CN215312000U - High-efficient dry powder bubble medicine machine - Google Patents

Abstract

The utility model relates to the technical field of medicine soaking machines, and discloses a high-efficiency dry powder medicine soaking machine which comprises a machine body, a rotary feeding device, a heating device and two wingless stirring devices, wherein the rotary feeding device is arranged on the machine body; a premixing groove, a dissolving cavity and a curing cavity which are communicated in sequence are arranged in the machine body, and a medicine inlet pipe and a water inlet pipe which are communicated with the premixing groove and a medicine outlet pipe which is communicated with the curing cavity are arranged on the machine body; the rotary feeding device is arranged on the machine body and comprises a rotary blade and a rotary motor which is in transmission connection with the rotary blade and drives the rotary blade to rotate, and the rotary blade is positioned below the discharge end of the medicine inlet pipe and diffuses the dry powder onto the water surface; the heating device is arranged on the machine body and is used for heating the solution in the dissolving cavity; the wingless stirring device is arranged on the machine body and comprises a wingless stirring disc and a stirring motor which is in transmission connection with the wingless stirring disc and drives the wingless stirring disc to rotate, and the two wingless stirring discs are respectively positioned in the dissolving cavity and the curing cavity. The utility model can accelerate the dissolving speed, improve the curing degree, effectively prevent mechanical damage and reduce the cost.

Description

High-efficient dry powder bubble medicine machine

Technical Field

The utility model relates to the technical field of medicine soaking machines, in particular to a high-efficiency dry powder medicine soaking machine.

Background

In the prior art, various medicaments are used in various industries, and the medicaments are generally prepared by uniformly mixing dry powder and water. However, the dry powder is difficult to dissolve, and manual operation dissolves more difficultly, and polymer medicament intensive mixing needs 30 to 40 minutes, adopts artificial mode not only to waste time and energy, and unable intensive mixing is even moreover, leads to the effect production deviation of medicament, consequently, adopts dry powder medicine machine of steeping to replace artifical preparation medicament at present mostly.

The existing dry powder medicine soaking machine usually directly pours dry powder into water, dissolves the dry powder in the water, primarily mixes the dry powder and the water, and then adopts a stirring device to fully mix the dry powder and the water to prepare the medicine. However, the dry powder is not easy to dissolve in water, and the dry powder is directly poured into the water and is easy to agglomerate into blocks, so that the dissolving speed is influenced; and current dry powder medicine soaking machine adopts the agitating unit stirring solution that has the stirring leaf usually, but this agitating unit's driving motor can not with the (mixing) shaft lug connection, needs the motor to connect the reducing gear box just can with the (mixing) shaft be connected, and not only the cost is higher, and the pivoted stirring leaf causes mechanical injury easily moreover.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a high-efficiency dry powder medicine soaking machine which can accelerate the dissolving speed, improve the curing degree, effectively prevent mechanical damage and reduce the cost.

(II) technical scheme

In order to solve the technical problems, the utility model provides the following technical scheme: a high-efficiency dry powder medicine soaking machine comprises a machine body, a rotary feeding device, a heating device and two wingless stirring devices.

A premixing groove, a dissolving cavity and a curing cavity which are communicated in sequence are formed in the machine body, a medicine inlet pipe and a water inlet pipe which are communicated with the premixing groove and a medicine outlet pipe which is communicated with the curing cavity are arranged on the machine body, and the medicine inlet pipe is used for providing dry powder for the medicine soaking machine; the water inlet pipe is used for supplying water to the medicine soaking machine so as to dissolve the dry powder; the medicine outlet pipe is used for outputting the solution in the curing cavity;

the rotary feeding device is arranged on the machine body and comprises a rotary blade and a rotary motor which is in transmission connection with the rotary blade and drives the rotary blade to rotate, and the rotary blade is positioned below the discharge end of the medicine inlet pipe and used for uniformly diffusing the dry powder onto the water surface;

the heating device is arranged on the machine body and used for heating the solution in the dissolving cavity;

the wingless stirring device is arranged on the machine body and comprises a wingless stirring disc and a stirring motor which is in transmission connection with the wingless stirring disc and drives the wingless stirring disc to rotate, and the two wingless stirring discs are respectively positioned in the dissolving cavity and the curing cavity.

Further setting, aforementioned heating device includes the hot plate, and the hot plate is located on the organism, and distributes around dissolving the chamber for the solution in the heating dissolves the intracavity.

So set up, when the hot plate circular telegram, the solution in the heating dissolution intracavity to accelerate the dissolution rate.

Further, the heating device further comprises a temperature sensor, wherein the temperature sensor is arranged on the inner wall of the dissolving cavity and used for sensing the actual temperature in the dissolving cavity so as to adjust the temperature in the dissolving cavity.

So set up, according to temperature-sensing ware's actual induction temperature, can control the hot plate and heat to required temperature value to accelerate the dissolving speed of dissolving intracavity solution.

Further setting, dissolve the chamber top in aforesaid premixing groove is located, and the premixing groove tank bottom is hourglass hopper-shaped, and the premixing groove tank bottom is offered and is used for the first connecting hole that the intercommunication dissolves the chamber.

By the arrangement, the solution in the premixing groove uniformly flows into the dissolving cavity through the first connecting hole; and the funnel-shaped tank bottom can avoid the solution from remaining at the bottom of the premixing tank, which causes waste.

Further setting, aforementioned advance the pencil and include inner tube and outer tube, have confined drying space between inner tube and the outer tube, be equipped with drying device in the drying space for prevent into the interior dry powder of pencil and wet the caking.

So set up, can dry into the dry powder in the pencil through drying device, avoid it to wet the caking to improve the dissolving speed.

Further, the drying device comprises a heating resistance wire, and the heating resistance wire is spirally wound on the inner tube.

So set up, when the heating resistor silk circular telegram, spiral winding structure can let the inner tube evenly, fully be heated, through the intraductal dry powder of heat transfer heating inner tube, effectively avoids the dry powder to wet the caking.

The machine body is further provided with a cover plate, and the cover plate covers the notch of the premixing groove and is used for sealing the premixing groove; the rotating motor and the medicine inlet pipe are both arranged on the cover plate, and the output shaft of the rotating motor penetrates through the cover plate and is connected with the rotating blades.

So set up, can effectively avoid solution contaminated through the apron.

(III) advantageous effects

Compared with the prior art, the efficient dry powder medicine soaking machine provided by the utility model has the following beneficial effects:

1. the medicine soaking process of the utility model comprises the following steps: dry powder and water are respectively input into a premixing tank through a medicine inlet pipe and a water inlet pipe, the dry powder and the water are preliminarily dissolved into a solution in the premixing tank and then enter a dissolving cavity, the solution is preliminarily and uniformly mixed through a wingless stirring disc in the dissolving cavity and fully dissolved and then enters a curing cavity, the solution in the curing cavity is further and uniformly mixed through the wingless stirring disc, and the solution is discharged through a medicine outlet pipe after being fully cured;

2. the rotary feeding device drives the rotary blades to rotate through the rotary motor and fans the dry powder to be uniformly diffused to the water surface, so that the contact area of the dry powder and the water is enlarged, and the dissolving speed of the dry powder is improved;

3. heating the solution in the dissolving cavity by a heating device so as to accelerate the dissolving speed;

4. the wingless stirring device drives the wingless stirring disc to rotate in the dissolving cavity or the curing cavity through the stirring motor to stir the solution, wherein the dissolving speed of the solution can be increased through centrifugal jet stirring, and the curing degree is improved; can effectively prevent mechanical injury through no stirring leaf structure, and the motor can lug connection wingless agitator disk, need not additionally to use the reducing gear box, reduce cost.

Therefore, the utility model can accelerate the dissolving speed, improve the curing degree, effectively prevent mechanical damage and reduce the cost.

Drawings

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

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

fig. 3 is an enlarged schematic view of a point a in fig. 2.

Reference numerals: 1. a body; 11. a premixing tank; 12. a dissolution chamber; 13. a curing cavity; 14. a medicine inlet pipe; 141. an inner tube; 142. an outer tube; 143. a drying space; 144. a drying device; 1441. heating resistance wires; 15. a water inlet pipe; 16. a medicine outlet pipe; 17. a first connection hole; 18. a second connection hole; 19. a cover plate; 2. a rotary feeding device; 21. a rotating blade; 22. a rotating electric machine; 3. a heating device; 31. heating plates; 32. a temperature sensor; 4. a wingless stirring device; 41. a wingless stirring disc; 42. a stirring motor; 5. a support frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, fig. 2 and fig. 3, wherein fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a structural cross-sectional view of the present invention; fig. 3 is an enlarged schematic view of a point a in fig. 2.

The utility model provides a high-efficiency dry powder medicine soaking machine which comprises a machine body 1, a rotary feeding device 2, a heating device 3 and two wingless stirring devices 4.

A premixing groove 11, a dissolving cavity 12 and a curing cavity 13 which are sequentially communicated are formed in the machine body 1, a medicine inlet pipe 14 and a water inlet pipe 15 which are communicated with the premixing groove 11 and a medicine outlet pipe 16 which is communicated with the curing cavity 13 are arranged on the machine body 1, and the medicine inlet pipe 14 is used for providing dry powder for the medicine soaking machine; the water inlet end of the water inlet pipe 15 is externally connected with water sources such as tap water and the like and is used for supplying water for the medicine soaking machine so as to dissolve the dry powder; the medicine outlet pipe 16 is used for outputting the solution in the curing cavity 13; and the water inlet pipe 15, the medicine inlet pipe 14 and the medicine outlet pipe 16 are all provided with electromagnetic valves.

The rotary feeding device 2 is arranged on the machine body 1, the rotary feeding device 2 comprises a rotary blade 21 and a rotary motor 22 which is welded with the top end of the rotary blade 21 and drives the rotary blade to rotate, and the rotary blade 21 is positioned below the discharge end of the medicine inlet pipe 14 and used for uniformly diffusing the dry powder to the water surface. Thus, when the rotary motor 22 is started, the rotary blades 21 are driven to rotate and fan the dry powder to be uniformly spread on the water surface.

The heating device 3 is installed on the machine body 1 and is used for heating the solution in the dissolving cavity 12.

The wingless stirring device 4 is installed on the machine body 1, the wingless stirring device 4 comprises a wingless stirring disk 41 and a stirring motor 42 which is welded with the bottom end of the wingless stirring disk 41 and drives the wingless stirring disk to rotate, and the two wingless stirring disks 41 are respectively positioned in the dissolving cavity 12 and the curing cavity 13. In this way, when the stirring motor 42 is started, the wingless stirring plate 41 is driven to rotate in the dissolving chamber 12 or the curing chamber 13, so as to mix the solution uniformly.

Dry powder and water are respectively input into the premixing tank 11 through the medicine inlet pipe 14 and the water inlet pipe 15, the solution is preliminarily dissolved in the premixing tank 11 to form a solution, the solution enters the dissolving cavity 12, the solution is preliminarily mixed and fully dissolved through the wingless stirring disc 41 in the dissolving cavity 12 and then enters the curing cavity 13, the solution in the curing cavity 13 is further mixed and uniformly mixed through the wingless stirring disc 41, and the solution is discharged through the medicine outlet pipe 16 after being fully cured.

Therefore, the dry powder can be evenly dispersed on the water surface by the aid of the rotary feeding device 2, and the contact area of the dry powder and the water is enlarged, so that the dissolving speed of the dry powder is increased; the solution in the dissolving cavity 12 can be heated by the heating device 3, so that the dissolving speed is increased; the solution is stirred without wings by a stirring device 4 without wings (a stirring plate 41 without wings is the prior art), wherein the solution can be quickly dissolved in a short time by centrifugal jet stirring, and the curing degree of the solution can be improved; can effectively prevent mechanical damage through not having stirring leaf structure, and the motor can lug connection not have wing agitator disk 41, need not additionally to use the reducing gear box, reduce cost.

The heating means 3 comprises a heating plate 31, the heating plate 31 being mounted in the body 1 and distributed around the dissolving chamber 12 for heating the solution in the dissolving chamber 12. When the heating plate 31 is energized in this manner, the solution in the dissolution chamber 12 is heated, thereby increasing the dissolution rate.

The heating device 3 further comprises a temperature sensor 32, and the temperature sensor 32 is mounted on the inner wall of the dissolution chamber 12 and used for sensing the actual temperature in the dissolution chamber 12 so as to adjust the temperature in the dissolution chamber 12. In this way, according to the actual sensing temperature of the temperature sensor 32, the heating plate 31 can be controlled to be heated to a desired temperature value, thereby increasing the dissolving speed of the solution in the dissolving chamber 12.

The premixing groove 11 is located the dissolving cavity 12 top, and 11 tank bottoms in premixing groove are hopper-shaped, and 11 tank bottoms in premixing groove are opened there is the first connecting hole 17 that is used for communicating dissolving cavity 12, installs the solenoid valve in the first connecting hole 17. In this way, when the solenoid valve in the first connection hole 17 is opened, the solution in the premixing tank 11 flows into the dissolving chamber 12 through the first connection hole 17; and the funnel-shaped tank bottom can avoid the solution from remaining at the bottom of the premixing tank 11, which causes waste.

The machine body 1 is also provided with a second connecting hole 18 for communicating the dissolving cavity 12 and the curing cavity 13, and the second connecting hole 18 is internally provided with an electromagnetic valve. When the solenoid valve in the second connection hole 18 is opened in this way, the solution in the dissolution chamber 12 flows into the ripening chamber 13 through the second connection hole 18.

The medicine inlet pipe 14 comprises an inner pipe 141 and an outer pipe 142, a closed drying space 143 is arranged between the inner pipe 141 and the outer pipe 142, and a drying device 144 is installed in the drying space 143 and used for preventing dry powder in the medicine inlet pipe 14 from being wetted and agglomerated. Thus, the dry powder in the medicine inlet pipe 14 can be dried by the drying device 144, so that the dry powder is prevented from being wetted and agglomerated, and the dissolving speed is improved.

The drying device 144 includes a heating resistance wire 1441, and the heating resistance wire 1441 is spirally wound on the inner tube 141. So, when heating resistor 1441 circular telegram, spiral winding structure can let inner tube 141 evenly, fully be heated, through the intraductal dry powder of heat transfer heating inner tube 141, effectively avoids the dry powder to wet the caking.

A cover plate 19 is further disposed on the machine body 1, and the cover plate 19 covers the notch of the premixing tank 11 to seal the premixing tank 11. Thus, the solution can be effectively prevented from being polluted. The rotary motor 22 and the medicine inlet pipe 14 are both arranged on the cover plate 19, and the output shaft of the rotary motor 22 penetrates through the cover plate 19 and is connected with the rotary blade 21.

The stirring motor 42 is installed at the bottom of the machine body 1, and the output shaft of the stirring motor 42 extends into the dissolving cavity 12 or the curing cavity 13 and is connected with the wingless stirring plate 41.

The inner walls of the premixing tank 11, the dissolving cavity 12 and the curing cavity 13 are all made of stainless steel, so that the corrosion resistance is high, and the service life of the efficient dry powder medicine soaking machine can be prolonged.

Still include support frame 5, 1 bottom of organism passes through bolt fixed connection with 5 tops of support frame, and support frame 5 is used for supporting organism 1.

When the dry powder spraying device is used, an operator firstly opens the electromagnetic valve on the water inlet pipe 15 to inject water into the premixing tank 11, then the rotary feeding device 2 is started, and simultaneously the electromagnetic valve on the medicine inlet pipe 14 is started, so that dry powder is uniformly diffused to the water surface and is dissolved in the water to form solution; then starting an electromagnetic valve in the first connecting hole 17 to enable the solution to enter the dissolving cavity 12, simultaneously starting the heating plate 31 to heat the solution in the dissolving cavity 12 according to the actual sensing temperature of the temperature sensor 32, controlling the heating plate 31 to heat the solution to a required temperature value, and accelerating the dissolving speed; when the height of the solution in the dissolving cavity 12 reaches the overflow height of the second connecting hole 18, the electromagnetic valve in the second connecting hole 18 is started to enable the solution in the dissolving cavity 12 to flow into the curing cavity 13, meanwhile, the wingless stirring device 4 in the curing cavity 13 is started to further mix the solution uniformly, when the height of the solution in the curing cavity 13 reaches the overflow height of the medicine outlet pipe 16, the electromagnetic valve on the medicine outlet pipe 16 is opened, and the fully cured solution is discharged through the medicine outlet pipe 16 for use.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The efficient dry powder medicine soaking machine is characterized by comprising a machine body (1), a rotary feeding device (2), a heating device (3) and two wingless stirring devices (4);

a premixing groove (11), a dissolving cavity (12) and a curing cavity (13) which are communicated in sequence are formed in the machine body (1), a medicine inlet pipe (14) and a water inlet pipe (15) which are communicated with the premixing groove (11) and a medicine outlet pipe (16) which is communicated with the curing cavity (13) are further arranged on the machine body (1), and the medicine inlet pipe (14) is used for providing dry powder for the medicine soaking machine; the water inlet pipe (15) is used for supplying water to the medicine soaking machine to dissolve the dry powder; the medicine outlet pipe (16) is used for outputting the solution in the curing cavity (13);

the rotary feeding device (2) is arranged on the machine body (1), the rotary feeding device (2) comprises a rotary blade (21) and a rotary motor (22) which is in transmission connection with the rotary blade (21) and drives the rotary blade to rotate, and the rotary blade (21) is positioned below the discharge end of the medicine inlet pipe (14) and used for uniformly diffusing dry powder onto the water surface;

the heating device (3) is arranged on the machine body (1) and is used for heating the solution in the dissolving cavity (12);

the wingless stirring device (4) is arranged on the machine body (1), the wingless stirring device (4) comprises a wingless stirring disc (41) and a stirring motor (42) which is in transmission connection with the wingless stirring disc (41) and drives the wingless stirring disc to rotate, and the two wingless stirring discs (41) are respectively positioned in the dissolving cavity (12) and the curing cavity (13).

2. The efficient dry powder medicine brewing machine according to claim 1, wherein the heating device (3) comprises a heating plate (31), and the heating plate (31) is arranged on the machine body (1) and distributed around the dissolving cavity (12) for heating the solution in the dissolving cavity (12).

3. The efficient dry powder medicine brewing machine according to claim 2, characterized in that the heating device (3) further comprises a temperature sensor (32), and the temperature sensor (32) is mounted on the inner wall of the dissolving cavity (12) and used for sensing the actual temperature in the dissolving cavity (12) so as to adjust the temperature in the dissolving cavity (12).

4. The efficient dry powder medicine brewing machine according to claim 1, wherein the premixing tank (11) is arranged above the dissolving cavity (12), the bottom of the premixing tank (11) is funnel-shaped, and a first connecting hole (17) for communicating the dissolving cavity (12) is formed in the bottom of the premixing tank (11).

5. The efficient dry powder medicine brewing machine as claimed in claim 1, wherein the medicine inlet pipe (14) comprises an inner pipe (141) and an outer pipe (142), a closed drying space (143) is formed between the inner pipe (141) and the outer pipe (142), and a drying device (144) is arranged in the drying space (143) and used for preventing dry powder in the medicine inlet pipe (14) from being wetted and agglomerated.

6. The efficient dry powder medicine brewing machine according to claim 5, wherein the drying device (144) comprises a heating resistance wire (1441), and the heating resistance wire (1441) is spirally wound on the inner tube (141).

7. The efficient dry powder medicine brewing machine according to claim 1, wherein a cover plate (19) is further arranged on the machine body (1), and the cover plate (19) covers the notch of the premixing groove (11) and is used for closing the premixing groove (11); the rotating motor (22) and the medicine inlet pipe (14) are both arranged on the cover plate (19), and the output shaft of the rotating motor (22) penetrates through the cover plate (19) and is connected with the rotating blades (21).

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