CN219745063U - Crushing device for sodium chloride caking - Google Patents

Abstract

The utility model discloses a crushing device for sodium chloride caking, which comprises a shell, a grinding barrel, a crushing barrel and a supporting ring body, wherein the shell, the grinding barrel, the crushing barrel and the supporting ring body are arranged from bottom to top; a blanking cavity is arranged in the shell, an inverted conical grinding cavity is arranged in the grinding cylinder, and a powder cavity is arranged at the lower part of the grinding cylinder; two groups of sealing plates are hinged to the top of the powder cavity, two groups of driving cylinders are correspondingly arranged on two sides of the powder cavity, and the driving cylinders drive the sealing plates to turn upwards to seal the outlet of the grinding cavity; the crushing cylinder body is internally provided with a crushing tray, and the supporting ring body is internally clamped with a crushing pressing disc; jacking cylinders for driving the crushing pressure plates to lift are symmetrically arranged on two sides of the grinding cylinder; a driving shaft is arranged in the powder grinding cylinder body, a plurality of groups of grinding mechanisms are horizontally arranged on the circumference of the driving shaft, and a supporting screen plate is arranged in the grinding cavity corresponding to the grinding mechanisms. The crushing device can primarily crush the large-particle-size agglomerates, so that the grinding difficulty is reduced; the primarily crushed salt particles enter a grinding cavity to be ground in multiple stages, and the product with uniform and controllable particle size is obtained.

Description

Crushing device for sodium chloride caking

Technical Field

The utility model relates to a crushing device, in particular to a crushing device for sodium chloride caking.

Background

The medicinal sodium chloride can be aggregated to generate partial blocky sodium chloride in the drying process, and the blocky salt can influence the packaging of the product, and the blocky salt is discarded in the production process, so that the loss of the product is increased. In addition, when the sodium chloride packaging system fails, salt stored in the storage bin can be agglomerated, so that the packaging efficiency of sodium chloride is affected. The crushing device of conventional setting is when damaged to cubic sodium chloride, and its damaged particle diameter is difficult to control, and the homogeneity of particle diameter is poor, and the powder rate is higher when small particle diameter is broken.

Chinese patent CN106824418A discloses a "brown sugar caking breaker", which comprises a cylindrical drum provided with a crushing bin and a storage bin, and a screen mesh arranged between the crushing bin and the storage bin; the crushing device has the advantages that the crushing blades are arranged in the crushing bin and are connected with the transmission shaft, the transmission shaft is connected with the driving mechanism, the driving mechanism realizes the crushing of the blocky materials in the process of driving the crushing blades to rotate, and the crushing device has the defects that part of the blocky materials are thrown at the periphery of the crushing bin along with the rotation of the crushing blades, the crushing cannot be well realized, and the crushed particle size is difficult to control; in addition, the crushing is difficult to effectively crush part of materials with large particle size and high hardness, and the crushing requirement of the massive sodium chloride is not met.

Disclosure of Invention

The utility model aims to: the utility model aims to provide a crushing device with high crushing efficiency and uniform particle size control so as to meet the crushing requirement on massive sodium chloride.

The technical scheme is as follows: the utility model relates to a crushing device for sodium chloride caking, which comprises a shell, a grinding barrel, a crushing barrel and a supporting ring body, wherein the shell, the grinding barrel, the crushing barrel and the supporting ring body are arranged from bottom to top; a blanking cavity is arranged in the shell, an inverted conical grinding cavity is arranged in the grinding cylinder, and a powder cavity which is communicated with the grinding cavity and the blanking cavity is arranged at the lower part of the grinding cylinder;

two groups of sealing plates corresponding to the outlets of the grinding cavity are hinged to the top of the powder cavity; two groups of driving cylinders which are horizontally arranged are correspondingly arranged on two sides of the powder cavity, and the driving cylinders drive the sealing plate to upwards overturn to seal the outlet of the grinding cavity;

the crushing cylinder is detachably arranged at the upper end of the grinding cylinder, a crushing tray is arranged in the crushing cylinder, and a crushing pressing plate corresponding to the crushing tray is clamped in the supporting ring body; jacking cylinders which drive the crushing pressing plates to lift and are attached to or separated from the crushing trays are symmetrically arranged on two sides of the grinding cylinder;

the grinding cylinder is positioned on the axis of the grinding cavity and is provided with a driving shaft, a plurality of groups of grinding mechanisms are horizontally arranged on the circumference of the driving shaft, and a supporting screen plate is arranged in the grinding cavity corresponding to the grinding mechanisms; and the bottom end of the driving shaft is connected with a driving motor.

Preferably, the grinding cavity comprises a primary grinding cavity and a secondary grinding cavity which are correspondingly arranged up and down; the grinding mechanism comprises a first grinding mechanism and a second grinding mechanism which are axially distributed along the driving shaft and are respectively arranged corresponding to the primary grinding cavity and the secondary grinding cavity.

Preferably, the first grinding mechanism and the second grinding mechanism comprise a press roller and a grinding sleeve sleeved on the press roller, wherein the press roller is perpendicular to the driving shaft, and the outer end of the press roller is sleeved with a supporting roller.

Preferably, a supporting table is arranged at the joint of the primary grinding cavity and the secondary grinding cavity, the supporting screen plate is clamped on the inner ring of the supporting table, and the supporting rollers walk along the top surface of the supporting table.

Preferably, a supporting ring is arranged on the inner wall of the crushing cylinder, and a first wedge-shaped surface which is inclined downwards is arranged at the top end of the supporting ring; the lower side of the outer circumference of the crushing tray is provided with a second wedge-shaped surface, and an elastic supporting washer for supporting the crushing tray is arranged between the first wedge-shaped surface and the second wedge-shaped surface.

Preferably, the outer circumference of the top surface of the crushing tray is provided with a plurality of positioning columns, and the circumference of the bottom surface of the crushing pressing plate is provided with positioning holes corresponding to the positioning columns.

Preferably, the bottom surface of the crushing pressing disc is provided with a plurality of cutting edges in parallel, and the top surface of the crushing pressing disc is provided with a notch corresponding to the cutting edges.

Preferably, the top of the grinding cylinder body is provided with a filter screen plate corresponding to the crushing cylinder body.

Preferably, a discharging chute which is arranged corresponding to the discharging cavity is arranged on the front side of the shell.

Preferably, a control panel is arranged on the front side of the casing, and the control panel respectively controls the jacking cylinder, the driving motor and the driving cylinder to move.

The beneficial effects are that: compared with the prior art, the utility model has the following outstanding advantages: 1. the crushing device is provided with the crushing pressing disc and the crushing tray, and can primarily crush the large-particle-size agglomerates, so that the subsequent grinding operation is facilitated, and the grinding difficulty is reduced; 2. the primarily crushed salt particles sequentially enter a primary grinding cavity and a secondary grinding cavity, and the grinding of the salt particles with large particle size is efficiently realized through a first grinding mechanism and a second grinding mechanism which are matched with the primary grinding cavity and the secondary grinding cavity, so that the product with uniform particle size and controllable particle size is obtained; 3. the crushing platen and the crushing tray structure have high crushing effect, are safe to operate, and can prolong the service life of the crushing platen or the crushing tray; 4. according to the grinding cavity structure, raw materials can be gathered in the center, so that the grinding effect on the block salt is gradually improved by matching with the grinding mechanism.

Drawings

FIG. 1 is a schematic perspective view of a crushing device according to the present utility model;

FIG. 2 is a cross-sectional view of the crushing device of FIG. 1;

FIG. 3 is a bottom view of the crush platen structure of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure shown in FIG. 2A;

FIG. 5 is an enlarged schematic view of the structure shown at B in FIG. 2;

FIG. 6 is an enlarged schematic view of the structure at C in FIG. 2;

fig. 7 is a schematic representation of a process flow for the production and treatment of a pharmaceutical sodium chloride block.

Reference numerals: 1. a housing; 2. grinding a cylinder; 3. crushing a cylinder; 301. a support ring; 302. a first wedge surface; 4. a support ring body; 5. a jacking cylinder; 6. a lifting rod; 7. supporting the ear block; 8. crushing a pressing disc; 801. a tray body; 802. a collar; 803. a cutting edge; 804. positioning holes; 9. a blanking chute; 10. a control panel; 11. a support leg; 12. a closing plate; 13. crushing the tray; 131. a notch; 132. positioning columns; 133. a second wedge surface; 14. a filter screen plate; 15. a grinding chamber; 16. a primary grinding chamber; 17. a secondary grinding chamber; 18. a drive shaft; 19. supporting the cover body; 20. a driving motor; 21. a powder cavity; 22. a blanking cavity; 23. a first grinding mechanism; 24. a second grinding mechanism; 25. an elastic support washer; 26. a support table; 27. a press roller; 28. a grinding sleeve; 29. supporting rollers; 30. a support screen; 31. a drive cylinder; 32. the push rod is driven.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 7 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

As shown in fig. 7, in the process of sub-packaging the medicinal sodium chloride, sodium chloride caking is required to be separated through a vibrating screen, and sodium chloride with different granularity and separated from discharge holes with different particle sizes of the vibrating screen can be selectively sub-packaged; wherein, the powder salt can be collected and packed separately, the granular salt is stored in a stock bin for standby, the sodium chloride caking separated by the stock bin and the vibrating screen can be separated and enter a crushing device for crushing and grinding to obtain sodium chloride with different particle diameters, and the split charging is carried out.

As shown in fig. 1-2, the crushing device for sodium chloride caking comprises a shell 1, a grinding cylinder 2, a crushing cylinder 3 and a supporting ring body 4 which are arranged from bottom to top, wherein the bottom of the shell 1 is provided with a supporting leg 11, a blanking cavity 22 is arranged in the shell 1, the front side of the shell 1 is provided with a blanking chute 9 which is arranged corresponding to the blanking cavity 22, and powder salt stored in the blanking cavity 22 can be discharged through the blanking chute 9 for sub-packaging; an inverted conical grinding cavity 15 is arranged in the grinding cylinder 2, the vertical cross section of the grinding cavity 15 is of an inverted horn-shaped structure, a powder cavity 21 which is communicated with the grinding cavity 15 and a blanking cavity 22 is arranged at the lower part of the grinding cylinder 2, and the diameter of the powder cavity 21 is larger than the diameter of an outlet of the grinding cavity 15; the top of the powder cavity 21 is hinged with two groups of sealing plates 12 corresponding to the outlet of the grinding cavity 15, the sealing plates 12 are of semicircular structures, the two groups of sealing plates can be spliced into a circular structure, as shown in fig. 6, the inner wall of one end shell 1 at the outer side of each semicircular sealing plate is hinged, the sealing plates 12 can be turned upwards along the hinge parts to realize sealing of the outlet of the grinding cavity 15, and can be turned downwards to realize opening of the outlet of the grinding cavity, so that powder salt is discharged. Two groups of driving cylinders 31 which are horizontally arranged are correspondingly arranged on two sides of the powder cavity 21, a driving push rod 32 is arranged at the front end of the driving cylinder 31, the driving push rod 32 is positioned on the lower side of the corresponding semicircular sealing plate 12, and the sealing plate 12 can be pushed to turn upwards from a vertical state to seal the outlet of the grinding cavity 15 in the process of driving the driving push rod 32 to advance by the driving cylinder 31; when the grinding in the grinding cavity is required to be completed, the driving cylinder 31 drives the driving push rod to retract, and the sealing plate can be turned downwards under the action of the dead weight and the weight of the powder salt, so that the outlet of the grinding cavity is opened for discharging.

As shown in fig. 1-2, the crushing cylinder 3 is detachably arranged at the upper end of the grinding cylinder 2, and the crushing cylinder 3 and the grinding cylinder are connected by adopting threaded connection or clamping connection, so that the crushing cylinder and the grinding cylinder are conveniently separated, and the internal overhaul is carried out. The crushing cylinder 3 is internally provided with a crushing tray 13, the crushing tray 13 is a mesh plate, and the size and the distribution density of the mesh plate can be selected according to the required salt particle size. As shown in fig. 4, the inner wall of the crushing cylinder 3 is provided with a supporting ring 301, and the top end of the supporting ring 301 is provided with a first wedge-shaped surface 302 which is inclined downwards; the lower side of the outer circumference of the crushing tray 13 is provided with a second wedge-shaped surface 133, and an elastic supporting washer 25 for supporting the crushing tray 13 is arranged between the first wedge-shaped surface 302 and the second wedge-shaped surface 133, namely the crushing tray 13 is supported and arranged on the supporting ring 301 through the elastic supporting washer 25; the elastic support gasket is internally provided with a deformation cavity or a deformation channel, when the crushing tray 13 is subjected to larger pressure, the crushing tray or the crushing pressure plate can be prevented from being damaged by downward movement of the elastic support gasket through extrusion deformation.

As shown in fig. 2 and 3, the support ring 4 is disposed right above the crushing cylinder, two groups of support lugs 7 are symmetrically disposed at the outer edge of the support ring 4, two groups of jacking cylinders 5 are symmetrically disposed at two sides of the grinding cylinder 2, the top ends of jacking rods 6 of the jacking cylinders 5 are connected with the support lugs 7, and the support ring 4 can be driven to move up and down through the two groups of jacking cylinders 5. The support ring body 4 is internally clamped with a crushing pressing disc 8, the crushing pressing disc 8 comprises a disc body 801 and a clamping ring 802 arranged on the outer circumference of the top end of the disc body, and the crushing pressing disc 8 is clamped on the support ring body 4 through the clamping ring 802; the outer circumference of the top surface of the crushing tray 13 is provided with a plurality of positioning columns 132, the circumference of the bottom surface of the tray 801 is provided with positioning holes 804 corresponding to the positioning columns, the top ends of the positioning columns are sleeved in the positioning holes, when the crushing platen ascends or descends, the positioning columns can be used for positioning, and particularly, the bottom surface of the crushing platen 8 is provided with a plurality of cutting edges 803 in parallel, the top surface of the crushing tray 13 is provided with notches 131 corresponding to the cutting edges, and the positioning columns can prevent the falling of the crushing platen when the positions of the crushing platen and the crushing tray are different from the set positions, so that the cutting edges of the crushing platen and the notches of the crushing tray can be prevented from being damaged.

The grinding cylinder 2 is positioned on the axis of the grinding cavity 15 and is provided with a driving shaft 18, the circumference of the upper part of the driving shaft 18 is horizontally provided with a plurality of groups of grinding mechanisms, and the grinding cavity 15 is internally provided with a supporting screen 30 corresponding to the grinding mechanisms; the bottom end of the driving shaft 18 is connected with a driving motor 20, a supporting cover 19 is arranged in the blanking cavity, and the supporting cover 19 is correspondingly arranged above the driving motor and supports the driving shaft 18; the centers of the closing plate 12 and the supporting net plate 30 are provided with position holes for the driving shaft to pass through at positions corresponding to the driving shaft 18. When the device works, the driving motor drives the driving shaft to rotate, and the grinding mechanism arranged on the circumference of the driving shaft is matched with the supporting screen plate to grind and crush the granular salt, so that the powder salt with the required particle size is obtained.

Preferably, a control panel 10 is provided on the front side of the casing 1, and the control panel 10 controls the movement of the jack 5, the driving motor 20, and the driving cylinder 31, respectively.

In an alternative embodiment, as shown in fig. 2 and 5-6, the grinding chamber 15 includes a primary grinding chamber 16 and a secondary grinding chamber 17 disposed one above the other; the grinding mechanism comprises a first grinding mechanism 23 and a second grinding mechanism 24 which are axially distributed along a driving shaft and are respectively arranged corresponding to a primary grinding cavity and a secondary grinding cavity, the first grinding mechanism 23 and the second grinding mechanism 24 respectively comprise a press roller 27 which is vertically arranged with the driving shaft and a grinding sleeve 28 which is sleeved on the press roller, the outer end of the press roller 27 is sleeved with a supporting roller 29, a supporting table 26 is arranged at the joint of the primary grinding cavity 16 and the secondary grinding cavity 17, a supporting screen 30 is clamped on the inner ring of the supporting table, and the supporting roller 29 walks along the top surface of the supporting table 26. The corresponding supporting screen plate at the lower side of the second grinding mechanism 24 can be withdrawn according to the requirement, and if the supporting screen plate is arranged, the corresponding supporting roller 29 can walk along the supporting screen plate; if the supporting net plate arranged at the lower side of the second grinding mechanism 24 is withdrawn, the supporting roller 29 can walk along the sealing plate. In the embodiment, the multistage grinding cavity is matched with the grinding mechanism, so that the salt particles can be further crushed and ground, and the selection of different particle sizes is met.

In another embodiment, as shown in fig. 2, a filter screen plate 14 is arranged at the top of the grinding barrel 2 corresponding to the crushing barrel 3, the filter screen plate 14 can process and separate the block salt which is primarily crushed in the crushing barrel, the block salt with larger particle size is blocked and filtered, and the particle salt with fine particle size enters the grinding barrel 2 for grinding, so that the particle size of the particle salt is further reduced. After a period of operation, the large-size salt particles on the screen plate 14 can be taken out and added into a crushing cylinder for further crushing treatment.

In the above embodiment, the driving cylinder and the jacking cylinder may be a driving cylinder, a driving electric cylinder or a hydraulic cylinder, so as to realize a driving function.

The working principle or the working method of the utility model:

firstly, a jacking cylinder 5 is started through a control panel 10 to drive a jacking rod 6 to ascend so as to top a supporting ring body 4, separation of a crushing pressure plate 8 and an upper opening of a crushing cylinder body 3 is realized, and massive sodium chloride is added into the crushing cylinder body and is flatly spread on a crushing tray 13; secondly, the jacking cylinder 5 is started through the control panel 10 to drive the jacking rod 6 to descend, the crushing pressing disc 8 is matched with the crushing tray in the descending process, the massive sodium chloride can be primarily crushed through extrusion, and crushed granular salt passes through the grinding cylinder 2; thirdly, the control panel 10 starts the driving motor to drive the driving shaft 18 to rotate, the driving shaft 18 drives the grinding mechanism to rotate, and the granular salt entering the grinding cavity can be ground into powder with different particle diameters under the cooperation of the multi-stage grinding mechanism and the supporting screen 30; finally, after finishing grinding, the driving cylinder 31 is started through the control panel to shrink the driving push rod 32, and the closing plate is opened to enable the powdery salt to pass through the blanking cavity and the blanking chute. The crushing device can meet the requirement of crushing and grinding the blocky sodium chloride with different particle sizes in multiple stages, so that sodium chloride with different particle sizes is obtained.

The foregoing is a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model and are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. The crushing device for sodium chloride caking is characterized by comprising a shell (1), a grinding cylinder (2), a crushing cylinder (3) and a supporting ring body (4) which are arranged from bottom to top; a blanking cavity (22) is arranged in the shell (1), an inverted conical grinding cavity (15) is arranged in the grinding cylinder (2), and a powder cavity (21) which is communicated with the grinding cavity (15) and the blanking cavity (22) is arranged at the lower part of the grinding cylinder (2);

two groups of sealing plates (12) corresponding to the outlets of the grinding cavity (15) are hinged to the top of the powder cavity (21); two groups of driving cylinders (31) which are horizontally arranged are correspondingly arranged at two sides of the powder cavity (21), and the driving cylinders (31) drive the sealing plate (12) to upwards overturn to seal the outlet of the grinding cavity (15);

the crushing cylinder body (3) is detachably arranged at the upper end of the grinding cylinder body (2), a crushing tray (13) is arranged in the crushing cylinder body (3), and a crushing pressing disc (8) corresponding to the crushing tray is clamped in the supporting ring body (4); jacking cylinders (5) which drive the crushing pressing plates (8) to lift and are attached to or separated from the crushing pressing plates are symmetrically arranged on two sides of the grinding cylinder body (2);

the grinding cylinder body (2) is positioned on the axis of the grinding cavity (15) and is provided with a driving shaft (18), a plurality of groups of grinding mechanisms are horizontally arranged on the circumference of the driving shaft (18), and a supporting screen plate (30) is arranged in the grinding cavity (15) corresponding to the grinding mechanisms; the bottom end of the driving shaft (18) is connected with a driving motor (20).

2. The sodium chloride agglomerate breaking device according to claim 1, characterized in that the grinding chamber (15) comprises a primary grinding chamber (16) and a secondary grinding chamber (17) arranged correspondingly up and down; the grinding mechanism comprises a first grinding mechanism (23) and a second grinding mechanism (24) which are axially distributed along the driving shaft and are respectively arranged corresponding to the primary grinding cavity and the secondary grinding cavity.

3. The sodium chloride caking crushing device according to claim 2, wherein the first grinding mechanism (23) and the second grinding mechanism (24) comprise a press roller (27) which is arranged vertically to the driving shaft and a grinding sleeve (28) which is sleeved on the press roller, and the outer end of the press roller (27) is sleeved with a supporting roller (29).

4. A sodium chloride caking crushing device according to claim 3, wherein a supporting table (26) is arranged at the joint of the primary grinding cavity (16) and the secondary grinding cavity (17), the supporting net plate (30) is clamped at the inner ring of the supporting table, and the supporting roller (29) walks along the top surface of the supporting table (26).

5. The sodium chloride agglomerate crushing device according to claim 1, characterized in that the inner wall of the crushing cylinder (3) is provided with a supporting ring (301), and the top end of the supporting ring (301) is provided with a first wedge-shaped surface (302) inclined downwards; the lower side of the outer circumference of the crushing tray (13) is provided with a second wedge-shaped surface (133), and an elastic supporting washer (25) for supporting the crushing tray (13) is arranged between the first wedge-shaped surface (302) and the second wedge-shaped surface (133).

6. The crushing device for sodium chloride caking according to claim 1, wherein a plurality of positioning columns (132) are arranged on the outer circumference of the top surface of the crushing tray (13), and positioning holes (804) are formed on the circumference of the bottom surface of the crushing platen (8) corresponding to the positioning columns.

7. The sodium chloride caking crushing device according to claim 1, wherein a plurality of cutting edges (803) are arranged on the bottom surface of the crushing pressing disc (8) in parallel, and notches (131) are arranged on the top surface of the crushing pressing disc (13) corresponding to the cutting edges.

8. The crushing device of sodium chloride agglomerates according to claim 1, characterized in that the top of the grinding cylinder (2) is provided with a filter screen plate (14) corresponding to the crushing cylinder (3).

9. The sodium chloride agglomerate crushing device according to claim 1, characterized in that the front side of the housing (1) is provided with a blanking chute (9) arranged in correspondence with the blanking cavity (22).

10. The sodium chloride agglomerate crushing device according to claim 1, wherein a control panel (10) is arranged on the front side of the casing (1), and the control panel (10) controls the jacking cylinder (5), the driving motor (20) and the driving cylinder (31) to move respectively.