CN208275543U - Pulverizer - Google Patents
Pulverizer Download PDFInfo
- Publication number
- CN208275543U CN208275543U CN201820480937.7U CN201820480937U CN208275543U CN 208275543 U CN208275543 U CN 208275543U CN 201820480937 U CN201820480937 U CN 201820480937U CN 208275543 U CN208275543 U CN 208275543U
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- Prior art keywords
- shell
- cavity
- crushing
- hopper
- detachably connected
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Abstract
The utility model belongs to Drug processing equipment technical field more particularly to pulverizer.Pulverizer includes screw rod, casing, shell, crushing shaft, grinding device and sieve;Screw rod is located in the cavity of casing, and both ends and casing are rotatablely connected;Shell is connected with casing, and cavity is cylindrical, and axis is in the horizontal direction;The coaxial arrangement of the cavity of crushing shaft and shell, and one end extends into the cavity of shell, and connects with housing into rotation;Grinding device is located in the cavity of shell, and is fixedly connected with crushing shaft;Sieve is located in the cavity of shell, and is coaxially disposed with crushing shaft, and be located at the outside of grinding device.The pulverizer can abundant comminuting matter, pass through sieve pore convenient for conforming particle, so that material accumulation be avoided to result in blockage in the bottom of crushing chamber, and the pulverizer uses screw feed, convenient for control charging rate, to avoid blocking, while improving crush efficiency.
Description
Technical field
The utility model belongs to Drug processing equipment technical field more particularly to pulverizer.
Background technique
The processing technology of drug includes crushing, weighing, mixing, granulation, tabletting and packing etc., wherein crushing is primary ring
Section, for handling plurality of raw materials or auxiliary material.It include a variety of by taking oral granule as an example, in a pill with pharmaceutical activity
The auxiliary material that raw material and a large amount of assist digestions absorb, wherein auxiliary material commonly uses sugar or starch, and supplementary product consumption accounts for whole pill
95% or more.Therefore, medicament compartment needs to crush daily thousands of kilograms even several tons of sugar or starch, and the efficiency for crushing link is determined
Can determine postorder production enough go on smoothly.
Currently, the common pulverizer of medicament compartment is mostly vertical, the i.e. top charging, lower part discharging of pulverizer, and powder
Broken knife is rotated around vertical axis, and sieve is wound around on the outside of crushing knife, but which is unfavorable for material particles and passes through from sieve pore, is held
It easily causes material accumulation in screen bottom, reduces crush efficiency, and be easy to happen blocking.In addition, currently used charging side
Formula is using gravity, material is made to be fallen naturally into crushing bin, but which is not easily controlled charging rate, and charging is uneven.
Utility model content
In view of this, the utility model embodiment provides pulverizer, it is intended to solve material particles and be not easy sieving to lead
Cause blocking and the non-uniform problem of charging rate.
In order to achieve the above objectives, the technical scheme adopted by the utility model is
Pulverizer, comprising:
Drawing-in device, including screw rod and casing;The screw rod is located in the cavity of described sleeve pipe, and both ends and described sleeve pipe
Rotation connection, for driving material to move in the cavity of described sleeve pipe;
Shell is connected with described sleeve pipe, for accommodating the material of described sleeve pipe transmitting;The cavity of the shell is in cylinder
Shape, and axis is in the horizontal direction;
Crushing shaft is coaxially disposed with the cavity of the shell, and one end passes through the chamber that the shell extends into the shell
In vivo, for being connected with the housing into rotation;
Grinding device is fixedly connected, for crushing the shell in the cavity of the shell, and with the crushing shaft
Interior material;With
Sieve is coaxially disposed in the cavity of the shell, and with the crushing shaft, and is located at the grinding device
Outside;The sieve is used to the cavity of the shell being divided into mutually independent disintegrating area and discharge zone, the grinding device
In disintegrating area.
Further, one end of described sleeve pipe is equipped with the first feed pipe, and the other end is equipped with the first discharge nozzle;Described first into
Expects pipe and first discharge nozzle are fixedly connected with described sleeve pipe;
The drawing-in device further include:
Hopper, for storing material and being detachably connected with first feed pipe;With
Connecting tube, one end are detachably connected with first discharge nozzle, and the other end is detachably connected with the shell.
Further, the drawing-in device further include:
First hose is detachably connected between the hopper and first feed pipe, and with the hopper, and with
First feed pipe is detachably connected;With
Second hose is detachably connected between the connecting tube and first discharge nozzle, and with the connecting tube,
And it is detachably connected with first discharge nozzle.
Further, the drawing-in device further include:
Control valve, positioned at the top of the hopper, for the control material inflow hopper when opening, and for closing
Material is controlled when conjunction stops flow into the hopper.
Further, the drawing-in device further include:
First level sensor is arranged on the hopper, for detecting the high position of the material in the hopper, and is being touched
It is closed the control valve after hair;With
Second level sensor;It is arranged on the hopper, for detecting the material low level in the hopper, and is being touched
Open the control valve after hair.
Further, the side of the shell is equipped with dismountable door;The door is equipped with the second feed pipe, and institute
The second feed pipe is stated to connect with the intracorporal disintegrating area of the shell;
The connecting tube is detachably connected with second feed pipe;
The bottom end of the shell is located at the part in the discharge zone, is equipped with the second discharge nozzle;Second discharge nozzle with
The discharge zone of the shell connects.
Further, the drawing-in device further include:
Transmission shaft is detachably connected with the screw rod
Driving motor, and the transmission axis connection, and for driving the transmission shaft to rotate;With
Fixing pipe is sheathed on the transmission shaft, and is rotatablely connected with the transmission shaft;One end of the fixing pipe and institute
Casing is stated to be detachably connected.
Further, pulverizer further include:
It is used to support the rack of the drawing-in device and the shell;The driving motor is located in the rack.
Further, the grinding device includes:
Cutterhead in the form of annular discs is coaxially disposed with the crushing shaft, and for rotating under the drive of the crushing shaft;With
Multiple plate-like crushing knifes;One end of each crushing knife is connected with the cutterhead, and the other end is to the sieve
Extend at net, and gap setting between the edge of the crushing knife and the sieve;Multiple crushing knifes are around the cutterhead
Axis is radial to be uniformly distributed.
Further, pulverizer further include:
Motor is crushed, is fixedly connected with the crushing shaft, and for driving the crushing shaft to rotate.
By adopting the above-described technical solution, the technological progress that the utility model obtains is:
Screw rod is located in the cavity of casing, and both ends and casing are rotatablely connected, and when screw rod rotation, drives material along casing
Cavity it is mobile.Casing is connected with shell, and by controlling the rotation speed of screw rod, so as to adjust material, to fall into shell intracorporal
Speed keeps charging rate uniform.
The cavity of shell is cylindrical, and axis is in the horizontal direction.The coaxial arrangement of the cavity of crushing shaft and shell, and and shell
Body rotation connection.Grinding device is located in the cavity of shell, and is fixedly connected with crushing shaft, rotates under the drive of crushing shaft,
To crush the intracorporal material of shell.
Sieve is located in shell, and is coaxially disposed with crushing shaft, and be located at the outside of grinding device.Sieve is by the chamber of shell
Body is divided into mutually independent disintegrating area and discharge zone, grinding device and falls into the intracorporal material of shell and is respectively positioned on disintegrating area.Crush dress
After setting crushing material into the uniform little particle of partial size, the qualified particle in part passes through sieve pore under the influence of centrifugal force and enters
Expect area, the particle of another part qualification passes through sieve pore from the bottom of sieve and enter under the action of gravity and extruding force
Expect area.
The beneficial effects of adopting the technical scheme are that the pulverizer in this programme being capable of abundant crushed material
Material passes through sieve pore convenient for conforming particle, to avoid material accumulation from resulting in blockage in the bottom of crushing chamber, and the pulverizer is adopted
To avoid blocking, while crush efficiency is improved with screw feed convenient for control charging rate.
Detailed description of the invention
It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model
Example is applied, it for those of ordinary skill in the art, without any creative labor, can also be attached according to these
Figure obtains other attached drawings.
Fig. 1 is the schematic diagram of pulverizer provided by the embodiment of the utility model;
Fig. 2 is the connection schematic diagram of drawing-in device and shell provided by the embodiment of the utility model;
Fig. 3 is the cross-sectional view of the internal structure of shell provided by the embodiment of the utility model;
Fig. 4 is the assembling schematic diagram of screw rod and sleeve provided by the embodiment of the utility model;
Fig. 5 is the connection schematic diagram of crushing knife and sieve in the prior art.
Description of symbols:
11- screw rod, 12- casing, the first feed pipe of 121-, the first discharge nozzle of 122-, 13- hopper, the first hose of 131-,
132- control valve, the first level sensor of 133-, the second level sensor of 134-, 14- connecting tube, the second hose of 141-, 15- drive
Dynamic motor, 16- transmission shaft, 17- fixing pipe, 18- housing, 20- shell, 21- crushing shaft, 22- grinding device, 221- cutterhead,
222- crushing knife, 23- sieve, 24- door, the second feed pipe of 241-, the second discharge nozzle of 25-, 30- rack.
Specific embodiment
In being described below, for illustration and not for limitation, the tool of such as particular system structure, technology etc is proposed
Body details, to understand thoroughly the utility model embodiment.However, it will be clear to one skilled in the art that there is no these
The utility model also may be implemented in the other embodiments of detail.In other situations, omit to well-known system,
The detailed description of apparatus, circuit and method, in case unnecessary details interferes the description of the utility model.
In order to illustrate technical solution described in the utility model, the following is a description of specific embodiments.
The utility model embodiment provides a kind of pulverizer, and in conjunction with shown in Fig. 1, Fig. 3 and Fig. 4, pulverizer includes feeding
Device, shell 20, crushing shaft 21, grinding device 22 and sieve 23.Drawing-in device includes screw rod 11 and casing 12.Screw rod 11 is located at
In the cavity of casing 12, and both ends and casing 12 are rotatablely connected, for driving material to move in the cavity of casing 12.Shell 20
It is connected with casing 12, the material transmitted for containment sheath 12.
When screw rod 11 rotates, drives material to move along the cavity of casing 12, eventually fall into shell 20.By controlling spiral shell
The rotation speed of bar 11 keeps charging rate uniform so as to adjust the speed that material is fallen into shell 20, avoids blanking speed
The too fast blocking caused in shell 20.Preferably, the velocity of rotation of screw rod 11 is consistent with the crushing speed in shell 20, to mention
High crush efficiency.
As shown in connection with fig. 3, the cavity of shell 20 is cylindrical, and axis is in the horizontal direction.Crushing shaft 21 and shell 20
Cavity coaxial arrangement, and one end passes through shell 20 and extends into the cavity of shell 20, for being rotatablely connected with shell 20.Crush dress
It sets 22 to be located in the cavity of shell 20, and is fixedly connected with crushing shaft 21.Grinding device 22 rotates under the drive of crushing shaft 21,
To stir and smash the material in shell 20, meanwhile, the material particles of eminence are brought under the action of gravity and centrifugal force,
Mutually collision occurs, to enhance crushing effect.
Sieve 23 is located in the cavity of shell 20, and is coaxially disposed with crushing shaft 21, and be located at the outside of grinding device 22.
Sieve 23 is used to the cavity of shell 20 being divided into mutually independent disintegrating area and discharge zone, and grinding device 22 is located at disintegrating area
It is interior.
Preferably, sieve 23 is in tubbiness, and the inside of sieve 23 is disintegrating area, and grinding device 22 and material are respectively positioned on disintegrating area
It is interior.The outside of sieve 23 and the side wall of shell 20 form discharge zone, and the particle of partial size qualification passes through sieve pore after crushed, into out
Expect area.
Grinding device 22 by crushing material at the uniform little particle of partial size after, the conforming particle positioned at eminence is in centrifugal force
Enter discharge zone across sieve pore under effect, falls on the bottom of discharge zone.Conforming particle positioned at bottom is in gravity and extruding
Under the action of power, sieve pore is passed through from the bottom of sieve 23 and enters discharge zone.
In the present embodiment, the material of disintegrating area is sufficiently agitated and crushes, and qualified particle can smoothly pass through sieve
Hole enters discharge zone.As shown in connection with fig. 5, in compared with the prior art, the mode that crushing shaft and sieve are vertically arranged, the present embodiment
It can be avoided material to accumulate in bottom, while improving crush efficiency.
As one embodiment, as shown in connection with fig. 2, one end of casing 12 is equipped with the first feed pipe 121, and the other end is equipped with the
One discharge nozzle 122.First feed pipe 121 and the first discharge nozzle 122 are fixedly connected with casing 12.The drawing-in device further includes
For storing the hopper 13 and connecting tube 14 of material.Hopper 13 is detachably connected with the first feed pipe 121.One end of connecting tube 14
It is detachably connected with the first discharge nozzle 122, the other end is detachably connected with shell 20.
Material is temporarily stored into hopper 13, by 121 sleeve pipe 12 of the first feed pipe, then with screw rod 11 along casing 12
It is mobile, then enter in connecting tube 14 through the first discharge nozzle 122, in the cavity for eventually entering into shell 20.
In addition, in pharmaceutical production, after the completion of the crushing material of each batch or each type will cleaning equipment, prevent from handing over
Fork pollution.Hopper 13 is detachably connected with the first feed pipe 121, and connecting tube 14 and the first discharge nozzle 122 and shell 20 are can
Dismantling connection, therefore, convenient for all parts are disassembled cleaning after the completion of crushing.
In the present embodiment, as shown in connection with fig. 2, the drawing-in device further includes the first hose 131 and the second hose 141.The
One hose 131 is located between hopper 13 and the first feed pipe 121, and is detachably connected with hopper 13, and with the first feed pipe 121
It is detachably connected.Second hose 141 is located between connecting tube 14 and the first discharge nozzle 122, and is detachably connected with connecting tube 14,
And it is detachably connected with the first discharge nozzle 122.
Screw rod 11 can generate vibration in rotation, therefore the first hose 131 and the second hose 141 are arranged in the present embodiment,
Buffer function is played, avoids between hopper 13 and casing 12, worn between casing 12 and connecting tube 14.Preferably, first
Hose 131 and the second hose 141 select silicone tube.Preferably, the first hose 131 passes through clip and hopper 13 and the first feed pipe
121 are connected, and the second hose 141 is connected by clip with connecting tube 14 and the first discharge nozzle 122.
As one embodiment, as shown in connection with fig. 2, the drawing-in device further includes control valve 132.Control valve 132 is located at
The top of hopper 13 for the control material inflow hopper 13 when opening, and is used for the control material in closure and stops flow into material
Bucket 13.
In the production line, the transmission equipments such as upstream equipment such as vacuum feeder, conveyer belt are connected with hopper 13, whole to adjust
Control valve 132 is arranged in the present embodiment in the speed of production line.Preferably, control valve 132 is electromagnetism butterfly valve.Preferably, it controls
Valve 132 is connected with upstream equipment, and when control valve 132 is opened, upstream equipment is opened, when control valve 132 is closed, upstream equipment
It closes.
In the present embodiment, as shown in connection with fig. 2, the drawing-in device further includes the first level sensor 133 and the second material position
Sensor 134.First level sensor 133 is arranged on hopper 13, for detecting the high position of the material in hopper 13, and is being touched
It is closed control valve 132 after hair.Second level sensor 134 is arranged on hopper 13, low for detecting the material in hopper 13
Position, and in a triggered open control valve 132.
Specifically, pulverizer includes control device, such as PLC or single-chip microcontroller.Control device and control valve 132, the first material position
Sensor 133 is connected with the second level sensor 134.When the first level sensor 133 is triggered, control device is to control valve
132 send closure signal.When the second level sensor 134 is triggered, control device sends open signal to control valve 132.
As one embodiment, referring to figs. 1 and 2, the side of shell 20 is equipped with dismountable door 24.Door 24
It is equipped with the second feed pipe 241, and the second feed pipe 241 connects with the disintegrating area in shell 20.Connecting tube 14 and second into
Expects pipe 241 is detachably connected.The bottom end of shell 20 is located at the part in the discharge zone, is equipped with the second discharge nozzle 25.Second goes out
Expects pipe 25 and the discharge zone of shell 20 connect.
For the ease of connecting tube 14 is disassembled cleaning after the completion of crushing, in the present embodiment by connecting tube 14 and second into
Expects pipe 241 is set as being detachably connected, specifically, passing through clamp connection.After door 24 is opened, convenient for cleaning the chamber of shell 20
Body, specifically, door 24 and the side wall of shell 20 are connected by hinge.After material is crushed in disintegrating area, conforming particle is worn
It crosses sieve pore and enters discharge zone, then enter in downstream storage equipment through the second discharge nozzle 25.
As one embodiment, as shown in connection with fig. 4, the drawing-in device further includes driving motor 15, transmission shaft 16 and consolidates
Determine pipe 17.One end of transmission shaft 16 is connected with driving motor 15, and the other end is detachably connected with screw rod 11.Fixing pipe 17 is sheathed on
On transmission shaft 16, and it is rotatablely connected with transmission shaft 16.One end of fixing pipe 17 is detachably connected with casing 12.
Driving motor 15 drives transmission shaft 16 to rotate, and transmission shaft 16 drives screw rod 11 to rotate.Screw rod 11 and casing 12 connect
Material is touched, after the material of this batch or this type is completed to crush, needs screw rod 11 and casing 12 disassembling cleaning, because
This, fixing pipe 17 and casing 12 are set as being detachably connected.Specifically, fixing pipe 17 and casing 12 pass through clamp connection.
In the present embodiment, in conjunction with shown in Fig. 1 and Fig. 4, driving motor 15 and transmission shaft 16 pass through transmission band connection.Pulverizer
It further include housing 18 and the rack 30 for being used to support the drawing-in device and shell 20.Driving motor 15 is located in rack 30.Cover
Shell 18 is sheathed on conveyer belt, and bottom end is connected with rack 30, and top is connected with fixing pipe 17.
It is limited by installation space, if driving motor 15 and transmission shaft 16 are coaxially disposed, then driving motor 15, fixing pipe 17
It is not fixed easily with casing 12.Therefore, conveyer belt and housing 18 are set in the present embodiment, and driving motor 15 is arranged in rack
In 30.
As one embodiment, as shown in connection with fig. 3, grinding device 22 include cutterhead 221 in the form of annular discs and it is multiple be in plate
The crushing knife 222 of shape.Cutterhead 221 and crushing shaft 21 are coaxially disposed, and for rotating under the drive of crushing shaft 21.Each crushing
One end of knife 222 is connected with cutterhead 221, and the other end is set between the edge of crushing knife 222 and sieve 23 to extension at sieve 23
There is gap.Multiple crushing knifes 222 radial are uniformly distributed around the axis of cutterhead 221.
Cutterhead 221 rotates under the drive of crushing shaft 21, and each crushing knife 222 is driven to rotate about the axis.Each crushing knife
222 drive the material rotation in disintegrating area, generate impact effect to bulky grain, meanwhile, the object between crushing knife 222 and sieve 23
Material is also generated sharp impacts by grinding pressure between material particles, improve crush efficiency.
Specifically, pulverizer further includes crushing motor.It crushes motor to be fixedly connected with crushing shaft 21, and is crushed for driving
Axis 21 rotates.
Pulverizer in this programme can abundant comminuting matter, sieve pore is passed through convenient for conforming particle, to avoid material heap
Product results in blockage in the bottom of crushing chamber, and the pulverizer uses screw feed, convenient for control charging rate, to avoid blocking up
Plug, while improving crush efficiency.
Embodiment described above is only to illustrate the technical solution of the utility model, rather than its limitations;Although referring to before
Embodiment is stated the utility model is described in detail, those skilled in the art should understand that: it still can be with
It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features;And
These are modified or replaceed, the spirit for various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution
And range, it should be included within the scope of protection of this utility model.
Claims (10)
1. pulverizer characterized by comprising
Drawing-in device, including screw rod and casing;The screw rod is located in the cavity of described sleeve pipe, and both ends and described sleeve pipe rotate
Connection, for driving material to move in the cavity of described sleeve pipe;
Shell is connected with described sleeve pipe, for accommodating the material of described sleeve pipe transmitting;The cavity of the shell is cylindrical, and
Axis is in the horizontal direction;
Crushing shaft is coaxially disposed with the cavity of the shell, and one end passes through the shell and extends into the cavity of the shell,
For being connected with the housing into rotation;
Grinding device is fixedly connected in the cavity of the shell, and with the crushing shaft, intracorporal for crushing the shell
Material;With
Sieve is coaxially disposed in the cavity of the shell, and with the crushing shaft, and is located at the outer of the grinding device
Side;The sieve is used to the cavity of the shell being divided into mutually independent disintegrating area and discharge zone, the grinding device position
In in disintegrating area.
2. pulverizer according to claim 1, it is characterised in that: one end of described sleeve pipe is equipped with the first feed pipe, another
End is equipped with the first discharge nozzle;First feed pipe and first discharge nozzle are fixedly connected with described sleeve pipe;
The drawing-in device further include:
Hopper, for storing material and being detachably connected with first feed pipe;With
Connecting tube, one end are detachably connected with first discharge nozzle, and the other end is detachably connected with the shell.
3. pulverizer according to claim 2, which is characterized in that the drawing-in device further include:
First hose is detachably connected between the hopper and first feed pipe, and with the hopper, and with it is described
First feed pipe is detachably connected;With
Second hose is detachably connected between the connecting tube and first discharge nozzle, and with the connecting tube, and with
First discharge nozzle is detachably connected.
4. pulverizer according to claim 2, which is characterized in that the drawing-in device further include:
Control valve, positioned at the top of the hopper, for the control material inflow hopper when opening, and in closure
Control material stops flow into the hopper.
5. pulverizer according to claim 4, which is characterized in that the drawing-in device further include:
First level sensor is arranged on the hopper, for detecting the high position of the material in the hopper, and in a triggered
It is closed the control valve;With
Second level sensor;It is arranged on the hopper, for detecting the material low level in the hopper, and in a triggered
Open the control valve.
6. pulverizer according to claim 2, it is characterised in that: the side of the shell is equipped with dismountable door;Institute
Door is stated equipped with the second feed pipe, and second feed pipe connects with the intracorporal disintegrating area of the shell;
The connecting tube is detachably connected with second feed pipe;
The bottom end of the shell is located at the part in the discharge zone, is equipped with the second discharge nozzle;Second discharge nozzle with it is described
The discharge zone of shell connects.
7. pulverizer according to claim 1, which is characterized in that the drawing-in device further include:
Transmission shaft is detachably connected with the screw rod;
Driving motor, and the transmission axis connection, and for driving the transmission shaft to rotate;With
Fixing pipe is sheathed on the transmission shaft, and is rotatablely connected with the transmission shaft;One end of the fixing pipe and the set
Pipe is detachably connected.
8. pulverizer according to claim 7, which is characterized in that further include:
It is used to support the rack of the drawing-in device and the shell;The driving motor is located in the rack.
9. pulverizer according to claim 1, which is characterized in that the grinding device includes:
Cutterhead in the form of annular discs is coaxially disposed with the crushing shaft, and for rotating under the drive of the crushing shaft;With
Multiple plate-like crushing knifes;One end of each crushing knife is connected with the cutterhead, and the other end is at the sieve
Extend, and gap setting between the edge of the crushing knife and the sieve;Axis of multiple crushing knifes around the cutterhead
It is radial to be uniformly distributed.
10. pulverizer according to any one of claims 1 to 9, which is characterized in that further include:
Motor is crushed, is fixedly connected with the crushing shaft, and for driving the crushing shaft to rotate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820480937.7U CN208275543U (en) | 2018-03-30 | 2018-03-30 | Pulverizer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820480937.7U CN208275543U (en) | 2018-03-30 | 2018-03-30 | Pulverizer |
Publications (1)
Publication Number | Publication Date |
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CN208275543U true CN208275543U (en) | 2018-12-25 |
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ID=64749001
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CN201820480937.7U Expired - Fee Related CN208275543U (en) | 2018-03-30 | 2018-03-30 | Pulverizer |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110681464A (en) * | 2019-11-18 | 2020-01-14 | 重庆力耘喷嘴有限公司 | Medicine crushing apparatus and medicine feeding device |
CN112844704A (en) * | 2021-03-04 | 2021-05-28 | 北京格瑞德曼仪器设备有限公司 | Smash appearance subassembly and smash appearance |
-
2018
- 2018-03-30 CN CN201820480937.7U patent/CN208275543U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110681464A (en) * | 2019-11-18 | 2020-01-14 | 重庆力耘喷嘴有限公司 | Medicine crushing apparatus and medicine feeding device |
CN110681464B (en) * | 2019-11-18 | 2024-03-12 | 重庆力耘喷嘴有限公司 | Medicine crushing apparatus |
CN112844704A (en) * | 2021-03-04 | 2021-05-28 | 北京格瑞德曼仪器设备有限公司 | Smash appearance subassembly and smash appearance |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20181225 Termination date: 20210330 |