CN219312089U - High-efficient filter media shaping extrusion device - Google Patents

Abstract

The utility model relates to a high-efficiency filter material forming extrusion device which comprises a fixed seat, wherein a servo motor and a rotating disc driven by the servo motor are arranged on the fixed seat; the utility model solves the problems that the equipment in the prior art can only process one filter material at a time, the filter material can be replaced after the previous filter material is processed, the processing continuity is poor, the processing efficiency is low, meanwhile, the equipment has the problems that the filter material is formed unevenly because the equipment is easy to shake due to rapid downward pressing, and the equipment is worn to a certain extent.

Description

High-efficient filter media shaping extrusion device

Technical Field

The utility model relates to the technical field of filter material forming processing, in particular to a high-efficiency filter material forming extrusion device.

Background

The filter materials are required to be extruded and molded in the molding process of the filter materials, the existing equipment usually adopts hydraulic or mechanical pressurization as power to extrude the filter materials, but the existing compression molding equipment can only process one filter material at a time, the next filter material can be replaced after the previous filter material is processed, the processing continuity is poor, the efficiency is low, and the rapid downward pressing is not only easy to cause the shaking of the equipment to cause the non-uniformity of the filter material molding, but also the abrasion of the equipment is rapid to a certain extent.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art, and provides a high-efficiency filter material forming extrusion device which comprises a fixed seat, wherein a servo motor and a rotating disc driven by the servo motor are arranged on the fixed seat, four groups of extrusion assemblies are circumferentially arranged on the rotating disc, guide assemblies are fixedly arranged on the fixed seat, and the extrusion assemblies are lifted under the action of the guide assemblies to carry out extrusion forming processing on filter materials in the process of rotating along with the rotating disc, so that the problems that the prior art only can process one filter material at one time, the processing efficiency is low, and equipment is easy to shake to cause uneven filter material forming and accelerated equipment abrasion are solved.

The technical solution of the utility model is as follows:

the utility model provides a high-efficient filter media shaping extrusion device, includes the fixing base, be provided with servo motor and the rolling disc under servo motor drives on the fixing base, the circumference is provided with four group extrusion subassembly on the rolling disc, fixedly is provided with guide assembly on the fixing base, extrusion subassembly follows rolling disc pivoted in-process and realizes going up and down under the guide assembly effect.

Preferably, four forming grooves are formed in the circumference of the rotating disc, a gear a is fixedly arranged at the bottom of the rotating disc, and a through hole is formed in the middle of the rotating disc.

Preferably, a gear b meshed with the gear a is fixedly arranged on the top of the servo motor.

As one preferable, the extrusion assembly comprises a mounting seat fixedly arranged at the top of the rotating disc and a sliding rod arranged on the mounting seat in a sliding manner, the bottom of the sliding rod is fixedly connected with an extrusion block, two sides of the sliding rod are fixedly provided with auxiliary rods, reset springs are sleeved on the auxiliary rods, and two ends of each reset spring are respectively connected with the mounting seat and the extrusion block.

Preferably, the mounting seat is provided with an opening a and an opening b corresponding to the sliding rod and the auxiliary rod.

Preferably, the sliding rod is fixedly provided with a guide block, and the top end of the sliding rod is circular arc-shaped.

As still another preferred, the guiding component comprises a supporting column fixedly arranged on the fixing seat and a connecting rod fixedly arranged at the top of the supporting column, an annular guide rail is fixedly connected to the connecting rod, and an ascending section and a descending section are arranged on the annular guide rail.

The utility model is provided with the extrusion assemblies, the sliding rod in the extrusion assemblies is matched with the guide rail in the guide assembly to realize the lifting of the extrusion block at the bottom of the sliding rod to extrude the filter materials, and the four groups of extrusion assemblies are arranged on the circumference of the rotating disc, so that other extrusion assemblies can carry out forming processing on the filter materials in the process of feeding and discharging one group of extrusion assemblies by staff, the processing continuity is strong, the processing efficiency is greatly improved, and the problems that the equipment in the prior art can only process one filter material each time, the previous filter material can be replaced after the processing is completed, the processing continuity is poor and the efficiency is low are solved.

The utility model is provided with the guide component, the automatic lifting of the extrusion block is realized through the matching of the annular guide rail in the guide component and the sliding rod in the extrusion component, the sliding rod descends at a uniform speed along the annular guide rail, the uneven extrusion forming of the filter material caused by the shaking of equipment can be avoided, the extrusion block and the forming groove can not be collided strongly due to rapid descending, the abrasion of the device is lightened, the service life of the device is effectively prolonged, and the problems that the filter material forming is uneven due to the shaking of the equipment caused by rapid downward pressing in the prior art and the device is worn rapidly to a certain extent are solved.

In conclusion, the utility model has the advantages of high processing efficiency, strong processing continuity, more uniform filter material forming, effective prolonging of the service life of the device, good linkage effect, ingenious structure, convenient use and the like, and is suitable for the technical field of filter material forming and processing.

Drawings

The utility model is further described with reference to the accompanying drawings:

FIG. 1 is a schematic structural view of the efficient filter material molding and extruding device;

FIG. 2 is a schematic side view of the efficient filter material forming and extruding device;

fig. 3 is a schematic view of the position structure of the pressing assembly.

In the figure: the device comprises a fixed seat 1, a servo motor 2, a rotating disc 3, a pressing assembly 4, a guide assembly 5, a gear b21, a forming groove 31, a gear a32, a through hole 33, a mounting seat 41, a sliding rod 42, a pressing block 43, an auxiliary rod 44, a return spring 45, an opening a46, an opening b47, a guide block 48, a support column 51, a connecting rod 52, a circular guide rail 53, an ascending section 54 and a descending section 55.

Detailed Description

The technical solutions in the embodiments of the present utility model are clearly and completely described below with reference to the accompanying drawings.

Examples

As shown in fig. 1 to 3, a high-efficiency filter material forming extrusion device comprises a fixed seat 1, wherein a servo motor 2 and a rotating disc 3 driven by the servo motor 2 are arranged on the fixed seat 1, four groups of extrusion assemblies 4 are arranged on the circumference of the rotating disc 3, a guide assembly 5 is fixedly arranged on the fixed seat 1, and the extrusion assemblies 4 are lifted under the action of the guide assembly 5 in the process of following the rotation of the rotating disc 3. The equipment of prior art has been solved and can only be processed a filter media each time, need wait that preceding filter media processing is accomplished the back and just can be changed a filter media from top to bottom, and processing continuity is poor, and machining efficiency is low, and equipment exists simultaneously and causes equipment's rocking to make filter media shaping appear inhomogeneous because quick pushing down easily to the problem of quick equipment wearing and tearing to a certain extent.

As shown in fig. 1 and 3, four forming grooves 31 are formed on the circumference of the rotating disc 3, a gear a32 is fixedly arranged at the bottom of the rotating disc 3, and a through hole 33 is formed in the middle of the rotating disc 3. The servo motor 2 rotates to enable the gear b21 to drive the gear a32 meshed with the gear b21 to rotate, so that the rotating disc 3 is driven to rotate, the rotating disc 3 drives the extrusion assembly 4 arranged at the top of the rotating disc to synchronously rotate, the sliding rod 42 in the extrusion assembly 4 descends under the action of the annular guide rail 53 in the guide assembly 5 to enable the extrusion block 43 to carry out extrusion molding processing on filter materials in the molding grooves 31, the position of the molding grooves 31 is located under the extrusion block 43, the size of the molding grooves is matched with that of the extrusion block 43, the extrusion block 43 can uniformly process the filter materials, and when a worker carries out feeding and discharging on one molding groove 31, the extrusion assembly 4 can process the filter materials in the other molding grooves 31, so that the processing efficiency is greatly improved; the rotating disc 3 can be rotatably provided on the fixed base 1 by opening the through hole 33, and the mount 41 can be mounted on the fixed base 1.

As shown in fig. 1, a gear b21 meshed with the gear a32 is fixedly arranged on the top of the servo motor 2. During processing, the servo motor 2 rotates to enable the gear b21 to drive the gear a32 meshed with the servo motor to rotate, so that the rotating disc 3 is driven to rotate, extrusion molding processing is carried out on filter materials by matching the extrusion assemblies 4 with the guide assemblies 5, and the four groups of extrusion assemblies 4 are driven to simultaneously carry out processing operation by one power of the servo motor 2, so that the processing synchronism is better, energy sources are effectively saved, and the power cost is reduced.

As shown in fig. 2 and 3, the extrusion assembly 4 includes a mounting seat 41 fixedly arranged at the top of the rotating disc 3 and a sliding rod 42 slidably arranged on the mounting seat 41, an extrusion block 43 is fixedly connected to the bottom of the sliding rod 42, auxiliary rods 44 are fixedly arranged on two sides of the sliding rod 42, a return spring 45 is sleeved on the auxiliary rods 44, and two ends of the return spring 45 are respectively connected with the mounting seat 41 and the extrusion block 43. The sliding rod 42 in the extrusion assembly 4 descends along the descending section 55 on the annular guide rail 53 in the rotating process, the extrusion block 43 at the bottom of the sliding rod 42 carries out the forming groove 31 when the sliding rod 42 reaches the tail end of the descending section 55, the filter materials to be processed placed in the forming groove 31 are subjected to compression forming processing through matching with the forming groove 31, then the sliding rod 42 continuously rotates to enter the ascending section 55 of the annular guide rail 53, ascending is achieved under the action of the reset spring 45, the filter materials processed in the forming groove 31 are lifted to the highest when reaching the tail end of the ascending section 55, at the moment, a worker takes out the filter materials processed in the forming groove 31 and then places the filter materials to be processed next, and through arranging four groups of extrusion assemblies 4 on the circumference of the rotating disc 3, the other extrusion assemblies 4 can carry out forming processing on the filter materials in the feeding and discharging processes of one group of the extrusion assemblies 4, so that the processing continuity is high, the processing efficiency is greatly improved, the problem that the filter materials can be replaced after the processing of one filter material each time by the equipment in the prior art is solved, and the processing efficiency is low.

As shown in fig. 3, the mounting seat 41 is provided with an opening a46 and an opening b47 corresponding to the slide rod 42 and the auxiliary rod 44, respectively. The sliding rod 42 and the auxiliary rod 44 can be lifted by opening the opening a46 and the opening b47, and the sliding rod 42 and the auxiliary rod 44 can be lifted more smoothly while limiting the sliding rod 42 and the auxiliary rod 44.

As shown in fig. 3, a guide block 48 is fixedly provided on the slide rod 42, and the top end of the slide rod 42 is provided in a circular arc shape. The guide block 48 is arranged on the sliding rod 42 to play a limiting role on the sliding rod 42, so that the sliding rod 42 is prevented from rotating in the lifting process, the extrusion block 43 is prevented from deflecting to affect subsequent processing, and the sliding rod 42 is made to be smooth when moving along the annular guide rail 53 by arranging the top end of the sliding rod 42 to be circular arc.

As shown in fig. 1 and 2, the guiding assembly 5 includes a supporting column 51 fixedly arranged on the fixing base 1 and a connecting rod 52 fixedly arranged on the top of the supporting column 51, a circular guide rail 53 is fixedly connected to the connecting rod 52, and a rising section 54 and a falling section 55 are arranged on the circular guide rail 53. The automatic lifting of the extrusion block 43 is realized by matching the annular guide rail 53 in the guide assembly 5 with the sliding rod 42 in the extrusion assembly 4, the sliding rod 42 descends along the annular guide rail 53 at a uniform speed, uneven extrusion forming of the filter material caused by shaking of equipment can be avoided, the extrusion block 53 and the forming groove 31 cannot collide strongly due to rapid descending, abrasion of the device is reduced, the service life of the device is effectively prolonged, and the problems that the filter material forming is uneven due to shaking of the equipment caused by rapid downward pressing of the equipment in the prior art and the abrasion of the equipment is rapid to a certain extent are solved.

Firstly, filter materials to be processed are placed in a forming groove 31 in front of a worker, then a servo motor 2 is started, the servo motor 2 rotates to enable a gear b21 to drive a gear a32 meshed with the servo motor to rotate, so that a rotating disc 3 is driven to rotate, the rotating disc 3 drives an extrusion assembly 4 arranged at the top of the rotating disc to synchronously rotate, a sliding rod 42 in the extrusion assembly 4 descends along a descending section 55 on a ring-shaped guide rail 53 in the rotating process, when the sliding rod 42 reaches the tail end of the descending section 55, an extrusion block 43 at the bottom of the sliding rod 42 carries out forming groove 31, the filter materials to be processed placed in the forming groove 31 are matched with the forming groove 31 to carry out compression forming processing, then the sliding rod 42 continuously rotates to enter an ascending section 55 of the ring-shaped guide rail 53 under the action of a reset spring 45, the filter materials to be processed in the forming groove 31 are lifted to the highest when the tail end of the ascending section 55 is reached, at this moment, the next filter materials to be processed are placed in the next filter materials to be processed after the filter materials are taken out by the worker, the next forming groove 31 are rotated to be repeatedly carried out, and the next time, the filtering materials to be processed are circularly processed.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "front and rear", "left and right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or component in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the utility model.

Of course, in this disclosure, those skilled in the art will understand that the term "a" or "an" is to be interpreted as "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, and in another embodiment, the number of elements may be multiple, and the term "a" is not to be construed as limiting the number.

The foregoing is merely a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions easily conceivable by those skilled in the art under the technical teaching of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a high-efficient filter media shaping extrusion device, includes fixing base (1), its characterized in that, be provided with servo motor (2) on fixing base (1) and rotating disk (3) under servo motor (2) drive, the circumference is provided with four group extrusion subassembly (4) on rotating disk (3), fixedly on fixing base (1) be provided with direction subassembly (5), extrusion subassembly (4) follow rotating disk (3) pivoted in-process and realize going up and down under direction subassembly (5) effect.

2. The efficient filter material forming and extruding device according to claim 1, wherein four forming grooves (31) are formed in the circumference of the rotating disc (3), gears a (32) are fixedly arranged at the bottom of the rotating disc (3), and through holes (33) are formed in the middle of the rotating disc (3).

3. The efficient filter material forming and extruding device according to claim 2, wherein a gear b (21) meshed with the gear a (32) is fixedly arranged at the top of the servo motor (2).

4. The efficient filter material forming extrusion device according to claim 1, wherein the extrusion assembly (4) comprises an installation seat (41) fixedly arranged at the top of the rotating disc (3) and a sliding rod (42) arranged on the installation seat (41) in a sliding manner, an extrusion block (43) is fixedly connected to the bottom of the sliding rod (42), auxiliary rods (44) are fixedly arranged on two sides of the sliding rod (42), a return spring (45) is sleeved on the auxiliary rods (44), and two ends of the return spring (45) are respectively connected with the installation seat (41) and the extrusion block (43).

5. The efficient filter medium molding and extruding device according to claim 4, wherein the mounting seat (41) is provided with an opening a (46) and an opening b (47) corresponding to the sliding rod (42) and the auxiliary rod (44), respectively.

6. The efficient filter material forming and extruding device according to claim 5, wherein a guide block (48) is fixedly arranged on the sliding rod (42), and the top end of the sliding rod (42) is arranged in a circular arc shape.

7. The efficient filter material forming and extruding device according to claim 2, wherein the guide assembly (5) comprises a support column (51) fixedly arranged on the fixing seat (1) and a connecting rod (52) fixedly arranged at the top of the support column (51), an annular guide rail (53) is fixedly connected to the connecting rod (52), and an ascending section (54) and a descending section (55) are arranged on the annular guide rail (53).

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