CN115055114B

CN115055114B - A broken grain device for granule make-up machine

Info

Publication number: CN115055114B
Application number: CN202210874922.XA
Authority: CN
Inventors: 许本海; 廖欢生; 宫能领; 杨勇; 刘云
Original assignee: Anhui Huantai Bio Energy Technology Development Co ltd
Current assignee: Anhui Huantai Bio Energy Technology Development Co ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2024-01-16
Anticipated expiration: 2042-07-25
Also published as: CN115055114A

Abstract

The invention discloses a particle breaking device for a particle forming machine, which belongs to the technical field of particle forming machines and comprises: install the installed part in the granule make-up machine silo, install the blade on the installed part, install the extrusion mechanism that corresponds with the silo feed inlet on the installed part, the intussuseption of extrusion mechanism is filled with liquid conductive medium, the last conductive mechanism that is used for controlling actuating mechanism work of intercommunication installation of extrusion mechanism, the device is through the extrusion mechanism with enter into the material contact in the silo and take place deformation, with the inside liquid conductive medium extrusion of extrusion mechanism into conductive mechanism inside, make conductive mechanism control actuating mechanism circular telegram work, cut off the material that enters into the silo, only begin cutting off the material after guaranteeing that the material enters into one section distance in the silo, make the size that the material cut off not receive the influence of material unloading speed.

Description

A broken grain device for granule make-up machine

Technical Field

The invention relates to the technical field of particle forming machines, in particular to a particle breaking device for a particle forming machine.

Background

Along with the enhancement of energy conservation and emission reduction consciousness, the utilization rate of energy sources is gradually increased, biomass energy sources are gradually increased, and the particle forming machine is relatively common equipment in biomass energy source production.

In the using process of the existing particle forming machine, materials are extruded from holes of a flat die through a compression roller to enable the materials to enter an inner cavity of a trough in a strip shape, and then a cutting mechanism is needed to break the strip-shaped materials to prepare the granular materials;

however, the existing cutting mechanism works at a uniform speed, but the speed of the material extruded into the trough is not uniform (the speed of the material entering the trough is slower when the material starts to be extruded or the material in the extrusion area is less), so that the particle size generated by cutting the material is not uniform, and the quality of particle production processing is affected.

Disclosure of Invention

The invention aims to provide a particle breaking device for a particle forming machine, which aims to solve the problems that the speed of a cutting mechanism in the background art is uniform when working, and the speed of materials extruded into a trough is not uniform, so that the particle sizes generated by cutting the materials are not uniform.

In order to achieve the above purpose, the present invention provides the following technical solutions: a granule breaking device for a granule forming machine, comprising: a mounting member mounted in a chute of the pellet former;

the mounting piece is connected with a driving mechanism for driving the mounting piece to rotate in the trough so that the blade cuts off raw materials extruded into the trough;

the installation piece is provided with an extrusion mechanism corresponding to the feeding port of the trough, the extrusion mechanism is filled with a liquid conductive medium, the extrusion mechanism is provided with a conductive mechanism for controlling the driving mechanism to work, raw materials enter the trough and can contact with the extrusion mechanism, so that the extrusion mechanism is subjected to repeated deformation, the liquid conductive medium is extruded into the conductive mechanism, the conductive mechanism is used for controlling the driving mechanism to work, and the driving blade cuts off the raw materials.

Preferably, the conductive mechanism comprises a mounting box, and two groups of conductive sheets which are positioned outside the liquid conductive medium and are respectively electrically connected with the driving mechanism and an external power supply are arranged in the inner cavity of the mounting box.

Preferably, the two groups of conductive sheets are sequentially distributed in the moving direction of the mounting piece, and a partition plate used for separating the two groups of conductive sheets and extending to the inside of the liquid conductive medium is arranged in the inner cavity of the mounting box.

Preferably, the extrusion mechanism is an elastic piece, and a placing groove which is used for filling liquid conductive medium and is communicated with the inner cavity of the installation box is formed in the elastic piece.

Preferably, the extrusion mechanism comprises a placing box communicated with the inner cavity of the mounting box, the inner cavity of the placing box is filled with the liquid conductive medium, and a floating block for extruding the liquid conductive medium into the inner cavity of the mounting box is inserted into the inner cavity of the placing box in a sliding manner.

Preferably, the driving mechanism comprises a driving motor and a driving gear connected with the output end of the driving motor, and a tooth slot meshed with the driving gear is formed in the mounting piece.

Preferably, the output end of the driving motor is connected with a driving rod for driving the driving gear to rotate, the outer end face of the driving rod is provided with a mounting groove, a connecting rod moving along the length direction of the driving rod is inserted in the inner cavity of the mounting groove in a sliding manner, one end of the connecting rod is provided with a rotating rod for being connected with the driving gear, the other end of the connecting rod is rotatably provided with a pull rod, and the pull rod is connected with a limiting mechanism for preventing the rotating rod from being far away from the driving rod;

the elastic anti-skid block attached to the inner wall of the mounting groove is mounted on one side wall of the rotating rod, which is close to the driving rod, and a pressing block for pressing the elastic anti-skid block is mounted in the inner cavity of the mounting groove.

Preferably, the limiting mechanism comprises a mounting sleeve, the pull rod is slidably inserted into an inner cavity of the mounting sleeve, a magnetic block is mounted at the inner side end of the pull rod, and an electromagnet used for limiting the movement of the pull rod and electrically connected with the conductive sheet is mounted in the inner cavity of the mounting sleeve.

Preferably, a baffle for preventing the cutting raw materials from splashing is arranged on the mounting piece;

wherein, set up the opening that is used for making cutting off the raw materials and passes the mounting and discharge on the mounting.

Compared with the prior art, the invention has the beneficial effects that: the device is deformed through contact between the extrusion mechanism and the material entering the trough, the liquid conductive medium inside the extrusion mechanism is extruded into the conductive mechanism, the conductive mechanism controls the driving mechanism to work in a power-on mode, the mounting piece and the blade work, the material entering the trough is cut off, the material is cut off after entering the trough for a certain distance, the material is cut off, the material cutting size is not influenced by the material blanking speed, and the consistency of material particle production and processing is guaranteed.

Drawings

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

FIG. 2 is a schematic view of the attachment of the mounting member to the blade in accordance with the present invention;

FIG. 3 is a schematic diagram showing the connection structure of the extrusion mechanism and the conductive mechanism according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the present invention at A;

FIG. 5 is a schematic diagram of a connection structure of a driving gear and a tooth slot according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of the present invention at B.

In the figure: 1. a mounting member; 101. an opening; 2. a blade; 3. a baffle; 4. a driving mechanism; 41. a driving motor; 42. a drive gear; 43. a driving rod; 44. a rotating rod; 45. a mounting sleeve; 46. a pull rod; 47. a connecting rod; 48. briquetting; 49. an elastic anti-skid block; 5. an extrusion mechanism; 51. placing a box; 52. a floating block; 6. tooth slots; 7. a conductive mechanism; 71. a mounting box; 72. a partition board.

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.

Example 1:

referring to fig. 1, 2 and 5, a particle breaking device for a particle forming machine includes: the mounting piece 1 is arranged in the inner cavity of the trough of the particle forming machine, the mounting piece 1 is an annular mounting frame, the blade 2 is arranged above the mounting frame, the baffle 3 is arranged above the mounting frame, the baffles 3 are distributed on the edges of the inner side and the outer side of the mounting frame, the blade 2 is positioned between the baffles 3, the opening 101 is arranged below the mounting frame, when the mounting frame rotates to the discharge hole of the trough, cut raw materials enter the discharge hole through the opening 101 and are discharged;

the mounting frame is connected with a driving mechanism 4, the driving mechanism 4 comprises a driving motor 41 and a driving gear 42, the driving gear 42 is arranged on the output end of the driving motor 41, tooth grooves 6 which are distributed in a ring shape are formed in the mounting frame, the driving gear 42 is meshed with the tooth grooves 6, the driving motor 41 is electrified to work, the driving gear 42 rotates and drives the mounting frame to rotate in the inner cavity of the trough, and the blade 2 rotates to cut off strip materials extruded into the trough to generate granular materials;

referring to fig. 1, 2 and 3, an extrusion mechanism 5 is installed above the installation member 1, the extrusion mechanism 5 is located under a feeding hole of the trough, when materials enter the trough, the materials fall above the extrusion mechanism 5 to extrude the extrusion mechanism 5, a liquid conductive medium (water or saline and other conductive liquid with higher safety and no stronger acid and alkali) is filled in the extrusion mechanism 5, a conductive mechanism 7 is installed on the extrusion mechanism 5 in a communicating manner, the conductive mechanism 7 comprises an installation box 71 communicated with the extrusion mechanism 5, two conductive sheets are installed above an inner cavity of the installation box 71 and above the liquid conductive medium in the installation box 71, and the two conductive sheets are respectively electrically connected with a driving motor 41 and an external power supply;

further, the extrusion mechanism 5 is arranged above the mounting frame through the lifting mechanism, so that the extrusion mechanism 5 can be adjusted in height above the mounting frame for adjusting the cutting-off size of the materials;

further, the surface of the extrusion mechanism 5 is an arc surface or an inclined surface, so that the cut materials cannot stay above the extrusion mechanism 5, and the driving mechanism 4 can stop working in time;

further, the driving mechanism 4 controls the moving paths of the mounting piece 1 and the blade 2 to be consistent, so that the blade 2 can be positioned below the next feeding hole of the trough (a plurality of feeding holes of the trough are formed in the flat die of the particle forming machine, and extruded materials enter the trough through the holes in the flat die);

the two conductive plates are positioned at the left side and the right side of the mounting box 71 (according to the direction shown in fig. 3), the two conductive plates are simultaneously positioned in the moving direction of the mounting piece 1 (positioned at the front and the back of the moving direction), a baffle plate 72 is arranged in the inner cavity of the mounting box 71, the baffle plate 72 separates the two conductive plates, the bottom end of the baffle plate 72 extends into liquid conductive medium in the mounting box 71, the liquid conductive medium in the mounting box 71 is prevented from shaking and is simultaneously contacted with the two conductive plates, and the driving mechanism 4 is prevented from being triggered by mistake;

cutting mode: raw materials enter a trough and contact with an extrusion mechanism 5, so that the extrusion mechanism 5 is subjected to repeated deformation, a liquid conductive medium is extruded into a conductive mechanism 7, the liquid conductive medium level inside a mounting box 71 rises and contacts with a conductive sheet, a driving motor 41 is electrified to work, a mounting piece 1 and a blade 2 are driven to rotate, materials reaching a preset position are cut off, extrusion of the extrusion mechanism 5 by the cut-off materials disappears, the extrusion mechanism 5 is reset, the liquid conductive medium level inside the mounting box 71 falls and does not contact with the conductive sheet, the driving motor 41 is powered off to stop working, the blade 2 starts cutting off the materials each time the materials fall to a certain position, and the particle size of the materials is not influenced by the blanking speed of the materials;

further, the extrusion mechanism 5 is an elastic member (made of rubber, having a certain elasticity or being consistent with the balloon, and capable of deforming when being pressed), a placing groove is formed in the elastic member, the placing groove is communicated with the inner cavity of the installation box 71, the inner cavity of the placing groove is filled with a liquid conductive medium, the elastic member is deformed when being pressed, and the liquid conductive medium in the placing groove is extruded into the inner cavity of the installation box 71;

the extrusion mechanism 5 may be composed of two parts, i.e., a placement box 51 and a floating block 52, wherein the placement box 51 is communicated with the inner cavity of the installation box 71, the inner cavity of the placement box 51 is filled with a liquid conductive medium, the floating block 52 is inserted into the inner cavity of the placement box 51 in a sliding manner, the floating block 52 is extruded by materials to move downwards, and the liquid conductive medium in the placement box 51 is extruded into the inner cavity of the installation box 71.

Example 2:

as a preferred solution, referring to fig. 1, 2, 4, 5 and 6, a driving rod 43 is installed on the output end of the driving motor 41, a mounting groove is formed on the end surface of one end of the driving rod 43, which is far away from the driving motor 41, a connecting rod 47 is slidably inserted in the inner cavity of the mounting groove, the connecting rod 47 moves along the length direction of the driving rod 43, a rotating rod 44 is installed at one end of the connecting rod 47, one end of the rotating rod 44, which is far away from the connecting rod 47, is connected with a driving gear 42, a pull rod 46 is rotatably installed at the other end of the connecting rod 47, so that when the connecting rod 47 rotates along with the driving rod 43, the pull rod 46 does not rotate along with the rotation, a limiting mechanism is installed at one end of the pull rod 46, which is far away from the connecting rod 47, the limiting mechanism comprises a mounting sleeve 45, the pull rod 46 is slidably inserted in the inner cavity of the mounting sleeve 45, a magnet is installed at one end of the inner cavity of the mounting sleeve 45, an electromagnet opposite to the magnet is installed in the inner cavity of the mounting sleeve 45, and one side magnetic pole, which is close to the magnet, and the magnet is mutually attracted by the magnet, and the magnet is mutually close to the magnet, and the magnet generates attraction force;

wherein, a side wall of the rotating rod 44 close to the driving rod 43 is provided with an elastic anti-skid block 49 made of rubber, the outer wall of the elastic anti-skid block 49 is attached to the inner wall of the mounting groove, friction force is generated when the elastic anti-skid block 49 is attached to the inner wall of the mounting groove, the rotating rod 44 and the driving gear 42 can be driven to rotate when the driving rod 43 rotates, a pressing block 48 is arranged in the inner cavity of the mounting groove, when the elastic anti-skid block 49 enters the inner cavity of the mounting groove, the pressing block 48 can squeeze the elastic anti-skid block 49, so that the elastic anti-skid block 49 is deformed, the attaching pressure of the outer wall of the elastic anti-skid block 49 and the inner wall of the mounting groove is increased, and the contact friction force of the elastic anti-skid block 49 and the mounting groove is increased, so that the driving rod 43 can drive the driving gear 42 to rotate;

when the liquid conductive medium contacts with the two conductive sheets, the electromagnet is electrified to generate magnetic force, so that the pull rod 46 carries the connecting rod 47, the rotating rod 44 and the driving gear 42 to move upwards, the driving gear 42 is meshed with the tooth slot 6, the driving motor 41 can drive the mounting piece 1 to rotate with the blade 2 (when the electromagnet does not work, the driving gear 42 moves downwards and is staggered with the tooth slot 6 under the influence of gravity, the mounting piece 1 and the blade 2 can not rotate when the driving motor 41 works, the driving motor 41 can be ensured to continuously work, the conductive mechanism 7 can be disconnected with the driving motor 41 and connected with the electromagnet, and the driving motor 41 is prevented from being damaged due to frequent opening and closing controlled by the conductive mechanism 7 and the extrusion mechanism 5).

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

Claims

1. A broken grain device for particle forming machine, its characterized in that: comprising the following steps: a mounting piece (1) arranged in a trough of the particle forming machine;

the mounting piece (1) is provided with a blade (2), and the mounting piece (1) is connected with a driving mechanism (4) for driving the mounting piece (1) to rotate in the trough so that the blade (2) cuts off raw materials extruded into the trough;

install on installed piece (1) and the extrusion mechanism (5) that the silo feed inlet corresponds, the intussuseption of extrusion mechanism (5) is filled with liquid conductive medium, the conductive mechanism (7) that are used for controlling actuating mechanism (4) work are installed to the intercommunication on extrusion mechanism (5), the raw materials enters into the silo, can contact with extrusion mechanism (5), makes extrusion mechanism (5) receive the resent deformation, extrudees conductive medium in conductive mechanism (7) with liquid, makes conductive mechanism (7) control actuating mechanism (4) circular telegram work, and actuating blade (2) cut off the raw materials.

2. A granule breaking device for a granule forming machine as claimed in claim 1, characterized in that: the conductive mechanism (7) comprises an installation box (71), and two groups of conductive sheets which are positioned outside the liquid conductive medium and are respectively electrically connected with the driving mechanism (4) and an external power supply are installed in the inner cavity of the installation box (71).

3. A granule breaking device for a granule forming machine according to claim 2, characterized in that: the two groups of conductive sheets are sequentially distributed in the moving direction of the mounting piece (1), and a partition plate (72) used for separating the two groups of conductive sheets and extending to the inside of the liquid conductive medium is arranged in the inner cavity of the mounting box (71).

4. A granule breaking device for a granule forming machine according to claim 2, characterized in that: the extrusion mechanism (5) is an elastic piece, and a placing groove which is used for filling liquid conductive medium and is communicated with the inner cavity of the installation box (71) is formed in the elastic piece.

5. A granule breaking device for a granule forming machine according to claim 2, characterized in that: the extrusion mechanism (5) comprises a placement box (51) communicated with the inner cavity of the installation box (71), the inner cavity of the placement box (51) is filled with the liquid conductive medium, and a floating block (52) for extruding the liquid conductive medium into the inner cavity of the installation box (71) is inserted into the inner cavity of the placement box (51) in a sliding mode.

6. A granule breaking device for a granule forming machine as claimed in claim 1, characterized in that: the driving mechanism (4) comprises a driving motor (41) and a driving gear (42) connected with the output end of the driving motor (41), and a tooth slot (6) meshed with the driving gear (42) is formed in the mounting piece (1).

7. The pellet breaking apparatus for a pellet forming machine as claimed in claim 6, wherein: the driving device is characterized in that the output end of the driving motor (41) is connected with a driving rod (43) which is used for driving a driving gear (42) to rotate, a mounting groove is formed in the outer side end face of the driving rod (43), a connecting rod (47) which moves along the length direction of the driving rod (43) is inserted into the inner cavity of the mounting groove in a sliding mode, one end of the connecting rod (47) is provided with a rotating rod (44) which is used for being connected with the driving gear (42), the other end of the connecting rod (47) is rotatably provided with a pull rod (46), and the pull rod (46) is connected with a limiting mechanism which is used for preventing the rotating rod (44) from being far away from the driving rod (43);

the elastic anti-skid block (49) attached to the inner wall of the mounting groove is mounted on one side wall of the rotating rod (44) close to the driving rod (43), and a pressing block (48) used for pressing the elastic anti-skid block (49) is mounted in the inner cavity of the mounting groove.

8. The pellet breaking apparatus for a pellet forming machine as claimed in claim 7, wherein: the limiting mechanism comprises a mounting sleeve (45), the pull rod (46) is slidably inserted into the inner cavity of the mounting sleeve (45), the inner side end of the pull rod (46) is provided with a magnetic block, and an electromagnet used for limiting the movement of the pull rod (46) and electrically connected with the conducting strip is arranged in the inner cavity of the mounting sleeve (45).

9. A granule breaking device for a granule forming machine as claimed in claim 1, characterized in that: a baffle plate (3) for preventing the cutting raw materials from splashing is arranged on the mounting piece (1);

wherein the mounting piece (1) is provided with an opening (101) for discharging the cutting raw material through the mounting piece (1).