CN219186692U - Glass water blending device - Google Patents

Abstract

The utility model provides a glass water blending device which comprises a blending bottle shell and a pipeline system, wherein the pipeline system is arranged in the blending bottle shell, and external water flow is mixed with glass water liquid in the blending bottle shell through the pipeline system and diluted to form glass water to flow out. After the glass water feed liquid is filled, the glass water washing machine can be used along with a belt, and can be used only by connecting an external water source, the glass water washing machine is small in size, more suitable for being carried in a vehicle with a tense space compared with bottled glass water needing to be stored and stored, and can be used as a glass water washing spray head after connecting an external water source, and the glass water washing machine can be directly used for washing a vehicle body to remove dirt.

Description

Glass water blending device

Technical Field

The utility model relates to the technical field of automobile cleaning accessories, in particular to a glass water blending device.

Background

Glass water is commonly called as automobile windshield cleaning liquid. Belongs to a consumable product in the use of automobiles. The high-quality automobile windshield water mainly comprises water, alcohol, glycol, a corrosion inhibitor and various surfactants.

With the increasing amount of people's average automobile, the market demand of the automobile glass water matched with the automobile glass water is also increased. Currently, there are many methods for controlling the flow of liquid. Most people still use bottled glass water in the mode of taking glass water, and bottled glass water is as a consumable, uses frequently, carries inconveniently, and production and packing transportation cost are higher, and wherein the proportion of feed liquid is often less than 10% in whole bottle, and the other part is the pure water.

A further solution is a glass water filling machine used in many beauty shops and maintenance shops of automobiles, for example, a pressure glass water filling machine shown in chinese patent No. CN209635883U, which is convenient for filling glass water, and has the disadvantage that the use place is relatively fixed and cannot be satisfied in time when most private car users have demands.

Disclosure of Invention

First, the technical problem to be solved

The utility model aims to solve the technical problem of providing a glass water blending device which is convenient to use and carry.

(II) technical scheme

In order to solve the technical problems, the utility model provides a glass water blending device, comprising:

the mixing bottle comprises a mixing bottle shell, wherein the mixing bottle shell is divided into an upper shell and a lower shell, the upper shell and the lower shell are connected with each other to form a mixing bottle upper cavity, the upper shell comprises a water filling port and an upper shell main body, and the water filling port is connected with the upper shell main body;

the lower shell comprises a water outlet, a lower shell body, a first glass water accommodating cavity, a second glass water accommodating cavity and a mixed liquid passing cavity, wherein the water outlet is connected with the lower shell body, the first glass water accommodating cavity, the second glass water accommodating cavity and the mixed liquid passing cavity are accommodated in the lower shell body side by side along the water outlet direction, and each of the first glass water accommodating cavity and the second glass water accommodating cavity is provided with a through hole communicated with the upper cavity of the blending bottle;

the pipeline system comprises a first glass water pipeline and a second glass water pipeline, one end of the first glass water pipeline is communicated with a water filling port, the other end of the first glass water pipeline is communicated with the first glass water accommodating cavity, one end of the second glass water pipeline is communicated with the water filling port, and the other end of the second glass water pipeline is communicated with the second glass water accommodating cavity.

According to the technical scheme, the water injection port is used for accommodating water flow, the water outlet is used for supplying water flow and discharging, in the process, two glass water feed liquids are respectively poured into the two glass water accommodating cavities by a user, then the water flow is communicated for infusion, the first glass water pipeline and the second glass water pipeline connected with the water outlet are used for shunting the water flow into the first glass water accommodating cavity and the second glass water accommodating cavity, the glass water solution which is preliminarily mixed with the water flow flows out of the through holes of the two glass water accommodating cavities, the mixed liquid is further diluted and mixed in the cavities, and finally discharged along the water outlet, so long as enough glass water feed liquid is reserved in the two glass water accommodating cavities, tap water is found, and the user can supplement glass water of a vehicle at any time and any place.

Further, the lower shell comprises a first baffle plate and a second baffle plate, the first baffle plate is arranged at the position where the first glass water accommodating cavity is communicated with the first glass water pipeline, and the second baffle plate is arranged at the position where the second glass water accommodating cavity is communicated with the second glass water pipeline.

Further, the through hole in the first glass water accommodating cavity is arranged on the first baffle plate, and the through hole in the second glass water accommodating cavity is arranged on the second baffle plate.

Further, the first glass water pipeline passes through the first baffle plate to be communicated with the first glass water accommodating cavity, and the second glass water pipeline passes through the second baffle plate to be communicated with the second glass water accommodating cavity.

In the above technical scheme, the first baffle plate and the second baffle plate play the effect of restriction first glass water pipeline and second glass water pipeline, simultaneously, by the through-hole that shifts to on the baffle plate because the baffle plate sets up positional relationship, the glass aqueous solution of preliminary mixing need be to the opposite direction of flow direction with inside just can flow out, therefore mixed more evenly, after flowing out, glass aqueous solution also need get into the upper portion in the allotment bottle cavity earlier, just can reach the mixed solution and pass through the chamber, this in-process has produced further dilution and mixing for the glass aqueous solution that flows out in water and feed liquid mixed more evenly.

Further, the first glass water pipeline comprises a first upper water pipeline, a first lower water pipeline and a first material injection port, one end of the first upper water pipeline is communicated with the water injection port, the other end of the first upper water pipeline is communicated with the first material injection port, one end of the first lower water pipeline is communicated with the first material injection port, and the other end of the first lower water pipeline is communicated with the first glass water accommodating cavity;

the second glass water pipeline comprises a second upper water pipeline, a second lower water pipeline and a second material injection port, one end of the second upper water pipeline is communicated with the water injection port, the other end of the second upper water pipeline is communicated with the second material injection port, one end of the second lower water pipeline is communicated with the second material injection port, and the other end of the second lower water pipeline is communicated with the second glass water accommodating cavity.

Further, one end of the first material injection opening and the second material injection opening, which is used for injecting materials, passes through the upper shell body and is communicated with the outside.

Further, the first glass water pipeline comprises a first material injection plug, and the first material injection plug is arranged on the first material injection port in an openable and closable manner; the second glass water pipeline comprises a second material injection plug, and the second material injection plug is arranged at the second material injection opening in an openable and closable manner.

Among the above-mentioned technical scheme, every glass water piping all divide into last raceway, lower raceway and annotate the material mouth, go up the raceway and be used for the intercommunication water filling mouth, lower raceway is used for the intercommunication glass water to hold the chamber, and they are both by a T-shaped pipeline annotate the material mouth and be connected for annotate the material mouth and can pour glass water feed liquid into among the glass water holds the chamber, and annotate some of material mouth and passed last casing main part, so that the user need not to open the injection of casing also can accomplish the feed liquid, annotate the material stopper and then played the effect that prevents feed liquid backward flow.

Further, the pipe system comprises a diverter, and the first glass water pipe and the second glass water pipe are communicated with the water injection port through being connected with the diverter.

In the technical scheme, the diverter plays a role in helping diverting and fixing the upper water delivery pipe.

Further, the blending bottle shell comprises a water injection external device, the water injection external device is connected to the water injection port, and a threaded hole is formed in the water injection external device.

In the above technical scheme, the water injection external device is used for connecting an external water pipe, and the water pipe can be more tightly connected with the water injection external device by the thread device, so that glass water is continuously produced.

(III) beneficial effects

The glass water blending device has the following advantages.

1. After the high-concentration glass water feed liquid is filled into the glass water blending device, the glass water blending device can be used along with the glass water blending device, and can be used only by connecting an external water source.

2. The glass water blending device is small in size, and is more suitable for being carried in vehicles with tense space compared with bottled glass water needing to be stored.

3. The glass water blending device can be used as a glass water flushing nozzle for directly flushing a vehicle body to remove dirt after being connected with an external water source.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a glass water blending device of the present utility model;

FIG. 2 is a schematic view of the glass water dispensing device of the present utility model with the upper housing portion removed;

FIG. 3 is a cross-sectional view of the molten glass dispensing device of the present utility model;

FIG. 4 is a schematic diagram of a piping system of the glass water blending device of the present utility model;

wherein: 1 is a blending bottle shell; 11 is an upper shell; 111 is a water filling port; 112 an upper housing body; 113 is a first recess; 114 is a second recess; 12 is a lower housing 12;121 is the lower shell water outlet; 122 is a lower housing body; 123 is a first glass water containing chamber 123;124 is a second glass water containing chamber; 125 is a mixed liquor passing cavity; 126 is a first baffle; 1261 is a first baffle panel; 1262 is a first baffle outlet; 1263 is a first water pipe mounting port; 1264 is a first diverter mounting port; 127 is a second baffle; 1271 is a second baffle panel; 1272 is a second baffle outlet; 1273 is a second water tube mounting port; 1274 is a second diverter mounting port; 13 is the upper cavity of the blending bottle; 14 is a water injection external device; 141 is a threaded extension tube; 142 is an external snap ring; 2 is a pipeline system; 21 is a first glass water pipeline; 211 is a first upper water pipe; 212 is a first lower water pipe 213 is a first material injection port; 214 is a first shot plug; 22 is a second glass water conduit; 221 is a second upper water pipe; 222 is a second lower water pipe; 223 is a second injection port; 224 is a second shot plug; 23 is a shunt; 231 is a shunt head; 232 is a shunt stand; 233 is a first shunt port; 234 is a second split.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples serve to illustrate the utility model; but are not intended to limit the scope of the utility model.

Example 1:

the whole structure of the glass water blending device of the utility model is shown in fig. 1 and 4, and comprises a blending bottle shell 1 and a pipeline system 2, wherein the pipeline system 2 is arranged in the blending bottle shell, and external water flows are mixed with glass water feed liquid in the blending bottle shell through the pipeline system 2 and diluted to be glass water outflow.

As shown in fig. 1, the casing 1 of the blending bottle is divided into an upper casing 11 and a lower casing 12, the upper casing 11 and the lower casing 12 are connected to each other to form an upper cavity 13 of the blending bottle, the upper casing 11 includes a water filling port 111 and an upper casing body 112, the water filling port 111 is a cylindrical water pipe connected to the upper casing body 112; the lower housing 12 includes a water outlet 121 and a lower housing body 122, and the lower housing body 122 is connected to the upper housing body 112 and the water outlet 121, respectively.

Further, the lower housing 12 includes a first glass water accommodating cavity 123, a second glass water accommodating cavity 124, and a mixed solution passing cavity 125, where the first glass water accommodating cavity 123, the second glass water accommodating cavity 124, and the mixed solution passing cavity 125 are accommodated in the lower housing main body 122 side by side along the water outlet direction, the first glass water accommodating cavity 123 and the second glass water accommodating cavity 124 each have a through hole and are communicated with the upper cavity 13 of the blending bottle, and the upper cavity of the blending bottle and the water outlet 121 are communicated with the mixed solution passing cavity 125.

As shown in fig. 2, the lower housing 2 includes a first baffle 126 and a second baffle 127, the first baffle 126 is mounted in the direction of the first glass water containing chamber 123 toward the water filling port 111, and the second baffle 127 is mounted in the direction of the second glass water containing chamber 124 toward the water filling port 111;

further, the first baffle 126 includes a first baffle plate 1261, a first baffle plate water outlet 1262 and a first water pipe mounting port 1263, the first baffle plate water outlet 1262 and the first water pipe mounting port 1263 are disposed on the first baffle plate 1261, the first baffle plate 1261 is used for blocking the first glass water containing cavity 123, so that the first glass water containing cavity 123 can only be communicated with the upper cavity 13 of the blending bottle through the first baffle plate water outlet 1262, and the first water pipe mounting port 1263 is used for filling water flow into the first glass water containing cavity 123 in cooperation with the pipeline system 2;

the second baffle 127 comprises a second baffle plate face plate 1271, a second baffle plate water outlet 1272 and a second water pipe installation opening 1273, the second baffle plate water outlet 1272 and the first water pipe installation opening 1263 are arranged on the second baffle plate face plate 1271, the second baffle plate face plate 1271 is used for blocking the second glass water containing cavity 124, so that the second glass water containing cavity 124 can be communicated with the upper cavity 13 of the blending bottle only through the second baffle plate water outlet 1272, and the second water pipe installation opening 1273 is used for filling water into the second glass water containing cavity 124 by matching with the pipeline system 2;

as shown in fig. 3 and 4, the piping system 2 includes a first glass water pipe 21 and a second glass water pipe 22, one end of the first glass water pipe 21 communicates with a water filling port 111, and the other end communicates with the first glass water accommodating chamber 123 through the first baffle 126; one end of the second glass water pipe 22 is provided with a water filling port 111, and the other end is communicated with the second glass water accommodating cavity 124 through the second baffle 127.

The first glass water pipe 21 includes a first upper water pipe 211, a first lower water pipe 212, and a first material injection port 213, where the first upper water pipe 211 is shorter and is used to communicate with the water injection port 111, the first lower water pipe 212 is longer and is used to communicate with the first glass water containing cavity 123, the first upper water pipe 211 and the first lower water pipe 212 are connected to the first material injection port 213 together, the first material injection port 213 is a T-shaped right-angle tri-branch pipe, a horizontal channel is connected to the first upper water pipe 211, and a vertical channel in a water outlet direction is connected to the first lower water pipe 212, so that glass water material liquid can be poured into the first glass water containing cavity 123 through the first material injection port 213;

the second glass water pipe 22 includes a second upper water pipe 221, a second lower water pipe 222, and a second material injection port 223, where the second upper water pipe 221 is shorter and is used to communicate with the water injection port 111, the second lower water pipe 222 is longer and is used to communicate with the second glass water containing cavity 124, the second upper water pipe 221 and the second lower water pipe 222 are jointly connected to the second material injection port 223, and the second material injection port 223 is a T-shaped right-angle tri-branch pipe, where a horizontal channel is connected with the second upper water pipe 221, and a vertical channel with a water outlet direction is connected with the second lower water pipe 222, so that glass water material liquid can be poured into the second glass water containing cavity 124 through the second material injection port 223.

It should be noted that the ends of the first lower water pipe 212 and the second lower water pipe 222 extend to the bottom of each glass water containing cavity, so as to mix water and glass water liquid more fully.

Further, the first glass water pipe 21 includes a first filling plug 214, the first filling plug 214 is openably mounted on the first filling opening 213, the second glass water pipe 22 includes a second filling plug 214, and the second filling plug 214 is openably mounted on the second filling opening 223, so as to prevent the liquid from flowing back after the glass liquid is filled.

Further, one end of the first injection port 213 and the second injection port 223 for injecting the molten glass passes through the upper housing body 112 to be communicated with the outside, so that a user can pour the molten glass without opening the housing; the upper housing 11 includes a first recess 113 and a second recess 114, the first recess 113 and the second recess 114 are disposed on the upper housing body 112, and the first recess 113 and the second recess 114 are used for leaving a corresponding space for a user to operate the injection molding process by hand.

As shown in fig. 3 and 4, the piping system 2 includes a diverter 23, the diverter 23 includes a diverter head 231, a diverter frame 232, a first diverter head 233 and a second diverter head 234, the diverter head 231 is connected to the diverter frame 232, and the first diverter head 233 and the second diverter head 234 are disposed in the diverter frame 23; the first upper water pipe 211 and the second upper water pipe 221 are respectively connected with the first diverter head 233 and the second diverter head 234, the diverter frame 232 is approximately a table with four legs, the supporting legs of the diverter frame 232 are respectively mounted on the first baffle plate 126 and the second baffle plate 127, and the first baffle plate 126 and the second baffle plate 127 are respectively provided with two first diverter mounting openings 1273 and second diverter mounting openings 1274 to correspondingly mount the four supporting frames of the diverter frame 232.

It should be noted that, four through holes are provided in the diverter 231, two of the through holes are respectively connected with the first diverter 233 and the second diverter 234, the remaining two through holes are communicated with the cavity 13 on the blending bottle, the diverter 231 not only has the diverter function, but also limits the flow of the water flow so as not to be too large, so that the glass water is too diluted, and the water discharged from the plurality of through holes can also have the functions of breaking the water flow and helping the glass water and the liquid to mix.

It is further worth mentioning that the blending bottle shell 1 comprises a water injection external connection device 14, the water injection external connection device 14 comprises a threaded external connection pipe 141 and an external connection clamping ring 142, the threaded external connection pipe 141 is installed on the water filling port 111, the external connection clamping ring 142 is screwed into the threaded external connection pipe 141 and is attached to the water filling port 111, and the design enables the product to be capable of being used for sealing a water pipe communicated with the outside for water filling.

When the glass water mixing bottle works, water flows into the water filling port 111 through the water filling external device 14 which is in sealed communication, the water flows into the respective glass water containing cavities through the first glass water pipeline 21 and the second glass water pipeline 22, is preliminarily mixed with feed liquid in the glass water containing cavities, flows out through the first baffle water outlet 1262 and the second baffle water outlet 1272, and the two preliminarily mixed glass water flows out of the water mixing bottle upper cavity 13 again to be mixed and diluted with water, and flows out of the water outlet 121 through the mixed liquid passing cavity 125, so that the inverted U-shaped flow channel of the two glass water solutions is completely and uniformly mixed with water.

Example 2

This embodiment is basically the same as embodiment 1 in structure, and differs only in that:

in the upper cavity 13 of the blending bottle, a grid fence is arranged at the joint of the upper cavity and the mixed solution passing cavity 125, and is used for further breaking up water flow so as to help the two glass water solutions to be mixed and diluted more fully.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (9)

1. A molten glass dispensing device, comprising:

the mixing bottle comprises a mixing bottle shell (1), wherein the mixing bottle shell is divided into an upper shell (11) and a lower shell (12), the upper shell (11) and the lower shell (12) are connected with each other to form a mixing bottle upper cavity (13), the upper shell (11) comprises a water filling port (111) and an upper shell main body (112), and the water filling port (111) is connected with the upper shell main body (112);

the lower shell (12) comprises a water outlet (121), a lower shell main body (122), a first glass water accommodating cavity (123), a second glass water accommodating cavity (124) and a mixed liquid passing cavity (125), the water outlet (121) is connected to the lower shell main body (122), the first glass water accommodating cavity (123), the second glass water accommodating cavity (124) and the mixed liquid passing cavity (125) are accommodated in the lower shell main body (122) side by side along the water outlet direction, and the first glass water accommodating cavity (123) and the second glass water accommodating cavity (124) are respectively provided with a through hole and are communicated with the upper cavity (13) of the blending bottle;

a pipeline system (2), wherein the pipeline system (2) comprises a first glass water pipeline (21) and a second glass water pipeline (22), one end of the first glass water pipeline (21) is communicated with a water filling port (111), and the other end of the first glass water pipeline is communicated with the first glass water accommodating cavity (123); one end of the second glass water pipeline (22) is provided with a water filling port (111), and the other end of the second glass water pipeline is communicated with the second glass water accommodating cavity (124).

2. The glass water blending device according to claim 1, wherein the lower housing includes a first baffle (126) and a second baffle (127), the first baffle (126) being mounted at a position where the first glass water containing chamber (123) communicates with the first glass water conduit (21), the second baffle (127) being mounted at a position where the second glass water containing chamber (124) communicates with the second glass water conduit (22).

3. The glass water blending device according to claim 2, wherein the through hole of the first glass water accommodating chamber (123) is provided on the first baffle plate (126), and the through hole of the second glass water accommodating chamber (124) is provided on the second baffle plate (127).

4. The glass water blending device according to claim 2, wherein the first glass water pipe (21) is communicated with the first glass water accommodating cavity (123) through the first baffle plate (126), and the second glass water pipe (22) is communicated with the second glass water accommodating cavity (124) through the second baffle plate (127).

5. The glass water blending device according to claim 1, wherein the first glass water pipeline (21) comprises a first upper water conveying pipe (211), a first lower water conveying pipe (212) and a first material injection port (213), one end of the first upper water conveying pipe (211) is communicated with the water injection port (111), the other end of the first upper water conveying pipe is communicated with the first material injection port (213), one end of the first lower water conveying pipe (212) is communicated with the first material injection port (213), and the other end of the first lower water conveying pipe (212) is communicated with the first glass water accommodating cavity (123);

the second glass water pipeline (22) comprises a second upper water conveying pipe (221), a second lower water conveying pipe (222) and a second material injection opening (223), one end of the second upper water conveying pipe (221) is communicated with the water injection opening (111), the other end of the second upper water conveying pipe is communicated with the second material injection opening (223), one end of the second lower water conveying pipe (222) is communicated with the second material injection opening (223), and the other end of the second lower water conveying pipe (222) is communicated with the second glass water accommodating cavity (124).

6. The molten glass dispensing device of claim 5, wherein the first and second injection ports (213, 223) are adapted to allow one end of the injection to pass through the upper housing body (112) and communicate with the outside.

7. The molten glass dispensing device of claim 6, wherein the first molten glass conduit (21) includes a first filler plug (214), the first filler plug (214) being openably mounted to the first filler neck (213);

the second glass water pipeline (22) comprises a second material injection plug (224), and the second material injection plug (224) is arranged on the second material injection opening (223) in an openable and closable mode.

8. A glass water mixing device according to claim 1, wherein the pipe system (2) comprises a flow divider (23), and the first glass water pipe (21) and the second glass water pipe (22) are in communication with the water filling port (111) by connecting the flow divider (23).

9. The glass water blending device according to claim 1, wherein the blending bottle housing (1) comprises a water injection external device (14), and the water injection external device (14) is connected to the water injection port (111).

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