KR20120050057A - A mop dehydration device for a dustcloth washer with a foot plate - Google Patents

Abstract

The present invention relates to a dewatering device for a mop washer having a scaffold.
The present invention is a pair of parallel to each other in the washing space 11 of the water collecting tank 10 and a plurality of perforations 111 are formed on the corresponding surface to compress the mop and the first and second pressing panel (100,200), It has a pair of left and right and crosses in an X-shape, the center of the intersection is rotatably coupled to the fixed shaft 413 provided on both sides of the inner wall of the sump (10), each end of the first and second pressing panel ( The first and second link members 411 and 412 which are connected to the first and second compression panels 100 and 200 to contract and expand and contract the expansion and deployment of the water collecting tank 10. A drive located at the rear and connected to the first and second link members 411 and 412 connected to one side of the pair of interlocking bars 310 and 320 and the interlocking bars 310 and 320 respectively. It consists of a rotary shaft 300 for rotating the bar 330, and a lever 500 that is integrally connected to the rotary shaft 300 to rotate the rotary shaft 300 In the dehydrator for the washing machine, one end is hinged to the end of the lever 500, the other end is extended to the operating bar 3000 and the other end is hinged to the lower side of the sump (10) and the other end scaffolding 4100 is provided in the middle and the other end of the operating bar 3000, the foot bar bar 4000 is coupled to the hinge 4200, and provided in the lower side of the water collection tank 10 and the left and right movement of the operation bar 3000 Guide rails 5000 for controlling the ends, and both ends of the first and second link members 411 and 412 in the state provided inside the first pressing panel 100 or the second pressing panel 200. And a return spring 6000 for returning the first and second link members 411 and 412 to the initial state.

Description

MOP DEHYDRATION DEVICE FOR A DUSTCLOTH WASHER WITH A FOOT PLATE}

The present invention relates to a dehydration device for a mop washer to dehydrate the mop by using a pair of pressing plate, more specifically, to move the pressing plate through the footboard when the dehydration of the mop to easily dehydrate the mop It relates to a dewatering device for a mop washer.

In general, the mop is to remove foreign substances on the floor, and once used, it is washed straight to remove the foreign substances and then used again. After washing, twist or squeeze by hand or step on foot to remove water. It will be removed and reused or stored.

Particularly, in case of rag mop, the worker removes the contaminants by shaking the mop part in the water when it is not cleaned by hand. Done.

As such, when the mop is to be washed and the moisture is removed, the worker uses the hands and feet directly, which is cumbersome and difficult during the cleaning operation, and also requires a large amount of water.

As a device for solving this problem, the applicant of the present application has been registered and applied for utility model registration No. 0284417 (2002.07.23) "mop cleaning device".

This includes a sump for storing and draining water, a washing plate for washing the mop in the sump, a drain for draining the wastewater in the sump, a dewatering tank for dewatering the washed mop, and And a dewatering lever for dewatering the mop.

Thus, when cleaning the mop through the mop cleaning device, put the mop on the cleaning plate to be supplied with water through the water supply pipe and then push the mop forward and backward to wash. After the mop is put on the dewatering tank and rotates the dewatering lever provided on one side of the sump tank, the dewatering plate connected to the dewatering lever presses the mop to dehydrate it.

The mop cleaning device as described above can simplify the cleaning and dehydration of the mop, and can also significantly reduce the amount of water required for cleaning.

However, the mop cleaning device as described above is dehydrated by pressurizing the dehydration plate on one side of the mop placed in the dehydration tank, and a great force is required when dewatering, and the pressure is weak so that the dehydration plate must be rotated several times when dewatering once. there was.

In addition, the water discharged from the mop during the pressurization through the dehydration plate is discharged through the hole of the dehydration tank at this time, the remaining water is not discharged by the surface between the hole and the hole is absorbed back into the mop, there has been a problem that the stable dehydration difficult.

Thus, there is a problem that the bottom surface is more dirty through the water and foreign matter on the floor when removing the foreign matter on the floor through the mop in the state that the water is not sufficiently discharged.

In order to solve this problem, the dehydration device for pressing the both sides of the mop at the same time when the dehydration of the cleaning is completed to sufficiently drain the water, the Republic of Korea Patent Registration No. 10-0652492 "dewatering for mop washing machine" Device has been filed and registered.

1 and 2 has a washing space 11 for the storage and drainage of water, and the washing tank 10 to wash the mop through the washing space 11, and the collection tank 10 In the washing space 11 is provided with a pair of pressing panels to move relative to each other through the link in accordance with the rotation of the pull lever is composed of a dewatering device for pressing and dehydrating both sides of the cleaning mop at the same time.

That is, in the dewatering device for a mop washer installed in the washing space of the water tank for dewatering the mop, arranged in a pair of upper and lower parallel to each other at an angle of 30 ~ 60 ° in the washing space 11 of the water tank (10) First and second compression panels 100a and 200a provided with a perforated plate 110 having a plurality of perforations 111 formed on corresponding surfaces thereof; A pull lever 300 connected to a center of a rotation shaft which is one end of a rotation bar 310 rotatably provided on an inner wall of the washing space 11 of the water collecting tank 10 to rotate the rotation bar 310; The first and second link members 411 and 412 intersect each other in an X shape, and the crossing centers thereof are hingedly fixed to the inner wall of the water collecting tank 10, and one end of the first and second link members 411 and 412 may be formed. Guide holes formed at the lower ends of the first and second pressing panels 100 and 200, respectively, and the other ends of the first and second link members 411 and 412 are formed at the side surfaces of the first and second pressing panels 100 and 200, respectively. The first and the link bar 410 slidably coupled to the 120,220, one end is hinged to the exposed other end of the rotary bar 310, and the other end is connected to the second crimp panel 200, respectively. A pair of interlocking bars 420 connected to the ends of the second link members 411 and 412, respectively, and the link bar 410 and the interlocking bar 420 are the first and second crimp panels 100 and 200, respectively. The rotary bar 310 to be provided at both sides of the

It is configured to include; crimping unit 400 is composed of a linkage shaft 430 to connect.

The present invention configured as described above, by having a dewatering device consisting of a first and a second pressing panel to move relative to the pressing lever during the rotation of the pull lever in the water collecting tank, both sides of the mop through the first and second pressing panel Simultaneously compress the cotton to drain the water sufficiently, thereby improving the adsorption power of foreign matter when cleaning the floor.

In addition, by providing a perforated plate having a plurality of perforations on both sides of the corresponding surfaces of the first and second crimp panels, the water discharged when the mop is pressurized can be discharged more quickly.

In addition, by providing a perforated plate having a plurality of perforations on one side of the corresponding surface of the first and second crimp panel, and a pressing plate having a plurality of protrusions on the other side, it is possible to reduce the dehydration time of the mop.

However, in the above case, as the operation of the pull lever must be operated by hand, there has been a problem in that the operation is difficult.

Accordingly, the present invention was devised to solve the above problems, and an object of the present invention is to dehydrate a mop washer for having a foothold that makes it easy for children to wash and dehydrate mops using their feet instead of hands. To provide a device.

The present invention to achieve the above object,

The first and second pressing panels which are arranged in pairs parallel to each other in the washing space of the sump and formed with a plurality of perforations on the corresponding surface to squeeze the mop; Rotatably coupled to fixed shafts provided on both sides of the inner wall of the sump, respectively, each end of which is connected to the first and second crimp panels to adjust the spacing of the first and second crimp panels during contraction and deployment. A rotation shaft for rotating the first and second link members, a pair of interlocking bars connected to one side of the first and second link members, respectively, and a driving bar connected to the interlocking bars, respectively; In the dehydrator for washing machine consisting of a lever that is connected integrally and rotates the rotary shaft,

One end is hinged to the end of the lever, the other end of the operation bar extending downward, one end is hinged to the lower side of the sump and the other end is provided with a footrest bar and the other end of the operation bar is hinged coupled to the middle, A guide rail is provided on the lower side of the water collection tank and controls the left and right movement of the operation bar, and both ends are connected to ends of the first and second link members in a state provided inside the first pressing panel or the second pressing panel. And a return spring for returning the first and second link members deployed to the initial state.

According to the present invention, when the footrest exposed to one side of the sump is pressed, the pressing force of the footrest is transmitted to the crimping panel, so that the mop can be easily dehydrated.

1 is a perspective view of a dehydrator for a conventional washing machine.
Figure 2 is a side use state of Figure 1;
Figure 3 is a main portion of the use state according to the present invention.
4 is an operational state diagram of FIG. 3.

Hereinafter, with reference to the accompanying drawings an embodiment of the dehydrator for mop washing machine having a scaffold function according to the present invention in detail, in the description of the present invention for the configuration of a dewatering device for a conventional mop washer of the present invention If it is determined that the gist may be blurred, a detailed description thereof will be omitted.

For reference, the present invention is an improvement of the "dehydrator for mop cleaner" registered in the Republic of Korea Patent No. 10-0652492, the same parts as the prior art will be described by applying the same reference numerals will be omitted.

The present invention, having a washing space (11) for the storage and drainage of water as shown in Figure 3 or 4 and the cleaning tank (10) to wash the mop through the washing space 11, and this collection tank (10) In the washing space 11 of the scaffolding is provided with a pair of pressing panels to move relative to the relative movement through the link is composed of a dewatering device to depress by pressing both sides of the mop at the same time the cleaning is completed.

The sump tank 10 is for washing the mop by a known technique, a washing space 11 for storing water, a supply pipe for supplying water to the washing space 11, and the washing space 11. A washing plate for washing the mop in the), a drain for draining the waste water is completed, and the control lever for selectively opening and closing the drain.

The dewatering device is to compress both sides of the mop after the cleaning is completed to sufficiently drain the water, disposed in a pair parallel to each other in the washing space 11 of the water collecting tank 10 and a plurality of perforations ( 111 and the first and second pressing panel (100,200) for crimping the mop, and a fixed shaft provided on both sides of the inner wall of the water collecting tank (10) having a pair of left and right, crossed in the X-shape and the center of the intersection is provided ( 413 is rotatably coupled to each other, and each end is connected to the first and second compression panels 100 and 200 so that the gap between the first and second compression panels 100 and 200 is reduced during contraction and development. The first and second link members 411 and 412 to be adjusted, and a pair of interlocking parts which are located at the rear of the sump tank 10 and connected to one side to the first and second link members 411 and 412 during rotation, respectively. A rotation shaft 300 rotating the bars 310 and 320 and the driving bar 330 connected to the interlocking bars 310 and 320; A lever 500 integrally connected to the rotation shaft 300 to rotate the rotation shaft 300, one end of which is hinged to an end of the lever 500, and an operation bar 3000 of which the other end extends downward; One end is hinged to the lower side of the water collecting tank 10 and the other end is provided with a footrest bar 4100 and the other end of the foot bar bar 4000 is coupled to the hinge (4200) of the operation bar 3000 and the water collecting tank ( 10 is provided on the lower side of the guide rail (5000) for controlling the left and right movement of the operation bar 3000, both ends in the state provided inside the first pressing panel 100 or the second pressing panel 200. It is composed of a return spring (6000) for returning the first and second link members (411, 412) deployed in connection with the ends of the first and second link members (411, 412) to an initial state.

The first and second pressing panels 100 and 200 are for pressing the mop, and have a rectangular frame shape, and the first pressing panel 100 is lowered in the washing space 11 of the sump 10. The second pressing panel 200 is disposed parallel to each other while maintaining a predetermined angle on the upper side, the corresponding surface is in close contact with each other and the guide holes 120 and 220 on both sides of the first and second pressing panels 100 and 200. ) Is formed.

In addition, the lower end of the first pressing panel 100 is provided with a mop support step 160 so that the mop does not fall, the surface of the mop support step 160 is perforated by a known method so that water can be discharged Multiple outlet holes may be formed.

The perforated plate 110 is attached to the upper side of the first pressing panel 100 to support the mop, a plurality of perforations 111 is formed on the upper surface, and absorbed in the mop through the perforated 111 The discharged water is quickly discharged, and the perforation 111 has a shape of any one of a circular triangular square long hole polygon.

The rotation shaft 300 is located at the rear of the sump (10) and a pair of interlocking bars (310, 320) respectively connected to one side of the first and second link members (411, 412) during rotation And a driving bar 330 connected to the interlocking bars 310 and 320.

The lever 500 is integrally connected to the rotary shaft 300 to rotate the rotary shaft 300.

The operation bar 3000 is a core right of the present invention and the user dehydrates the mop through the foot, which is hinged to one end of the lever 500 and the other end is installed to extend downward.

The scaffold bar 4000, one end is coupled to the hinge 4300 to the lower side of the sump (10), the other end is provided with a scaffold 4100 and the middle end is coupled to the hinge 4200 the other end of the operation bar (3000) .

The guide rail 5000 is bent at both ends and the bent end is coupled to the surface of the water collecting tank 10 to form a guide path 5100 to move the operation bar 3000 in the middle.

Both ends of the return spring 6000 are connected to the ends of the first and second link members 411 and 412 in a state provided inside the first compression panel 100 or the second compression panel 200. Thus, the deployed first and second link members 411 and 412 are returned to the initial state.

That is, one end of the return spring 6000 is inserted into the guide holes 120 and 220 formed on both sides of the first pressing panel 100 or the second pressing panel 200, respectively, and the first and second links are connected to each other. One end of the members 411 and 412 is connected to the moving shaft 450 and the other end is connected to the other ends of the first and second link members 411 and 412 so that the first and second link members 411 are connected. (412) serves to return to the initial state during the contraction and deployment operation.

With reference to the accompanying drawings an embodiment of a dehydrator for a mop washer having a scaffold according to the present invention configured as described above is as follows.

When assembling, as shown in FIG. 3 or 4, the perforated plate 110 is formed on the surfaces of the first and second pressing panels 100 and 200, and then disposed to face each other. Then, the centers of the first and second link members 411 and 412 crossed in the X-shape are rotatably coupled to the fixed shaft 413 fixed to the inner wall of the water collecting tank 10. Then, one end is hinged to the lower ends of the first and second crimp panels 100 and 200, and the other end is slidably coupled to the guide holes 120 and 220 of the first and second crimp panels 100 and 200, respectively. The hinge is connected to the moving shaft 450. Thereafter, the rotating shaft 300 is rotatably fixed to the rear side of the washing space 11 of the water collecting tank 10, and the lever 500 is continuously coupled to the rotating shaft 300 in accordance with the rotation of the lever 500. The rotating shaft 300 is fixed to rotate. Then, one end of the pair of interlocking bars 310 and 320 are respectively connected to the other end of the first and second link members 411 and 412, respectively, and the other end is integrally formed with the rotating shaft 300. The other end of the driving bar 330 connected to one end may be linked.

Then, one end of the operation bar 3000 is connected to the hinge 3100 at the exposed end of the lever 500 and the other end is connected to the hinge 4200 at the middle of the scaffold bar 4000. In this case, the operation bar 3000 is positioned in the guide path 5100 of the guide rail 5000. If one end of the scaffold bar 4000 is continuously coupled to the hinge 4300 to the side surface of the water collecting tank 10, the installation is completed.

Subsequently, the mop that needs to be cleaned is positioned between the first and second compression panels 100 and 200, and then when the footrest 4100 of the footrest portion 4000 is pressed, the rotation shaft 300 rotates to drive the drive bar 330. In this case, the driving bar 330 moves the interlocking bars 310 and 320, and the first and second link members 411 and 412 are interlocked with respect to the center fixed shaft 413. The end portion is narrowed and moved. At this time, the interval between the first and second crimp panels 100 and 200 is narrowed to dehydrate while simultaneously pressing both sides of the mop.

Here, water dehydrated through the first and second compression panels 100 and 200 is discharged into the washing space 11 through the perforations 111 of the perforated plate 110.

When the pressing pressure is removed from the scaffold 4100, the return spring 600 generates a restoring force and returns the first and second link members 411 and 412 to an initial state.

By repeating such an operation, the water absorbed in the mop can be sufficiently discharged.

10: sump 11: washing space
100: first pressing panel 110: perforated plate
111: perforation 120, 220: guide hole
200: second crimp panel
300: axis of rotation
310,320 linkage bar, 330 drive bar
411: first link member 412: second link member
413: fixed shaft
3000: working bar
4000: scaffolding bar
5000: guide rail
6000: return spring

Claims (1)

First and second compression panels 100 and 200 disposed in pairs parallel to each other in the washing space 11 of the water collecting tank 10 and having a plurality of perforations 111 formed on corresponding surfaces to compress the mop;
It has a pair of left and right and crosses in an X-shape, the center of the intersection is rotatably coupled to the fixed shaft 413 provided on both sides of the inner wall of the sump (10), each end of the first and second pressing panel ( First and second link members 411 and 412 connected to 100 and 200 to adjust the distance between the first and second crimp panels 100 and 200 during contraction and deployment;
A pair of interlocking bars (310, 320) and the interlocking bar (310), which are located at the rear of the sump (10) and connected to one side of the first and second link members (411, 412), respectively, when rotated. Rotating shaft 300 for rotating the drive bar 330 connected to (320),
In the washing machine dewatering device consisting of a lever 500 that is integrally connected to the rotary shaft 300 to rotate the rotary shaft 300,
One end is hinged to the end of the lever 500, the other end of the operation bar 3000 is extended downward, one end is hinged to the lower side of the sump (10) and the other end is provided with a footrest 4100 and the middle portion The other end of the operation bar (3000) is a foot bar bar (4000) coupled to the hinge 4200, and the guide rail (5000) for controlling the left and right movement of the operation bar (3000) is provided on the lower side of the sump (10) And first ends of which both ends are connected to ends of the first and second link members 411 and 412 in a state provided inside the first pressing panel 100 or the second pressing panel 200. And a return spring (6000) for returning the second link members (411, 412) to an initial state.

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