CN216440794U - Heparin sodium production is with preventing stifled feed mechanism - Google Patents

Abstract

The utility model relates to the technical field of heparin sodium production equipment, and particularly discloses an anti-blocking feeding mechanism for heparin sodium production, which comprises a crushing mechanism and a screening mechanism; the crushing mechanism and the material sieving mechanism are both arranged in the feeding box, the top end of the feeding box is provided with a feeding pipe, and the crushing mechanism is arranged above the material sieving mechanism; rubbing crusher constructs including installing the crushing motor on sieve material mechanism top, and the output of crushing motor is connected with the rotation axis, and annular array installs a plurality of crushing knife tackle on the rotation axis, is provided with fixed knife tackle on the inner wall of feeding case, and crisscross setting is controlled with crushing knife tackle to fixed knife tackle. This prevent stifled feed mechanism mainly smashes the raw materials through rubbing crusher constructs including installing rubbing crusher constructs and sieve material mechanism in the feeding incasement, carries out multistage screening to the raw materials through sieve material mechanism, and the leading-in to processing equipment of the raw materials that will accord with product processing demand, broken complete is finally processed, improves heparin sodium production efficiency and quality.

Description

Heparin sodium production is with preventing stifled feed mechanism

Technical Field

The utility model relates to the technical field of heparin sodium production equipment, in particular to an anti-blocking feeding mechanism for heparin sodium production.

Background

Heparin sodium is an anticoagulant, and in the current heparin sodium production technology, because the raw materials cannot be completely crushed when the raw materials are processed by the feeding port, and the raw materials which are not completely sieved by a special sieving mechanism are also lacked for sieving, the granularity of the raw materials is larger, and equipment is very easy to block when the heparin sodium is subsequently separated, so that the equipment is damaged, and the production efficiency is influenced. Therefore, improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-blocking feeding mechanism for heparin sodium production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an anti-blocking feeding mechanism for heparin sodium production comprises a crushing mechanism and a screening mechanism; the crushing mechanism and the screening mechanism are both arranged in the feeding box, the top end of the feeding box is provided with a feeding pipe, and the crushing mechanism is arranged above the screening mechanism; the crushing mechanism comprises a crushing motor arranged at the top end of the material screening mechanism, the output end of the crushing motor is connected with a rotating shaft, a plurality of crushing cutter sets are arranged on the rotating shaft in an annular array mode, fixed cutter sets are arranged on the inner wall of the feeding box, and the fixed cutter sets and the crushing cutter sets are arranged in a left-right staggered mode;

the screening mechanism comprises a first material guide plate, the bottom end of the first material guide plate is connected with a first material guide pipe, a first filter screen plate is arranged below the first material guide pipe, a first discharge port is formed in a feeding box above the bottom end of the first filter screen plate, the bottom end of the first discharge port is communicated with a first discharge pipe, and the first discharge pipe is communicated with a first material collecting box; the first filter screen board's below is provided with the second and filters the otter board, has seted up the second bin outlet on the feed box of second filter screen board bottom below, and the bottom of second bin outlet communicates the second and arranges the material pipe, and the second is arranged the material pipe and is communicated the second and gather the workbin.

Preferably, the bottom of the second filter screen plate is provided with a material collecting hopper, the bottom end of the material collecting hopper is provided with a third discharge port, the third discharge port is communicated with a third discharge pipe, and the third discharge pipe is used for being communicated with processing equipment.

Preferably, the mesh aperture size of the first filter screen plate is larger than that of the second filter screen plate.

Preferably, a second material guide plate is arranged between the first filter screen plate and the second filter screen plate, and the bottom end of the third material guide plate is arranged above the middle of the second filter screen plate.

Preferably, the first filter screen plate and the second filter screen plate are both inclined installation structures, and the first filter screen plate and the second filter screen plate are in a cross-shaped structure.

Preferably, the first material guide plate is arranged in a downward inclined mode, the second filter screen plate and the first material guide plate are arranged in parallel, and the second material guide plate and the first filter screen plate are arranged in parallel.

Preferably, the internally mounted of first case that gathers materials has supplementary rubbing crusher to construct, and supplementary rubbing crusher constructs including auxiliary motor, supplementary pivot and supplementary knife tackle, and supplementary knife tackle annular array sets up on supplementary pivot, and supplementary pivot passes through the shaft coupling to be connected with auxiliary motor.

Preferably, the bottom of first material collecting box is through fourth bin outlet and feed box intercommunication, and the fourth bin outlet is seted up on the top of second filter screen board.

Compared with the prior art, the utility model has the beneficial effects that:

the anti-blocking feeding mechanism mainly comprises a crushing mechanism and a screening mechanism which are arranged in a feeding box, raw materials are crushed by the crushing mechanism, the raw materials are screened in multiple stages by the screening mechanism, and finally the completely crushed raw materials meeting the processing requirements of products are guided into processing equipment for processing, so that the production efficiency and quality of heparin sodium are improved.

Drawings

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

fig. 2 is a schematic structural diagram of the screening mechanism of the present invention.

In the figure: 1. a feeding box; 2. a grinding motor; 3. a crushing cutter set; 4. fixing a cutter set; 5. a first material guide plate; 6. a first material guide pipe; 7. a first filter screen plate; 8. a first discharging pipe; 9. a first material collecting box; 10. a second filter screen plate; 11. a second discharge pipe; 12. a second material collecting box; 13. a collection hopper; 14. a third discharge pipe; 15. a second material guide plate; 16. an auxiliary motor; 17. an auxiliary knife group; 18. and a fourth discharge outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-2, the present invention provides a technical solution: an anti-blocking feeding mechanism for heparin sodium production comprises a crushing mechanism and a screening mechanism; the crushing mechanism and the screening mechanism are both arranged in the feeding box 1, the top end of the feeding box 1 is provided with a feeding pipe, and the crushing mechanism is arranged above the screening mechanism; the crushing mechanism comprises a crushing motor 2 arranged at the top end of the screening mechanism, the output end of the crushing motor 2 is connected with a rotating shaft, a plurality of crushing cutter sets 3 are arranged on the rotating shaft in an annular array mode, a fixed cutter set 4 is arranged on the inner wall of the feeding box 1, and the fixed cutter sets 4 and the crushing cutter sets 3 are arranged in a left-right staggered mode;

the screening mechanism comprises a first material guide plate 5, the bottom end of the first material guide plate 5 is connected with a first material guide pipe 6, a first filter screen plate 7 is arranged below the first material guide pipe 6, a first discharge port is formed in the feeding box 1 above the bottom end of the first filter screen plate 7, the bottom end of the first discharge port is communicated with a first discharge pipe 8, and the first discharge pipe 8 is communicated with a first material collecting box 9; a second filter screen plate 10 is arranged below the first filter screen plate 7, a second discharge opening is formed in the feeding box 1 below the bottom end of the second filter screen plate 10, the bottom end of the second discharge opening is communicated with a second discharge pipe 11, and the second discharge pipe 11 is communicated with a second material collecting box 12.

Further, the bottom of the second filter screen plate 10 is provided with a material collecting hopper 13, the bottom end of the material collecting hopper 13 is provided with a third material outlet, the third material outlet is communicated with a third material discharging pipe 14, and the third material discharging pipe 14 is used for being communicated with processing equipment.

Further, the aperture size of the meshes of the first filter screen plate 7 is larger than that of the meshes of the second filter screen plate 10.

Further, a second material guide plate 15 is arranged between the first filter screen plate 7 and the second filter screen plate 10, and the bottom end of the third material guide plate is arranged above the second filter screen plate 10.

Furthermore, the first filter screen plate 7 and the second filter screen plate 10 are both inclined installation structures, and the first filter screen plate 7 and the second filter screen plate 10 are in a cross-shaped structure.

Further, the first material guiding plate 5 is arranged in a downward inclined manner, the second filter screen plate 10 and the first material guiding plate 5 are arranged in parallel, and the second material guiding plate 15 and the first filter screen plate 7 are arranged in parallel.

Further, the inside of the first material collecting box 9 is provided with an auxiliary crushing mechanism, the auxiliary crushing mechanism comprises an auxiliary motor 16, an auxiliary rotating shaft and an auxiliary cutter set 17, the auxiliary cutter set 17 is arranged on the auxiliary rotating shaft in an annular array mode, and the auxiliary rotating shaft is connected with the auxiliary motor 16 through a coupler.

Further, the bottom of the first material collecting box 9 is communicated with the material feeding box 1 through a fourth discharge port 18, and the fourth discharge port 18 is arranged at the top end of the second filter screen plate 10.

The working principle is as follows: when the device is in actual use, an operator adds raw materials to be processed into the feeding box 1 through the feeding pipe, drives the crushing cutter set 3 to rotate through the crushing motor 2, and then crushes the raw materials through the matching use of the crushing cutter set 3 and the fixed cutter set 4; the crushed raw materials are guided to the top end of a first filter screen plate 7 through a first guide pipe 6 under the guiding action of a first guide plate 5, slide along the inclined direction of the first filter screen plate 7 under the action of gravity, and then are subjected to primary screening work through the first filter screen plate 7, and the raw materials meeting the screening requirements of the first filter screen plate 7 pass through the first filter screen plate 7 and then fall onto a second filter screen plate 10 under the guiding action of a second guide plate 15; the first surplus raw materials that filter screen plate 7 goes up get into first collection workbin 9 via first discharge tube 8 on the first discharge gate, start auxiliary motor 16, drive supplementary knife tackle 17 through auxiliary motor 16 and rotate, and then carry out the regrinding work to the raw materials in the first collection workbin 9, and the raw materials after smashing also gets into on the second filter screen plate 10 via fourth discharge gate 18.

After entering the second filter screen plate 10, the raw material slides along the inclined direction of the second filter screen plate 10 under the action of gravity, and then the crushed raw material is subjected to primary screening work by the second filter screen plate 10, and the raw material meeting the screening requirement of the second filter screen plate 10 passes through the second filter screen plate 10, is collected by a collecting hopper 13 and is guided into relevant processing equipment for processing by a third discharge pipe 14; the residual raw materials on the second filter screen plate 10 enter a second material collecting box 12 through a second discharging pipe 11 to be collected.

It is worth noting that: the whole device realizes control to the device through the controller, and the controller is common equipment and belongs to the existing mature technology, and the electrical connection relation and the specific circuit structure of the controller are not repeated herein.

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

Claims (8)

1. The utility model provides a heparin sodium production is with preventing stifled feed mechanism which characterized in that: comprises a crushing mechanism and a screening mechanism; the crushing mechanism and the screening mechanism are both arranged in the feeding box (1), the top end of the feeding box (1) is provided with a feeding pipe, and the crushing mechanism is arranged above the screening mechanism; the crushing mechanism comprises a crushing motor (2) arranged at the top end of the screening mechanism, the output end of the crushing motor (2) is connected with a rotating shaft, a plurality of crushing cutter sets (3) are arranged on the rotating shaft in an annular array mode, fixed cutter sets (4) are arranged on the inner wall of the feeding box (1), and the fixed cutter sets (4) and the crushing cutter sets (3) are arranged in a left-right staggered mode;

the screening mechanism comprises a first material guide plate (5), a first material guide pipe (6) is connected to the bottom end of the first material guide plate (5), a first filter screen plate (7) is arranged below the first material guide pipe (6), a first discharge port is formed in the feeding box (1) above the bottom end of the first filter screen plate (7), the bottom end of the first discharge port is communicated with a first discharge pipe (8), and the first discharge pipe (8) is communicated with a first material collecting box (9); the lower part of the first filter screen plate (7) is provided with a second filter screen plate (10), a second discharge hole is formed in the feeding box (1) below the bottom end of the second filter screen plate (10), the bottom end of the second discharge hole is communicated with a second discharge pipe (11), and the second discharge pipe (11) is communicated with a second material collecting box (12).

2. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the bottom of second filter screen board (10) is provided with aggregate bin (13), and the bottom of aggregate bin (13) is provided with the third bin outlet, and third bin outlet intercommunication third discharge pipe (14), third discharge pipe (14) are used for communicateing processing equipment.

3. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the aperture size of the meshes of the first filter screen plate (7) is larger than that of the meshes of the second filter screen plate (10).

4. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: a second material guide plate (15) is arranged between the first filter screen plate (7) and the second filter screen plate (10), and the bottom end of the third material guide plate is arranged above the middle of the second filter screen plate (10).

5. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the first filter screen plate (7) and the second filter screen plate (10) are both inclined installation structures, and the first filter screen plate (7) and the second filter screen plate (10) are in a 'T' shaped structure.

6. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the first material guide plate (5) is arranged in a downward inclined mode, the second filter screen plate (10) and the first material guide plate (5) are arranged in parallel, and the second material guide plate (15) and the first filter screen plate (7) are arranged in parallel.

7. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the utility model discloses a crushing machine, including first case (9) of gathering materials, the internally mounted of first case (9) of gathering materials has supplementary rubbing crusher to construct, and supplementary rubbing crusher constructs including auxiliary motor (16), supplementary pivot and supplementary knife tackle (17), and supplementary knife tackle (17) annular array sets up in supplementary pivot, and supplementary pivot passes through the shaft coupling to be connected with auxiliary motor (16).

8. The anti-blocking feeding mechanism for heparin sodium production according to claim 1, wherein the anti-blocking feeding mechanism comprises: the bottom of the first material collecting box (9) is communicated with the material feeding box (1) through a fourth discharge port (18), and the fourth discharge port (18) is arranged at the top end of the second filter screen plate (10).

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