CN115193553A

CN115193553A - Material shearing device

Info

Publication number: CN115193553A
Application number: CN202210641276.2A
Authority: CN
Inventors: 郑朝志
Original assignee: Amcon (fujian) Environment Protection Equipment Co ltd
Current assignee: Amcon (fujian) Environment Protection Equipment Co ltd
Priority date: 2022-06-08
Filing date: 2022-06-08
Publication date: 2022-10-18
Anticipated expiration: 2042-06-08
Also published as: CN115193553B

Abstract

A material shearing device comprising: the device comprises a storage bin, a refining screw shaft, a shear plate, a first power source and a second power source; the material homogenizing screw shaft is arranged in the storage bin; a storage bin, comprising: a pair of side walls, a front wall, a rear wall and a bottom plate which are opposite and vertical from each other; the left and right opposite side walls are used for erecting two end parts of the refining screw shaft; the refining screw shaft is driven by a first power source to rotate and is used for refining; a long hole is arranged on the bottom plate close to the rear wall; the upper part of the shear plate is connected with a driving mechanism, and the driving mechanism is connected with a second power source; the second power source drives the driving mechanism to drive the shearing plate to do reciprocating circular motion, so that the shearing plate shears the materials, and the sheared materials are pushed out of the bin by the shearing plate through the strip-shaped holes. The invention can smoothly push and extrude fibrous, large and hard materials after shearing.

Description

Material shearing device

Technical Field

The invention belongs to the technical field of material forming devices, and particularly relates to a material shearing device.

Background

The filter cake still contains high water content, so the filter cake needs to be evaporated and removed by high temperature in the chamber of the dryer, and the filter cake can be stored or transported for reuse after being dried. When the filter cake enters the chamber of the dryer for drying, the filter cake enters the chamber through a feeding device arranged at a feeding inlet at the top of the upper end of the dryer, so that the filter cake enters the chamber of the dryer to remove water and achieve the purpose of drying.

The filter cake is when getting into the desiccator mummification, finds that the filter cake passes through feed arrangement and gets into the desiccator mummification and has the defect, because filterable material is comparatively complicated, and some material filters the back filter cake and still contains viscosity and the high difficult mummification of moisture content, and the biscuit production efficiency is strained to the direct influence desiccator. Therefore, the feeding port of the existing dryer is provided with the strip making machine to extrude the filter cake into strips, the strip filter cake falls into a platform of the dryer to be heated and dried, so that the water in the filter cake is quickly evaporated in a cavity of the dryer, and the strip filter cake is quick in water removal and good in drying effect. Chinese patent 202011014672.X discloses a reciprocating rolling material forming device, rolling the material above a bearing plate by a rolling plate in a reciprocating way, and the extrusion intensity is strong and the strip making effect is good. However, the inventor finds that the fiber-shaped material which is easy to agglomerate cannot be formed into strips and blocks the pores on the pressure bearing plate in the process of using the device. In addition, some large, hard materials are easily caught in the grinding plate and the bearing plate and are overloaded.

Disclosure of Invention

The invention aims to provide a material shearing device which can shear fibrous materials.

The invention is realized by the following steps:

a material shearing device comprising: the device comprises a storage bin, a refining screw shaft, a shear plate, a first power source and a second power source;

the refining screw shaft is arranged in the storage bin;

the feed bin includes: a pair of side walls, a front wall, a rear wall and a bottom plate which are opposite and vertical from each other;

the left and right opposite side walls are used for erecting two end parts of the refining screw shaft; the refining screw shaft is driven by the first power source to rotate and is used for refining;

a long hole is arranged on the bottom plate close to the rear wall;

the upper part of the shear plate is connected with a driving mechanism, and the driving mechanism is connected with the second power source; the second power source drives the driving mechanism to drive the shearing plate to do reciprocating circular motion, so that one surface, facing the rear wall, of the shearing plate is attached to the rear wall, the bottom end of the shearing plate moves up and down in a reciprocating mode in the strip hole to shear the material, and the sheared material is pushed out of the bin by the shearing plate through the strip hole.

Further, the drive mechanism includes: a transmission mechanism and a set of drive shafts;

a supporting plate is further arranged on the outer side of the rear wall of the storage bin; the supporting plate is used for erecting the group of driving shafts on the front wall of the storage bin; the group of driving shafts are arranged on the shear plate in a penetrating way through a group of eccentric devices sleeved on the group of driving shafts;

the height of the rear wall of the storage bin close to the shear plate is lower than that of the shear plate so as to give way for the eccentric device arranged on the shear plate;

the set of drive shafts is connected to the second power source through the transmission mechanism; the group of driving shafts are driven by the second power source to rotate at the same speed and in the same direction to drive the shearing plate to do reciprocating synchronous circular motion, so that the bottom end of the shearing plate can perform reciprocating shearing on materials entering the long strip hole of the bottom plate, and the bottom end of the shearing plate can perform periodic shearing on the materials and push the materials to fall downwards from the long strip hole of the bottom plate in the process of periodically entering the long strip hole of the bottom plate.

Further, the bottom end of the shear plate is a blade, one side facing the front wall is a vertical plane, and one side facing the rear wall is an inclined plane.

Further, the bottom plate is arranged in an inclined mode, the rear wall of the storage bin is located at the lower position of the bottom plate, and the front wall of the storage bin is located at the higher position of the bottom plate.

Furthermore, one side face, facing the front wall, of the shear plate is provided with a row of parallel transverse disturbance rods for disturbing the material deposited at the bottom of the bottom plate.

Furthermore, a row of arc-shaped yielding holes corresponding to the transverse disturbing rods in number are formed in the obliquely arranged bottom plate and used for yielding the transverse disturbing rods.

Further, the material shearing device is arranged above a material conveying platform in the drying room, and special materials fall onto the material conveying platform from the material shearing device to be dried.

Furthermore, a bridge breaking device is arranged above the refining screw shaft.

Further, the bridge breaking device comprises: the bridge breaking shaft is uniformly spaced and sequentially overlapped and staggered with a plurality of fan-shaped sleeve plates; and a cutting plate parallel to the bridge breaking shaft is arranged at the overlapped part between every two adjacent fan-shaped sleeve plates.

Furthermore, two or more than two bridge-breaking blades perpendicular to the bridge-breaking shaft are arranged between every two adjacent fan-shaped sleeve plates;

the bridge breaking blade and the cutting plate between every two adjacent fan-shaped sleeve plates are arranged at uniform intervals in the radial direction of the bridge breaking shaft;

all the bridge breaking blades are uniformly arranged in the axial direction of the bridge breaking shaft at intervals and are sequentially staggered in the radial direction at uniform angles.

The invention has the advantages that:

1. for fibrous, large and hard materials, the materials can be smoothly extruded after being sheared;

2. a row of disturbance rods on the side edge of the shear plate can stir accumulated materials in the triangular area, so that part of the materials can be pushed out from the arc-shaped abdicating holes, and blockage caused by deposition of the materials can be prevented.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a schematic view of the whole structure of the material shearing device used for the drying room.

Fig. 2 is a schematic diagram of the exploded structure of fig. 1.

Fig. 3 is a longitudinal sectional view of fig. 1.

Fig. 4 is a top view of fig. 1.

Detailed Description

As shown in fig. 1 to 4, a material shearing apparatus for use in a drying room 100 includes: the device comprises a storage bin 1, a refining screw shaft 2, a shear plate 3, a first power source (a motor 4) and a second power source (a motor 5);

the refining screw shaft 2 is arranged in the storage bin 1;

the feed bin 1 comprises: a pair of right and left opposite side walls 11, 12, a front wall 13, a rear wall 14, and a bottom plate 15; the side walls 11, 12 of the storage bin 1 in this embodiment are the side walls of the drying room 100.

The left and right opposite side walls 11 and 12 are used for erecting two end parts of the refining screw shaft 2; the refining screw shaft 2 is driven by the first power source 4 to rotate for refining;

a long hole 151 is arranged on the bottom plate 15 close to the rear wall 14;

the upper part of the shear plate 3 is connected with a driving mechanism 7, and the driving mechanism 7 is connected with a motor 5; the motor 5 drives the driving mechanism 7 to drive the shear plate 3 to do reciprocating circular motion, so that the bottom end of the shear plate 3 is in reciprocating motion above and below the strip hole 151 to shear the material, and the sheared material is pushed out of the stock bin 1 through the strip hole 151.

A drive mechanism 7 comprising: a transmission 71 and a set of drive shafts 72; the group of driving shafts 72 are arranged on the shear plate 3 in a penetrating way through a group of eccentric devices 73 sleeved on the driving shafts;

the height of the back wall 14 of the storage bin 1 close to the shear plate 3 is lower than that of the shear plate 3 so as to give way for the eccentric device 73 arranged on the shear plate 3;

a supporting plate 9 is further arranged outside the rear wall 14 of the storage bin 1 (in this embodiment, the supporting plate 9 is a side wall of the drying room 100); the support plate 9, the shear plate 3, and the front wall 13 of the silo span the set of drive shafts 72;

a set of drive shafts 72 is connected to the second power source 5 through the transmission 71; the group of driving shafts 72 are driven by the second power source 5 to rotate in the same speed and the same direction, so as to drive the shear plate 3 to perform reciprocating synchronous circular motion, so that the bottom end 31 of the shear plate 3 performs reciprocating shearing on the material entering the elongated hole 151 of the bottom plate 15, and the bottom end 31 of the shear plate 3 performs periodic shearing on the material and allows the material to fall down from the elongated hole 151 of the bottom plate in the process of periodically entering the elongated hole 151 of the bottom plate.

The bottom end 3 of the shear plate 3 is a blade, one side facing the front wall 13 is a vertical plane, and one side facing the rear wall 14 is an inclined plane.

The bottom plate 15 is arranged obliquely, the bin rear wall 14 is located at the lower position of the bottom plate 15, and the bin front wall 13 is located at the upper position of the bottom plate 15.

The shear plate 3 is provided with a row of parallel transverse disturbance rods 32 on a side facing the front wall 13 for disturbing the material deposited on the bottom of the bottom plate 15.

The obliquely arranged bottom plate 15 is provided with a row of arc-shaped yielding holes 152 corresponding to the number of the transverse disturbing rods 32, and the arc-shaped yielding holes are used for yielding the transverse disturbing rods 32.

A bridge breaking device 6 is also arranged above the refining screw shaft 2. The bridge breaking device 6 comprises: the bridge breaking shaft 61 is uniformly arranged on the bridge breaking shaft 61 at intervals, and a plurality of fan-shaped sleeve plates 62 are sequentially overlapped and staggered; a cutting plate 63 parallel to the axle breaking shaft 61 is arranged at the overlapped part between every two adjacent fan-shaped sleeve plates 62; two bridge breaking blades 64 vertical to the bridge breaking shaft 61 are also arranged between every two adjacent fan-shaped sleeve plates 62; the bridge-breaking blades 64 and the cutting plates 63 between every two adjacent fan-shaped sleeve plates 62 are arranged at uniform intervals in the radial direction of the bridge-breaking shaft 61; all the bridge-breaking blades 64 are arranged at uniform intervals in the axial direction of the bridge-breaking shaft 61 and are sequentially staggered at uniform angles in the radial direction.

The bridge breaking shaft 61 of the bridge breaking device 6 is connected with the motor 4 through the gear transmission mechanism 41, namely the refining screw shaft 2 and the bridge breaking shaft 61 share one motor 4.

The material shearing device is arranged above a material conveying platform in the drying room 100, and materials fall onto the material conveying platform in the drying room 100 from the material shearing device to be dried.

The working process comprises the steps that large, hard and fibrous materials enter the stock bin 1 through a channel or a feed inlet above or on the side of the stock bin 1, a bridge is broken through the bridge breaking device 6, the materials are evenly spread on the bottom plate 15 of the stock bin 1 after being refined through the refining screw shaft 2, the shearing plate 3 is driven by a reciprocating driving mode to shear the materials above the strip hole 151 of the bottom plate 15 and below the shearing plate 3, and the materials are periodically sheared in the process that the shearing plate 3 periodically moves circumferentially above and below the strip hole 151. In addition, the disturbance rod 32 disturbs the materials deposited in the triangular area formed by the bottom plate 15 and the rear wall 14, a part of the materials are pushed out through the arc-shaped abdicating holes 152, meanwhile, the disturbance rod 32 is kept not to be wound, and in addition, the disturbance rod 32 can also play a role in feeding and distributing the materials.

The above description is only an example of the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A material shearing mechanism which is characterized in that: the method comprises the following steps: the device comprises a storage bin, a refining screw shaft, a shear plate, a first power source and a second power source;

the refining screw shaft is arranged in the storage bin;

a long hole is arranged on the bottom plate close to the rear wall;

2. A material shearing device as defined in claim 1, further comprising: the drive mechanism includes: the drive mechanism includes: a transmission mechanism and a set of drive shafts;

a supporting plate is further arranged on the outer side of the rear wall of the storage bin; the supporting plate is used for erecting the group of driving shafts on the front wall of the storage bin; the group of driving shafts penetrate through the shear plate through a group of eccentric devices sleeved on the group of driving shafts;

the set of drive shafts is connected to the second power source through the transmission mechanism; the group of driving shafts are driven by the second power source to rotate at the same speed and in the same direction to drive the shearing plate to do reciprocating synchronous circular motion, so that the bottom end of the shearing plate can perform reciprocating shearing on materials entering the long strip holes of the bottom plate, and the bottom end of the shearing plate can perform periodic shearing on the materials and push the materials to fall downwards from the long strip holes of the bottom plate in the process of periodically entering the long strip holes of the bottom plate.

3. A material shearing device as defined in claim 1, further comprising: the bottom end of the shear plate is a blade, one side facing the front wall is a vertical plane, and one side facing the rear wall is an inclined plane.

4. A material shearing device as defined in claim 1, further comprising: the bottom plate sets up for the slope, the feed bin rear wall is located the low level of bottom plate, the feed bin antetheca is located the high-order of bottom plate.

5. A material shearing device as defined in claim 4, further comprising: and a row of transverse disturbance rods arranged in parallel are arranged on one side surface of the shear plate facing the front wall and used for disturbing the materials deposited at the bottom of the bottom plate.

6. A material shearing device as defined in claim 5, further comprising: the obliquely arranged bottom plate is provided with a row of arc yielding holes corresponding to the transverse disturbing rods in number and used for yielding the transverse disturbing rods.

7. A material shearing device as defined in any one of claims 1 to 6, wherein: the material shearing device is arranged above a material conveying platform in a drying room, and special materials fall onto the material conveying platform from the material shearing device to be dried.

8. A material shearing device as defined in claim 7, further comprising: and a bridge breaking device is also arranged above the refining screw shaft.

9. A material shearing device as defined in claim 8, further comprising: the bridge breaking device comprises: the bridge breaking shaft is uniformly spaced and sequentially overlapped and staggered with a plurality of fan-shaped sleeve plates; and a cutting plate parallel to the bridge breaking shaft is arranged at the overlapped part between every two adjacent fan-shaped sleeve plates.

10. A material shearing device as defined in claim 9, wherein: two or more than two bridge-breaking blades vertical to the bridge-breaking shaft are also arranged between every two adjacent fan-shaped sleeve plates;