CN108674375B - Automatic water storage washing kettle - Google Patents

Abstract

The invention relates to an automatic water storage washing kettle, which comprises a sealing gasket, a filter screen, a motion connecting rod, a rotary connecting rod, a floating ball and a washing kettle body, wherein the sealing gasket is arranged on the sealing gasket; the washing kettle body is provided with a water inlet hole; a sealing gasket is arranged on the water inlet hole; the filter screen is arranged at the lower edge of the sealing gasket; the sealing gasket is connected with a moving connecting rod, and one end part of the moving connecting rod is connected with a rotating connecting rod; one end of the rotating connecting rod is connected with the floating ball through the rotating fulcrum. The advantages are as follows: the automatic water storage washing kettle can automatically store water, ensures that the washing kettle can always have water available, prevents a windshield from being hung and brushed due to forgetting to add water, avoids safety accidents, can utilize car washing water or rainwater as a water storage source, saves water, saves energy and reduces emission, can be applied to modern vehicles, has wide application prospect, and improves economic benefit.

Description

Automatic water storage washing kettle

Technical Field

The invention relates to the technical field of automobile cleaning systems, in particular to an automatic water storage washing system.

Background

The automobile windshield cleaning device can spray cleaning liquid onto the windshield by using the cleaning water pot, and remove dust, sand and other dirt on the outer surface of the automobile windshield by using the wiper, so that a clear and bright visual field is provided for a driver, and the driving safety is ensured.

However, the washing kettles for automobiles in the prior art have the following drawbacks and disadvantages:

firstly, the washing kettles in the prior art are all of closed structures, and the washing kettles are manufactured into an integrated glass washing liquid storage container through an injection molding process, and manual water storage is needed, so that in the driving process of an automobile, the washing kettles cannot be guaranteed to be always available with water, or water addition is often forgotten, so that a windscreen wiper cannot be hung on a windscreen, and safety accidents are often caused because the windscreen is not cleaned in time.

Secondly, the design of the washing kettle in the prior art can not utilize natural rainwater to automatically store water, and the water can be stored only in places with water sources when the water is needed, namely, the washing water and the natural water can not be used as water storage sources, and certain limitation exists on water storage occasions. And water can not be saved, and energy conservation and emission reduction can be realized.

Chinese patent document CN20151083348.3, filing date 20151125, patent name: a washing system for a vehicle is disclosed, which comprises a water pump, an adapter and a washing liquid storage tank; the water pump is arranged at the bottom of the washing liquid storage tank, the water inlet of the water pump is connected with the bottom of the washing liquid storage tank, and the water outlet of the water pump is connected with a windshield washing water spray head of the automobile; the washing liquid storage tank comprises a tank body, one side of the tank body is provided with a mounting bracket, the top end of the tank body is provided with a water inlet pipe orifice, the adapter is of a tubular structure, one end of the adapter is connected with the water inlet pipe orifice, and the other end of the adapter is connected with an external washing liquid packaging tank.

According to the vehicle washing system disclosed by the patent document, through the connection of the adapter, the external washing liquid packaging tank can be fully utilized, the processing volume of the washing liquid storage tank is reduced, the waste of packaging is reduced, the energy consumption is reduced, the environment-friendly effect is achieved, and meanwhile, the capacity of the whole washing kettle can be changed by selecting different external washing liquid packaging tanks according to the requirements of environmental conditions, so that the vehicle washing system is more convenient, simple in structure and low in cost. However, the technical scheme of saving water, saving energy and reducing emission is not disclosed correspondingly with respect to the automatic water storage, and the car washing water or rainwater can be used as a water storage source.

In view of the foregoing, there is a need for an automatic water storage washing kettle which can automatically store water, can utilize car wash water or rainwater as a water storage source, save water, save energy and reduce emission, and has not been reported at present.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the automatic water storage washing kettle which can automatically store water, can utilize car washing water or rainwater as a water storage source, saves water, saves energy and reduces emission.

It is a further object of the present invention to provide an automobile utilizing an automatic water storage wash jug.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

an automatic water storage washing kettle comprises a sealing gasket, a filter screen, a motion connecting rod, a rotary connecting rod, a floating ball and a washing kettle body; the washing kettle body is provided with a water inlet hole; a sealing gasket is arranged on the water inlet hole; the filter screen is arranged at the lower edge of the sealing gasket; the sealing gasket is connected with a moving connecting rod, and one end part of the moving connecting rod is connected with a rotating connecting rod; one end of the rotating connecting rod is connected with the floating ball through a rotating fulcrum; the motion connecting rod, the rotation connecting rod and the floating ball are all arranged in an inner cavity on the kettle body; the moving connecting rod and the rotating connecting rod are distributed in an included angle;

the washing kettle body forms an expansion part at one end close to the sealing gasket;

when the included angle between the moving connecting rod and the rotating connecting rod is an obtuse angle, a gap is reserved between the sealing gasket and the water inlet hole; when the included angle between the moving connecting rod and the rotating connecting rod is an acute angle, the sealing gasket is tightly attached to the sealing water inlet;

one end of the rotary connecting rod is connected with the motion connecting rod in a hinged mode, and the other end of the rotary connecting rod is connected with the floating ball in a hinged mode;

the floating ball is provided with a connecting arm, and one end of the connecting arm is hinged with the rotary connecting rod through a rotary fulcrum.

As a preferable technical scheme, the water inlet hole is in a counter bore structure form.

As a preferable technical scheme, the outer diameter of the sealing gasket is smaller than the outer diameter of the water inlet hole, and the thickness of the sealing gasket is smaller than the depth of the water inlet hole.

As a preferable technical scheme, the filter screen is sleeved on the peripheral surface of the motion connecting rod, and the upper surface of the filter screen is flush with a boss surface formed by the water inlet.

In order to achieve the second purpose, the invention adopts the following technical scheme:

an automobile utilizing an automatic water storage washing kettle, wherein the automobile further comprises a front cabin cover and a vehicle body sheet metal; the automatic water storage washing kettle is arranged in a space formed by the front cabin cover and the metal plate of the vehicle body.

As a preferable technical scheme, the automobile is also provided with a metal plate water flowing groove which is communicated with a water inlet hole of the automatic water storage washing kettle.

The invention has the advantages that:

1. the automatic water storage washing kettle can automatically store water, ensures that the washing kettle can always have water available, prevents a windshield from being hung and brushed due to forgetting to add water, avoids safety accidents, can utilize car washing water or rainwater as a water storage source, saves water, saves energy and reduces emission, can be applied to modern vehicles, has wide application prospect, and improves economic benefit.

2. The water inlet hole is in a counter bore structure form, the counter bore structure is convenient for installing the filter screen, and an installation space is provided for the filter screen. In addition, the water inlet hole is arranged in a counter bore shape, and can accommodate the sealing gasket, so that the sealing gasket is sealed by discharging air in the counter bore through pressing downwards in a sealing state, and the sealing property is good.

3. The washing kettle body forms an expanding part at one end close to the sealing gasket, and the structural design of the expanding part provides a movable space for the rotary connecting rod, the motion connecting rod and the floating ball, so that the motion reliability of each part is ensured, and the flexibility is good. Meanwhile, when the floating ball contacts the water surface, the expansion part is designed to slow down the rising speed of the water surface, and the sealing gasket is lowered to seal the water inlet hole for a sufficient time.

4. The external diameter of the sealing gasket is smaller than that of the water inlet, and the thickness of the sealing gasket is smaller than that of the water inlet.

5. The filter screen is sleeved on the outer peripheral surface of the motion connecting rod, and the upper surface of the filter screen is flush with a boss surface formed by the water inlet. The design mode enables the sealing gasket to be sealed on the upper surface of the filter screen and the convex table surface formed by the water inlet hole without gaps when the sealing gasket moves downwards to seal. Realize gapless seal, the leakproofness is reliable.

6. When the included angle between the moving connecting rod and the rotating connecting rod is an obtuse angle, a gap is reserved between the sealing gasket and the water inlet hole; when the included angle between the moving connecting rod and the rotating connecting rod is an acute angle, the sealing gasket is tightly attached to the sealing water inlet. According to the design mode, the mechanical balance of the sealing gasket is established in the opening state and the sealing state through the geometric stress relation, so that the requirements are met.

7. One end of the rotary connecting rod is connected with the motion connecting rod in a hinged mode, the other end of the rotary connecting rod is connected with the floating ball in a hinged mode, the two ends of the rotary connecting rod can relatively rotate, the up-and-down motion of the sealing gasket can be controlled by controlling the rotation direction of one end of the rotary connecting rod, the design is ingenious, and the operation is convenient.

8. The floating ball is provided with the connecting arm, one end of the connecting arm is hinged with the rotary connecting rod through the rotary fulcrum, the rotary connecting rod is connected with the floating ball in a rigid mode through the design mode, and the connecting arm is convenient for transmitting acting force and rotary moment due to the rigid connection.

9. The automatic water storage device is provided with a moving connecting rod, a rotating connecting rod and a floating ball, the floating ball is controlled by means of water surface buoyancy, acting force and rotating moment are changed through the rotating connecting rod to the moving connecting rod, and the moving connecting rod ascends or descends to control opening or closing of the sealing gasket, so that automatic water storage is realized.

10. The washing kettle is arranged in a space surrounded by the front cabin cover and the metal plate of the vehicle body, and is provided with the metal plate water flowing groove which is communicated with the water inlet hole, and the design mode enables the washing water or the rainwater to flow into the water inlet hole of the washing kettle through the metal plate water groove, so that the washing water or the rainwater can be used as a water storage source, water is saved, energy is saved, and emission is reduced.

Drawings

FIG. 1 is a schematic diagram of an automatic water storage type water washing kettle.

Fig. 2 is a schematic diagram of the automatic water storage type washing kettle in a water storage state.

Fig. 3 is a schematic view showing a state of the automatic water storage washing kettle after water storage is completed.

Fig. 4 is a schematic diagram showing the distribution of the installation positions of the automatic water storage washing kettle and the automobile.

Fig. 5 is a partial schematic view of the view from direction a of fig. 4.

Fig. 6 is a partial schematic view of the B-view of fig. 5.

Detailed Description

The following detailed description of the invention provides specific embodiments with reference to the accompanying drawings.

Reference numerals and components referred to in the drawings are as follows:

1. sealing pad 2. Filter screen

3. Kinematic link 4. Rotary link

5. Washing kettle body 51. Inlet opening

52. Expansion part 6 rotary pivot

7. Float 71. Connecting arm

8. Front cabin cover 9. Sheet metal of vehicle body

10. Sheet metal launder

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of an automatic water storage type washing kettle according to the present invention. An automatic water storage washing kettle comprises a sealing gasket 1, a filter screen 2, a motion connecting rod 3, a rotary connecting rod 4, a floating ball 7 and a washing kettle body 5; the washing kettle body is provided with a water inlet hole 51; the water inlet hole 51 is provided with a sealing gasket 1; the filter screen 2 is arranged at the lower edge of the sealing gasket 1; the sealing gasket 1 is connected with a moving connecting rod, and one end part of the moving connecting rod 3 is connected with a rotating connecting rod 4; one end part of the rotating connecting rod 4 is connected with a floating ball 7 through a rotating fulcrum 6; the motion connecting rod 3, the rotation connecting rod 4 and the floating ball 7 are all arranged in an inner cavity on the kettle body.

Referring to fig. 2, fig. 2 is a schematic diagram of an automatic water storage type water storage washing kettle in a water storage state according to the present invention. In the water storage state, when the floating ball 7 contacts the water surface, the floating ball 7 moves upwards under the buoyancy of water, the floating ball 7 triggers the rotary connecting rod 4 to move, and meanwhile, the rotary connecting rod 4 is provided with the moving connecting rod 3, so that the sealing gasket 1 moves downwards until the water inlet 51 is completely sealed.

Referring to fig. 3, fig. 3 is a schematic diagram showing a state of the automatic water storage washing kettle after water storage. After the water storage of the washing kettle body 5 is finished, the sealing gasket 1 completely seals the water inlet 51.

This example illustrates:

the water inlet hole 51 is in a counter bore structure form, the counter bore structure is convenient for installing the filter screen 2, and an installation space is provided for the filter screen 2. In addition, the water inlet hole 51 is arranged in a counter bore shape, and can accommodate the sealing gasket 1, so that the sealing gasket 1 is sealed by pressing down and exhausting air in the counter bore in a sealing state, and the sealing performance is good.

The washing kettle body 5 form the expansion portion 52 in the one end that is close to sealed pad 1, the structural design of expansion portion 52 provides the activity space for rotatory connecting rod 4, motion connecting rod 3 and floater 7, ensures that each part motion is reliable, and the flexibility is good. Meanwhile, when the floating ball 7 contacts the water surface, the expansion part 52 is designed to slow down the rising speed of the water surface, so that sufficient time is gained for the sealing gasket 1 to descend to seal the water inlet hole 51.

The outer diameter of the sealing gasket 1 is smaller than the outer diameter of the water inlet hole 51, and the thickness of the sealing gasket 1 is smaller than the depth of the water inlet hole 51, so that the sealing gasket 1 can conveniently move up and down in the depth direction of the water inlet hole 51.

The filter screen 2 is used for filtering impurities, the filter screen 2 is sleeved on the peripheral surface of the motion connecting rod 3, and the upper surface of the filter screen 2 is flush with a boss surface formed by the water inlet hole 51. The design mode enables the sealing gasket 1 to be sealed on the upper surface of the filter screen 2 and the convex surface formed by the water inlet hole 51 without gaps when the gasket is moved downwards for sealing. Realize gapless seal, the leakproofness is reliable.

When the included angle between the moving connecting rod 3 and the rotating connecting rod 4 is an obtuse angle, a gap is reserved between the sealing gasket 1 and the water inlet hole 51; when the included angle between the moving connecting rod 3 and the rotating connecting rod 4 is an acute angle, the sealing gasket 1 is tightly attached to and seals the water inlet 51. According to the design mode, the mechanical balance of the sealing gasket 1 is established in the opening state and the sealing state through the geometric stress relation, so that the requirements are met.

One end of the rotary connecting rod 4 is connected with the motion connecting rod 3 in a hinged mode, the other end of the rotary connecting rod is connected with the floating ball 7 in a hinged mode, and the design mode enables the two ends of the rotary connecting rod 4 to relatively rotate, and the up-and-down motion of the sealing gasket 1 can be controlled by controlling the rotation direction of one end of the rotary connecting rod 4, so that the design is ingenious and the operation is convenient.

The floating ball 7 is provided with a connecting arm 71, one end of the connecting arm 71 is hinged with the rotary connecting rod 4 through the rotary fulcrum 6, the rotary connecting rod 4 and the floating ball 7 are connected in a rigid mode through the design mode, and the connecting arm is convenient for transmitting acting force and rotary moment due to the rigid connection. The method comprises the following steps: because the floating ball 7 is an active motion control point, when the water surface rises, the floating ball 7 receives buoyancy of the water surface, the buoyancy triggers upward acting force and anticlockwise rotation moment, the upward acting force and anticlockwise rotation moment are transmitted to the rotary connecting rod 4 through the connecting arm 71, the rotary connecting rod 4 generates upward acting force and anticlockwise rotation moment, and the other end of the rotary connecting rod 4 generates downward acting force due to the force and reaction force characteristics, so that the motion connecting rod 3 passively moves downwards to seal the water inlet (see fig. 2). When the water surface descends, the floating ball 7 triggers downward acting force and clockwise rotating moment due to self gravity, the downward acting force and clockwise rotating moment are transmitted to the rotating connecting rod 4 through the connecting arm 71, so that the rotating connecting rod 4 generates downward acting force and clockwise rotating moment, and the other end of the rotating connecting rod 4 generates upward acting force due to the force acting force and reacting force characteristics, so that the other end of the moving connecting rod 3 moves upward to open the water inlet 51 (see fig. 3). Thus, the motion state of the floating ball 7 is controlled by the buoyancy of the water surface and the gravity of the floating ball 7, so that the sealing gasket 1 is opened and closed, water can be automatically stored, and the water can be ensured to be available for the washing kettle all the time.

Example 2

Referring to fig. 4-6, fig. 4 is a schematic diagram showing the distribution of the installation positions of the automatic water storage washing kettle and the automobile according to the present invention. Fig. 5 is a partial schematic view of the a-direction view of fig. 4. Fig. 6 is a partial schematic view of the B-view of fig. 5. The embodiment is basically the same as embodiment 1, and is different in that the automatic water storage washing kettle is installed in a space surrounded by the front cabin cover 8 and the vehicle body sheet metal 9, the sheet metal water flowing groove 10 is matched on the water inlet hole 51, the sheet metal water flowing groove 10 is communicated with the water inlet hole 51, and the design mode enables the washing water or rainwater to flow into the water inlet hole 51 of the washing kettle through the sheet metal water groove, and the washing water or the rainwater can be used as a water storage source, so that the water is saved, the energy is saved, and the emission is reduced.

The working principle of the automatic washing kettle of the invention is as follows:

1. the external water flows in according to the sheet metal water flowing groove 10;

2. filtering impurities through a filter screen 2;

3. when the water fills the washing kettle, the floating ball 7 moves upwards under the force;

4. a rotary connecting rod 4 drives a moving connecting rod 3 to enable the sealing gasket 1 to move downwards;

5. when the gasket 1 is sealed, external water cannot enter, and vice versa.

The automatic water storage washing kettle can automatically store water, ensures that the washing kettle has water available all the time, prevents the windshield from being hung and brushed due to forgetting to add water, avoids safety accidents, can utilize the car washing water or rainwater as a water storage source, saves water, saves energy and reduces emission, can be applied to modern vehicles, has wide application prospect, and improves economic benefit; the water inlet 51 is in the form of a counter bore structure which facilitates the installation of the filter screen 2 and provides an installation space for the filter screen 2. In addition, the water inlet hole 51 is arranged in a counter bore shape, and can accommodate the sealing gasket 1, so that the sealing gasket 1 is sealed after air in the counter bore is exhausted through pressing down in a sealing state, and the sealing performance is good; the washing kettle body 5 forms an expansion part 52 at one end close to the sealing gasket 1, and the structural design of the expansion part 52 provides a movable space for the rotary connecting rod 4, the motion connecting rod 3 and the floating ball 7, so that the motion reliability and the good flexibility of each part are ensured. Meanwhile, when the floating ball 7 contacts the water surface, the expansion part 52 is designed to slow down the rising speed of the water surface, so that sufficient time is gained for the sealing gasket 1 to descend to seal the water inlet hole 51; the outer diameter of the sealing gasket 1 is smaller than the outer diameter of the water inlet hole 51, and the thickness of the sealing gasket 1 is smaller than the depth of the water inlet hole 51, so that the sealing gasket 1 can conveniently move up and down in the depth direction of the water inlet hole 51; the filter screen 2 is sleeved on the outer peripheral surface of the motion connecting rod 3, and the upper surface of the filter screen 2 is flush with a boss surface formed by the water inlet hole 51. The design mode enables the sealing gasket 1 to be sealed on the upper surface of the filter screen 2 and the convex surface formed by the water inlet hole 51 without gaps when the gasket is moved downwards for sealing. The zero-clearance sealing is realized, and the sealing performance is reliable; when the included angle between the moving connecting rod 3 and the rotating connecting rod 4 is an obtuse angle, a gap is reserved between the sealing gasket 1 and the water inlet hole 51; when the included angle between the moving connecting rod 3 and the rotating connecting rod 4 is an acute angle, the sealing gasket 1 tightly seals the water inlet hole 51. According to the design mode, the mechanical balance of the sealing gasket 1 is established in the opening state and the sealing state through the geometric stress relation, so that the requirement is met; one end of the rotary connecting rod 4 is connected with the moving connecting rod 3 in a hinged mode, and the other end of the rotary connecting rod 4 is connected with the floating ball 7 in a hinged mode, so that the two ends of the rotary connecting rod 4 can relatively rotate, the up-and-down movement of the sealing gasket 1 can be controlled by controlling the rotation direction of one end of the rotary connecting rod 4, the design is ingenious, and the operation is convenient; the floating ball 7 is provided with a connecting arm 71, one end of the connecting arm 71 is hinged with the rotary connecting rod 4 through the rotary fulcrum 6, the design mode enables the connection between the rotary connecting rod 4 and the floating ball 7 to be rigid connection, and the rigid connection is adopted, so that acting force and rotary moment can be conveniently transmitted; the device is provided with a motion connecting rod 3, a rotation connecting rod 4 and a floating ball 7, the floating ball 7 is controlled by means of water surface buoyancy, acting force and rotation moment are changed by the rotation connecting rod 4 to the motion connecting rod 3, so that the motion connecting rod 3 ascends or descends to control the opening or closing of the sealing gasket 1, and automatic water storage is realized; the washing kettle is arranged in a space surrounded by the front cabin cover 8 and the vehicle body sheet metal 9, and is provided with the sheet metal water flowing groove 10, and the sheet metal water flowing groove 10 is communicated with the water inlet hole 51.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and additions may be made to those skilled in the art without departing from the method of the present invention, which modifications and additions are also to be considered as within the scope of the present invention.

Claims (5)

1. An automatic water storage washing kettle is characterized by comprising a sealing gasket, a filter screen, a motion connecting rod, a rotation connecting rod, a floating ball and a washing kettle body; the washing kettle body is provided with a water inlet hole; a sealing gasket is arranged on the water inlet hole; the filter screen is arranged at the lower edge of the sealing gasket; the sealing gasket is connected with a moving connecting rod, and one end part of the moving connecting rod is connected with a rotating connecting rod; one end of the rotating connecting rod is connected with the floating ball through a rotating fulcrum; the motion connecting rod, the rotation connecting rod and the floating ball are all arranged in an inner cavity on the kettle body; the moving connecting rod and the rotating connecting rod are distributed in an included angle;

the washing kettle body forms an expansion part at one end close to the sealing gasket;

when the included angle between the moving connecting rod and the rotating connecting rod is an obtuse angle, a gap is reserved between the sealing gasket and the water inlet hole; when the included angle between the moving connecting rod and the rotating connecting rod is an acute angle, the sealing gasket is tightly attached to the sealing water inlet;

one end of the rotary connecting rod is connected with the motion connecting rod in a hinged mode, a connecting arm is arranged on the floating ball, one end of the connecting arm is connected with the rotary connecting rod through a rotary fulcrum, and the rotary connecting rod is rigidly connected with the floating ball;

the water inlet hole is in a counter bore structure form.

2. An automatic water storage washing kettle according to claim 1 wherein the outer diameter of the sealing pad is smaller than the outer diameter of the water inlet and the thickness of the sealing pad is smaller than the depth of the water inlet.

3. An automatic water storage washing kettle according to claim 1 or 2, wherein the filter screen is sleeved on the outer peripheral surface of the motion connecting rod, and the upper surface of the filter screen is flush with a boss surface formed by the water inlet hole.

4. An automobile using the automatic water storage washing kettle as claimed in claim 1 or 2, wherein the automobile further comprises a front cabin cover and a sheet metal of a vehicle body; the automatic water storage washing kettle is arranged in a space formed by the front cabin cover and the metal plate of the vehicle body.

5. The automobile of claim 4, further comprising a sheet metal launder in communication with the inlet opening of the automatic water storage washing kettle.