CN217119888U - Intelligent glass water filling system - Google Patents

Abstract

The utility model relates to a glass water production technical field, an intelligence glass water filling system, including the support, the inboard top-down of support is equipped with the first jar of body and the second jar of body in proper order, and the vertical head tank and the ejection of compact subassembly of installing a plurality of integral type are do not distinguished at the support top, and drive assembly controls radiator unit and stirring subassembly respectively and acts on the internal portion of first jar, the utility model has the advantages of: the raw materials are separately stored through the water storage tank and the liquid storage bin, and the mixing component is uniformly configured when required, so that the use quality of the glass water is improved; the standing raw materials are taken in a layered manner by arranging a plurality of first siphon bins and one second siphon bin, so that the use requirements of different users on different grades of glass water are met; the utility model discloses simple structure through setting up the elastic component, improves the stability of device when the extraction water.

Description

Intelligent glass water filling system

Technical Field

The utility model relates to a glass water production technical field specifically is an intelligence glass water filling system.

Background

Glass water is commonly known as automobile windshield cleaning fluid. Belongs to the consumable article in the use of automobiles. The high-quality automobile windshield glass water mainly comprises water, alcohol, glycol, a corrosion inhibitor and various surfactants. The automobile windshield water is commonly called glass water. When the transparency of the front windshield is reduced, a clear visual field can be provided for people by spraying glass water. Particularly, when the vehicle runs at night, dust on the glass scatters light, and at the moment, glass water needs to be sprayed to keep the front windshield in the optimal transparent state.

When the glass water is used, if bottled glass water which is directly prepared on the market is adopted, the bottled glass water has large volume, heavy volume, inconvenient sale and storage and inconvenient filling; if the wiper essence or the effervescent tablets are directly added into the glass water tank of the automobile and then the tap water is injected into the glass water tank, the liquid mixing ratio of the wiper essence or the effervescent tablets and the tap water in the glass water tank is not uniform, so that the cleaning effect is poor; the selling device of the glass water is adopted, the glass water with different grades needs to be produced, if grading is not carried out, raw materials in the device can change after standing, and the factory quality of the glass water changes at the same time; if some poor raw materials are discharged to the outside in order to ensure the quality of the factory, the waste of resources is caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligence glass water filling system, concrete implementation mode is as follows:

the utility model provides an intelligence glass water filling system, includes storage water tank, stock solution storehouse, filters piece, demineralizer, water intake pipe, liquid inlet pipe way, mixing subassembly, switching module, water conduit and controller, the leading-in water intake pipe that has in storage water tank top, and has concatenated on the water inlet pipe way and have filtered piece and demineralizer, stock solution storehouse and storage water tank are handed in mixing subassembly through liquid inlet pipe way and water conduit respectively.

The switching assembly is additionally arranged at the front end of the mixing assembly and is connected with a plurality of water guide pipelines, the switching assembly is composed of a joint, a shell, a second cavity, a flange structure and a water guide pipe, the second cavity is arranged in the shell, the flange structure which is conducted downwards is arranged at the bottom of the second cavity, a plurality of joints are arranged on the side level of the shell, the joints are inwards connected with the water guide pipe, and each water guide pipe is vertically conducted in the second cavity at the center of the shell.

Further, the switching component further comprises a motor, a sealing ring and a rotating shaft, the motor is vertically arranged at the top of the shell, the output end of the motor is vertically connected with the rotating shaft, the rotating shaft vertically penetrates through the shell, the rotating shaft is connected to the vertical conduction position of the flow guide pipe and the second cavity in a rotating mode, an inverted L-shaped passage is arranged in the rotating shaft, and the sealing ring is sleeved on the upper side and the lower side of the rotating shaft of the vertical conduction position of the flow guide pipe and the second cavity on the shell respectively.

The mixing assembly is formed by connecting a liquid inlet end, a mixing end and a leading-out end in sequence, the leading-out end is outwards expanded, the caliber of the mixing end is smaller than that of the liquid inlet end, a communicating pipe communicated with the second cavity is upwards arranged at the mixing end, and the end face of the communicating pipe is vertically connected to the flange structure.

The storage water tank includes floating plate, limiting plate, first siphon storehouse and hose, and the limiting plate is equipped with many, its vertical both sides of locating the storage water tank inner wall respectively, and it is equipped with floating plate to slide between two limiting plates of unilateral storage water tank inner wall, and vertical joint has first siphon storehouse on the floating plate.

The floating plate comprises a mounting plate, an air bag, a clamping ring, an elastic piece and a fixing ring, wherein the upper end and the lower end of the mounting plate are inwards fixedly provided with the fixing ring, the air bag is arranged between the inner side of the mounting plate and the circumferential surface of the fixing ring, and the fixing ring is inwards connected with the clamping ring through the elastic piece.

Furthermore, the elastic part comprises a positioning column, a first spring, a positioning seat and a second spring, the positioning seat is radially and fixedly arranged on the outer peripheral face of the clamping ring, the positioning column is radially and fixedly arranged on the inner peripheral face of the fixing ring, the positioning seat is radially and slidably connected to the positioning column, the end faces of the positioning seat and the positioning column are connected through the second spring, and the first spring is further sleeved on the outer sides of the positioning seat and the positioning column.

Further, the storage water tank is still including setting firmly the second siphon storehouse in the storage water tank bottom, and a plurality ofly have been laid through the mode of vertical joint in first siphon storehouse, and second siphon storehouse is the same with first siphon storehouse structure to first siphon storehouse is the example, and first siphon storehouse embeds there is the cavity, and the inside high-order department of cavity is located to the water inlet, and the low level department is located to the delivery port level, and the delivery port passes through the hose and outwards connects in the water pipe way.

The signal input part and level sensor, first flowmeter and second flowmeter electric connection of controller, the signal output part electric connection of controller in suction pump, drawing liquid pump, solenoid valve and motor, first flowmeter and drawing liquid pump all concatenate on the feed liquor pipeline, and second flowmeter and solenoid valve all concatenate on the aqueduct, and level sensor arranges the top in second siphon storehouse in, and the suction pump concatenates on the inlet tube.

Owing to adopted above technical scheme, the beneficial technological effect of the utility model is that:

1. the utility model separately stores the raw materials through the water storage tank and the liquid storage bin, and the mixing component is uniformly configured when needed, so as to improve the use quality of the glass water;

2. the utility model, through arranging a plurality of first siphon bins and a second siphon bin, takes the standing raw materials in layers to meet the use requirements of different users on different grades of glass water;

3. the utility model discloses simple structure through setting up the elastic component, improves the stability of device when the extraction water.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is an exploded sectional view of the internal structure of the water storage tank of the present invention;

FIG. 5 is a cross-sectional view of the floating plate structure of the present invention;

fig. 6 is an enlarged view of the structure of fig. 5 in the present invention;

FIG. 7 is a cross-sectional view of the mixing assembly of the present invention in a front view;

fig. 8 is a schematic structural diagram of a switching assembly according to the present invention;

fig. 9 is a cross-sectional view of the structure of the switching assembly of the present invention;

fig. 10 is a cross-sectional view of the front view structure of the present invention;

fig. 11 is an electrical control schematic diagram of the present invention.

Description of reference numerals:

1. a water storage tank, 2, a liquid storage bin, 3, a filtering piece, 4, a softener, 5, a water inlet pipeline, 6, a liquid inlet pipeline, 7, a mixing component, 8, a switching component, 9, a water guide pipeline, 10 and a controller,

11. a floating plate 12, a limit plate 13, a first siphon cabin 14, a second siphon cabin 15 and a hose,

111. a mounting plate 112, an air bag 113, a snap ring 114, an elastic piece 115 and a fixing ring,

1141. a positioning post 1142, a first spring 1143, a positioning post 1144, a second spring,

131. a cavity 132, a water outlet 133, a water inlet,

71. a liquid inlet end 72, a mixing end 73, a leading-out end 74, a communicating pipe,

81. a connector 82, a shell 83, a motor 84, a second cavity 85, a flange structure 86, a flow guide pipe 87, a sealing ring 88 and a rotating shaft,

101. the device comprises a water suction pump 102, a liquid suction pump 103, a solenoid valve 104, a liquid level sensor 105, a first flowmeter 106 and a second flowmeter.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings and examples:

it should be noted that the structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy that the present invention can produce and the purpose that the present invention can achieve.

Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Embodiment 1, combine fig. 1, this embodiment provides an intelligence glass water filling system, including storage water tank 1, stock solution storehouse 2, filter piece 3, softener 4, water intake pipe 5, liquid inlet pipe 6, mixing component 7, aqueduct 9 and controller 10, the leading-in water intake pipe 5 that has in storage water tank 1 top, and it has filter piece 3 and softener 4 to concatenate on the water intake pipe 5, stock solution storehouse 2 and storage water tank 1 intersect in mixing component 7 through liquid inlet pipe 6 and aqueduct 9 respectively, this structure glass water stoste with the water of stewing when having the user demand, mixing component 7 exports after with both intensive mixing again, in order to improve the quality of glass water when using.

Referring to fig. 7, the mixing assembly 7 is formed by connecting a liquid inlet end 71, a mixing end 72 and a discharge end 73 in sequence, the discharge end 73 is arranged to be expanded outwards, the caliber of the mixing end 72 is smaller than that of the liquid inlet end 71, the mixing end 72 is provided with a communicating pipe 74 upwards, the communicating pipe 74 is connected with the water guide pipeline 9 in the structure, the liquid inlet end 71 is connected with the liquid inlet pipeline 6, the mixing end 72 and the discharge end 73 form a venturi structure, the flow resistance of two liquids is reduced, the mixing effect is improved, and the discharge end 73 can be connected with a spray pipe.

Combine fig. 2, storage water tank 1 includes floating plate 11, limiting plate 12 is equipped with many, its vertical both sides of locating storage water tank 1 inner wall respectively, it is equipped with floating plate 11 to slide between two limiting plates 12 of 1 inner wall of unilateral storage water tank, vertical joint has first siphon storehouse 13 on floating plate 11, because the water after the rest is through subsiding in this structure, the impurity of upper water is less, utilize floating plate 11 to make first siphon storehouse 13 extract the upper water of storage water tank 1, first siphon storehouse 13 meets with water pipe 9.

Referring to fig. 4, the floating plate 11 includes a mounting plate 111, fixing rings 115 are fixedly installed at upper and lower ends of the mounting plate 111 inward, and an air bag 112 is installed between the inner side of the mounting plate 111 and the circumferential surface of the fixing ring 115, and a first siphon chamber 13 is installed at the bottom of the floating plate 11.

Referring to fig. 11, a signal input end of the controller 10 is electrically connected to the first flowmeter 105 and the second flowmeter 106, a signal output end of the controller 10 is electrically connected to the water pump 101, the liquid pump 102 and the electromagnetic valve 103, the first flowmeter 105 and the liquid pump 102 are both connected in series to the liquid inlet pipeline 6, the second flowmeter 106 and the electromagnetic valve 103 are both connected in series to the water guide pipeline 9, the water pump 101 is connected in series to the water inlet pipeline 5, a mixing ratio of water and glass water stock solution is controlled by the first flowmeter 105 and the second flowmeter 106, a user selects a type of purchased glass water through a man-machine interface, and the controller 10 starts corresponding components to produce the glass water according to requirements.

Embodiment 2, combine fig. 10, this embodiment provides an intelligence glass water filling system, still include switch assembly 8, switch assembly 8 installs additional in the front end of mixing assembly 7, switch assembly 8 is connected with many water pipes 9, and be provided with a plurality of first siphon storehouses 13 and a second siphon storehouse 14, through the use concentration who utilizes and change the glass water stoste to the water of different layers, with the glass water of production different masses, the price, in order to satisfy different users' purchase demand.

Referring to fig. 8 and 9, the switching assembly 8 includes a housing 82, a downwardly-connected flange structure 85 is disposed at the bottom of the second cavity 84, a plurality of connectors 81 are horizontally disposed at the side of the housing 82, fluid conduits 86 are inwardly connected to the connectors 81, each fluid conduit 86 is vertically connected to the second cavity 84 at the center of the housing 82, the motor 83 is vertically disposed at the top of the housing 82, an output end of the motor 83 is vertically connected to a rotating shaft 88, the rotating shaft 88 vertically penetrates through the housing 82 and is rotatably connected to the vertical connection position of the fluid conduits 86 and the second cavity 84, an inverted L-shaped passage is disposed in the rotating shaft 88, in the structure, the second cavity 84 is communicated with the communicating pipe 74, the connection position is connected to the flange structure 85, sealing rings 87 are respectively sleeved on and under the rotating shafts 88 at the vertical connection position of the fluid conduits 86 and the second cavity 84 on the housing 82, so as to enhance the sealing effect, the rotating shafts 88 are driven by the motor 83 to rotate, so as to change the communication between the L-shaped passages and different fluid conduits 86, to introduce bodies of water of different masses.

Referring to fig. 3, the second siphon chamber 14 has the same structure as the first siphon chamber 13, taking the first siphon chamber 13 as an example, the first siphon chamber 13 has a cavity 131 therein, the water inlet 133 is disposed at a high position inside the cavity 131, the water outlet 132 is horizontally disposed at a low position, and the water outlet 132 is externally connected to the water conduit 9 through the hose 15.

Combine fig. 11, the signal input part of controller 10 still with level sensor 104 electric connection, the signal output part electric connection of controller 10 in motor 83, level sensor 104 arranges the top in second siphon storehouse 14 in this structure, triggers the back when level sensor 104, and the suggestion storage water tank 1 is interior the water body not enough, and suction pump 101 opens, and external water is through filtering, the softening back of filtering piece 3 and demineralizer 4, supplyes the water body in the storage water tank 1.

Embodiment 3, with reference to fig. 4, this embodiment provides an intelligent glass water filling system, and an intelligent glass water filling system, floating plate 11 further includes snap ring 113, elastic component 114 and fixed ring 115, and the elastic component 114 can offset the shake that first siphon storehouse 13 made the emergence under the effect, improves the stability that draws water and make the device.

With reference to fig. 5, the fixing ring 115 is connected with the snap ring 113 through the elastic member 114, the elastic member 114 includes a positioning post 1141, the positioning post 1143 is radially fixed on the outer peripheral surface of the snap ring 113, the positioning post 1141 is radially fixed on the inner peripheral surface of the fixing ring 115, the positioning post 1143 is connected to the positioning post 1141 in a radial sliding manner, and the end surfaces of the positioning post 1141 and the positioning post 1144 are connected to each other, the positioning post 1143 and the positioning post 1141 are further sleeved with a first spring 1142, with reference to fig. 4 and fig. 6, in the structure, the positioning post 1143 and the positioning post 1141 have an orientation effect, the water body flows from the water inlet 133 side to the water outlet 132 side, that is, the first siphon chamber 13 generates a movement trend in a corresponding direction, and the first spring 1142 can reduce the movement amplitude; the second spring 1144 returns it to its original position when the pumping of water is stopped.

Many other changes and modifications can be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, and that the scope of the invention is defined by the appended claims.

Claims (8)

1. An intelligent glass water filling system comprises a water storage tank (1), a liquid storage bin (2), a filtering piece (3), a softener (4), a water inlet pipeline (5), a liquid inlet pipeline (6), a mixing component (7), a switching component (8), a water guide pipeline (9) and a controller (10), wherein the water inlet pipeline (5) is led into the top of the water storage tank (1), the filtering piece (3) and the softener (4) are connected on the water inlet pipeline (5) in series, the liquid storage bin (2) and the water storage tank (1) are respectively intersected with the mixing component (7) through the liquid inlet pipeline (6) and the water guide pipeline (9), and the intelligent glass water filling system is characterized in that,

switch subassembly (8) and install the front end in hybrid module (7) additional, switch subassembly (8) and be connected with many water pipe way (9), switch subassembly (8) and constitute by joint (81), casing (82), second cavity (84), flange structure (85) and honeycomb duct (86), casing (82) embeds there is second cavity (84), and second cavity (84) bottom is equipped with flange structure (85) that switch on downwards, and casing (82) side level is equipped with a plurality of joints (81), connects (81) and has inwards connect honeycomb duct (86), and each honeycomb duct (86) locate vertical switch on in second cavity (84) in the center of casing (82).

2. An intelligent glass water filling system according to claim 1, wherein the switching assembly (8) further comprises a motor (83), a sealing ring (87) and a rotating shaft (88),

the motor (83) is vertically arranged at the top of the shell (82), the output end of the motor is vertically connected with a rotating shaft (88), the rotating shaft (88) vertically penetrates through the shell (82) and is rotatably connected to the vertical conduction position of the guide pipe (86) and the second cavity (84), an inverted L-shaped passage is arranged in the rotating shaft (88),

and sealing rings (87) are respectively sleeved on the upper side and the lower side of a rotating shaft (88) at the vertical conduction position of the honeycomb duct (86) and the second cavity (84) on the shell (82).

3. An intelligent glass water filling system according to claim 2, wherein the mixing component (7) is formed by connecting a liquid inlet end (71), a mixing end (72) and a liquid outlet end (73) in sequence,

the guide-out end (73) is outwards arranged to be in an expanded diameter shape, the caliber of the mixing end (72) is smaller than that of the liquid inlet end (71), the mixing end (72) is upwards provided with a communicating pipe (74) communicated with the second cavity (84), and the end face of the communicating pipe (74) is vertically connected to the flange structure (85).

4. An intelligent glass water filling system according to claim 1, wherein the water storage tank (1) comprises a floating plate (11), a limiting plate (12), a first siphon bin (13) and a hose (15),

limiting plate (12) are equipped with many, and it is vertical both sides of locating storage water tank (1) inner wall respectively, and it is equipped with floating plate (11) to slide between two limiting plate (12) of unilateral storage water tank (1) inner wall, and vertical joint has first siphon storehouse (13) on floating plate (11).

5. A smart glass water filling system according to claim 4, wherein the floating plate (11) comprises a mounting plate (111), an air bag (112), a snap ring (113), an elastic member (114) and a fixing ring (115),

the upper and lower both ends of mounting panel (111) inwards set firmly solid fixed ring (115), and be provided with gasbag (112) between the global of mounting panel (111) inboard and solid fixed ring (115), gu fixed ring (115) is connected with snap ring (113) through elastic component (114) inwards.

6. The intelligent glass water filling system of claim 5, wherein the elastic member (114) comprises a positioning post (1141), a first spring (1142), a positioning post (1143) and a second spring (1144),

the positioning seat (1143) is radially and fixedly arranged on the outer peripheral surface of the snap ring (113), the positioning column (1141) is radially and fixedly arranged on the inner peripheral surface of the fixing ring (115), the positioning seat (1143) is radially and slidably connected to the positioning column (1141), the end surfaces of the positioning seat and the positioning column are connected through a second spring (1144), and a first spring (1142) is further sleeved on the outer sides of the positioning seat (1143) and the positioning column (1141).

7. The intelligent glass water filling system according to claim 6, wherein the water storage tank (1) further comprises a second siphon bin (14) fixedly arranged at the bottom of the water storage tank (1), the first siphon bins (13) are distributed with a plurality of siphon bins in a vertical clamping manner,

second siphon storehouse (14) is the same with first siphon storehouse (13) structure to first siphon storehouse (13) is the example, first siphon storehouse (13) embeds there is cavity (131), and cavity (131) inside high position department is located in water inlet (133), and low position department is located to delivery port (132) level, and delivery port (132) outwards connect in water pipe way (9) through hose (15).

8. The intelligent glass water filling system according to claim 7, wherein a signal input end of the controller (10) is electrically connected with the liquid level sensor (104), the first flow meter (105) and the second flow meter (106), a signal output end of the controller (10) is electrically connected with the water suction pump (101), the liquid suction pump (102), the electromagnetic valve (103) and the motor (83),

the first flowmeter (105) and the liquid pump (102) are connected in series to a liquid inlet pipeline (6), the second flowmeter (106) and the electromagnetic valve (103) are connected in series to a water guide pipeline (9), the liquid level sensor (104) is arranged above the second siphon bin (14), and the water pump (101) is connected in series to a water inlet pipeline (5).

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