CN218131611U - Quantitative infusion type water agent mixing bottle - Google Patents

Abstract

The utility model provides a water agent ration input type water agent mixing bottle belongs to mixing arrangement technical field. The quantitative bottle comprises a bottle body, wherein two premixing cavities and a partition plate structure capable of controlling the communication or partition of the two premixing cavities are arranged in the bottle body, the two premixing cavities are formed by separating the partition plate structure, a quantitative plate driven by a first lifting mechanism is arranged in each premixing cavity, and the quantitative plate can be partitioned below the quantitative plate to form a quantitative cavity with fixed capacity after the height in the bottle body is adjusted. Thereby elevating system can drive quantitative board and go up and down in premixing the intracavity and adjust the capacity of two ration cavitys, makes the capacity of two ration cavitys equal with required water agent volume, consequently need not to measure the water agent again when pouring into the water agent, only need with water agent fill up the ration cavity can, simplified the step of measuring the water agent, convenient and practical.

Description

Quantitative infusion type water agent mixing bottle

Technical Field

The utility model belongs to the technical field of the water agent mixing arrangement, a water agent ration input type water agent mixing bottle is related to.

Background

The reaction kettle is a reaction device frequently used in the industries of chemical industry, food, medicine and the like, and comprises a kettle body, a stirring shaft, stirring blades and a motor, wherein the stirring shaft is arranged in the kettle body and driven by the motor, and a plurality of groups of stirring blades are arranged on the stirring shaft;

at present, there is a relatively deep research on how to improve the mixing efficiency and effect of a reaction container, but the research on other aspects is still in a relatively blank stage, for example, how to control the quantitative pouring of an aqueous solution into the reaction container.

For example, a chinese patent discloses an aqueous solution mixing reaction apparatus [ application No.: 202120729078.2], which comprises a tank body with a mixing reaction cavity therein, wherein the tank body is provided with a feed inlet, the feed inlet is communicated with the mixing reaction cavity, the tank body is provided with a driving mechanism, the driving mechanism is in driving connection with one end of a stirring rod, the stirring rod is provided with a stirring assembly, one end of the stirring assembly is fixedly connected to the stirring rod, and the other end of the stirring assembly extends in a direction away from the stirring rod;

the utility model discloses an advantage lies in: the stirring rod is connected with a stirring component which can drive liquid in the mixing reaction cavity to move along the axial lead direction of the stirring rod, so that the liquid can be driven to be mixed in the transverse direction and the longitudinal direction at the same time, the faster and better mixing effect is achieved, and the problem that the water aqua can not be measured is solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide an aqueous solution ration input type aqueous solution mixing bottle.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a water agent ration input type water agent mixing bottle, includes the bottle, the bottle in be equipped with two and preblend the chamber and steerable two baffle structures of preblend the chamber intercommunication or cutting off, two preblend the chamber and separate by baffle structure and form, preblend the intracavity be equipped with the quantitative board that receives a elevating system drive, the quantitative board can cut off the quantitative cavity that forms fixed capacity in the below of quantitative board after the altitude mixture control in the bottle, quantitative cavity bottom still is equipped with the turbine that is used for making the water agent intensive mixing in two quantitative cavities, the oblique diagonal angle setting of turbine in two quantitative cavities.

The utility model discloses in, thereby an elevating system can drive quantitative board and go up and down to adjust the capacity of two ration cavitys in premixing intracavity, makes the capacity of two ration cavitys equal with required water agent volume, consequently need not to measure the water agent again when pouring into the water agent and get, only need with the water agent pour into quantitative cavity can, simplified the step of getting the water agent, convenient and practical.

When the water aqua is mixed, the two premixing cavities are blocked by the partition plate structure, then the two water aqua are respectively injected into the quantitative cavities formed by the quantitative plates in the two premixing cavities after being quantified, after the quantitative cavities are filled with the water aqua, the partition plate structure is changed from a blocking state to a communicating state, so that the two water aqua containing devices can be mixed, and the two turbines arranged in the oblique opposite angles can form vortex-shaped circulation between the two quantitative cavities, so that the mixing uniformity is improved.

In the water agent quantitative input type water agent mixing bottle, the bottle body is made of transparent materials, and the two sides of the outer wall of the bottle body are provided with scale marks which are compared with the quantitative plates in the two premixing cavities. After the required amount of the water aqua is known, the quantitative plate is adjusted to align the lower end face of the quantitative plate with the scale lines of the required amount of the water aqua, and the water aqua is filled into the quantitative cavity until the quantitative cavity is full of the water aqua, so that the water aqua with the required amount can be obtained.

In the water agent quantitative input type water agent mixing bottle, the quantitative plate is provided with a liquid injection hole which is communicated with the upper side and the lower side of the premixing cavity in a penetrating way, and two liquid injection ports which are respectively connected with the two premixing cavities are also arranged on two sides of the top of the bottle body. The water aqua is injected into the premixing cavity through the liquid injection port and then enters the quantitative cavity through the liquid injection hole.

Preferably, in the above-mentioned liquid agent quantitative-feeding type liquid agent mixing bottle, the quantitative plate has an inverted conical step at the top, and the lowest part of the inverted conical step is connected to the top of the liquid injection hole. The back taper step can prevent the hydrops of ration board top.

In foretell water agent ration input type water agent mixing bottle, bottle upper portion linked firmly the support, elevating system including setting up the driver on support top, the chamber of mixing in advance keep away from a lift spout that baffle structure one side was equipped with vertical setting, ration board outer end linked firmly the lift slider that inserts to a lift spout in, a driver on be connected with vertical lift screw rod of inserting to a lift spout in, a lift screw rod and lift slider spiro union. A driver can drive a lifting screw to rotate, the lifting screw can drive a lifting slide block to vertically lift along a lifting sliding groove, and the lifting slide block can drive a quantitative plate to lift along the vertical direction.

In the above water agent quantitative input type water agent mixing bottle, the partition structure comprises an outer partition and an inner partition, two ends of the outer partition are fixedly connected with the inner wall of the bottle body, the inner partition is arranged in a second lifting chute in the outer partition, the outer partition and the inner partition are respectively provided with a first mixing hole structure and a second mixing hole structure, and the support is further provided with a second lifting mechanism capable of driving the inner partition to lift along the vertical direction so as to enable the first mixing hole structure and the second mixing hole structure to be staggered or aligned. The second lifting mechanism can drive the inner partition plate to lift along the vertical direction, so that the first mixing hole structure and the second mixing hole structure are staggered or aligned, when the first mixing hole structure and the second mixing hole structure are staggered, the two premixing cavities are separated, and when the first mixing hole structure and the second mixing hole structure are aligned, the two premixing cavities are communicated.

In the above-mentioned aqueous solution ration input type aqueous solution mixing bottle, a mixing hole structure include a plurality of symmetries set up the mixing hole No. one in No. two lift spout both sides, a mixing hole inner and No. two lift spout intercommunication, no. two mixing hole structures include a plurality of and No. two mixing holes that a mixing hole corresponds, no. two mixing holes run through the inner baffle along the horizontal direction. When the first mixing hole and the second mixing hole are staggered, the two premixing cavities are separated, and when the first mixing hole and the second mixing hole are aligned, the two premixing cavities are communicated.

Preferably, in the above-described liquid agent quantitative feeding type liquid agent mixing bottle, both sides of the inner partition plate abut against both side inner walls of the second lifting chute.

In the water agent quantitative input type water agent mixing bottle, the outer clapboard is positioned in the middle of the bottle body, and the two premixing cavities on the two sides of the outer clapboard have the same capacity.

In the water agent quantitative input type water agent mixing bottle, the second lifting mechanism comprises a second driver arranged on the support, the second driver is connected with a second lifting screw rod vertically inserted into a second lifting chute, and the second lifting screw rod is in threaded connection with the inner partition plate. The second driver can drive the second lifting screw to rotate, and the second lifting screw can drive the inner partition plate to lift along the vertical direction.

Compared with the prior art, the utility model has the advantages of:

1. thereby elevating system can drive quantitative board and go up and down in premixing the intracavity and adjust the capacity of two ration cavitys, makes the capacity of two ration cavitys equal with required water agent volume, consequently need not to measure the water agent again when pouring into the water agent, only need with water agent fill up the ration cavity can, simplified the step of measuring the water agent, convenient and practical.

2. When the water aqua is mixed, the two premixing cavities are blocked by the partition plate structure, then the two water aqua are respectively injected into the quantitative cavities formed by the quantitative plates in the two premixing cavities after being quantified, after the quantitative cavities are filled with the water aqua, the partition plate structure is changed from a blocking state to a communicating state, so that the two water aqua cavities are filled, the two water aqua cavities in the two premixing cavities can be mixed, and the two turbines arranged in the diagonal directions can form vortex-shaped circulation between the two quantitative cavities, so that the uniformity degree of mixing is improved.

3. Thereby No. two elevating system can drive the interior baffle and go up and down along vertical direction and make a mixing hole structure and No. two mixing hole structure dislocation or align, when a mixing hole structure and No. two mixing hole structures dislocation, two are mixed the chamber in advance and are cut off, when a mixing hole structure aligns with No. two mixing hole structures, two are mixed the chamber intercommunication in advance, when a mixing hole and No. two mixing hole dislocation, two are mixed the chamber in advance and are cut off, when a mixing hole aligns with No. two mixing hole, two are mixed the chamber intercommunication in advance.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

fig. 2 is a schematic cross-sectional view of the present invention;

fig. 3 is a schematic diagram of the external structure of the present invention.

In the figure, a bottle body 1, a premixing cavity 2, a partition plate structure 3, a first lifting mechanism 4, a quantitative plate 5, a quantitative cavity 6, a turbine 7, scale marks 8, a liquid injection hole 9, a liquid injection port 10, an inverted cone-shaped step 11, a support 12, a first driver 13, a first lifting chute 14, a lifting slide block 15, a first lifting screw 16, an outer partition plate 17, an inner partition plate 18, a second lifting chute 19, a first mixing hole structure 20, a second mixing hole structure 21, a second lifting mechanism 22, a first mixing hole 23, a second mixing hole 24, a second driver 25 and a second lifting screw 26.

Detailed Description

As shown in fig. 1-3, a water aqua quantitative input type water aqua mixing bottle comprises a bottle body 1, two premixing cavities 2 and a partition plate structure 3 capable of controlling the communication or partition of the two premixing cavities 2 are arranged in the bottle body 1, the two premixing cavities 2 are formed by partitioning the partition plate structure 3, a quantitative plate 5 driven by a first lifting mechanism 4 is arranged in the premixing cavity 2, the quantitative plate 5 can be partitioned below the quantitative plate 5 after the height in the bottle body 1 is adjusted to form a quantitative cavity 6 with fixed capacity, a turbine 7 for fully mixing water aqua in the two quantitative cavities 6 is further arranged at the bottom of the quantitative cavity 6, and the turbines 7 in the two quantitative cavities 6 are arranged diagonally.

The utility model discloses in, thereby elevating system 4 can drive quantitative board 5 and go up and down in premixing chamber 2 and adjust the capacity of two quantitative cavitys, make the capacity of two quantitative cavitys 6 equal with required water agent volume, consequently need not to measure the water agent again when pouring into the water agent and get, only need with the water agent fill up quantitative cavity 6 can, simplified the step of measuring the water agent of getting, convenient and practical.

When the water aqua is mixed, the two premixing cavities 2 are blocked by the partition plate structure, then the two water aqua are respectively injected into the quantitative cavities 6 formed by the quantitative plates in the two premixing cavities after being quantified, after the quantitative cavities are filled with the water aqua, the partition plate structure is changed from a blocking state to a communicating state, so that the two water aqua in the two premixing cavities 2 can be mixed, and the two turbines arranged in the oblique opposite angles can form vortex-shaped circulation between the two quantitative cavities, so that the uniformity degree of mixing is improved.

Specifically, referring to FIG. 3, the bottle body 1 is made of a transparent material, and the outer wall of the bottle body 1 is provided at both sides thereof with graduation marks 8 which are aligned with the quantitative plates 5 in the two premixing chambers 2. After the required amount of the required water aqua is known, the quantitative plate is adjusted to align the lower end face of the quantitative plate with the scale lines of the required amount of the water aqua, and the water aqua is filled into the quantitative cavity 6 until the quantitative cavity is filled with the water aqua, so that the water aqua with the required amount can be obtained.

Specifically, referring to fig. 1-3, the quantitative plate 5 is provided with an injection hole 9 for communicating the upper and lower sides of the premixing chamber 2, and two injection holes 10 connected to the two premixing chambers 2 are provided on both sides of the top of the bottle body 1. The water aqua is injected into the premixing cavity through the liquid injection port and then enters the quantitative cavity through the liquid injection hole.

Preferably, as shown in fig. 1, the top of the metering plate 5 is provided with an inverted conical step 11, and the lowest part of the inverted conical step 11 is connected with the top of the liquid injection hole 9. The back taper step 11 can prevent the hydrops of ration board top.

Specifically speaking, as shown in fig. 1 and 3, the upper portion of the bottle body 1 is fixedly connected with a support 12, the lifting mechanism 4 comprises a driver 13 arranged at the top end of the support 12, one side of the premixing cavity 2, which is far away from the partition structure 3, is provided with a vertically arranged lifting chute 14, the outer end of the quantifying plate 5 is fixedly connected with a lifting slide block 15 inserted into the lifting chute 14, the driver 13 is connected with a lifting screw 16 vertically inserted into the lifting chute 14, and the lifting screw 16 is in threaded connection with the lifting slide block 15. A driver 13 can drive a first lifting screw 16 to rotate, the first lifting screw can drive a lifting slide block to vertically lift along a first lifting chute, and the lifting slide block can drive a quantitative plate to lift along the vertical direction.

It will be appreciated by those skilled in the art that the first actuator may be a rotary cylinder or an electric motor, etc.

As shown in fig. 1 and 2, the partition structure 3 includes an outer partition 17 and an inner partition 18, two ends of the outer partition 17 are fixedly connected with the inner wall of the bottle body 1, the inner partition 18 is disposed in a second lifting chute 19 in the outer partition 17, the outer partition 17 and the inner partition 18 are respectively provided with a first mixing hole structure 20 and a second mixing hole structure 21, and the support 12 is further provided with a second lifting mechanism 22 capable of driving the inner partition 18 to lift in the vertical direction so as to dislocate or align the first mixing hole structure 20 and the second mixing hole structure 21.

Specifically, the first mixing hole structure 20 includes a plurality of first mixing holes 23 symmetrically disposed on two sides of the second lifting chute 19, the inner ends of the first mixing holes 23 are communicated with the second lifting chute 19, the second mixing hole structure 21 includes a plurality of second mixing holes 24 corresponding to the first mixing holes 23, and the second mixing holes 24 penetrate through the inner partition 18 along the horizontal direction. The second lifting mechanism can drive the inner partition plate 18 to lift along the vertical direction, so that the first mixing hole structure 20 and the second mixing hole structure 21 are staggered or aligned, when the first mixing hole structure 20 and the second mixing hole structure 21 are staggered, the two premixing cavities are separated, when the first mixing hole structure 20 and the second mixing hole structure 21 are aligned, the two premixing cavities are communicated, when the first mixing hole structure and the second mixing hole structure are staggered, the two premixing cavities are separated, and when the first mixing hole structure and the second mixing hole structure are aligned, the two premixing cavities are communicated.

Preferably, as shown in fig. 1 and 2, two sides of the inner partition 18 abut against two inner walls of the second lifting chute 19.

Preferably, as shown in fig. 1 and 2, the external baffle 17 is located in the bottle body 1, and the two premixing chambers 2 on both sides of the external baffle 17 have the same capacity.

Specifically, as shown in fig. 1 and fig. 2, the second lifting mechanism 22 includes a second driver 25 disposed on the bracket 12, the second driver 25 is connected to a second lifting screw 26 vertically inserted into the second lifting chute 19, and the second lifting screw 26 is screwed with the inner partition 18. The second driver 25 can drive the second lifting screw to rotate, and the second lifting screw can drive the inner partition plate to lift along the vertical direction.

It should be understood by those skilled in the art that the second actuator may be a rotary cylinder or a motor, etc.

The utility model discloses a theory of operation is: the first lifting mechanism 4 can drive the quantitative plate 5 to lift in the premixing cavity 2 so as to adjust the capacity of the two quantitative cavities, and the capacity of the two quantitative cavities 6 is equal to the required amount of the water agent, so that the water agent does not need to be measured when the water agent is filled, and only the quantitative cavities 6 are filled with the water agent, so that the step of measuring the water agent is simplified, and the first lifting mechanism is convenient and practical;

the water aqua is injected into the premixing cavity through the injection port and then enters the quantitative cavity through the injection hole, the inverted cone-shaped step 11 can prevent the top liquid of the quantitative plate from accumulating, the first driver 13 can drive the first lifting screw rod 16 to rotate, the first lifting screw rod can drive the lifting slide block to vertically lift along the first lifting chute, the lifting slide block can drive the quantitative plate to vertically lift, the second lifting mechanism can drive the inner partition plate 18 to vertically lift so as to enable the first mixing hole structure 20 and the second mixing hole structure 21 to be staggered or aligned, when the first mixing hole structure 20 and the second mixing hole structure 21 are staggered, the two premixing cavities are separated, when the first mixing hole structure 20 and the second mixing hole structure 21 are aligned, the two premixing cavities are communicated, the second driver 25 can drive the second lifting screw rod to rotate, and the second lifting screw rod can drive the inner partition plate to vertically lift.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the bottle body 1, the premixing chamber 2, the partition plate structure 3, the first elevating mechanism 4, the quantitative plate 5, the quantitative chamber 6, the turbine 7, the scale line 8, the liquid injecting hole 9, the liquid injecting port 10, the inverted cone-shaped step 11, the bracket 12, the first driver 13, the first elevating chute 14, the elevating slider 15, the first elevating screw 16, the outer partition plate 17, the inner partition plate 18, the second elevating chute 19, the first mixing hole structure 20, the second mixing hole structure 21, the second elevating mechanism 22, the first mixing hole 23, the second mixing hole 24, the second driver 25, the second elevating screw 26, etc. are used more often, these terms are used only for more convenient description and explanation of the essence of the present invention; they are to be construed as being without limitation to any one of the additional limitations of the present invention.

Claims (10)

1. The utility model provides an aqueous solution ration input type aqueous solution mixing bottle, includes bottle (1), its characterized in that, bottle (1) in be equipped with two and premix chamber (2) and steerable two baffle structure (3) that premix chamber (2) intercommunication or cut off, two premix chamber (2) are separated by baffle structure (3) and are formed, premix chamber (2) in be equipped with quantitative board (5) that receive elevating system (4) drive, quantitative board (5) can cut off in the below of quantitative board (5) and form fixed capacity's ration cavity (6) after the altitude mixture in bottle (1), ration cavity (6) bottom still is equipped with turbine (7) that are used for making the aqueous solution intensive mixing in two ration cavities (6), turbine (7) diagonal angle in two ration cavities (6) sets up.

2. The mixing bottle of claim 1, wherein the bottle body (1) is made of transparent material, and the two sides of the outer wall of the bottle body (1) are provided with scale marks (8) which are compared with the quantitative plates (5) in the two premixing chambers (2).

3. The aqua fixed-quantity input type aqua mixing bottle according to claim 2, wherein the fixed-quantity plate (5) is provided with an infusion hole (9) communicating the upper side and the lower side of the premixing chamber (2) in a penetrating manner, and two infusion ports (10) respectively connected with the two premixing chambers (2) are further provided on both sides of the top of the bottle body (1).

4. The aqua mixing bottle of claim 3, wherein the top of the quantitative plate (5) is provided with an inverted cone-shaped step (11), and the lowest part of the inverted cone-shaped step (11) is connected with the top of the liquid injection hole (9).

5. The aqua quantitative input type aqua mixing bottle according to any one of claims 1 to 4, wherein a support (12) is fixedly connected to the upper portion of the bottle body (1), the first lifting mechanism (4) comprises a first driver (13) arranged at the top end of the support (12), a first vertically arranged lifting chute (14) is arranged on one side of the premixing cavity (2) away from the partition plate structure (3), a lifting slider (15) inserted into the first lifting chute (14) is fixedly connected to the outer end of the quantitative plate (5), a first lifting screw (16) vertically inserted into the first lifting chute (14) is connected to the first driver (13), and the first lifting screw (16) and the lifting slider (15) are in threaded connection.

6. An aqua quantitative input type aqua mixing bottle according to claim 5, wherein the partition structure (3) comprises an outer partition (17) and an inner partition (18), both ends of the outer partition (17) are fixedly connected with the inner wall of the bottle body (1), the inner partition (18) is arranged in a second lifting chute (19) in the outer partition (17), the outer partition (17) and the inner partition (18) are respectively provided with a first mixing hole structure (20) and a second mixing hole structure (21), and the bracket (12) is further provided with a second lifting mechanism (22) which can drive the inner partition (18) to lift along the vertical direction so as to enable the first mixing hole structure (20) and the second mixing hole structure (21) to be staggered or aligned.

7. The aqua quantitative input type aqua mixing bottle according to claim 6, wherein the first mixing hole structure (20) comprises a plurality of first mixing holes (23) symmetrically arranged at two sides of the second lifting chute (19), the inner end of each first mixing hole (23) is communicated with the second lifting chute (19), the second mixing hole structure (21) comprises a plurality of second mixing holes (24) corresponding to the first mixing holes (23), and the second mixing holes (24) penetrate through the inner partition plate (18) along the horizontal direction.

8. The aqua mixing bottle of claim 7, wherein the inner partition (18) abuts against the inner walls of the second elevating chute (19).

9. The mixing bottle for the fixed-quantity infusion of the aqueous solution according to claim 6, characterized in that the outer partition (17) is positioned in the center of the bottle body (1), and the two premixing chambers (2) on both sides of the outer partition (17) have the same capacity.

10. The aqua quantitative input type aqua mixing bottle according to claim 6, wherein the second lifting mechanism (22) comprises a second driver (25) arranged on the support (12), a second lifting screw (26) vertically inserted into the second lifting chute (19) is connected to the second driver (25), and the second lifting screw (26) is in threaded connection with the inner partition plate (18).

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