing the upper casing 310, and the upper casing 310 covers an open end of the cavity to form an inner cavity 300a, so that the condensing device 100 is conveniently installed in the inner cavity 300a of the machine body 300. The connection manner of the upper housing 310 and the lower housing 320 may be a snap connection, a magnetic connection, a fixed connection through a bolt, etc., and is not limited herein.

In other embodiments, the condensing unit 100 may be directly installed outside the machine body 300. In addition, the water tank may be installed on the machine body 300, the drain port 112 of the cover 110 may be communicated with the water tank, and condensed water generated by the condenser 120 may be discharged into the water tank through the drain port 112 and recycled, at this time, the water tank may be located below the drain port 112, so that the condensed water may be discharged into the water tank under the action of gravity, or the water tank may be located above the drain port 112, and at this time, the condensed water may be pumped into the water tank by the water pump.

Preferably, referring to fig. 4 and 5, the outer peripheral wall of the cover 110 is provided with first positioning portions 115 on two sides opposite to the axis of the condensing member 120, the machine body 300 is provided with two second positioning portions 300c, and each first positioning portion 115 is engaged with the corresponding second positioning portion 300 c. By such arrangement, the cover body 110 can be conveniently mounted on the machine body, and the fixing force applied to the cover body 110 during fixing can be uniformly distributed, so that the cover body 110 can be stably fixed.

The connection between each first positioning portion 115 and the corresponding second positioning portion 300c may be various, and may be a snap connection, a magnetic connection, a fixed connection through a bolt, etc., which is not limited herein.

The specific structure of the condensing device 100 refers to the above embodiments, and since the cleaning apparatus 1000 adopts all technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A condensing unit applied to a cleaning device is characterized by comprising:

the cover body is provided with a condensation cavity with an open top and a water outlet communicated with the bottom of the condensation cavity;

the condensation member is in a cylindrical shape with two open ends, the outer peripheral wall of the condensation member is matched with the condensation cavity, at least one of the inner peripheral wall of the condensation member and the outer peripheral wall of the condensation member is provided with a plurality of condensation bone positions which are arranged at intervals along the circumferential direction of the condensation member, and each condensation bone position extends along the axial direction of the condensation member;

one end of the heat conducting piece is used for being connected with a main control board of the cleaning equipment, and the other end of the heat conducting piece is connected with the condensing piece through the open end of the condensing cavity so as to conduct heat of the main control board of the cleaning equipment to the condensing piece.

2. A condensing unit according to claim 1, wherein each of the condensing ribs is formed as an inclined surface on a side thereof close to a top of the condensing chamber, and the inclined surfaces are inclined from a direction in which the top of the condensing chamber is close to a bottom of the condensing chamber.

3. A condensing unit according to claim 1, wherein said condensing member has a plurality of said condensing rib portions formed on an outer peripheral wall thereof, and a side of each of said condensing rib portions adjacent to the open end of said condensing chamber is spaced apart from a side of said outer peripheral wall adjacent to the open end of said condensing chamber.

4. A condensing unit according to claim 1, wherein the surface of said housing adjacent to the open end of said condensing chamber is further provided with a notch communicating with said condensing chamber, and the end of said heat conducting member remote from the main control board of the cleaning device is engaged with said notch and abuts against the outer peripheral wall of said condensing member.

5. A condensing unit according to claim 4, wherein the groove wall of said engaging groove remote from said condensing chamber is provided with a positioning protrusion, and said heat conducting member is provided with a positioning recess engaged with said positioning protrusion.

6. A condensing unit according to claim 4, characterized in that said heat conducting member comprises a main body section and an output section, one end of said main body section is connected to a main control board of the cleaning device, the other end of said main body section is connected to said output section at an angle, and said output section is matched with said slot.

7. A condensing unit according to claim 1, wherein said drain port is provided in a bottom wall of said condensing chamber;

at least part of the inner peripheral wall of the condensation cavity is formed into a flow guide channel section, and the caliber of the flow guide channel section is gradually reduced from one end, far away from the water outlet, of the flow guide channel section to one end, close to the water outlet, of the flow guide channel section.

8. A cleaning apparatus comprising the condensation device according to any one of claims 1 to 7, a main control board, and a machine main body, wherein the condensation device and the main control board are mounted on the machine main body, and one end of the heat conductive member is connected to the main control board.

9. The cleaning device as claimed in claim 8, wherein the machine body is provided with an inner cavity and a drainage channel, the drainage channel is located at the bottom of the machine body, two ends of the drainage channel are respectively communicated with the inner cavity and the outside air, the condensing device and the main control board are both located in the inner cavity of the robot body, an open end of the condensing cavity is communicated with the inner cavity, and the drainage port of the cover body is aligned with the drainage channel.

10. The cleaning apparatus according to claim 8, wherein the outer peripheral wall of the housing is provided with first positioning portions on both sides thereof which are disposed opposite to each other with respect to the axis of the condensing member, and the machine body is provided with two second positioning portions, each of the first positioning portions being engaged with the corresponding second positioning portion.

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