KR200459769Y1 - Water ejection type water cleaner - Google Patents

Abstract

The present invention relates to a spray type water cleaner that can be cleaned while spraying water on the floor. The present invention spray type water cleaner, the pumping unit for pumping water by the operation of the lever; A valve assembly connected to a pumping part to supply water of the bucket to the pumping part and to prevent backflow of water; And an airtight holding part installed in the injection path through which the water is injected from the pumping part to prevent the water from leaking through the injection path when the water is not injected. According to the spray water cleaner according to the present invention, the user can spray water using only a lever operation without power supply, so that the user can simply clean the water, save energy, and simplify the structure to reduce the manufacturing cost. In addition, it is possible to maintain the cleanliness of the surroundings by preventing the leakage of water to the outside when the water is not sprayed using the airtight holding unit.

Description

Atomized Water Cleaner {WATER EJECTION TYPE WATER CLEANER}

The present invention relates to a cleaner, and more particularly to a spray type water cleaner that can be cleaned while spraying water on the floor.

In general, when cleaning the indoor floor at home or office, using a mop mop cleaner. In the case of a mop-type mop cleaner used at home, the non-woven fabric, which has been moistened with a mop, is fixed to the bottom of the vacuum cleaner and then cleaned by pushing the floor. At this time, since the nonwoven fabric should be wet, when the water disappears, the nonwoven fabric is replaced or sucked into the water.

In the case of the mop-type mop cleaner, it was often inconvenient to use because the non-woven fabric should be replaced or sucked into the water. In order to alleviate the inconvenience of the conventional mop-type mop cleaner, the mop cleaner which is capable of cleaning the water while spraying water is registered in the Republic of Korea Utility Model Publication (No. 20-0253106, hereinafter referred to as 'priority literature'). Is disclosed.

The mop cleaner according to the prior document has a bucket, a pump for discharging the water of the bucket to the outside, and the bucket and the pump is detachably coupled, the handle portion is formed at one end and the power switch for driving the pump in the handle portion It comprises a mop member and a mop member attached to the bottom end of the bag and the injection port for injecting water sucked by the pump and attached to the bottom surface.

According to the mop cleaner according to the prior art having such a configuration there is an advantage that the water can be easily cleaned without replacing the mop frequently by spraying water on the floor to be cleaned.

However, in the case of the other mop cleaner in the prior literature, because the water spray is made of the electric power is difficult to use where the power supply is not, there is a problem that energy is consumed because the power is used and does not help the home economy.

An object of the present invention is to provide a spray type water cleaner that can be easily cleaned by spraying water without a power supply to solve the conventional problems as described above.

In addition, another object of the present invention is to provide a spray-type water cleaner that is smoothly sprayed water does not leak to other places during water spraying.

The present invention spray type water cleaner, the pumping unit for pumping water by the operation of the lever; A valve assembly connected to a pumping part to supply water of the bucket to the pumping part and to prevent backflow of water; And an airtight holding part installed in the injection path through which the water is injected from the pumping part to prevent the water from leaking through the injection path when the water is not injected.

The airtight portion includes a stem located at the outlet side of the pumping portion on the injection path; And an airtight tube that tightly wraps the stem and has elasticity. The airtight tube is expanded by the pressure of the water when the water is sprayed through the pimping portion, so that the water passes between the stem and the airtight tube. The airtight tube is pressed against the stem so that water does not leak through the spray path.

One end of the airtight tube is fitted in close contact with the water discharge portion of the pumping portion, so that the water of the pumping portion does not leak out of the airtight tube.

The stem includes a central portion having a circular cross section; An inlet portion extending from one end of the central portion and inserted into the water discharge portion, wherein a water inflow groove is formed in the center, and a first dispersion wall is formed in the center of the water inflow groove to disperse water introduced into the water inflow groove; And an outlet portion extending from the other end of the center portion, having a water discharge groove formed in the center portion, and having a second dispersion wall formed therein so as to disperse water passing through the center portion and the airtight tube in the center portion of the water discharge groove.

On the inner side of the hermetic tube, a close contact with the outside of the stem is formed protruding.

The valve assembly includes a socket for connecting the bucket and the pumping part; And a check valve provided at an outlet side of the socket to prevent backflow of water.

The check valve is elastic and has an inlet through which water is introduced at one end thereof, and an incision for discharging water is formed at the other end thereof. The backflow is prevented, and when the injection of water is stopped in the pumping part, the incision is opened by the pressure difference so that water is introduced into the pumping part.

The other end of the check valve is formed so that the center portion is protruded so that the incision is smoothly closed during water injection.

According to the present invention spray-type water cleaner has the following effects.

First, since the user can spray water only by operating the lever without power supply, water can be easily cleaned, energy can be saved, and the structure can be simplified to reduce the manufacturing cost.

Second, by preventing the leakage of water to the outside when the water is not sprayed using the airtight portion, it is possible to maintain the cleanliness of the surroundings.

Third, by using a check valve of a simple structure, it is possible to effectively prevent the backflow of water and to reduce the manufacturing cost by simplifying the structure.

1 is a perspective view of the present invention spray type water cleaner.
Figure 2 is an exploded perspective view of the spray water cleaner of the present invention.
3 is a main view of the present invention spray type water cleaner.
4 is a perspective view of the pumping unit shown in FIGS. 2 and 3.
5 is an exploded perspective view of FIG. 4;
6 is a cross-sectional view taken along the line AA of FIG.
7 is a perspective view of the valve assembly shown in FIGS. 2 and 3.
8 is an exploded perspective view of FIG. 7;
9 is a longitudinal sectional view of FIG. 7;
10 is a perspective view of the airtight holding unit shown in FIGS. 2 and 3.
11 is an exploded perspective view of FIG. 10;
12 is a cross-sectional view showing the water passing through the airtight holding portion during water injection.
Figure 13 is a cross-sectional view showing the appearance of preventing water leak through the airtight holding portion when the water is not sprayed.
14 is a cross-sectional view of the present invention spray type water cleaner.
15 is a cross-sectional view showing the operation of the present invention spray type water cleaner during water injection.
Figure 16 is a cross-sectional view showing the operation of the present invention spray type water cleaner when no water is sprayed.

Hereinafter, with reference to the accompanying drawings, the present invention spray-type water cleaner will be described in detail.

1 is a perspective view of a spray water cleaner of the present invention.

The spray water cleaner 1 of the present invention includes a main pipe 10, a grip part 20, a lever 30, a cleaning head 40, a bucket 50, and a holder 60.

The main pipe 10 forms a skeleton of the spray water cleaner 1 of the present invention, and a working shaft to be described later is slidably embedded therein. The main pipe 10 may be composed of only one pipe, but may be configured to be adjustable in length by using a plurality of pipes in some cases.

The grip 20 is coupled to one end of the main pipe 10 so that the user can hold and clean by hand.

The lever 30 is rotatably coupled to the grip 20 so that the operating shaft is advanced when the user pulls the lever 30. That is, when the main pipe 10 is erected for cleaning and the lever 30 is pulled, the operating shaft is lowered by the lever 30 to pressurize the pumping part to be described later, and water is injected. When the lever 30 is pulled out, the working shaft is raised by the spring to be described later to return to the original state.

The cleaning head 40 is a plate rotatably coupled to the extension pipe 70 coupled to the holder 60, and a cleaning pad (not shown) is detachably coupled to a bottom thereof.

The bucket 50 is detachably seated in the holder 60 coupled to the other end of the main pipe 10 to supply water. Water injection holes are formed at the lower end of the holder 60.

2 is an exploded perspective view of the spray water cleaner of the present invention, Figure 3 is a major perspective view of the spray water cleaner of the present invention.

In the main pipe 10 is provided with an operating shaft 80 for operating the pumping unit 90 while sliding in cooperation with the lever 30.

The holder 60 is coupled to the lower end of the main pipe 10 so that the water tank 50 is detachably seated therein and includes a pumping part 90, a valve assembly 100, an airtight part 110, and a water jetting part therein. 120 is built in.

Holder 60 is coupled to the lower end of the main pipe 10 and detachably coupled to each other and the installation space in which the pumping unit 90, the valve assembly 100, the airtight holding unit and the water injection unit 120 is installed The pair of main holder 61 is provided, the upper holder 62 is detachably coupled to the upper end of the main holder 61 and the bucket 50 is seated, and the detachable to the lower end of the main holder 61. It is composed of a lower holder 63 is fitted and the water injection port (63a) is formed.

4 is a perspective view of the pumping unit shown in FIGS. 2 and 3, FIG. 5 is an exploded perspective view of FIG. 4, and FIG. 6 is a cross-sectional view taken along line A-A of FIG. 4.

The pumping unit 90 serves to inject water from the water tank 50 through the valve assembly 100 to inject water to the outside through the water injecting unit 120, and the pump housing 91 and the pumping rod. 92, the pressing portion 93, the separation prevention portion 94 and the spring (95).

The pump housing 91 is formed in a hollow tube shape, and a water discharge part 91a for discharging water when the pumping rod 92 descends is extended at a lower end thereof. The airtight holding part 110 is connected to the discharge part. The valve assembly 100 is connected to the lower end side of the pump housing 91 so that the water inlet 91b through which water is introduced extends laterally.

The pumping rod 92 is configured to be inserted into or removed from the pump housing 91 through the open upper end of the pump housing 91. An operating shaft contact surface 92a is formed at the upper end of the pumping rod 92 in contact with the lower end of the operating shaft 80 to be in close contact with the operating shaft 80 when descending.

The pressurization portion 93 is slidably installed in the pump housing 91 so that when the pumping rod 92 descends, the pressurization portion 93 is pushed down by the pumping rod 92 to pressurize the water in the pump housing 91 to pressurize water. It is discharged to the outside through 91a). The pumping rod insertion groove 93a into which the lower end of the pumping rod 92 is inserted is formed at the center of the upper end of the pressing unit 93.

The separation preventing part 94 is screwed to the open upper end of the pump housing 91 to prevent the separation of the pressing part 93. A pumping rod through hole 94a through which the pumping rod 92 penetrates is formed at the center of the separation preventing unit 94.

The spring 95 elastically supports the pressing portion 93 in the pump housing 91. That is, when the operating shaft 80 and the pumping rod 92 are lowered by pulling the lever 30, the pressing unit 93 is also lowered, and the spring 95 is compressed. When the lever 30 is released, the pressing portion 93 is raised to its original state by the restoring force of the spring 95. Therefore, the pumping rod 92 and the operation shaft 80 are also linked to rise to the original state.

FIG. 7 is a perspective view of the valve assembly shown in FIGS. 2 and 3, FIG. 8 is an exploded perspective view of FIG. 7, and FIG. 9 is a longitudinal cross-sectional view of FIG. 7.

The valve assembly 100 includes a first socket 101, a second socket 102, a connection tube 103, and a check valve 104.

The first socket 101 is connected to the bucket connection portion 101a into which the discharge port of the bucket 50 is inserted, and the tube connection portion 101b extending from the bottom of the bucket connection portion 101a and connected to one end of the connection tube 103. Include.

The second socket 102 has a body 102a, one end of which is open and the other end of which is closed, and a tube connecting part 102b extending laterally from the other end of the body 102a to which the other end of the connecting tube 103 is connected. Include. In the body 102a and the tube connection portion 101b, a communication path through which water is formed is formed. One end of the body 102a is formed with a housing connecting portion 102c connected to the water inlet 91b of the pump housing 91. The check valve 104 is inserted into the housing connecting portion 102c, and a release preventing protrusion 102d protruding from the inner circumference of the housing connecting portion 102c to prevent the check valve 104 from being separated.

The check valve 104 is embedded in the housing connection portion 102c of the second socket 102 to prevent backflow of water supplied to the pump housing 91. The check valve 104 is made of an elastic material, and at one end thereof, a locking protrusion 104a protruding outward is formed to be caught by the release preventing protrusion 102d of the housing connecting portion 102c. At the other end, a cutout 104b through which water is discharged is formed. Therefore, when water is injected from the pumping unit 90, the cutout 104b is closed by the pressure of the water to prevent backflow of water through the cutout 104b, and when the injection of water is stopped at the pumping unit 90. Due to the pressure difference, the cutout 104b is opened to allow water to flow into the pumping part 90. The other end of the check valve 104 is formed to protrude in the center so that water pressure is distributed to both sides during water injection, so that the cutout 104b is not opened but is kept closed.

FIG. 10 is a perspective view of the airtight portion shown in FIGS. 2 and 3, FIG. 11 is an exploded perspective view of FIG. 10, FIG. 12 is a cross-sectional view showing water passing through the airtight portion during water injection, and FIG. 13 is This is a cross-sectional view showing that water is prevented from leaking through the airtight portion when water is not injected.

The airtight holding unit 110 is installed in an injection path through which water is injected from the pumping unit 90 to prevent the water from leaking through the injection path when the water is not injected, and the stem 111 and the airtight tube 112. It consists of

The stem 111 is composed of a central portion 111a, an inlet portion 111b and an outlet portion 111c. The central portion 111a has a cylindrical shape. The inlet portion 111b extends from one end of the central portion 111a and is inserted into the water discharge portion 91a of the pump housing 91. A water inlet groove 111d is formed in the central portion of the pump housing 91. A first dispersion wall 111e is formed in the center portion so that water introduced into the water inflow groove 111d is divided into two sides and dispersed. The outlet portion 111c extends from the other end of the central portion 111a and has a water discharge groove 111f formed in the central portion, and the water passing through the central portion 111a and the airtight tube 112 in the central portion of the water discharge groove 111f. A second dispersion wall 111g is formed to disperse this.

The hermetic tube 112 is formed in a cylindrical shape and is made of an elastic material to closely wrap the stem 111. One end of the airtight tube 112 is fitted in close contact with the water discharge portion 91a of the pump housing 91 so that the water in the pump housing 91 does not leak out of the airtight tube 112. On the inner circumferential surface of the hermetic tube 112, a plurality of contact protrusions 112a which are in close contact with the outside of the central portion 111a of the stem 111 are formed to protrude.

According to the airtight holding unit 110 having such a configuration, the water discharged through the water discharge unit 91a as shown in FIG. 12 during water injection is formed in the water inlet groove formed in the inlet 111b of the stem 111 ( After flowing into 111d), it is distributed through the first dispersion wall 111e and sent between the stem 111 and the airtight holding part 110. At this time, the airtight holding part 110 has elasticity and the water pressure acts strongly so that the water passes through the stem 111 between the airtight holding parts 110 while expanding. The water passed in this way is dispersed in the second dispersion wall 111g through the water discharge groove 111f of the outlet portion 111c and then sprayed to the outside through the water injection unit 120.

On the other hand, when water is not injected, the pump housing 91 is kept in a state filled with water. At this time, in the hermetic holding unit 110, as shown in FIG. 13, the water of the pump housing 91 flows into the inlet 111b of the stem 111, but the pressure of the water applied to the hermetic tube 112 is very high. Because of the weak airtight tube 112 does not expand. Therefore, the water of the pump housing 91 is completely blocked by the airtight holding part 110, so that it does not leak to the water injection part 120.

Hereinafter, with reference to Figures 14 to 16 of the accompanying drawings will be described the operation relationship of the present invention spray type water cleaner.

14 is a cross-sectional view of the present invention spray type water cleaner, Figure 15 is a cross-sectional view showing the operation of the present invention spray type water cleaner.

When the user pulls the lever 30 of the grip 20, the main pipe 10 descends as shown in FIG. 14. As the main pipe 10 descends, the pumping rod 92 of the pumping unit 90 is pressed down so that the water discharge part 91a is pressed by pressing the water filled in the pump housing 91 while the pressurizing unit 93 descends. Discharge through.

Water discharged through the water discharge part 91a flows into the water inlet groove formed in the inlet part 111b of the stem 111, and is then dispersed through the first dispersion wall 111e to seal the airtight with the stem 111. It is sent between the holding unit (110). At this time, the airtight holding part 110 has elasticity and the water pressure acts strongly so that the water passes through the stem 111 between the airtight holding parts 110 while expanding. The water passed in this way is dispersed in the second dispersion wall 111g through the water discharge groove 111f of the outlet portion 111c and then sprayed to the outside through the water injection unit 120.

On the other hand, since the pressure of the water is applied to the check valve 104 and the cutout 104b of the open check valve 104 is closed in the process of spraying water, the water from the water tank 50 to the pump housing 91 is closed. Water inlet is stopped.

16 is a cross-sectional view showing the operation of the spray water cleaner of the present invention when no water is sprayed.

When the user releases the hand holding the lever 30, as shown in FIG. 15, the spring 95 in the pump housing 91 is restored, and the pressing unit 93, the pumping rod 92, and the main pipe 10 are restrained. Ascends and returns to its original state.

At this time, since the pressure in the pump housing 91 decreases, the cutout 104b of the check valve 104 automatically opens due to the pressure difference, so that the water in the water tank 50 flows into the pump housing 91 to pump The housing 91 is filled with water.

On the other hand, in the hermetic holding unit 110, although the water in the pump housing 91 is introduced to the inlet () of the stem 111, the airtight tube 112 is expanded because the pressure of the water on the hermetic tube 112 is very weak. can not do. Therefore, the water of the pump housing 91 is completely blocked by the airtight holding part 110, so that it does not leak to the water injection part 120.

As described above, the present invention has been described based on the preferred embodiments, but the present invention is not limited to the specific embodiments, and those skilled in the art may change the scope within the scope of the claims. .

1: spray water cleaner 10: main pipe
20: grip part 30: lever
40: cleaning head 50: bucket
60 holder 70 extension pipe
80: working shaft 90: pumping part
91: pump housing 92: pumping rod
93: pressurization part 94: release prevention part
95: spring 100: valve assembly
101: first socket 102: second socket
103: connecting tube 104: check valve
110: confidentiality section 111: stem
112: hermetic tube 120: water injection unit

Claims (8)

A pumping part for pumping water by operating the lever;
A valve assembly connected to the pumping part to supply water of the bucket to the pumping part and to prevent backflow of water; And
Spraying water cleaner comprising a; airtight holding unit is installed in the injection path in which water is injected from the pumping unit to prevent the water from leaking through the injection path when the water is not injected. The method of claim 1,
The confidentiality unit,
A stem located at an outlet side of the pumping portion on the injection path; And
Including; tightly wrap the stem tightly and having an elastic tube; including,
When the water is sprayed through the pumping part, the airtight tube expands due to the pressure of water so that the water passes between the stem and the airtight tube. Spray type water cleaner, characterized in that the water does not leak through the path. The method of claim 2,
One end of the hermetic tube is fitted in close contact with the water discharge portion of the pumping portion, spray-type water cleaner, characterized in that the water does not leak out of the hermetic tube. The method of claim 3,
The stem is
A center having a circular cross section;
An inlet portion extending from one end of the central portion and inserted into the water discharge portion, a water inflow groove is formed in the center, and a first dispersion wall is formed in the center of the water inflow groove to disperse the water flowing into the water inflow groove; ; And
And an outlet portion extending from the other end of the center portion, the outlet portion having a water discharge groove formed in the center portion, and having a second dispersion wall formed therein so as to disperse water passing through the center portion and the airtight tube in the center portion of the water discharge groove. Spray water cleaner characterized in that. The method according to claim 3 or 4,
Spraying water cleaner, characterized in that the inner side of the airtight tube protruding formed in close contact with the outside of the stem. 5. The method according to any one of claims 1 to 4,
The valve assembly,
A socket connecting the water tank and the pumping part; And
And a check valve provided at an outlet side of the socket to prevent backflow of water. The method of claim 6,
The check valve has elasticity, an inlet for water is introduced at one end is formed and the other end is formed with an incision for discharging water,
When the water is injected from the pumping part, the incision is closed by water pressure to prevent backflow of water through the incision, and when the injection of water is stopped at the pumping part, the incision is opened by the pressure difference to open the pumping part. Spray type water cleaner, characterized in that the water made to flow into. The method of claim 7, wherein
Spraying water cleaner, characterized in that the other end of the check valve is formed in a shape in which the central portion is protruded so that the incision is smoothly closed during water injection.

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