Housing, heating assembly and cleaning base station
Patent Information
- Authority / Receiving Office
- DE · DE
- Patent Type
- Utility models
- Current Assignee / Owner
- BEIJING ROCKROBO TECH CO LTD
- Filing Date
- 2024-06-28
- Publication Date
- 2026-07-02
Abstract
Description
Housing, heating assembly and cleaning base station
[0001] CROSS-REFERENCE TO RELATED APPLICATIONS
[0002] This application claims priority to Chinese patent application No. 202322304873.9 filed on August 25, 2023, and the contents of the above-mentioned Chinese patent application disclosure are hereby incorporated by reference in their entirety as a part of this application. Technical Field
[0003] The present application relates to the technical field of household appliances, and in particular to a housing, a heating component, and a cleaning base station. Background Art
[0004] As the functions of existing water heaters increase, the types and number of water heater circuits also increase. Due to the limited internal space of the water heater shell, the routing of the circuits poses the risk of electromagnetic interference, which can easily cause the water heater to malfunction, increase maintenance costs, and affect user experience.
[0005] Therefore, it is necessary to propose a housing, a heating assembly, and a cleaning base station to at least partially solve the problems existing in the prior art.
[0006] Summary of the Invention
[0007] The disclosure section introduces a series of simplified concepts that will be further described in detail in the detailed description section. The disclosure section of this disclosure is not intended to limit the key features and essential technical features of the claimed technical solution, nor is it intended to determine the scope of protection of the claimed technical solution.
[0008] The present disclosure aims to solve at least one of the technical problems existing in the prior art or related art.
[0009] To this end, a first aspect of the present disclosure provides a housing.
[0010] A second aspect of the present disclosure provides a heating assembly.
[0011] A third aspect of the present disclosure provides a cleaning base station.
[0012] In view of this, according to the first embodiment of the present application, a housing is proposed, comprising:
[0013] Cover body;
[0014] The box body and the cover body are covered on the box body. The box body and the cover body are assembled to form a shell body. The shell body is used to place the heating module, and the water inlet pipe and the water outlet pipe of the heating module extend out of the shell body.
[0015] In a feasible embodiment, a plurality of wiring channels arranged at intervals are provided in the box body for placing the wires of the heating module.
[0016] In a feasible embodiment, the above-mentioned wiring channel is provided with a first wiring channel and a second wiring channel, wherein the above-mentioned first wiring channel is used to place the high-voltage wire of the above-mentioned heating module; the above-mentioned second wiring channel is used to place the low-voltage wire of the above-mentioned heating module.
[0017] In a feasible embodiment, the housing further includes:
[0018] The supporting members are arranged at intervals on the box body, and the plurality of wiring channels are arranged on the supporting members along the depth direction of the box body.
[0019] In a feasible embodiment, along the depth direction of the box body, the support member is provided with a plurality of installation positions arranged at intervals, and the installation positions at the same height on the plurality of support members constitute one wiring channel.
[0020] In a feasible embodiment, the housing further includes:
[0021] The first fixing member is arranged at the connection between the box body and the cover body.
[0022] In a feasible embodiment, the buckle position and the buckle plate, the buckle plate is used to buckle on the buckle position;
[0023] Wherein, in the case where the buckle position is provided on a side of the box body close to the cover body, the buckle plate is provided on a side of the cover body close to the box body;
[0024] In the case that the buckle position is arranged on a side of the cover body close to the box body, the buckle plate is arranged on a side of the box body close to the cover body.
[0025] In a feasible embodiment, the cover is formed with a first connecting surface and a second connecting surface, and the second connecting surface protrudes from the first connecting surface;
[0026] The box body is formed with a third connecting surface and a fourth connecting surface, and the fourth connecting surface protrudes from the third connecting surface;
[0027] When the cover is covered on the box body, the first connection surface abuts against the fourth connection surface, and the second connection surface abuts against the third connection surface;
[0028] Wherein, at least one mounting hole is opened in the shell body, and the at least one mounting hole is used to install any one of the water inlet pipe, the water outlet pipe and the wire of the heating module.
[0029] In a feasible embodiment, the at least one mounting hole is provided at a junction of the first connecting surface and the fourth connecting surface; or is provided at a junction of the second connecting surface and the third connecting surface.
[0030] According to a second aspect of the present application, a heating assembly is provided, comprising:
[0031] A housing as described in any one of the above technical solutions;
[0032] A heating module is placed in the shell body, and a water inlet pipe and a water outlet pipe of the heating module extend out of the shell body;
[0033] Each wire of the heating module is placed in the corresponding wiring channel.
[0034] In a feasible embodiment, the heating component further includes:
[0035] A first sleeve, sleeved on the water inlet pipe;
[0036] The second sleeve is sleeved on the water outlet pipe.
[0037] In a feasible embodiment, the heating component further includes:
[0038] The second fixing member is arranged at the connection between the first sleeve and the water inlet pipe; and / or at the connection between the second sleeve and the water outlet pipe.
[0039] In a feasible implementation manner, the second fixing member is a clip.
[0040] In a feasible embodiment, the heating component further includes:
[0041] The third fixing member is used to fix the heating module to the box body.
[0042] In a feasible implementation manner, the third fixing member includes:
[0043] A lug is provided on the outer side of the heating module, and a through hole is provided on the lug;
[0044] A mounting post is provided on the box body, and a threaded hole is provided on the mounting post;
[0045] A screw passes through the through hole and is screwed into the threaded hole.
[0046] In a feasible implementation, it further includes:
[0047] The connecting piece is arranged on the outside of the box body and is used to connect the heating component to the cleaning base station.
[0048] According to a third aspect of the present application, a cleaning base station is proposed, including:
[0049] The heating component according to any one of the above technical solutions;
[0050] The cleaning base station is used to maintain the cleaning robot, and the heating component is used to heat the water required for maintaining the cleaning robot.
[0051] Compared to the prior art, the present disclosure provides at least the following advantages: The housing provided in the embodiments of the present application comprises a cover and a box body, wherein the cover is attached to the box body. The cover and box body are assembled to form a housing body, which defines a placement space within which a heating module can be placed. The housing body protects the heating module, providing a stable operating environment and extending its service life. Furthermore, the water inlet and outlet pipes of the heating module can extend beyond the housing body to facilitate water intake and hot water supply. BRIEF DESCRIPTION OF THE DRAWINGS
[0052] Various other advantages and benefits will become apparent to those skilled in the art upon reading the detailed description of the preferred embodiment below. The accompanying drawings are for illustration purposes only and are not to be considered as limiting the present description. The same reference symbols are used throughout the drawings to represent the same components. In the drawings:
[0053] FIG1 is an exploded schematic diagram of the assembly of a housing and a heating module provided in an embodiment of the present application;
[0054] FIG2 is a schematic structural diagram of a heating assembly provided by an embodiment of the present application with a cover removed at an angle;
[0055] FIG3 is a schematic structural diagram of a heating assembly provided by an embodiment of the present application with the cover removed from another angle;
[0056] FIG4 is a schematic structural diagram of a heating assembly provided in an embodiment of the present application from one angle;
[0057] FIG5 is a schematic structural diagram of a heating assembly provided in an embodiment of the present application from another angle;
[0058] FIG6 is a schematic structural diagram of a heating component provided in an embodiment of the present application from another angle.
[0059] The corresponding relationship between the reference numerals and component names in Figures 1 to 6 is as follows:
[0060] 100 shell, 200 heating components,
[0061] 110 cover body, 120 box body, 130 support member, 140 first fixing member, 210 heating module, 220 first sleeve, 230 second sleeve, 240 retaining spring, 250 third fixing member, 260 connecting member;
[0062] 111 first connecting surface, 112 second connecting surface, 121 third connecting surface, 122 fourth connecting surface, 123 first mounting hole, 124 second mounting hole, 125 third mounting hole, 131 mounting position, 132 slot, 141 buckle position, 142 buckle plate, 211 water inlet pipe, 212 water outlet pipe, 213 wire, 214 temperature sensor wire, 215 live wire, 216 neutral wire, 217 ground wire, 218 temperature sensor wire, 251 lug, 252 mounting column, 253 screw. DETAILED DESCRIPTION
[0063] In order to better understand the above technical solution, the technical solution of the embodiment of the present application is described in detail below through the accompanying drawings and specific embodiments. It should be understood that the embodiment of the present application and the specific features in the embodiment are detailed descriptions of the technical solution of the embodiment of the present application, rather than limitations on the technical solution of the present application. In the absence of conflict, the embodiment of the present application and the technical features in the embodiment can be combined with each other.
[0064] As shown in Figures 1 to 6, according to the first embodiment of the present application, a shell 100 is proposed, including: a cover body 110; a box body 120, the cover body 110 is covered on the box body 120, the box body 120 and the cover body 110 are assembled to form the shell 100 body, the shell 100 body is used to place the heating module 210, and the water inlet pipe 211 and the water outlet pipe 212 of the heating module 210 extend out of the shell 100 body.
[0065] It is understood that the housing 100 provided in the embodiment of the present application is provided with a cover 110 and a box body 120, wherein the cover 110 is covered on the box body 120, and the cover 110 and the box body 120 are assembled to form the housing 100 body. The housing 100 body has a placement space formed inside, and the heating module 210 can be placed in the placement space. The housing 100 body protects the heating module 210, provides a stable working environment for the heating module 210, and extends the service life of the heating module 210. The water inlet pipe 211 and the water outlet pipe 212 of the heating module 210 can extend from the housing 100 body to facilitate water intake and hot water supply.
[0066] For example, considering that the operating temperature of the heating module 210 can reach 80 degrees Celsius, in order to ensure the stability of the shell 100 body, the shell 100 body needs to be made of high-temperature resistant material, specifically, PA (polyamide resin) 66-301 material can be selected.
[0067] In some examples, as shown in FIG. 1 , a plurality of wiring channels arranged at intervals are provided in the box body 120 for accommodating the wires 213 of the heating module 210 .
[0068] It is understood that the housing 120 is internally provided with a plurality of spaced-apart wiring channels, and the wires 213 of the heating module 210 can be placed in corresponding wiring channels to ensure that each wire 213 can be arranged independently, thereby preventing the wires 213 from crossing each other, thereby reducing the risk of electromagnetic interference between the wires 213. This reduces the workload of subsequent maintenance, ensures that the heating module 210 can continue to operate stably, improves reliability, and enhances the user experience.
[0069] It should be noted that because the heating module 210 generates high temperatures during operation, a gap exists between each wiring channel and the metal casing of the heating module 210. This prevents the wires 213 from coming into contact with the hot metal casing, which could damage the insulation layer of the wires 213 and cause safety accidents. This improves the safety of the heating module 210.
[0070] In some examples, the wiring channel is provided with a first wiring channel and a second wiring channel, wherein the first wiring channel is used to place the high-voltage wires of the heating module; and the second wiring channel is used to place the low-voltage wires of the heating module.
[0071] It is understood that the wires 213 of the heating module 210 can be divided into high-voltage wires and low-voltage wires. The high-voltage wires include a live wire 215, a neutral wire 216, and a ground wire 217. The low-voltage wires include a temperature sensor wire 218. The high-voltage wires are arranged in the first wiring channel, and the low-voltage wires are arranged in the second wiring channel. This ensures that the high-voltage and low-voltage wires are routed separately and do not cross each other, reducing the risk of electromagnetic interference and improving stability.
[0072] In some examples, as shown in FIG. 1 to FIG. 3 , the housing 100 further includes: a support member 130 , which is spaced apart from the box body 120 , and a plurality of the wiring channels are disposed on the support member 130 along a depth direction of the box body 120 .
[0073] It is understood that the housing 100 is further provided with support members 130. Specifically, the support members 130 are arranged at intervals along the inner wall of the box body 120. The multiple support members 130 support the wires 213 to define the wiring positions of the wires 213, thereby forming multiple independent wiring channels to meet the wiring layout requirements.
[0074] In some examples, as shown in FIG. 1 to FIG. 3 , along the depth direction of the box body 120 , the support member 130 is provided with a plurality of installation positions 131 arranged at intervals, and the installation positions 131 at the same height on the plurality of support members 130 constitute a wiring channel.
[0075] It is understood that the support member 130 is provided with a plurality of mounting positions 131 spaced apart along the depth direction of the box body 120, and the plurality of mounting positions 131 at the same height can form a wiring channel. The wire 213 passes through the plurality of mounting positions 131 at the same height to provide limited support for the wire 213.
[0076] It is understandable that the position of the support member 130 and the number of the support members 130 can be set according to the wiring position of the wire 213 of the heating module 210 as designed, to ensure that the distance between adjacent support members 130 is appropriate, to ensure that the adjacent wires 213 are parallel to each other as much as possible, to avoid the wires 213 between adjacent support members 130 from being bent too much and interfering with other wires 213. In the height direction of the support member 130, a plurality of through holes can be spaced apart according to the position of the wire 213, and the through holes at the same height constitute a wiring channel. And as shown in Figure 1, a slot 132 is provided at one end of the support member 130 close to the cover body 110, so that the wire 213 can be inserted into the slot 132, which is convenient for the wiring installation of the wire 213.
[0077] For example, a sleeve may be provided in the box body 120, and the wire 213 may be passed through the sleeve to guide the arrangement direction of the wire 213 and limit the position of the wire 213. The sleeve may also be used to isolate adjacent wires 213 to improve reliability.
[0078] In some examples, the housing 100 further includes a first fixing member 140 disposed at a connection between the box body 120 and the cover body 110 .
[0079] It is understood that the housing 100 is further provided with a first fixing member 140. The first fixing member 140 fixes the cover 110 to the box body 120, so that the cover 110 and the box body 120 can be combined to form the main body of the housing 100, providing a stable placement space for the heating module 210. Specifically, the first fixing member 140 is provided at the connection between the box body 120 and the cover 110.
[0080] In some examples, as shown in Figures 1 to 6, the first fixing member 140 includes: a buckle position 141 and a buckle plate 142, and the buckle plate 142 is used to buckle on the buckle position 141; wherein, when the buckle position is set on the side of the box body 120 close to the cover body 110, the buckle plate 142 is set on the side of the cover body 110 close to the box body 120; when the buckle plate 142 is set on the side of the box body 120 close to the cover body 110, the buckle position is set on the side of the cover body 110 close to the box body 120.
[0081] It is understandable that the first fixing member 140 is provided with a buckle position 141 and a buckle plate 142. The setting positions of the buckle position 141 and the buckle plate 142 can be determined according to actual usage. In the case where the buckle position is provided on the side of the box body 120 close to the cover body 110, the buckle plate 142 is provided on the side of the cover body 110 close to the box body 120; in the case where the buckle plate 142 is provided on the side of the box body 120 close to the cover body 110, the buckle position is provided on the side of the cover body 110 close to the box body 120, and the positions and numbers of the buckle position 141 and the buckle plate 142 correspond. After the cover body 110 is placed on the box body 120, the positions of the buckle position 141 and the buckle plate 142 are aligned, and the buckle plate 142 is buckled onto the buckle position 141, so that the cover body 110 can be fixed to the box body 120. This arrangement simplifies the structure of the housing 100, eliminating the need for screws 253 for fastening. This facilitates installation and removal of the box body 120 and the cover 110, improving assembly and inspection efficiency. To ensure securement, multiple buckle plates 142 and buckle positions 141 may be provided, spaced apart along the joint between the cover 110 and the box body 120 to ensure balanced force at the joint.
[0082] For example, the buckle position 141 can be made with the box body 120 by an integrated injection molding process, and the buckle plate 142 can be made with the cover body 110 by an integrated injection molding process, so as to improve the structural strength and reduce the number of processing steps.
[0083] In some examples, as shown in Figure 1, the above-mentioned cover body 110 is formed with a first connecting surface 111 and a second connecting surface 112, and the second connecting surface 112 protrudes from the above-mentioned first connecting surface 111; the above-mentioned box body 120 is formed with a third connecting surface 121 and a fourth connecting surface 122, and the above-mentioned fourth connecting surface 122 protrudes from the above-mentioned third connecting surface 121; when the above-mentioned cover body 110 is covered on the above-mentioned box body 120, the above-mentioned first connecting surface 111 abuts against the above-mentioned fourth connecting surface 122, and the above-mentioned second connecting surface 112 abuts against the above-mentioned third connecting surface 121; wherein, at least one mounting hole is opened in the above-mentioned shell body, and the above-mentioned at least one mounting hole is used to install any one of the above-mentioned water inlet pipe 211, the above-mentioned water outlet pipe 212 and the wire 213 of the above-mentioned heating module.
[0084] It is understood that, considering the heating performance of the heating module 210, the heating tube assembly within the heating module 210 can be arranged in a spiral to increase the heating area. Therefore, the inlet pipe 211 and the outlet pipe 212 are arranged with a height difference. Specifically, the outlet pipe 212 is closer to the bottom of the box body 120 than the inlet pipe 211. To match the shape of the heating module 210, the cover body 110 is formed with a first connecting surface 111 and a second connecting surface 112. The first connecting surface 111 and the second connecting surface 112 form a first height difference, so that the second connecting surface 112 protrudes from the first connecting surface 111. The box body 120 is formed with a third connecting surface 121 and a fourth connecting surface 122. The third connecting surface 121 and the fourth connecting surface 122 form a second height difference, so that the fourth connecting surface 122 protrudes from the third connecting surface 121. The first height difference and the second height difference are equal, so that when the cover 110 is placed on the box body 120, the first connecting surface 111 can abut against the fourth connecting surface 122, and the second connecting surface 112 can abut against the third connecting surface 121. This ensures a tight connection between the cover 110 and the box body 120. This arrangement also facilitates alignment of the cover 110 and the box body 120, improving assembly efficiency.
[0085] It is understood that the number of mounting holes can be determined based on the actual situation of the heating module, and at least one mounting hole is provided in the shell body to install any one of the water inlet pipe 211, the water outlet pipe 212, and the heating module wire 213. For example, the mounting holes may include a first mounting hole 123, a second mounting hole 124, a third mounting hole 125, and a fourth mounting hole. The first mounting hole 123 is provided in the shell body to install the water inlet pipe 211; the second mounting hole 124 is provided in the shell body to install the water outlet pipe 212; and the third mounting hole 125 is provided in the shell body to install the high-voltage wire of the heating module 210. The fourth mounting hole is provided in the shell body to install the low-voltage wire of the heating module 210.
[0086] In some examples, as shown in FIG. 1 to FIG. 6 , the at least one mounting hole is provided at the junction of the first connection surface 111 and the fourth connection surface 122 ; or at the junction of the second connection surface 112 and the third connection surface 121 .
[0087] It is understandable that the positions of the mounting holes need to match the positions of the water inlet pipe 211 and the water outlet pipe 212 of the heating module 210. For example, a first mounting hole 123 may be provided at the junction of the first connecting surface 111 and the fourth connecting surface 122, and the water outlet pipe 212 may be passed through the first mounting hole 123. A second mounting hole 124 may be provided on the third connecting surface 121, and the water inlet pipe 211 may be passed through the second mounting hole 124. A third mounting hole 125 may be provided on the third connecting surface 121, and the high-voltage wire of the heating module 210 may be passed through the third mounting hole 125. A fourth mounting hole may be provided at the junction of the second connecting surface 112 and the third connecting surface 121, and the low-voltage wire of the heating module may be passed through the fourth mounting hole. Opening the mounting hole at the junction of adjacent connecting surfaces can ensure that the opening area is minimized, so that the heating module 210, except for the water inlet pipe 211, the water outlet pipe 212 and part of the wire 213, is placed inside the shell 100 body, thereby improving safety.
[0088] As shown in Figures 1 to 6, according to an embodiment of the second aspect of the present application, a heating assembly 200 is proposed, comprising: a shell 100 as described in any one of the above technical solutions; a heating module 210, placed in the shell 100 body, and the water inlet pipe 211 and the water outlet pipe 212 of the heating module 210 extend out of the shell 100 body; each wire 213 of the heating module 210 is placed in the corresponding wiring channel.
[0089] It is understood that the heating component 200 is provided with the above-mentioned housing 100, and therefore has all the beneficial effects of the above-mentioned housing 100, which will not be repeated here. The heating module 210 is arranged in the housing 100 body, and the water inlet pipe 211 and the water outlet pipe 212 of the heating module 210 extend out of the housing 100 body. The water inlet pipe 211 can be connected to a cold water source, and the cold water enters the heating module 210 from the water inlet pipe 211. After being heated by the heating module 210, it is transported to the location where hot water is needed through the water outlet pipe 212. Each wire 213 of the heating module 210 has a corresponding wiring channel in the housing 100 body to ensure that the wires 213 do not cross each other, reducing the risk of electromagnetic interference. In addition, there is a gap between each wiring channel and the metal shell of the heating module 210 to prevent the wires 213 from contacting the metal shell, causing damage to the wires 213, thereby improving the safety and reliability of the heating component 200.
[0090] In some examples, as shown in FIG. 1 to FIG. 6 , the heating assembly 200 further includes: a first sleeve 220 sleeved on the water inlet pipe 211 ; and a second sleeve 230 sleeved on the water outlet pipe 212 .
[0091] It is understood that the heating assembly 200 is further provided with a first sleeve 220 and a second sleeve 230. One end of the first sleeve 220 is sleeved over the water inlet pipe 211, and the other end of the first sleeve 220 is used to connect to a cold water source. The first sleeve 220 is used to guide the flow of cold water to ensure reliable entry of cold water into the water inlet pipe 211. One end of the second sleeve 230 is sleeved over the water outlet pipe 212, and the other end of the second sleeve 230 is used to connect to a hot water outlet. The second sleeve 230 is used to guide the flow of hot water from the water outlet pipe 212 to the hot water outlet.
[0092] For example, a sealing ring is provided at one end of the first sleeve 220 near the water inlet pipe 211 to prevent cold water from flowing out of the connection between the first sleeve 220 and the water inlet pipe 211, thereby improving reliability and safety. A sealing ring is provided at one end of the second sleeve 230 near the water outlet pipe 212 to prevent hot water from flowing out of the connection between the second sleeve 230 and the water outlet pipe 212, thereby improving reliability and safety.
[0093] For example, the second sleeve 230 may be made of a high-temperature resistant material, and the second sleeve 230 may be provided with a thermal insulation coating to ensure that the heat loss of hot water during transportation is small, thereby reducing energy consumption.
[0094] In some examples, as shown in Figures 1 to 6, the heating assembly 200 further includes: a second fixing member, disposed at the connection between the first sleeve 220 and the water inlet pipe 211; and / or disposed at the connection between the second sleeve 230 and the water outlet pipe 212.
[0095] It is understandable that due to the wide operating temperature range of the heating module 210, the temperature at the water inlet pipe 211 and the water outlet pipe 212 fluctuates significantly. Considering that the water inlet pipe 211 and the water outlet pipe 212 are susceptible to thermal expansion and contraction, the connection between the first sleeve 220 and the water inlet pipe 211, and the connection between the second sleeve 230 and the water outlet pipe 212, can easily become loose. Therefore, a second fixing member may be provided at the connection between the first sleeve 220 and the water inlet pipe 211, and at the connection between the second sleeve 230 and the water outlet pipe 212, to ensure the tightness of the connection between the first sleeve 220 and the water inlet pipe 211, and the second sleeve 230 and the water outlet pipe 212, respectively. This ensures stable water inflow and outflow, and improves reliability.
[0096] In some examples, as shown in FIG. 1 to FIG. 6 , the second fixing member is a clip 240 .
[0097] It is understood that the second fixing member can be a retaining spring 240. The retaining spring 240 is secured to the connection between the first sleeve 220 and the water inlet pipe 211, and to the connection between the second sleeve 230 and the water outlet pipe 212, ensuring the tightness of the connection between the first sleeve 220 and the water inlet pipe 211, and the second sleeve 230 and the water outlet pipe 212. This ensures stable water inflow and outflow, improving reliability. Furthermore, the retaining spring 240 can be made of stainless steel to prevent rusting upon contact with water, extending its service life and ensuring stable performance.
[0098] In some examples, as shown in FIG. 2 and FIG. 3 , the heating assembly 200 further includes a third fixing member 250 for fixing the heating module 210 to the box body 120 .
[0099] It is understood that the heating assembly 200 is further provided with a third fixing member 250 to fix the heating module 210 to the box body 120. This ensures that the heating module 210 does not move relative to the box body 120 during transportation and use of the heating assembly 200, thereby preventing the heating module 210 from colliding with the wires 213, causing the wires 213 to be misaligned and crossed, and generating electromagnetic interference, thereby improving reliability.
[0100] It is understood that a plurality of third fixing members 250 may be provided to ensure the tightness of the fixing of the heating module 210 and the box body 120. For example, two third fixing members 250 may be provided, symmetrically arranged on both sides of the heating module 210 to ensure balanced fixing force on the heating module 210.
[0101] In some examples, as shown in Figures 2 and 3, the third fixing member 250 includes: a lug 251, which is arranged on the outside of the heating module 210, and the lug 251 has a through hole; a mounting column 252, which is arranged on the box body 120, and the mounting column 252 has a threaded hole; and a screw 253, which passes through the through hole and is screwed into the threaded hole.
[0102] It will be appreciated that the third fixing member 250 is provided with a lug 251, a mounting post 252, and a screw 253. Specifically, the lug 251 is provided on the outside of the metal housing of the heating module 210 and may have a through hole formed therein along the depth direction of the housing 120. The mounting post 252 is provided on the housing 120 and has a threaded hole formed therein along the depth direction of the housing 120. When the lug 251 is placed on the mounting post 252, the through hole and the threaded hole are aligned. The screw 253 is passed through the through hole and screwed into the threaded hole until the head of the screw 253 abuts against the lug 251, thereby securing the heating module 210 to the housing 120.
[0103] For example, the lugs 251 and the metal housing of the heating module 210 can be integrated to ensure structural strength, thereby ensuring the securement of the heating module 210. A gap is provided between the lugs 251 and the wiring channel to prevent the wires 213 from coming into contact with the hot lugs 251 when the heating module 210 is in operation, potentially damaging the insulation layer of the wires 213 and causing safety accidents. This improves the safety of the heating module 210.
[0104] In some examples, as shown in FIG. 1 to FIG. 6 , the heating assembly 200 further includes a connector 260 disposed on the outside of the box body 120 for connecting the heating assembly 200 to the cleaning base station.
[0105] It is understood that the heating assembly 200 is also provided with a connector 260. Specifically, the connector 260 is provided on the outside of the box body 120, and the heating assembly 200 can be connected to the cleaning base station through the connector 260. The connector 260 can be a protrusion, and along the depth direction of the box body 120, the protrusion is provided with a through hole to facilitate the use of screws 253 passing through the through hole to fix the box body 120 to the cleaning base station. Multiple connectors 260 can be provided to ensure the tightness of the connection. For example, the protrusion can be an integrally molded structure with the box body 120 to improve structural strength.
[0106] According to the third aspect of the present application, a cleaning base station is proposed, including: a heating component 200 as described in any one of the above technical solutions; wherein the above cleaning base station is used to maintain a cleaning robot, and the above heating component 200 is used to heat water required for maintaining the above cleaning robot.
[0107] It can be understood that the cleaning base station is provided with the heating component 200 described in any one of the above technical solutions, and therefore has all the beneficial effects of the above heating component 200, which will not be repeated here.
[0108] It is understandable that the heating assembly 200 is installed on the cleaning base station, and the water inlet pipe 211 and the water outlet pipe 212 are placed at the bottom of the heating module 210. Such an arrangement can effectively prevent bubbles from flowing back into the heating module 210, thereby improving the heating efficiency of the heating module 210.
[0109] It is understood that the cleaning robot may be provided with a wet cleaning element. After the cleaning robot completes its cleaning operation, dust, debris, and bacteria may remain on the wet cleaning element. The cleaning robot enters the cleaning base station and cleans the wet cleaning element using the cleaning element of the cleaning base station. After the cleaning base station receives a cleaning command, the valve at the cold water source opens, and cold water flows into the heating module 210 along the first sleeve 220 and the water inlet pipe 211. After the cold water is heated to a preset high temperature by the heating module 210, it flows into the cleaning element from the water outlet pipe 212 and the second sleeve 230. The wet cleaning element is cleaned with hot water, which can quickly and effectively remove dust, debris, and bacteria remaining on the wet cleaning element, thereby improving the ability to remove stains.
[0110] In the description of the present disclosure, it is to be understood that the terms "up", "down", "left", "right", "front", "back", etc., indicating directions or positional relationships, are based on the directions or positional relationships shown in the accompanying drawings, and are only for the convenience of describing the present disclosure and simplifying the description, rather than indicating or implying that the device or unit referred to must have a specific direction, be constructed and operated in a specific direction, and therefore, cannot be understood as a limitation on the present disclosure.
[0111] Throughout this specification, terms such as "one embodiment," "some embodiments," and "a specific embodiment" mean that the specific features, structures, materials, or characteristics described in conjunction with that embodiment or example are included in at least one embodiment or example of the present disclosure. In this specification, illustrative expressions of terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
[0112] The above are merely preferred embodiments of the present disclosure and are not intended to limit the present disclosure. Those skilled in the art will readily appreciate that various modifications and variations of the present disclosure are possible. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of the present disclosure shall be included within the scope of protection of the present disclosure.
Claims
1. A housing, characterized in that: include: Cover body; The box body and the cover body are assembled to form a shell body, the shell body is used to place the heating module, and the water inlet pipe and the water outlet pipe of the heating module extend out of the shell body.
2. The housing according to claim 1, characterized in that The box body is provided with a plurality of wiring channels arranged at intervals for accommodating the wires of the heating module.
3. The housing according to claim 2, characterized in that: The wiring channel is provided with a first wiring channel and a second wiring channel, wherein the first wiring channel is used for placing the high-voltage wires of the heating module; and the second wiring channel is used for placing the low-voltage wires of the heating module.
4. The housing according to claim 2, characterized in that: Also includes: The support member is arranged at intervals on the box body, and a plurality of the wiring channels are arranged on the support member along the depth direction of the box body.
5. The housing according to claim 4, characterized in that: Along the depth direction of the box body, the support member is provided with a plurality of installation positions arranged at intervals, and the installation positions located at the same height on the plurality of support members constitute a wiring channel.
6. The housing according to claim 1, characterized in that Also includes: The first fixing member is arranged at the connection between the box body and the cover body.
7. The housing according to claim 6, characterized in that The first fixing member comprises: A buckle position and a buckle plate, wherein the buckle plate is used to be buckled on the buckle position; Wherein, in the case where the buckle position is arranged on a side of the box body close to the cover body, the buckle plate is arranged on a side of the cover body close to the box body; In the case that the buckle position is arranged on a side of the cover body close to the box body, the buckle plate is arranged on a side of the box body close to the cover body.
8. The housing according to claim 1, characterized in that The cover body is formed with a first connecting surface and a second connecting surface, and the second connecting surface protrudes from the first connecting surface; The box body is formed with a third connection surface and a fourth connection surface, and the fourth connection surface protrudes from the third connection surface; When the cover body is covered on the box body, the first connection surface abuts against the fourth connection surface, and the second connection surface abuts against the third connection surface; Wherein, at least one mounting hole is opened in the shell body, and the at least one mounting hole is used to install any one of the water inlet pipe, the water outlet pipe and the wire of the heating module.
9. The housing according to claim 8, characterized in that The at least one mounting hole is arranged at a junction of the first connecting surface and the fourth connecting surface; or is arranged at a junction of the second connecting surface and the third connecting surface.
10. A heating component, characterized in that: include: The housing according to any one of claims 1 to 9; A heating module is placed in the shell body, and a water inlet pipe and a water outlet pipe of the heating module extend out of the shell body; Each wire of the heating module is placed in the corresponding wiring channel.
11. The heating assembly according to claim 10, characterized in that Also includes: A first sleeve, sleeved on the water inlet pipe; The second sleeve is sleeved on the water outlet pipe.
12. The heating assembly according to claim 11, characterized in that Also includes: A second fixing member is arranged at the connection between the first sleeve and the water inlet pipe; And / or is arranged at the connection between the second sleeve and the water outlet pipe.
13. The heating assembly according to claim 12, characterized in that The second fixing member is a clip spring.
14. The heating assembly according to claim 10, characterized in that Also includes: The third fixing member is used to fix the heating module to the box body.
15. The heating assembly according to claim 14, characterized in that The third fixing member comprises: A lug is arranged on the outer side of the heating module, and the lug is provided with a through hole; A mounting post, arranged on the box body, the mounting post being provided with a threaded hole; A screw passes through the through hole and is screwed into the threaded hole.
16. The heating assembly according to claim 10, characterized in that Also includes: A connecting piece is arranged on the outside of the box body and is used to connect the heating component to the cleaning base station.
17. A cleaning base station, characterized in that: include: A heating assembly as claimed in any one of claims 10 to 16; The cleaning base station is used for maintaining the cleaning robot, and the heating component is used for heating water required for maintaining the cleaning robot.