CN220370961U - Quantitative dispensing device based on waterpower - Google Patents

Abstract

The utility model discloses a quantifiable dispensing device based on water power, wherein an outlet of a clean water tank is communicated with a water inlet of a first water power rotating machine and a water inlet of a second water power rotating machine through a power water pump, a water outlet of the first water power rotating machine is communicated with an inlet of a water return pipe, a water outlet of the second water power rotating machine is communicated with an inlet of the water return pipe through a water return automatic valve, a water outlet of the second water power rotating machine is communicated with an inlet of a dispensing box through a water supply pipe, a water supply automatic valve is arranged on the water supply pipe, a screw stirring paddle is arranged in the dispensing box, an output shaft of the second water power rotating machine is connected with the screw stirring paddle, a storage bin is communicated with the dispensing box through a discharge box, and a quantitative discharge device is arranged in the discharge box.

Description

Quantitative dispensing device based on waterpower

Technical Field

The utility model belongs to the technical field of medicament preparation, and relates to a quantifiable dispensing device based on hydraulic power.

Background

The medicine preparation technology is widely applied to agriculture, industry, chemical industry, medical industry and the like, and in the technical field, a common medicine preparation mode is to manually put medicines, and a large amount of medicines are manually put, so that the control precision of the put quantity is poor, the using effect of the medicines is reduced, and the production efficiency is low. The common dispensing and stirring mode is mechanical stirring, and two power devices, namely a dosing water supply pump and mechanical stirring, are needed during dispensing, so that the energy consumption is high and the noise is high.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the quantitative dispensing device based on the water power, which has the characteristics of low energy consumption and low noise.

In order to achieve the aim, the quantifiable dispensing device based on water power comprises a clear water tank, a power water pump, a first water power rotating machine, a second water power rotating machine, a water return pipe, a water return automatic valve, a water supply pipe, a water supply automatic valve, a storage bin and a discharging box;

the outlet of the clear water tank is communicated with the water inlet of the first hydraulic power rotating machine and the water inlet of the second hydraulic power rotating machine through a power water pump, the water outlet of the first hydraulic power rotating machine is communicated with the inlet of the water return pipe, the water outlet of the second hydraulic power rotating machine is communicated with the inlet of the water return pipe through a water return automatic valve, the water outlet of the second hydraulic power rotating machine is communicated with the inlet of the dispensing box through a water supply pipe, a water supply automatic valve is arranged on the water supply pipe, a screw stirring paddle is arranged in the dispensing box, wherein the output shaft of the second hydraulic power rotating machine is connected with the screw stirring paddle, a storage bin is communicated with the dispensing box through a discharging box, a quantitative discharging device is arranged in the discharging box, and the output shaft of the first hydraulic power rotating machine is connected with the quantitative discharging device.

The outlet of the clear water tank is divided into two paths through a power water pump, wherein one path is communicated with the water inlet of the first hydraulic power rotating machine through a first power water pipe, and the other path is communicated with the water inlet of the second hydraulic power rotating machine through a second power water pipe.

The first power water pipe is provided with a first automatic valve.

The second power water pipe is provided with a second automatic valve.

The outlet of the water return pipe is communicated with the inlet of the clear water tank.

The output shaft of the second hydraulic rotating machine is connected with the screw propeller through a second hydraulic transmission shaft.

The storage bin is communicated with the dispensing box through a discharge box and a discharging pipe.

The output shaft of the first hydraulic rotating machine is connected with the quantitative discharging device through the first hydraulic transmission shaft.

The medicine dispensing box also comprises a medicine dispensing pump which is communicated with the outlet of the medicine dispensing box.

And a plurality of quantitative grids are arranged on the outer wall of the quantitative discharging device along the circumferential direction.

The utility model has the following beneficial effects:

when the quantifiable dispensing device based on hydraulic power is specifically operated, the impact force generated by the pressurized water flow output by the power water pump provides two paths of power sources to respectively push the two hydraulic rotating machines to rotate, wherein the first hydraulic rotating machine drives the quantifying discharging device to rotate, so that materials are automatically discharged into a dispensing box from the storage bin, and the effect of automatically and quantitatively adding medicines is realized; the second hydraulic power rotating machine drives the screw stirring paddle to rotate, plays a role in stirring and mixing medicines, is simple in structure, reduces the setting of a power device, and is low in energy consumption, low in noise, high in working efficiency, capable of saving a large amount of manpower and high in applicability.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a sectional view taken along the direction 1-1 in fig. 1.

Wherein 1 is a clear water tank, 2 is a power water pump, 3 is a first power water pipe, 4 is a second power water pipe, 5 is a first automatic valve, 6 is a second automatic valve, 7 is a first hydraulic power rotating machine, 8 is a second hydraulic power rotating machine, 9 is a first hydraulic transmission shaft, 10 is a second hydraulic transmission shaft, 11 is a quantitative discharging device, 12 is a discharging box, 13 is a storage bin, 14 is a discharging pipe, 15 is a dispensing box, 16 is a screw stirring paddle, 17 is a dosing pump, 18 is a liquid level meter, 19 is a water feeding pipe, 20 is a water return pipe, 21 is a water feeding automatic valve, 22 is a water return automatic valve, and 23 is a quantitative lattice.

Detailed Description

In order to make the present utility model better understood by those skilled in the art, the following description will clearly and completely describe the technical solutions in the embodiments of the present utility model with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, but not intended to limit the scope of the present disclosure. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the concepts of the present disclosure. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

In the accompanying drawings, there is shown a schematic structural diagram in accordance with a disclosed embodiment of the utility model. The figures are not drawn to scale, wherein certain details are exaggerated for clarity of presentation and may have been omitted. The shapes of the various regions, layers and their relative sizes, positional relationships shown in the drawings are merely exemplary, may in practice deviate due to manufacturing tolerances or technical limitations, and one skilled in the art may additionally design regions/layers having different shapes, sizes, relative positions as actually required.

Referring to fig. 1 and 2, the quantifiable dispensing device based on water power according to the present utility model includes a clean water tank 1, a power water pump 2, a first power water pipe 3, a second power water pipe 4, a first automatic valve 5, a second automatic valve 6, a first hydraulic power rotating machine 7, a second hydraulic power rotating machine 8, a first hydraulic power transmission shaft 9, a second hydraulic power transmission shaft 10, a quantifying discharging device 11, a discharging tank 12, a storage bin 13, a discharging pipe 14, a dispensing tank 15, a propeller 16, a dosing pump 17, a liquid level meter 18, a water supply pipe 19, a water return pipe 20, a water supply automatic valve 21, a water return automatic valve 22 and a quantifying grid 23;

the outlet of the clean water tank 1 is divided into two paths through a power water pump 2, one path is communicated with the water inlet of a first hydraulic rotating machine 7 through a first power water pipe 3, the other path is communicated with the water inlet of a second hydraulic rotating machine 8 through a second power water pipe 4, a first automatic valve 5 is arranged on the first power water pipe 3, a second automatic valve 6 is arranged on the second power water pipe 4, the water outlet of the first hydraulic rotating machine 7 is communicated with the inlet of a water return pipe 20, the water outlet of the second hydraulic rotating machine 8 is communicated with the inlet of the water return pipe 20 through a water return automatic valve 22, and the outlet of the water return pipe 20 is communicated with the inlet of the clean water tank 1. The water outlet of the second hydraulic rotating machine 8 is communicated with the inlet of the dispensing box 15 through a water supply pipe 19, and a water supply automatic valve 21 is arranged on the water supply pipe 19;

a screw stirring paddle 16 is arranged in the dosing tank 15, wherein an output shaft of the second hydraulic rotating machine 8 is connected with the screw stirring paddle 16 through a second hydraulic transmission shaft 10, a storage bin 13 is communicated with the dosing tank 15 through a discharging tank 12 and a discharging pipe 14, and a liquid level meter 18 is arranged in the dosing tank 15.

The quantitative discharging device 11 is arranged in the discharging box 12, an output shaft of the first hydraulic rotating machine 7 is connected with the quantitative discharging device 11 through the first hydraulic transmission shaft 9, the drug delivery pump 17 is communicated with an outlet of the dispensing box 15, and a plurality of quantitative grids 23 are circumferentially arranged on the outer wall of the quantitative discharging device 11.

The specific working process of the utility model is as follows:

the inflow of the power water pump 2 is supplied by the clear water tank 1, the outflow of the power water pump 2 is divided into two paths, the two paths respectively enter the first power water pipe 3 and the second power water pipe 4, the required power is respectively provided for the discharging process and the dispensing process while the dispensing water is provided, and the medicament is delivered to a dosing point by the dosing pump 17 after being dispensed.

When the liquid level meter 18 sends out a low liquid level warning signal, namely, when the material needs to be discharged, the first automatic valve 5 is opened, the second automatic valve 6 is closed, the acting force generated by the water flow pressure of the first power water pipe 3 pushes the first hydraulic rotating machine 7 to rotate, the first hydraulic transmission shaft 9 drives the quantitative discharging device 11 to rotate, medicines are automatically discharged into the uppermost quantitative grid 23 from the storage bin 13, the medicines are conveyed to the lowermost position along with the rotation of the quantitative discharging device 11, the medicines are thrown into the medicine distribution box 15 through the blanking pipe 14 from the lowermost quantitative grid 23, and backwater of the first hydraulic rotating machine 7 is conveyed into the clean water tank 1 through the backwater pipe 20.

When the medicine amount reaches the requirement, the first automatic valve 5 and the backwater automatic valve 22 are closed, the second automatic valve 6 and the water supply automatic valve 21 are opened, the acting force generated by the water flow pressure of the second power water pipe 4 pushes the second hydraulic rotating machine 8 to rotate, and the second hydraulic transmission shaft 10 drives the screw propeller 16 to rotate, so that the medicines are fully mixed and stirred. The backwater of the second hydraulic rotating machine 8 is firstly conveyed into the dispensing box 15 through a water supply pipe 19 to provide water required by dispensing, when the liquid level meter 18 sends out a high liquid level prompt signal, the water supply automatic valve 21 is closed, the backwater automatic valve 22 is opened, and the backwater of the second hydraulic rotating machine 8 is conveyed into the clear water box 1 through a backwater pipe 20.

When the traditional Chinese medicine in the medicine dispensing box 15 is uniformly stirred, the power water pump 2 is turned off, the medicine feeding pump 17 is turned on, and the medicine is conveyed to a medicine feeding point.

The utility model adopts the same power water pump 2 to provide water source and the driving force generated by the water flow impact force to provide power source, provides power required by stirring and mixing the medicaments and automatic discharging and water required by dispensing, reduces the setting of a power device, and can realize automatic quantitative discharging and control the start and stop of the whole system through the liquid level.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the utility model without departing from the spirit and scope of the utility model, which is intended to be covered by the claims.

Claims (10)

1. The quantitative dispensing device based on the water power is characterized by comprising a clear water tank (1), a power water pump (2), a first water power rotating machine (7), a second water power rotating machine (8), a water return pipe (20), a water return automatic valve (22), a water supply pipe (19), a water supply automatic valve (21), a storage bin (13) and a discharge box (12);

the outlet of the clean water tank (1) is communicated with the water inlet of the first hydraulic rotating machine (7) and the water inlet of the second hydraulic rotating machine (8) through the power water pump (2), the water outlet of the first hydraulic rotating machine (7) is communicated with the inlet of the water return pipe (20), the water outlet of the second hydraulic rotating machine (8) is communicated with the inlet of the water return pipe (20) through the water return automatic valve (22), the water outlet of the second hydraulic rotating machine (8) is communicated with the inlet of the dosing tank (15) through the water supply pipe (19), the water supply pipe (19) is provided with a water supply automatic valve (21), the inside of the dosing tank (15) is provided with a screw stirring paddle (16), wherein the output shaft of the second hydraulic rotating machine (8) is connected with the screw stirring paddle (16), the storage bin (13) is communicated with the dosing tank (15) through the discharging tank (12), the quantitative discharging device (11) is arranged in the discharging tank (12), and the output shaft of the first hydraulic rotating machine (7) is connected with the quantitative discharging device (11).

2. The quantitatively dispensing device based on waterpower according to claim 1, characterized in that the outlet of the clean water tank (1) is divided into two paths by a power water pump (2), wherein one path is communicated with the water inlet of the first waterpower turning machine (7) by a first power water pipe (3), and the other path is communicated with the water inlet of the second waterpower turning machine (8) by a second power water pipe (4).

3. The hydro-based quantifiable dispensing device of claim 2 in which the first powered water line (3) is provided with a first automatic valve (5).

4. The hydro-based quantifiable dispensing device of claim 2 in which a second automated valve (6) is provided on the second powered conduit (4).

5. The hydro-based quantifiable dispensing device of claim 1 in which the outlet of the return tube (20) is in communication with the inlet of the clean water tank (1).

6. The hydro-based quantifiable dispensing device of claim 1 in which the output shaft of the second hydro-rotator (8) is connected to the propeller (16) via a second hydro-drive shaft (10).

7. The quantitatively dispensing device based on hydraulic power according to claim 1, characterized in that the storage bin (13) is in communication with the dosing bin (15) via the discharge bin (12) and the discharge pipe (14).

8. The hydro-based quantifiable dispensing device of claim 1 in which the output shaft of the first hydro-rotator (7) is connected to the quantitative discharge device (11) via a first hydro-drive shaft (9).

9. The hydro-based quantifiable dispensing device of claim 1 further comprising an administration pump (17), the administration pump (17) being in communication with the outlet of the dispensing chamber (15).

10. The hydro-based quantifiable dispensing device of claim 1 in which a plurality of dosing grids (23) are circumferentially disposed on the outer wall of the quantitative discharge device (11).