KR20120019247A - Drying and washing apparatus of mop - Google Patents

Abstract

The present invention relates to a laundry dehydration apparatus of the bag mop.
Washing dewatering device of the rag of the present invention, the upper portion is formed in an open shape, divided into a washing room for washing the contaminated rag on one side inside the main body, and a dehydration room for dewatering the rag, the dewatering chamber in the upper body The dehydration case is rotatably spaced apart from the bottom surface, the installation case is installed at the bottom, the installation case is equipped with a rotating gear configured to be rotatable by the rotation of the pedal, the rotating shaft of the rotary gear In the laundry dehydration apparatus of the rag mop, which is installed to connect the center and the center of the bottom of the dehydration case, the rotary gear rotates according to the rotation of the pedal, and the dehydration case rotates as the rotary shaft connected to the rotary gear rotates. A gear unit is formed to protrude from the bottom side of the pedal and is configured to engage with the rotary gear. Is installed so as to be forward or backward on the installation case, the sliding gear is formed in one side of the rack gear in the vertical direction, the connecting pin is connected through the sliding hole and the gear connecting portion connecting the pin according to the rotation of the pedal The rack gear is configured to move forward or backward while moving up and down along the sliding hole, and a connecting member for fitting the bottom of the rag head to the bottom of the dehydration case is integrally installed with the dehydration case, and the upper portion of the installation case. An auxiliary rotary gear is installed on one side to engage the rack gear, and an auxiliary rotary shaft is connected to the center of the auxiliary rotary gear, and an auxiliary connecting member configured to rotate the mop head by inserting the bottom of the mop head on the upper part of the auxiliary rotary shaft. It is installed to protrude above the floor of the washing room and is connected by pedal rotation. And that the auxiliary connection member adapted to rotate at the same time is characterized.
According to the present invention, the auxiliary connecting member is installed to be rotatable on the bottom of the washing chamber, and the connecting member is installed to be rotatable on the bottom of the dehydration case, and the auxiliary connecting member and the connecting member are installed in the rack case. By being configured to be rotatable by operation, it is possible to simultaneously perform dehydration and washing according to one pedal operation.

Description

DRYING AND WASHING APPARATUS OF MOP}

The present invention relates to a laundry dehydration apparatus of the rag mop, the main body is divided into the washing chamber and the dehydration chamber, the lower part of the dehydration case installed in the dehydration chamber and the lower part of the washing chamber connected to the head bottom of the rag, respectively A connecting member and an auxiliary connecting member are provided, and the connecting member and the auxiliary connecting member are connected to the rotating shaft and the auxiliary rotating shaft so that the connecting member and the auxiliary connecting member rotate together with one pedal drive, thereby simultaneously performing dehydration and washing. It relates to a laundry dehydration device of the rag mop.

Mop is used to remove contaminated parts that are contaminated on the floor of a building, among other cleaning products used to clean the building's exterior or interior.

The mop is referred to as abrasion mop, mop or bag mop (hereinafter referred to as mop mop) and usually has a bag that can be held by hand, and refers to a product on which the mop made of fiber is mounted.

The rags made of the above can be reused only by washing the contaminated rags with water and removing the water on the floor of the building indoors or outdoors, and also infesting insects such as molds and cockroaches that grow well in wet environments. Can be prevented.

In order to solve the above problems, squeezing the rag squeezed by hand, but many users are reluctant to touch the dirty rag, so by stepping on the rag with the user's feet to remove the moisture, only remove the moisture on the outside of the rag There was a problem that can not be removed even inside the water.

In order to solve the above problems, "mop dehydration device" (Korean Registered Utility Model Publication No. 20-449292), "dewatering device" (Korean Utility Model Publication 20-2009-12540), "mop Techniques such as "dehydrator" (Korean Utility Model Publication No. 20-449053) has been filed and published.

All of the above devices are dehydrated by centrifugal force, and have a mounting case provided with a pedal at the bottom, and a rotary shaft rotating in engagement with a gear after the gear device is operated according to the rotation of the pedal. The dehydration case is connected to the rotating shaft to rotate and the dehydration case is rotated by stepping on the pedal to remove moisture from the rag.

The above technologies form a space for washing the rag in one side of the dehydrator, pour water into it, wash the rag and put the rag on the dehydration case next to the pedal and bury it in the rag. To remove any water.

However, when washing the rag rag, there was a problem that it is cumbersome to rinse the foreign matter on the rag.

Specifically, the quality of the washing may vary depending on the propensity or strength of the person working, and each time you wash the rag every day, the force went into the arm has a cumbersome problem.

KR20-2009-0012540 (2009.12.08) KR20-0449292 (June 22, 2010) KR20-0449053 (May 31, 2010)

The laundry dehydration apparatus of the rag of the present invention is to solve the problems occurring in the prior art as described above, and installs an auxiliary connection member which is rotatable on the bottom of the washing room, and is connected to the rotatable bottom of the dehydration case. The member is installed, and the auxiliary connection member and the connection member are configured to be rotatable by the operation of the rack gear installed in the installation case, so that the dehydration and washing can be simultaneously performed according to one pedal operation.

In particular, the connecting member and the auxiliary connecting member is configured to be engaged with the head formed on the bottom of the rag mop so that the rag mop rotates while dehydration and washing is made to improve the efficiency of washing and dewatering.

In addition, by forming a protrusion projecting upward in the lower center of the dewatering case, by installing a connecting member in the upper portion of the dewatering case so that the mop connected to the head of the rag for dehydration is separated from the bottom of the dewatering case to remove moisture It is intended to be faster.

In addition, the rotary gear and the auxiliary rotary gear for rotating the connecting member and the auxiliary connecting member, respectively, are configured to be connected to the rack gear through the reduction gear and the auxiliary reduction gear without directly connecting the rack gear, so that the rotational speed of the connecting member and the auxiliary connection The rotational speed of the member is to have a rotational speed suitable for dewatering and washing, respectively, to improve washing and dewatering performance.

In order to solve the technical problem as described above, the laundry dehydration apparatus of the present invention mop mop, the upper portion is formed in an open form, the washing room for washing the contaminated bag mop on one side inside the main body, dehydration to dehydrate the bag mop In the dehydration room, the dehydration case is installed on the upper part of the main body so that the dehydration case can be rotated away from the bottom surface, and the installation case is installed on the lower part. And a rotating shaft connected to the center of the rotating gear and the bottom center of the dehydrating case, the rotating gear rotating according to the rotation of the pedal, and the dehydrating case rotating as the rotating shaft connected to the rotating gear rotates. In the laundry dewatering device of the mop, the gear connecting portion is formed to protrude from the bottom side of the pedal. The rack gear configured to engage with the rotary gear is installed to be capable of moving forward or backward on the installation case. A sliding hole is formed in one direction of the rack gear in a vertical direction, and a connecting pin penetrates the sliding hole and the gear connecting portion. The rack is moved forward or backward as the connecting pin moves up and down along the sliding hole according to the rotation of the pedal, and the connecting member for fitting the bottom of the rag head to the lower part of the dehydration case is integrated with the dehydration case. The auxiliary rotary gear is installed on the upper side of the installation case so as to be engaged with the rack gear, the auxiliary rotary shaft is connected to the center of the auxiliary rotary gear, and the bottom of the mop head is fitted to the upper portion of the auxiliary rotary shaft. Auxiliary connection member configured to rotate the head protrudes above the floor of the washing chamber It is installed, it characterized in that the connecting member and the auxiliary connecting member is configured to rotate at the same time by the rotation of the pedal.

At this time, the protrusion protruding upward from the lower center of the dehydration case, characterized in that the connection member is installed on the upper portion of the protrusion.

In addition, the reduction gear is connected to the rack gear, it characterized in that the rotating gear is engaged with the reduction gear is configured to rotate.

In addition, the auxiliary reduction gear is connected to the rack gear, it characterized in that the auxiliary reduction gear is configured to rotate by engaging the auxiliary reduction gear.

In addition, the connection member and the auxiliary connection member is characterized in that a plurality of connection projections are formed on the outer peripheral surface.

Mop's laundry dehydrator.

According to the present invention, the auxiliary connecting member is installed to be rotatable on the bottom of the washing chamber, and the connecting member is installed to be rotatable on the bottom of the dehydration case. By being configured to be rotatable by operation, it is possible to simultaneously perform dehydration and washing according to one pedal operation.

In particular, the connecting member and the auxiliary connecting member is configured to engage with the head formed on the bottom of the rag mop so that the rag mop rotates while the dehydration and washing is performed to improve the performance of washing and dehydration.

In addition, by forming a protrusion projecting upward in the lower center of the dewatering case, by installing a connecting member in the upper portion of the dewatering case so that the mop connected to the head of the rag for dehydration is separated from the bottom of the dewatering case to remove moisture It can be done faster.

In addition, the rotary gear and the auxiliary rotary gear for rotating the connecting member and the auxiliary connecting member, respectively, are configured to be connected to the rack gear through the reduction gear and the auxiliary reduction gear without directly connecting the rack gear, so that the rotational speed of the connecting member and the auxiliary connection Washing and dewatering performance is improved by having the rotational speed of the member have rotational speeds suitable for dewatering and washing, respectively.

1 is a perspective view showing a laundry dehydration apparatus of the present invention mop.
Figure 2 is an exploded perspective view showing the assembly state of the laundry dehydration apparatus of the present invention mop.
Figure 3 is a perspective view showing the operating state of the laundry dehydration device of the present invention mop.
Figure 4 is an exploded perspective view showing a state of use of the laundry dehydration apparatus of the present invention mop.

The laundry dehydration apparatus of the rag of the present invention is formed in an open shape as shown in FIG. 1.

In addition, one side of the main body 10 is divided into a washing chamber 20 for washing the soiled rag, and a dehydration chamber 30 for dewatering the rag.

The dehydration chamber 30 is installed in the dehydration chamber 30 so as to be rotatable on the upper portion of the main body 10, and the bottom of the dehydration case 40 is spaced apart from the bottom surface of the main body 10 so as to be higher than the bottom.

At this time, the partition 40a separating the washing chamber 20 and the dehydration chamber 30 is installed in the main body 10, and the partition 40a is configured to communicate with the bottom of the washing chamber 20 and the dehydration chamber 30. Is installed so that the lower portion is spaced apart from the bottom of the main body (10).

This is to allow the water discharged during the dehydration process to naturally combine with the water in the washing chamber 20 while increasing the capacity of the water for washing as much as possible.

On the other hand, the installation case 50 is installed below the main body 10, the pedal 60 is fastened to the installation case 50 so as to be rotatable.

To this end, brackets 51 are protruded on both sides of the installation case 50, and holes for coupling pins are formed at one side of the pedal 60 and the brackets 51, and each hole has a pedal rotation pin. The shaft 62 is inserted so that the pedal 60 can be rotated about the pedal rotation pin 62.

In addition, a rotary gear 43 is provided to allow rotation according to the rotation of the pedal 60. A rotary shaft 44 is connected to the center of the rotary gear 43, and the rotary shaft 44 is a dehydration case. It is connected to the center of the bottom part of 40, and is comprised so that the rotating shaft 44 and the dehydration case 40 may rotate by the rotation of the rotary gear 43. FIG.

At this time, the spring (63) for allowing the pedal (60) to return to its original state when the pressure is released after pressing the pedal (60) between the bracket (51) and the pedal (60) as shown. It is installed to wrap the pedal rotation pin 62.

That is, when the user presses the pedal 60, the rotary gear 43 rotates, and the dehydration case 40 is configured to rotate as the rotary shaft 44 connected to the rotary gear 43 rotates.

Hereinafter, the main configuration of the laundry dehydration apparatus of the rag of the present invention will be described in more detail with reference to the accompanying drawings.

As shown in FIG. 1, in the laundry dehydration apparatus of the rag of the present invention, the gear connecting portion 61 protrudes to the bottom of one side of the bottom of the pedal 60.

In addition, the rack gear 70 configured to engage with the rotary gear 43 is installed on the installation case 50 so as to be forward or backward.

One side of the rack gear 70 has a sliding hole (71a) is formed in the vertical direction, the connecting pin 72 is connected through the sliding hole (71a) and the gear connecting portion 61 to the pedal 60 In response to the rotation, the connecting pin 72 moves up and down along the sliding hole 71a, and the rack gear 70 is configured to move forward or backward.

In order to allow the rack gear 70 to be movable above the installation case 50, the installation case 50 may be provided with guide members 52 for guiding the movement of the rack gear 70.

Referring to FIG. 1, two pedal connection portions 71 protruding upward in one side of the rack gear 70 are formed, and two pedal connection portions (sliding holes 71a are formed in the two pedal connection portions 71, respectively). With the gear connecting portion 61 inserted therebetween, the connecting pin 72 is connected through the two sliding holes 71a and the gear connecting portion 61 so that the rack gear 70 is moved when the pedal 60 is operated. It is configured to back up.

To this end, the gear connecting portion 61 is formed with a hole for inserting the connecting pin 72 as shown.

In addition, the lower portion of the dehydration case 40 is connected to the dehydration case 40 is integrally installed as shown in the connecting member 41, the bottom of the rag head 91 is fitted.

On the other hand, the upper side of the installation case 50 is provided with an auxiliary rotary gear 80 to rotate in engagement with the rack gear 70,

 Auxiliary rotary gear 80 is installed to engage with the rack gear 70, the auxiliary rotary shaft 81 is connected to the center of the auxiliary rotary gear 80, the mop head (top) of the auxiliary rotary shaft 81 An auxiliary connecting member 82 configured to rotate the mop head 91 by inserting the bottom of the 91 is installed while protruding from the bottom of the washing chamber 20.

This configuration is configured such that the connection member 41 and the auxiliary connection member 82 protruding to the bottom of the washing chamber 20 and the connection member 41 connected to the dehydration case 40 by the rotation of the pedal 60 at the same time.

More specifically, the auxiliary connection member 82 which is rotatable is installed at the bottom of the washing chamber 20, and the connection member 41 which is rotatable is installed at the bottom of the dehydration case 40. The member 82 and the connecting member 41 are configured to rotate at the same time by the operation of the rack gear 70 installed on the installation case 50 so that dehydration and washing can be simultaneously performed according to the operation of one pedal 60. Will be.

In this configuration, as shown, the reduction gear 45 for deceleration is connected to the rack gear 70, and the rotation gear 43 is engaged with the reduction gear 45 so as to rotate.

In addition, the auxiliary reduction gear 83 is connected to the rack gear 70, and the auxiliary reduction gear 83 may be configured to rotate in engagement with the auxiliary reduction gear 83.

This configuration allows the rotational speed of the connection member 41 at the bottom of the dehydration case 40 and the speed of the auxiliary connection member 82 protruding to the washing chamber 20 to have the maximum dewatering and washing effect, respectively. Can be adjusted at different speeds.

For this purpose, the reduction gear 45 and the auxiliary reduction gear 83 are provided with a cylindrical pinion gear that rotates in engagement with the rack gear 70 as shown in the figure, but the diameter of the pinion gear is larger than that of the lower pinion gear. The small pinion gear may be integrally formed to connect the rotary gear 43 or the auxiliary rotary gear 80 to the upper pinion gear so as to obtain a deceleration effect.

The reduction gear 45 and the auxiliary reduction gear 83 is not limited by the above description, it will be applicable to the configuration of a variety of known reduction gear 45.

In the configuration as described above, the connecting member 41 and the auxiliary connecting member 82 is preferably configured such that a plurality of connecting projections (42a, 82a) is formed on the outer peripheral surface.

As shown in FIG. 4, the groove 91a is formed in the bottom head 91 of the rag so as to correspond to the connecting projections 42a and 82a, so that the head 91 and the connecting member 41 and the auxiliary of the rag are provided. The connecting member 82 is engaged with each other so that dehydration and washing is performed while the rag rotates, thereby improving the efficiency of washing and dehydration.

Particularly, when the head 91 of the mop is separated from the bag 90 and the pedal 60 is stepped in the state of being connected to each of the connecting member 41 and the auxiliary connecting member 82, the bag 90 by hand. You can easily dehydrate and wash without holding).

By the way, when the dehydration case 40 is operated when the rag is inserted into the dehydration case 40 and then the pedal 60 is pressed, the bottom of the rag may be in contact with or pressed to the bottom of the dehydration case 40. In this case, while the side of the rag is made to be dehydrated smoothly, the bottom may not be dehydrated.

In order to solve this problem, as shown in the upper portion of the projecting portion 42 is projected upward in the lower center of the dehydration case 40, the connecting member 41 is configured to be installed on the upper portion of the protrusion 42 mop The head 91 may be spaced apart from the bottom of the dehydration case 40 so that the dehydration of the mop can be made more smoothly.

At this time, the protrusions 42 form a plurality of holes 42b on the outer circumferential surface, as shown in FIG. You can also lose.

The pair of rags that are paired with the laundry dehydration apparatus of the rags of the present invention having the above configuration is convenient to use by connecting the connecting member 41 or the auxiliary connecting member 82 to the bottom structure of the mop head 91. Preferably, the groove 91a is formed to engage the connecting projections 42a and 82a.

In addition, the mop head 91 is formed in a structure capable of free rotation from the mop bag 90 to prevent the bag 90 from rotating when the connection member 41 or the auxiliary connection member 82 is rotated. Do.

In the laundry dehydration apparatus of the rag of the present invention configured as described above, the connection member 41 and the auxiliary connection member 82 are rotated simultaneously as the pedal 60 is pressed.

As a result, the dehydration case 40 connected by the connecting member 41 rotates, and as the auxiliary connecting member 82 rotates, the mop head fitted to the auxiliary connecting member 82 of the washing chamber 20 ( 91 is rotated.

That is, dehydration and washing can be performed at the same time.

In particular, the mop head 91 is rotated by engaging the connection member 41 of the dehydration case 40 so that the mop in the dehydration case 40 rotates together, thereby improving the dewatering efficiency, and the mop head through the protrusion 42. (91) Since the bottom is in a state spaced apart from the dehydration case 40, the dewatering efficiency will be further improved.

10: main body 20: washing room
30: dehydration chamber 40: dehydration case
40a: partition 41: connection member
42: protrusion 42a: protrusion
42b: Hole 43: Rotating Gear
44: rotation shaft 45: reduction gear
50: installation case 51: bracket
52: guide member 60: pedal
61: gear connection 62: pedal rotation pin
63: spring 70: rack gear
71: pedal connection 71a: sliding hole
72: connecting pin 80: auxiliary rotary gear
81: auxiliary rotating shaft 82: auxiliary connecting member
82a: protrusion 83: auxiliary reduction gear
90: Sack 91: Head
91a: home

Claims (5)

The upper part is formed in an open shape, and is divided into a washing room 20 for washing a contaminated rag on one side of the main body 10, and a dehydration room 30 for dewatering the rag, and a dehydration room 30. In the upper part of the main body 10, the dehydration case 40 is installed to be rotatable, spaced apart from the bottom surface, the installation case 50 is installed at the bottom, the installation case 50, the rotation of the pedal 60 The rotary gear 43 is configured to be rotatable by means of rotation, and the rotary shaft 44 is installed to connect the center of the rotary gear 43 and the center of the bottom of the dehydration case 40 to rotate the pedal 60. In the rotating gear 43 rotates, the dehydration case 40 is configured to rotate as the rotating shaft 44 connected to the rotary gear 43 rotates, the laundry dehydration apparatus of the rag mop,
On one side of the bottom of the pedal 60, the gear connecting portion 61 is formed to protrude,
The rack gear 70 configured to engage with the rotary gear 43 is installed to be able to move forward or backward on the installation case 50, but a sliding hole 71a is formed at one side of the rack gear 70 in a vertical direction. The connecting pin 72 is connected through the sliding hole 71a and the gear connecting portion 61 so that the connecting pin 72 moves up and down along the sliding hole 71a as the pedal 60 rotates. While the rack gear 70 is configured to move forward or backward,
The connection member 41 which is fitted in the lower part of the dehydration case 40, the bottom of the mop head 91 is fitted integrally with the dehydration case 40,
An auxiliary rotary gear 80 is installed on the upper side of the installation case 50 so as to be engaged with the rack gear 70, and an auxiliary rotary shaft 81 is connected to the center of the auxiliary rotary gear 80. The auxiliary connecting member 82 configured to rotate the mop head 91 by inserting the bottom of the mop head 91 in the upper part of the rotating shaft 81 is provided to protrude upward from the bottom of the washing chamber 20,
Characterized in that the connection member 41 and the auxiliary connection member 82 is rotated at the same time by the rotation of the pedal 60,
Mop's laundry dehydrator.
The method of claim 1,
Protruding portion 42 is formed to protrude upward in the lower center of the dehydration case 40, characterized in that the connecting member 41 is installed on the upper portion of the protrusion 42,
Mop's laundry dehydrator.
The method of claim 1,
Reduction gear 45 is connected to the rack gear 70, characterized in that configured to rotate by rotating gear 43 to the reduction gear 45,
Mop's laundry dehydrator.
The method of claim 2,
The auxiliary reduction gear 83 is connected to the rack gear 70, and the auxiliary reduction gear 83 is configured to rotate by engaging the auxiliary rotation gear 80,
Mop's laundry dehydrator.
The method of claim 1,
The connecting member 41 and the auxiliary connecting member 82 is characterized in that a plurality of connecting projections (42a, 82a) is formed on the outer peripheral surface,
Mop's laundry dehydrator.

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