CN117732565B - Medicine grinder for oncology - Google Patents

Abstract

The invention discloses a medicine grinding device for oncology, which relates to the technical field of grinding and solves the problem of low grinding efficiency of the traditional grinding equipment.

Description

Medicine grinder for oncology

Technical Field

The invention relates to the technical field of grinding, in particular to a medicine grinding device for oncology.

Background

Tumor (tumour) refers to a new organism (newgrowth) formed by local tissue cell proliferation under the action of various tumorigenic factors, because the new organism is more in the form of occupying massive protrusions, also called neoplasms (neoplasms).

In the treatment process of patients with gastrointestinal tumors, the proton pump inhibitor is needed to inhibit gastric acid, so that a great amount of gastric acid secretion is avoided to stimulate the tumors to cause pain, and currently, the Proton Pump Inhibitor (PPI) comprises 5 types of omeprazole, lansoprazole, rabeprazole, pantoprazole and esomeprazole.

When the raw materials are sold, the omeprazole chloride needs to be ground again to reach a proper particle size, and in the existing raw material treatment process, all the raw materials are directly put into grinding equipment to be ground, so that part of powder meeting the particle size requirement and powder with large particle size in the raw materials are ground through the grinding equipment, wherein the powder meeting the grinding particle size occupies a grinding space in the equipment, so that the grinding efficiency is low, and therefore, the medicine grinding device for oncology is provided.

Disclosure of Invention

The invention aims to provide a drug grinding device for oncology, which aims to solve the problem that the grinding efficiency is low because the grinding space is occupied due to the fact that the grinding raw materials contain small particle raw materials in the grinding raw materials.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a medical grinder for oncology, includes the ring frame, the mounting panel is installed at the top of ring frame, and rotates through the bearing in the mounting panel and install the four-way pipe, the four-way pipe comprises a vertical pipe that the port is up and three port slope decurrent inclined tube, still include install in driving piece on the mounting panel, driving piece is used for the rotation of four-way pipe, just powder screening subassembly is all installed to three inclined tube bottom mouth of pipe outer ends of four-way pipe, just the propelling movement piece that contacts with powder screening subassembly outer end is installed to the ring frame inboard, powder screening subassembly includes the screening pipe, offer the bin outlet on the screening pipe; the grinding basin is fixed in the circular ring frame through the connecting frame, the outer edge of the grinding basin is attached to the discharge hole of the outer wall of the screening pipe, the bottom of the grinding basin is of a screen structure, and a grinding component for large-particle powder is arranged in the grinding basin.

Preferably, the screen plate is installed in the screening pipe, and the screening pipe is internally fixed with the butt joint platform, sliding grafting in the butt joint platform has the push rod, just the one end of push rod is slided and is run through the screen plate, the other end be fixed with the contact lever that the push piece contacted, the shielding piece is installed in the bin outlet outside, install the piece that resets that is used for the push rod to reset on the butt joint platform, the powder screening subassembly of design can carry out the size separation to the powder, grinds to the large granule powder.

Preferably, the shielding piece comprises a shielding plate matched with the discharge opening, an arc plate is fixed on the outer wall of the shielding plate, connecting rods are fixed at two ends of the arc plate, two connecting rods are far away from the end portions of the arc plate, connecting plates are fixed on the end portions of the connecting rods, an I-shaped ring in rotary butt joint with the connecting plates is fixed on the pushing rod, a sliding rod is fixed on the outer wall of a pipe orifice at the bottom end of the inclined tube, the shielding plate is sleeved on the sliding rod in a sliding mode, an extrusion spring used for extruding the shielding plate is sleeved on the sliding rod, and the shielding piece is designed to cover the discharge opening and is convenient to discharge.

Preferably, the reset piece comprises a sleeve fixed on the docking station, an abutting ring is fixed on the push rod, a reset spring abutting against the abutting ring is arranged in the sleeve, and the reset piece enables the push rod to keep the contact rod to abut against the push piece under the action of external force.

Preferably, the push rod is fixedly provided with a push plate, and the push plate is fixedly provided with a contact pin which is inserted into the sieve holes in the sieve plate, so that the bottom of the sieve plate can be prevented from being blocked by large-particle powder due to the design of the push plate and the contact pin.

Preferably, the pushing piece includes the ring board of fixing ring frame inside wall, ring board inside wall equiangle is fixed with a plurality of lugs that contact pole contacted, and the pushing piece of design can carry out the propelling movement of contact pole for the propelling movement pole carries out telescopic movement.

Preferably, the driving piece comprises a driving motor fixed on the support plate through a motor frame, a driving gear is fixed at the output end of the driving motor, a transmission toothed ring meshed with the driving gear is fixed on the outer wall of the vertical pipe of the four-way pipe, and the designed driving piece provides power so that the four-way pipe can rotate.

Preferably, the grinding component comprises a rotating rod fixed at the bottom of the four-way pipe, the rotating rod is rotatably installed in the grinding basin, a grinding plate is fixed at the bottom of the rotating rod, a chamfer is arranged at the end part of the grinding plate, and the designed grinding component can grind large-particle powder effectively.

Preferably, the bottom of dwang is fixed with the scraper blade, just the bottom of scraper blade is fixed with a plurality of oblique brush, and the scraper blade of design can get rid of the separation of adhering to in the sieve mesh of grinding basin, avoids blocking up.

Preferably, the bottom of ring frame is installed through the bolt and is connect the material basin, just connect the bottom of material basin be fixed with the socket of dwang looks adaptation, connect the design of material basin, satisfy the collection to the powder after grinding.

Compared with the prior art, the invention has the beneficial effects that:

the powder screening component and the grinding component are matched with each other, so that the intermediate omeprazole chloride powder can be firstly screened and ground, the powder meeting the particle size is firstly screened out, and the powder not meeting the particle size requirement is ground, and compared with the traditional direct grinding, the grinding efficiency is higher;

the pushing piece and the scraping plate designed by the invention can effectively prevent the mesh on the screen plate and the grinding basin from being blocked, thereby meeting the long-time grinding.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the receiving basin of the present invention after disassembly;

FIG. 3 is a schematic view of the positional relationship between the grinding basin and the circular ring frame according to the present invention;

FIG. 4 is a schematic diagram of the connection structure of the four-way pipe and the grinding basin;

FIG. 5 is a schematic view of a partial cross-sectional structure of a feedstock screening assembly of the present invention;

FIG. 6 is a schematic view of the internal structure of a screening tube according to the present invention, partially in section;

FIG. 7 is a schematic view of the structure of a shield according to the present invention;

FIG. 8 is a schematic view of a polishing assembly according to the present invention.

In the figure: 1-a circular ring frame; 2-a support plate; 3-four-way pipe; 4-a driving member; 5-a feedstock screening assembly; 6-pushing piece; 7-grinding the basin; 8-an abrasive assembly; 9-screening tube; 10-screening plate; 11-a docking station; 12-pushing a rod; 13-a contact lever; 14-a discharge port; 15-a shutter; 16-a reset piece; 17-shielding plate; 18-arc plates; 19-a connecting rod; 20-connecting plates; 21-a slide bar; 22-pressing the spring; 23-sleeve; 24-abutting ring; 25-a return spring; 26-pushing plate; 27-pins; 28-a circular plate; 29-bump; 30-driving a motor; 31-a drive gear; 32-a transmission gear ring; 33-a rotating lever; 34-grinding the plate; 35-scraping plate; 36-inclined hairbrushes; 37-receiving basin; 38-a socket.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

As shown in fig. 1-3, the medicine grinding device for oncology in the drawing comprises a circular ring frame 1, a support plate 2 is arranged at the top of the circular ring frame 1, a four-way pipe 3 is rotatably arranged in the support plate 2 through a bearing, the four-way pipe 3 consists of a vertical pipe with an upward port and three inclined pipes with downward ports, the medicine grinding device also comprises a driving piece 4 arranged on the support plate 2, the driving piece 4 is used for rotating the four-way pipe 3, powder screening components 5 are respectively arranged at the outer ends of the bottom end pipe orifices of the three inclined pipes of the four-way pipe 3, pushing pieces 6 which are contacted with the outer ends of the powder screening components 5 are arranged at the inner side of the circular ring frame 1, the powder screening components 5 comprise screening pipes 9, and discharge ports 14 are formed in the screening pipes 9; the grinding basin 7 is fixed in the circular ring frame 1 through a connecting frame, the outer edge of the grinding basin 7 is attached to the discharge port 14 of the outer wall of the screening pipe 9, the bottom of the grinding basin 7 is of a screen structure, and a grinding component for large-particle powder is arranged in the grinding basin 7;

It should be noted that: pouring the intermediate omeprazole chloride powder into the top of the four-way pipe 3, driving the four-way pipe 3 to rotate through the driving piece 4, discharging the powder from three pipe orifices at the bottom end of the four-way pipe 3 through rotation, screening the powder through the powder screening assembly 5, classifying and discharging large and small particles, and grinding and crushing the large-particle powder by matching with the grinding assembly 8;

Also to be described is: the shape of the four-way pipe 3 is that one port faces upwards, and the other three ports are inclined downwards at equal angles, so that screened small particle powder can be thrown into the circular ring frame 1, and the outer end of the port facing upwards is provided with a feed inlet, so that feeding is facilitated.

As shown in fig. 5-7, a screen plate 10 is installed in the screening tube 9, a docking station 11 is fixed in the screening tube 9, a push rod 12 is slidably inserted in the docking station 11, one end of the push rod 12 penetrates through the screen plate 10 in a sliding manner, a contact rod 13 in contact with the push member 6 is fixed at the other end of the push rod 12, a shielding member 15 is installed at the outer side of the discharge port 14, and a reset member 16 for resetting the push rod 12 is installed on the docking station 11;

It should be noted that: the design screening pipe 9 cooperates screen plate 10, can separate big or small granule powder, satisfies the direct switch-on screen plate 10 of required granule powder to throw away through the tail end of screening pipe 9, and the powder of big granule is then screened out by screen plate 10, and through the opening of shielding member 15, makes it follow bin outlet 14 discharge.

In addition, as shown in fig. 7, the shielding piece 15 comprises a shielding plate 17 matched with the discharge hole 14, an arc plate 18 is fixed on the outer wall of the shielding plate 17, connecting rods 19 are fixed at two ends of the arc plate 18, connecting plates 20 are fixed at the ends, far away from the arc plate 18, of the two connecting rods 19, an I-shaped ring in rotary butt joint with the connecting plates 20 is fixed on the pushing rod 12, a sliding rod 21 is fixed on the outer wall of a pipe orifice at the bottom end of the inclined pipe, the shielding plate 17 is in sliding sleeve joint with the sliding rod 21, and an extrusion spring 22 for extruding the shielding plate 17 is sleeved on the sliding rod 21;

It should be noted that: when the push rod 12 stretches out and draws back the removal, can drive the worker and encircle and link 20 corresponds the removal to make connecting rod 19 drive the removal that arc 18 and shielding plate 17 correspond, can realize opening and shielding to bin outlet 14, conveniently discharge the large granule powder that has accumulated a certain amount, simultaneously, the extrusion spring 22 of design makes push rod 12 when not atress, can reset shielding plate 17, closes bin outlet 14.

As shown in fig. 6, the reset element 16 includes a sleeve 23 fixed on the docking station 11, an abutment ring 24 is fixed on the push rod 12, and a reset spring 25 abutting against the abutment ring 24 is installed in the sleeve 23;

It should be noted that: under the action of the return spring 25, the push rod 12 can move towards the push member 6 without being subjected to external forces.

Meanwhile, as shown in fig. 4 and 5, the pushing member 6 comprises a circular ring plate 28 fixed on the inner side wall of the circular ring frame 1, and a plurality of protruding blocks 29 contacted with the contact rod 13 are fixed on the inner side wall of the circular ring plate 28 at equal angles;

It should be noted that: in the process of rotating the four-way pipe 3, the push rod 12 can be made to move along the outer side of the annular plate 28 in a fitting mode, meanwhile, the contact rod 13 can sequentially fit with the outer sides of the plurality of convex blocks 29, the push rod 12 is driven to move in a telescopic mode, and under the action of the reset spring 25, the contact rod 13 can move along the plurality of convex blocks 29.

In addition, as shown in fig. 4, the driving member 4 comprises a driving motor 30 fixed on the support plate 2 through a motor frame, a driving gear 31 is fixed at the output end of the driving motor 30, and a transmission toothed ring 32 meshed with the driving gear 31 is fixed on the outer wall of the vertical tube of the four-way tube 3;

It should be noted that: through driving motor 30's rotation, can drive gear 31 and rotate to make drive gear 32 follow and rotate, also make four-way pipe 3 rotate, throw away the powder of pouring into rotates, and sieve through separation screening subassembly 5 between throwing away.

In addition, referring to fig. 8, the grinding assembly 8 shown in the drawing includes a rotating rod 33 fixed at the bottom of the four-way pipe 3, the rotating rod 33 is rotatably installed in the grinding basin 7, a grinding plate 34 is fixed at the bottom of the rotating rod 33, and a chamfer is provided at the end of the grinding plate 34;

It should be noted that: after the designed large-particle powder falls into the grinding basin 7, the grinding plate 34 is driven to grind the powder through the rotation of the rotating rod 33, and the powder is discharged through the sieve holes at the bottom of the grinding basin 7, so that the grinding of the large-particle powder is realized.

The method for grinding and crushing the intermediate omeprazole chloride powder can be more efficiently carried out: firstly, a person pours omeprazole chloride powder into the four-way pipe 3, and then drives the four-way pipe 3 to rotate through a driving piece 4, so that the powder is thrown out from three ports at the lower end through rotation, and before being thrown out, large-particle powder is isolated through a screen plate 10, small-particle powder is directly discharged into a circular ring frame 1 through the tail end of a screening pipe 9, after the four-way pipe 3 rotates, a contact rod 13 at the tail end of a pushing rod 12 is contacted with a plurality of lugs 29, the pushing rod 12 is driven to move into the screening pipe 9, and under the action of a reset piece 16, the pushing rod 12 can be stably attached to the outer side of the lugs 29, so that the pushing rod 12 can continuously stretch and retract along with the rotation of the four-way pipe 3, namely, the screening plate 17 is driven to be opened and closed through a connecting plate 20 and a connecting rod 19, so that the large-particle powder is effectively discharged into a grinding basin 7;

when the four-way pipe 3 rotates, the rotating rod 33 is driven to rotate, so that the grinding plate 34 in the grinding basin 7 rotates to grind large-particle powder falling into the basin and discharge the large-particle powder through the sieve holes at the bottom of the grinding basin 7, and therefore targeted grinding is realized, and the grinding efficiency is improved.

In this scheme, for the higher tiny particle powder that receives the screening out, connect the material basin 37 through the bolt in the bottom of ring frame 1, and connect the bottom of material basin 37 be fixed with the socket 38 of dwang 33 looks adaptation, the design of socket 38 for the rotation of dwang 33 is more stable.

Examples

As shown in fig. 6, in this embodiment, for example 1, a pushing plate 26 is fixed to the pushing rod 12 in the drawing, and pins 27 that are inserted into holes in the screen plate 10 are fixed to the pushing plate 26.

It should be noted that: along with the rotation of the four-way pipe 3, the push rod 12 is enabled to sequentially contact the plurality of protruding blocks 29, so that the push rod 12 is enabled to continuously stretch and retract, the push plate 26 is also driven to continuously stretch and retract, the contact pin 27 is enabled to penetrate the screen plate 10, large-particle powder pieces remained in the screen plate 10 are discharged, and powder is convenient to pass through the discharge hole and screening of small-particle powder is also facilitated.

Examples

As shown in fig. 8, in this embodiment, in example 1, a scraper 35 is fixed to the bottom of the rotating lever 33 in the drawing, and a plurality of inclined brushes 36 are fixed to the bottom of the scraper 35.

It should be noted that: along with the rotation of the rotating rod 33, the scraper 35 is driven to rotate, and the inclined brush 36 at the bottom is matched, so that powder blocked on the sieve holes at the bottom of the grinding basin 7 can be conveniently removed, and long-time grinding is facilitated, and the powder is not blocked.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (10)

1. A oncology drug milling device comprising:

The device comprises a circular ring frame (1), wherein a support plate (2) is arranged at the top of the circular ring frame (1), a four-way pipe (3) is rotatably arranged in the support plate (2) through a bearing, and the four-way pipe (3) consists of a vertical pipe with an upward port and three inclined pipes with downward inclined ports;

Characterized by further comprising:

The powder screening device comprises a driving piece (4) arranged on a support plate (2), wherein the driving piece (4) is used for rotating a four-way pipe (3), powder screening assemblies (5) are arranged at the outer ends of pipe orifices at the bottom ends of three inclined pipes of the four-way pipe (3), a pushing piece (6) in contact with the outer ends of the powder screening assemblies (5) is arranged on the inner side of a circular ring frame (1), the powder screening assemblies (5) comprise screening pipes (9), and discharge ports (14) are formed in the screening pipes (9);

The grinding basin (7) is fixed in the circular ring frame (1) through the connecting frame, the outer edge of the grinding basin (7) is attached to the discharge opening (14) of the outer wall of the screening pipe (9), the bottom of the grinding basin (7) is of a screen structure, and the grinding assembly (8) for large-particle powder is arranged in the grinding basin (7).

2. The oncology drug milling device according to claim 1, wherein: screen plate (10) are installed in screening pipe (9), just screening pipe (9) internal fixation has docking station (11), it has push rod (12) to slide in docking station (11), just one end slip of push rod (12) runs through screen plate (10), the other end be fixed with push piece (6) contact pole (13), shielding piece (15) are installed in bin outlet (14) outside, install on docking station (11) and be used for push rod (12) reset piece (16).

3. The oncology drug milling device according to claim 2, wherein: the shielding piece (15) comprises a shielding plate (17) which is matched with the discharge hole (14), an arc plate (18) is fixed on the outer wall of the shielding plate (17), connecting rods (19) are respectively fixed at two ends of the arc plate (18), connecting plates (20) are fixed at the ends, far away from the arc plate (18), of the connecting rods (19), an I-shaped ring which is in rotary butt joint with the connecting plates (20) is fixed on the pushing rod (12), a sliding rod (21) is fixed on the outer wall of a pipe orifice at the bottom end of the inclined pipe, the shielding plate (17) is sleeved on the sliding rod (21) in a sliding mode, and an extrusion spring (22) used for extruding the shielding plate (17) is sleeved on the sliding rod (21).

4. The oncology drug milling device according to claim 2, wherein: the reset piece (16) comprises a sleeve (23) fixed on the butt joint table (11), a propping ring (24) is fixed on the push rod (12), and a reset spring (25) propping against the propping ring (24) is arranged in the sleeve (23).

5. The oncology drug milling device according to claim 4, wherein: a pushing plate (26) is fixed on the pushing rod (12), and a contact pin (27) which is inserted into the sieve holes in the sieve plate (10) is fixed on the pushing plate (26).

6. The oncology drug milling device according to claim 2, wherein: the pushing piece (6) comprises a circular ring plate (28) fixed on the inner side wall of the circular ring frame (1), and a plurality of protruding blocks (29) contacted with the contact rod (13) are fixed on the inner side wall of the circular ring plate (28) at equal angles.

7. The oncology drug milling device according to claim 1, wherein: the driving piece (4) comprises a driving motor (30) fixed on the support plate (2) through a motor frame, a driving gear (31) is fixed at the output end of the driving motor (30), and a transmission toothed ring (32) meshed with the driving gear (31) is fixed on the outer wall of the vertical tube of the four-way tube (3).

8. The oncology drug milling device according to claim 1, wherein: the grinding assembly (8) comprises a rotating rod (33) fixed at the bottom of the four-way pipe (3), the rotating rod (33) is rotatably installed in the grinding basin (7), a grinding plate (34) is fixed at the bottom of the rotating rod (33), and a chamfer is arranged at the end of the grinding plate (34).

9. The oncology drug milling device of claim 8, wherein: the bottom of the rotating rod (33) is fixed with a scraping plate (35), and the bottom of the scraping plate (35) is fixed with a plurality of inclined brushes (36).

10. The oncology drug milling device of claim 8, wherein: the bottom of the ring frame (1) is provided with a receiving basin (37) through bolts, and the bottom of the receiving basin (37) is fixed with a socket (38) matched with the rotating rod (33).