阅读说明：本技术 清洁机器人 (Cleaning robot ) 是由 张乐乐 于 2017-02-17 设计创作，主要内容包括：本发明实施例提供一种清洁机器人。该清洁机器人包括机体、水箱及出水管路；其中,水箱可拆卸的设置在所述机体的后端,所述水箱的外侧壁与所述机体的侧壁相对接,所述水箱的水箱底壁与机体的机体底壁相对接；出水管路,设置在所述机体上。所述水箱具有两个朝向机体的端部,所述出水管路在所述水箱的一个端部的侧壁处与所述水箱连接。本发明清洁机器人在水箱的一个端部连接出水管路,有助于提高机体内部空间的利用率,使得整机布局更加合理。(The embodiment of the invention provides a cleaning robot. The cleaning robot comprises a machine body, a water tank and a water outlet pipeline; the water tank is detachably arranged at the rear end of the machine body, the outer side wall of the water tank is butted with the side wall of the machine body, and the bottom wall of the water tank is butted with the bottom wall of the machine body; and the water outlet pipeline is arranged on the machine body. The water tank has two ends facing the machine body, and the water outlet pipeline is connected with the water tank at the side wall of one end of the water tank. The cleaning robot is connected with the water outlet pipeline at one end part of the water tank, which is beneficial to improving the utilization rate of the internal space of the machine body and ensuring that the whole machine is more reasonable in layout.)

1. A cleaning robot, characterized by comprising:

a body;

the water tank is detachably arranged at the rear end of the machine body, the outer side wall of the water tank is butted with the side wall of the machine body, and the bottom wall of the water tank is butted with the bottom wall of the machine body;

the water outlet pipeline is arranged on the machine body;

wherein the water tank has two ends facing the machine body, and the water outlet pipeline is connected with the water tank at the side wall of one end of the water tank.

2. The cleaning robot of claim 1, wherein the water tank comprises a curved section box;

one end part of the arc-shaped section box body is provided with an interface; one end of the water outlet pipeline is communicated with the arc-shaped section box body through the interface.

3. The cleaning robot according to claim 1, wherein the water tank has a vertical section tank body in a direction perpendicular to a walking direction of the cleaning robot;

in the walking direction of the cleaning robot, the width of the end part of the vertical section box body is larger than the width of the middle part of the vertical section box body.

4. The cleaning robot according to any one of claims 1 to 3, wherein the water tank is provided along an edge of the bottom of the body;

the water outlet pipeline is provided with a pipeline section extending from the edge of the bottom of the machine body towards the center direction of the bottom of the machine body.

5. The cleaning robot according to any one of claims 1 to 3, further comprising:

the water outlet mechanism is arranged on the machine body;

the water outlet mechanism is connected with the water tank through the water outlet pipeline so as to output the liquid in the water tank through the water outlet pipeline.

6. The cleaning robot according to any one of claims 1 to 3, further comprising:

the rag component is arranged at the bottom of the machine body and is positioned below the water tank;

the water outlet pipeline is provided with a water outlet, and the water outlet direction of the water outlet faces the rag component.

7. The cleaning robot as claimed in claim 6, wherein an elastic member is provided between the bottom of the water tank and the cloth member;

the elastic component comprises a limiting seat arranged on the rag component, and a spring and an elastic button accommodated in the limiting seat;

the top of the elastic button is abutted against the corresponding position of the bottom of the water tank.

8. The cleaning robot according to any one of claims 1 to 3, further comprising:

the dust box is arranged on the machine body and is communicated with a dust suction port on the machine body;

in the walking direction of the cleaning robot, the dust suction port, the dust box and the water tank are sequentially arranged;

the water outlet pipeline is positioned below the dust box.

9. The cleaning robot as claimed in claim 8, wherein a water outlet is provided on a portion of the water outlet pipeline directly below the dust box.

10. The cleaning robot according to claim 8, wherein the cleaning robot comprises, in order from bottom to top: the machine body bottom shell, at least part of the water outlet pipeline, the cover plate and the dust box.

11. The cleaning robot as claimed in claim 8, wherein a bottom wall portion of the body extends upwardly to form a gutter side wall; the water outlet pipeline comprises the water outlet groove;

and a water outlet is formed in the bottom of the water outlet groove.

12. The cleaning robot of claim 11, wherein the diameter of the outlet at the end of the outlet channel is larger than the diameter of the outlet at the center of the outlet channel.

13. A cleaning robot, characterized by comprising:

a body mounted with a fan assembly;

the water tank is arranged on the machine body;

the water outlet pipeline is arranged on the machine body;

wherein the cleaning robot has a centerline, the water tank has two ends on either side of the centerline, and the water tank at least partially surrounds the outside of the fan assembly.

Technical Field

The invention relates to a cleaning robot, and belongs to the technical field of small household appliance manufacturing.

Background

Cleaning robots on the market today are usually provided with a suction opening, a dust box, a fan and a water tank. When setting up dirt box, water tank and fan as an organic whole, can lead to the user to take out other parts that do not need the adjustment in the subsidiary when wanting to clear up the dust alone or adding water, and water is mixed with the dust easily, seriously influences user's use experience. When each part is divided, can regard as an independent accessory to the water tank, when needs use and drag the ground function, the user adorns the organism lower part to the water tank again, and above-mentioned structure makes the water tank lose more easily or damage as the accessory outside being independent of the complete machine, can indirect increase the external dimension of complete machine on level or vertical direction simultaneously, and when more water tanks add water at every turn, need with the organism upset after, just can take out the water tank. When regard as a whole to water tank and complete machine, the water tank is mostly in the side rear of complete machine organism and sets up side by side with the fan, leads to the water tank capacity very little, needs additionally to add an outside water tank and can reach user's clean requirement, and extra water tank can lead to the increase of complete machine external dimension equally.

The prior art that the bulletin number is CN204133376U authorizes belongs to typical suction inlet, dirt box, fan, water tank structure, discloses that the water in the storage water tank flows to mopping cloth through the infiltration passageway, humidifies mopping cloth, absorbs water the back and carries out cleaning work to ground, and the storage water tank is the independent structure in the main part, can close into a whole through the concatenation. Because water flows to mopping cloth through infiltration passageway, under the not enough condition of water tank internal pressure, lead to water tank bottom can remain water liquid, can't all ooze, secondly when taking out the water tank, need just can take out after overturning the organism, lead to remaining water liquid to pour out in the water tank, the user is very inconvenient when using.

The prior art with application publication number CN105662280A discloses that the fan assembly 16 and the water tank 1 are arranged side by side from left to right, resulting in a small capacity of the water tank, which brings inconvenience to users.

Disclosure of Invention

The invention aims to solve the technical problem that aiming at the defects of the prior art, the invention provides the cleaning robot, each functional part exists relatively independently and is sequentially arranged in the machine body, the size of the whole machine cannot be additionally increased, the layout of the whole machine is more reasonable and compact, the internal space of the machine body is fully utilized, and a dust box or a water tank can be made larger; the water tank has no water pumping and leaking system, so that the abnormal risk of the water tank is reduced, the water storage capacity is increased, and the water consumption requirement of a working period is met; the elastic component arranged between the water tank and the cleaning cloth component ensures that the cleaning cloth component is evenly stressed in the floor mopping process, and the cleaning efficiency is high.

The technical problem to be solved by the invention is realized by the following technical scheme:

the utility model provides a cleaning machines people, includes the organism, is equipped with dirt box, water tank and fan subassembly on the organism, and the bottom of the body is equipped with the dust absorption mouth that links to each other with the dirt box, and the walking direction A who establishes cleaning machines people is preceding, dust absorption mouth, dirt box, fan subassembly and water tank set gradually according to the order backward in the past on the organism.

In order to make the whole structure more beautiful and compact, the water tank at least partially surrounds the outer side of the fan assembly. Specifically, the water tank includes an arcuate segment that surrounds the outside of the fan assembly. Furthermore, the water tank is installed at the edge of the machine body, and the width of the end part of the water tank is larger than that of the middle part of the water tank, so that the space at the edge of the machine body is fully utilized, the use space inside the machine body is enlarged, and a dust box, the water tank or a fan assembly can be made larger.

Preferably, the water tank is detachably arranged on the machine body, the water tank can be detached from the side or the back of the machine body, and the shape of the butt joint position of the water tank and the machine body is correspondingly arranged so as to ensure the complete appearance of the cleaning robot. More specifically, the outer side wall of the water tank is butted with the side wall of the machine body, and the bottom wall of the water tank is butted with the bottom wall of the machine body.

The machine body is further provided with a water outlet mechanism and a water outlet pipeline, the bottom of the machine body is provided with a cleaning cloth component, the water outlet mechanism outputs liquid in the water tank through the water outlet pipeline, the water outlet pipeline is independently arranged outside the water tank, and at least part of the water outlet pipeline is positioned under the dust box. This water outlet pipeline's mode of setting, the space between make full use of dirt box and the organism diapire for each part overall arrangement in the organism is compacter, reasonable, and longer water outlet pipeline makes the rag subassembly that corresponds can be done bigger, increases its area of cleaning.

According to the requirements, the water outlet pipeline adopts various arrangement modes, in one embodiment of the invention, the water outlet pipeline comprises a water outlet hose and a water outlet hard pipe, one end of the water outlet hose is connected with the water outlet mechanism, the other end of the water outlet hose is connected with the water outlet hard pipe, and the water outlet hard pipe is provided with a water outlet. Wherein, go out the water hard tube setting and be in the dust box under. Preferably, the water outlet pipeline comprises a water outlet hose, a water outlet hard pipe and an extension pipe, one end of the water outlet hose is connected with the water outlet mechanism, the other end of the water outlet hose is connected with the water outlet hard pipe, the extension pipe is arranged at the bottom of the water outlet hard pipe and inserted into the through hole of the bottom wall of the machine body for positioning, and a water outlet is formed in the extension pipe.

Or the water outlet pipeline can also comprise a water outlet hose and a water outlet groove, one end of the water outlet hose is connected with the water outlet mechanism, the other end of the water outlet hose is connected with the water outlet groove, and the water outlet groove is provided with a water outlet. More specifically, the bottom wall portion of the housing extends upwardly to form a side wall of the outlet channel.

In order to facilitate limiting or protection, a cover plate is further arranged between the water outlet pipeline and the dust box.

In order to ensure that the rag component is uniformly stressed and the cleaning efficiency is high in the mopping process, an elastic component is arranged between the bottom of the water tank and the rag component; the elastic component comprises a limiting seat arranged on the cleaning cloth component, a spring and an elastic button accommodated in the limiting seat, and the top of the elastic button is abutted against the corresponding position of the bottom of the water tank.

Specifically, the cleaning cloth assembly comprises a cleaning cloth bracket and cleaning cloth arranged on the cleaning cloth bracket, and the limiting seat is arranged on the cleaning cloth bracket; the water tank is connected with the cleaning cloth component through the water tank base, and the elastic button penetrates through a through hole formed in the water tank base and abuts against the corresponding position of the bottom of the water tank.

The water tank is arranged on the edge of the machine body, and the width of the end part of the water tank is larger than that of the middle part of the water tank.

In summary, the invention provides a cleaning robot, each functional component exists relatively independently and is arranged in sequence in the machine body, the size of the whole machine is not additionally increased, the layout of the whole machine is more reasonable and compact, the space in the machine body and the space at the edge are fully utilized, and the dust box or the water tank can be made larger; the water tank has no water pumping and leaking system, so that the abnormal risk of the water tank is reduced, the water storage capacity is increased, and the water consumption requirement of a working period is met; the elastic component arranged between the water tank and the cleaning cloth component ensures that the cleaning cloth component is evenly stressed in the floor mopping process, and the cleaning efficiency is high.

The technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is an exploded view of the overall structure of a cleaning robot according to the present invention;

FIG. 2 is a schematic bottom view of the cleaning robot of the present invention;

FIG. 3 is a second schematic view of the bottom structure of the cleaning robot of the present invention;

FIG. 4 is a schematic view of the arrangement position of the water outlet pipeline according to the present invention;

FIG. 5 is a schematic view of the elastic member of the present invention.

Detailed Description

Fig. 1 is an exploded view of the overall structure of a cleaning robot according to the present invention; FIG. 2 is a schematic bottom view of the cleaning robot of the present invention; FIG. 3 is a second schematic view of the bottom structure of the cleaning robot of the present invention; FIG. 4 is a schematic view of the position of the water outlet pipe according to the present invention. As shown in fig. 1 to 4, the present invention provides a cleaning robot, which includes a body 100, a dust box 200, a water tank 300 and a fan assembly 500 are disposed on the body 100, a dust suction port 210 connected to the dust box is disposed at the bottom of the body 100, and as shown in fig. 2 and 3, the dust suction port 210, the dust box 200, the fan assembly 500 and the water tank 300 are sequentially disposed on the body 100 in a front-to-rear order, assuming that a traveling direction a of the cleaning robot is a front direction. For convenience of arrangement, the respective center lines of the dust suction port 600, the dust box 200, the fan 400, and the water tank 300 are respectively overlapped with the center line of the machine body 100. In order to facilitate the addition of water during use, the water tank 300 is detachably disposed on the machine body 100, and likewise, the dust box 200 is detachably disposed on the machine body 100. It should be noted that, the dust suction opening 210, the dust box 200, the fan assembly 500, and the water tank 300 are sequentially disposed on the machine body 100 from front to back, and not that all parts of the former component are necessarily located in front of the latter component. For example, the blower 400 is disposed in front of the water tank 300, that is, the center portion of the front member is located in front of the center portion of the rear member, as viewed from the center line of the body.

As shown in fig. 1 in conjunction with fig. 2, in order to make the overall structure of the cleaning robot more attractive and compact, the water tank 300 at least partially surrounds the outside of the fan assembly 500. That is, the water tank 300 is disposed along the edge of the bottom of the body. Specifically, the water tank 300 includes a curved section box that surrounds the outside of the fan assembly 500. Preferably, the water tank 300 is detachably provided on the machine body 100, and the water tank 300 can be detached from a side or a rear of the machine body 100. The water tank 300 is correspondingly shaped to the body 100 at the docking position to ensure the complete shape of the cleaning robot. More specifically, the outer sidewall 301 of the water tank 300 is abutted against the sidewall 101 of the machine body 100, and the bottom wall 302 of the water tank 300 is abutted against the bottom wall 102 of the machine body 100. That is, the outer wall of the water tank forms a part of the side wall of the machine body, so that the water tank fully utilizes the edge space of the machine body and only occupies a smaller internal space of the machine body, and the machine body has more internal spaces for arranging other components, such as a dust box, a fan assembly or a driving assembly of a driving wheel and the like; meanwhile, the rear end of the plug-in machine body of the side face extraction type of the dust box enables the water tank to be removed more easily for water adding, the machine body does not need to be turned over, and the water tank is taken out from the bottom to add water.

Referring to the structures shown in fig. 1 and 5, it can be seen that: the water tank 300 has a vertical section of a tank body in a direction perpendicular to a traveling direction of the cleaning robot. Specifically, as shown in fig. 5, the box 300 includes two sections from top to bottom. The vertical section box may be the box located in the upper half of fig. 5. In the walking direction of the cleaning robot, the width of the end part of the vertical section box body is larger than the width of the middle part of the vertical section box body.

As shown in fig. 3 and 4 in combination with fig. 1, a water outlet mechanism 310 and a water outlet pipeline are disposed on the machine body 100, a mop assembly 400 is disposed at the bottom of the machine body 100, the water outlet mechanism 310 outputs the liquid in the water tank 300 to the mop assembly through the water outlet pipeline, the water outlet pipeline is independently disposed outside the water tank 300, and at least a portion of the water outlet pipeline is located right below the dust box 200. According to the requirement, the water outlet pipeline may adopt various arrangement modes, in the embodiment shown in fig. 4, the water outlet pipeline includes a water outlet hose 320 and a water outlet hard tube 330, one end of the water outlet hose 320 is connected with the water outlet mechanism 310, the other end of the water outlet hose is connected with the water outlet hard tube 330, a water outlet 331 is arranged on the water outlet hard tube 330, and the water outlet direction faces the rag assembly 400. Preferably, the water outlet pipeline comprises a water outlet hose, a water outlet hard pipe and an extension pipe, one end of the water outlet hose is connected with the water outlet mechanism, the other end of the water outlet hose is connected with the water outlet hard pipe, the extension pipe is arranged at the bottom of the water outlet hard pipe and inserted into the through hole of the bottom wall of the machine body for positioning, and a water outlet is formed in the extension pipe. Because the water in the water tank directly drips the rag through the extension pipe, there is not any water stain in other positions such as organism diapire, effectively prevents that the organism from being corroded by the electrical property short circuit or sewage that water stain caused. Wherein, the water outlet hard pipe 330 is arranged right below the dust box 200. In order to facilitate limiting or protection, a cover plate (not shown in the figure) is further arranged between the water outlet pipeline and the dust box, and the cleaning robot sequentially comprises a machine body bottom shell, a water outlet hose, a water outlet hard pipe, a cover plate and the dust box from bottom to top.

Besides the above arrangement, the water outlet pipeline may also include a water outlet hose 320 and a water outlet tank, one end of the water outlet hose is connected to the water outlet mechanism 310, and the other end of the water outlet hose is connected to the water outlet tank, and the bottom of the water outlet tank is provided with a water outlet 331. For the convenience of fixing, the bottom wall portion of the housing 100 extends upward to form a side wall of the outlet channel. Wherein, the water outlet groove is arranged under the dust box 200. The number of the water outlets 331 is multiple, and in order to ensure that the cleaning cloth is quickly wetted, the diameter of the water outlet at the end of the water outlet groove is larger than that of the water outlet at the middle of the water outlet groove.

It should be noted that a connection pipe (not shown in the figure) is further disposed between the water outlet of the water tank and the water outlet mechanism, and generally, the connection pipe is formed by a hose, and the connection mode between the water outlet mechanism and the water tank belongs to the prior art, and is not described herein again.

Referring to fig. 4, the water tank 300 has both ends positioned at both sides of the center line of the cleaning robot. Both ends face the body of the cleaning robot. The water outlet line is connected to the water tank 300 at one end of the water tank 300. Specifically, the water outlet line is connected to the water tank 300 at a side wall of one end of the water tank. From the perspective shown in fig. 4, the water tank 300 includes an arc-segment tank body. This arc section box has: one end portion located at the left side of the cleaning robot shown in fig. 4, and the other end portion located at the right side of the cleaning robot shown in fig. 4. The water outlet pipe is connected to one end portion located on the left side of the cleaning robot shown in fig. 4. When the water outlet pipeline is specifically implemented, one end part of the arc-shaped section box body is provided with a connector, and one end of the water outlet pipeline is communicated with the arc-shaped section box body through the connector.

With continued reference to the example shown in fig. 4, and in conjunction with the corresponding above, it follows that: the water tank 300 is disposed along the edge of the bottom of the machine body 100. Thus, the water outlet pipe has a pipe section extending from the bottom edge of the machine body 100 toward the center of the bottom of the machine body 100. In particular, referring to fig. 4, the tube segment may be an outlet hose 320 in the outlet tube.

FIG. 5 is a schematic view of the elastic member of the present invention. In order to ensure that the rag assembly has proper pressure on the ground to wipe the ground clean during mopping, an elastic assembly 700 is arranged between the bottom of the water tank 300 and the rag assembly 400. The elastic assembly 700 includes a limiting seat 710 disposed on the rag assembly 400, a spring 720 and a spring button 730 accommodated in the limiting seat, wherein the top of the spring button 730 is abutted against the corresponding position of the bottom of the water tank 300. Specifically, the mop cloth assembly 400 includes a mop cloth holder 410 and a mop cloth 420 disposed on the mop cloth holder 410, and the limiting seat 710 is disposed on the mop cloth holder 410. The water tank 300 is connected with the rag assembly 400 through the water tank base 310, and the elastic button 730 passes through a through hole 311 formed in the water tank base and abuts against the corresponding position at the bottom of the water tank 300.

As described above, the present invention combines the water tank and the body as a whole, and the internal functional components are arranged with the center line of the cleaning robot as the center, and the arrangement sequence is: suction-dust box-fan-water tank. Namely: the dust box is arranged at the rear part of the suction port, the fan is arranged at the rear part of the dust box, the water tank is arranged at the rear part of the fan, and all the functional components are arranged on the same central line of the machine body. That is to say, the water tank of the invention is positioned at the tail part of the machine body, is positioned behind the fan and is positioned on the same central line of the machine body with the fan and the dust box. The water outlet system is arranged in the machine body, the water outlet is arranged on the base of the machine body and is respectively independent from the water tank, and the risk of abnormality of the water tank is reduced. In the working process, the water tank pumps water through a water outlet mechanism in the machine body, such as a water pump, and flows through a water outlet pipeline right below the dust box, and the water is dripped or sprinkled onto the cleaning cloth through a water outlet. The parts of each function independently exist, can take out the dirt box alone when needs clearance dirt box dust, can take out the water tank alone when needs realize mopping the ground function and add water can. The invention integrates the water tank and the machine body into a whole, does not increase the size of the whole machine additionally, ensures that the layout of the whole machine is more reasonable and compact, makes full use of the internal space of the machine body, and can make the dust box or the water tank larger. The water tank of the invention has no water pumping and leaking system, is independent of the water outlet system and independently exists at the rear part of the whole machine, and realizes water outlet by connecting the sealing structure with the water pumping system in the machine body.

In addition, when the existing cleaning robot carries the cleaning cloth assembly, the pressure of the cleaning cloth assembly to the ground is mostly formed by the weight of the water tank or the cleaning cloth assembly, so that the aim of mopping the ground by attaching the cleaning cloth assembly to the ground is fulfilled. The prior art is not high in cleaning efficiency because the pressure of the water tank to the ground can not be adjusted, and in the working process, the pressure of the rag assembly to the ground is continuously reduced because the water in the water tank is continuously reduced, so that the mopping uniformity can not be ensured. According to the cleaning cloth component, one end of the elastic structure arranged below the machine body base and above the cleaning cloth component is connected with the elastic button structure, the other end of the elastic structure is abutted against the cleaning cloth component, and the elastic button is limited on the cleaning cloth component. When the rag subassembly assembled on the complete machine, the corresponding position on the internal water tank of organism is supported to the elastic construction, uses the rag subassembly through elastic construction on, realizes the effect of rag and ground laminating, through the regulation of spring force, realizes keeping invariable dynamics to the regulation of rag support for ground pressure, keeps the homogeneity that the rag subassembly mopped ground continuously to be acted on the rag subassembly.

In summary, the invention provides a cleaning robot, each functional component exists relatively independently and is arranged in sequence in the robot body, the size of the robot body is not additionally increased, so that the layout of the robot body is more reasonable and compact, the internal space of the robot body is fully utilized, and the dust box or the water tank can be made larger; the water tank has no water pumping and leaking system, so that the abnormal risk of the water tank is reduced, the water storage capacity is increased, and the water consumption requirement of a working period is met; the elastic component arranged between the water tank and the cleaning cloth component ensures that the cleaning cloth component is evenly stressed in the floor mopping process, and the cleaning efficiency is high. Particularly, when the water tank is installed at the rear end of the machine body in a removable mode, the edge space of the machine body of the cleaning robot is more favorably fully utilized, and water is more easily added into the water tank.