CN216174114U - Nylon particle screening device in reinforced nylon production - Google Patents

Abstract

The utility model discloses a nylon particle screening device in reinforced nylon production, which comprises a machine body, a separating mechanism and a material guiding mechanism, wherein the machine body comprises a shell and a material guiding funnel fixedly connected on the shell, the separating mechanism comprises a first motor fixedly arranged on the shell, a transmission shaft fixedly connected at the output end of the first motor, a plurality of worms sleeved on the transmission shaft, a plurality of connecting shafts rotatably arranged on the shell, worm wheels fixedly connected at one end of the connecting shafts and meshed with the worms for transmission, eccentric wheels fixedly connected at the other end of the connecting shafts, a filter box arranged above the eccentric wheels and springs fixedly connected at two sides below the filter box and fixedly connected with the inner wall of the shell, the material guiding mechanism is positioned on the shell and used for conveying materials in the filter box, and the separating mechanism can simultaneously drive the filter boxes to vibrate so as to realize multi-stage screening without manual operation, labour saving and time saving is favorable to improving the quality of screening, through setting up guide mechanism, is favorable to improving machining efficiency.

Description

Nylon particle screening device in reinforced nylon production

Technical Field

The utility model relates to the technical field of nylon, in particular to a nylon particle screening device in production of reinforced nylon.

Background

Nylon, named nylon and chinlon, is a polyamide fiber, is a general name of thermoplastic resin containing repeated amide groups [ NHCO ] on a molecular main chain, is invented by American famous chemist Calosus and other research groups, nylon is the first synthetic fiber appearing in the world, can be made into long fibers or short fibers, and has the outstanding advantage of higher wear resistance than other fibers.

The reinforcing nylon master batch occupies very important position in modern production life, but the reinforcing nylon master batch in the application need carry out the screening of difference according to the demand of plant use to reach the purpose that the homogeneous degree is good, current sieving mechanism is difficult to carry out the accurate separation with the raw materials, mixes the raw materials of different granules together easily, and the separation effect is not good, and is difficult for deriving the raw materials, and machining efficiency is low.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the utility model is as follows:

the utility model provides a nylon granule sieving mechanism in reinforcing nylon production, includes organism, separating mechanism and guide mechanism, the organism includes casing and the guide funnel of rigid coupling on the casing, separating mechanism is including adorning first motor on the casing admittedly, rigid coupling in the transmission shaft of first motor output, suit in a plurality of worms on the transmission shaft, a plurality of connecting axles of rotatable installation on the casing, rigid coupling in connecting axle one end and with worm meshing driven worm wheel, rigid coupling in the eccentric wheel of the connecting axle other end, arrange the filter cartridge of eccentric wheel top in and rigid coupling in filter cartridge below both sides and with the spring of shells inner wall rigid coupling, guide mechanism is located the casing for carry the material in the filter cartridge.

Through adopting above-mentioned technical scheme, first motor starts to drive the transmission shaft and rotates, a plurality of worms rotate along with the transmission shaft, worm and worm wheel meshing transmission, the worm passes through the worm wheel and drives the connecting axle and rotate, the eccentric wheel rotates along with the connecting axle, the setting of spring, the eccentric wheel rotates the top and promotes filter cartridge rebound, the eccentric wheel rotates the opposite side afterwards, spring pulling filter cartridge rebound, then can drive a plurality of filter cartridges simultaneously and vibrate, thereby can realize multistage screening, and need not the manual work and operate, time saving and labor saving, be favorable to improving the quality of screening.

The present invention in a preferred example may be further configured to: a plurality of the diameter of the filter holes on the filter box is reduced from top to bottom in sequence, and one side of the filter box, which is close to the collection box, is of an open structure.

Through adopting above-mentioned technical scheme, filter cartridge one side is open structure, is convenient for derive the raw materials after filtering the filter cartridge screening.

The present invention in a preferred example may be further configured to: the shell further comprises a material guide opening and a material guide frame, wherein the material guide opening is formed in one side, close to the collecting box, of the shell, and the material guide frame is fixedly connected to the other side of the material guide opening.

Through adopting above-mentioned technical scheme, the setting of guide frame is convenient for collect the box with the leading-in collection of raw materials in, can prevent that the raw materials from dropping other positions.

The present invention in a preferred example may be further configured to: the shell further comprises a plurality of collecting boxes which are respectively arranged on one side of the shell and the bottom of the shell, and the collecting box on one side of the shell is positioned below the material guiding frame.

Through adopting above-mentioned technical scheme, the setting of collecting the box, the raw materials that conveniently will derive are separately collected.

The present invention in a preferred example may be further configured to: the material guide mechanism comprises a second motor fixedly arranged on the other side of the shell, a rotating shaft fixedly connected to the output end of the second motor, a plurality of screw rods arranged on the rotating shaft, and a top plate suitable for sliding relative to the screw rods, wherein one end of the top plate penetrates through the sliding groove and extends into the shell.

Through adopting above-mentioned technical scheme, the second motor starts to drive the pivot and rotates, and the screw rod rotates along with the pivot for roof rebound on the screw rod promotes filter cartridge one side rebound through the roof, makes filter cartridge to the lopsidedness, then can separately derive the raw materials of multiple diameter granule simultaneously, and simple structure is favorable to improving machining efficiency.

The present invention in a preferred example may be further configured to: the shape of roof is L shape, the roof is located one side of straining the box below.

Through adopting above-mentioned technical scheme, the setting of a plurality of roofs, and utilize single second motor to drive a plurality of roofs and remove, be favorable to practicing thrift the cost.

The present invention in a preferred example may be further configured to: the machine body further comprises supporting legs fixedly connected to the bottom of the shell, the bottom of the shell is in a conical shape, and the bottom of the shell is of an open structure.

Through adopting above-mentioned technical scheme, the setting of casing bottom is convenient for collect the box inside with the material introduction.

The present invention in a preferred example may be further configured to: the bottom of pivot is passed through the bearing and is connected with the casing lateral wall rotation, the bottom of transmission shaft is passed through the bearing and is connected with the casing lateral wall rotation.

Through adopting above-mentioned technical scheme, transmission shaft and pivot rotate through bearing and casing lateral wall respectively and are connected for the rotation of transmission shaft and pivot is more stable.

By adopting the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, the separating mechanism is arranged, the first motor is started to drive the transmission shaft to rotate, the plurality of worms rotate along with the transmission shaft, the worms are in meshing transmission with the worm wheels, the worm drives the connecting shaft to rotate through the worm wheels, the eccentric wheel rotates along with the connecting shaft, the spring is arranged, the eccentric wheel rotates to the upper side to push the filter box to move upwards, then the eccentric wheel rotates to the other side, the spring pulls the filter box to move downwards, and then the plurality of filter boxes can be simultaneously driven to vibrate, so that multi-stage screening can be realized, manual operation is not needed, time and labor are saved, and the screening quality is favorably improved.

2. According to the utility model, the material guide mechanism is arranged, the second motor is started to drive the rotating shaft to rotate, the screw rod rotates along with the rotating shaft, the top plate on the screw rod moves upwards, the side of the filter box is pushed to move upwards through the top plate, the filter box inclines to one side, and then raw materials with various diameters can be separately guided out simultaneously, the structure is simple, and the processing efficiency is improved.

Drawings

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

FIG. 2 is a cross-sectional view of a housing according to one embodiment of the present invention;

FIG. 3 is a schematic view of a detachment mechanism according to one embodiment of the present invention;

FIG. 4 is a side view of one embodiment of the present invention;

fig. 5 is a schematic view of a material guiding mechanism according to an embodiment of the utility model.

Reference numerals:

100. a body; 101. a housing; 102. a material guide hopper; 103. a collection box; 104. a material guiding frame;

200. a separating mechanism; 201. a filter box; 202. a first motor; 203. a drive shaft; 204. a worm; 205. a connecting shaft; 206. a worm gear; 207. an eccentric wheel; 208. a spring;

300. a material guiding mechanism; 301. a second motor; 302. a rotating shaft; 303. a screw; 304. a top plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the utility model.

Some embodiments of the present invention provide a nylon particle screening device in nylon production.

The first embodiment is as follows:

referring to fig. 1, 2, 3 and 4, the nylon particle screening apparatus for reinforced nylon production provided by the present invention comprises a body 100, a separating mechanism 200 and a material guiding mechanism 300, wherein the body 100 comprises a housing 101 and a material guiding funnel 102 fixedly connected to the housing 101, the separating mechanism 200 comprises a first motor 202 fixedly mounted on the housing 101, a transmission shaft 203 fixedly connected to an output end of the first motor 202, a plurality of worms 204 sleeved on the transmission shaft 203, a plurality of connecting shafts 205 rotatably mounted on the housing 101, a worm wheel 206 fixedly connected to one end of the connecting shaft 205 and engaged with the worm 204 for transmission, an eccentric wheel 207 fixedly connected to the other end of the connecting shaft 205, a filter box 201 disposed above the eccentric wheel 207, and springs 208 fixedly connected to two sides below the filter box 201 and fixedly connected to an inner wall of the housing 101, the first motor 202 starts to drive the transmission shaft 203 to rotate, the plurality of worms 204 rotate along with the transmission shaft 203, worm 204 and worm wheel 206 meshing transmission, worm 204 drives connecting axle 205 through worm wheel 206 and rotates, eccentric wheel 207 rotates along with connecting axle 205, spring 208's setting, eccentric wheel 207 rotates the top and promotes filter cartridge 201 rebound, eccentric wheel 207 rotates the opposite side afterwards, spring 208 pulling filter cartridge 201 rebound, then can drive a plurality of filter cartridges 201 simultaneously and vibrate, thereby can realize multistage screening, and need not the manual work and operate, time saving and labor saving, be favorable to improving the quality of screening, guide mechanism 300 is located casing 101, a material for carrying in the filter cartridge 201.

Specifically, the diameter of the filter holes on the plurality of filter boxes 201 is reduced from top to bottom in sequence, the filter boxes 201 are close to one side of the collecting box 103 and are of an open structure, one side of each filter box 201 is of an open structure, and the raw materials after the filter boxes 201 are screened are convenient to export.

Further, casing 101 still includes and is close to the guide frame 104 that collects box 103 one side and offered guide opening and rigid coupling in the guide opening opposite side, casing 101 is still including placing in a plurality of collection boxes 103 of casing 101 one side and casing 101 bottom, the collection box 103 of casing 101 one side is located the below of guide frame 104, the setting of guide frame 104, be convenient for in leading-in collection box 103 with the raw materials, can prevent that the raw materials from dropping other positions, collect the setting of box 103, the raw materials that conveniently will derive are separately collected.

Furthermore, the machine body 100 further comprises support legs fixedly connected to the bottom of the casing 101, the bottom of the casing 101 is in a conical shape, the bottom of the casing 101 is in an open structure, and the bottom of the casing 101 is arranged so as to facilitate the introduction of the material into the collecting box 103.

Example two:

referring to fig. 1, 2, 4 and 5, on the basis of the first embodiment, the material guiding mechanism 300 includes a second motor 301 fixedly mounted on the other side of the casing 101, a rotating shaft 302 fixedly connected to an output end of the second motor 301, a plurality of screws 303 disposed on the rotating shaft 302, and a top plate 304 adapted to slide relative to the screws 303, wherein one end of the top plate 304 passes through the sliding slot and extends into the casing 101, the second motor 301 is started to drive the rotating shaft 302 to rotate, the screws 303 rotate along with the rotating shaft 302, so that the top plate 304 on the screws 303 moves upward, and one side of the filter cartridge 201 is pushed by the top plate 304 to move upward, so that the filter cartridge 201 tilts to one side, and then the raw materials of particles with various diameters can be separately guided out.

Specifically, the shape of roof 304 is L shape, and roof 304 is located one side of cartridge 201 below, the setting of a plurality of roofs 304, and utilizes single second motor 301 to drive a plurality of roofs 304 and remove, is favorable to practicing thrift the cost.

Further, the bottom of the rotating shaft 302 is rotatably connected with the side wall of the housing 101 through a bearing, the bottom of the transmission shaft 203 is rotatably connected with the side wall of the housing 101 through a bearing, and the transmission shaft 203 and the rotating shaft 302 are rotatably connected with the side wall of the housing 101 through bearings respectively, so that the rotation of the transmission shaft 203 and the rotating shaft 302 is more stable.

The working principle and the using process of the utility model are as follows: firstly, a worker introduces raw materials into the uppermost filter cartridge 201 in the shell 101 through the material guide funnel 102, then the first motor 202 is started to drive the transmission shaft 203 to rotate, the plurality of worms 204 rotate along with the transmission shaft 203, the worms 204 are in meshed transmission with the worm gears 206, the worms 204 drive the connecting shaft 205 to rotate through the worm gears 206, the eccentric wheels 207 rotate along with the connecting shaft 205, the springs 208 are arranged, the eccentric wheels 207 rotate to the upper side to push the filter cartridges 201 to move upwards, then the eccentric wheels 207 rotate to the other side, the springs 208 pull the filter cartridges 201 to move downwards, then the filter cartridges 201 can be driven to vibrate simultaneously, as the diameters of filter holes on the filter cartridges 201 are reduced from top to bottom, particles with smaller diameters sequentially fall downwards, then the second motor 301 is started to drive the rotation shaft 302 to rotate, the screw rods 303 rotate along with the rotation shaft 302, so that the top plates 304 on the screw rods 303 move upwards, promote filter cartridge 201 one side upward movement through roof 304 for filter cartridge 201 inclines to one side, and filter cartridge 201 inclines in leading-in collection box 103 through guide frame 104 after, then can separate multiple diameter granule, afterwards the staff take the collection box 103 away can.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be understood that when an element is referred to as being "mounted to," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 claims and their equivalents.

Claims (8)

1. The utility model provides a nylon granule sieving mechanism in reinforcing nylon production which characterized in that includes:

the material guide device comprises a machine body (100), wherein the machine body (100) comprises a shell (101) and a material guide hopper (102) fixedly connected to the shell (101);

the separating mechanism (200) comprises a first motor (202) fixedly arranged on the shell (101), a transmission shaft (203) fixedly connected to the output end of the first motor (202), a plurality of worms (204) sleeved on the transmission shaft (203), a plurality of connecting shafts (205) rotatably arranged on the shell (101), a worm wheel (206) fixedly connected to one end of the connecting shaft (205) and in meshing transmission with the worms (204), an eccentric wheel (207) fixedly connected to the other end of the connecting shaft (205), a filter box (201) arranged above the eccentric wheel (207), and springs (208) fixedly connected to two sides below the filter box (201) and fixedly connected with the inner wall of the shell (101);

the material guide mechanism (300) is positioned on the shell (101) and used for conveying materials in the filter box (201).

2. The nylon particle screening device in the reinforced nylon production as claimed in claim 1, wherein the diameter size of the filter holes on the plurality of filter boxes (201) is reduced from top to bottom, and one side of the filter boxes (201) close to the collection box (103) is an open structure.

3. The nylon particle screening device in the production of reinforced nylon according to claim 1, wherein the housing (101) further comprises a material guide opening formed at one side close to the collecting box (103) and a material guide frame (104) fixedly connected to the other side of the material guide opening.

4. The nylon particle screening device in the reinforced nylon production as claimed in claim 3, wherein the housing (101) further comprises a plurality of collecting boxes (103) respectively arranged at one side of the housing (101) and at the bottom of the housing (101), and the collecting box (103) at one side of the housing (101) is positioned below the material guide frame (104).

5. The nylon particle screening device in the production of reinforced nylon according to claim 1, wherein the material guiding mechanism (300) comprises a second motor (301) fixedly mounted on the other side of the housing (101), a rotating shaft (302) fixedly connected to the output end of the second motor (301), a plurality of screws (303) arranged on the rotating shaft (302), and a top plate (304) adapted to slide relative to the screws (303), and one end of the top plate (304) passes through the sliding chute and extends into the housing (101).

6. The nylon particle screening device in the reinforced nylon production as claimed in claim 5, wherein the top plate (304) is L-shaped, and the top plate (304) is positioned at one side below the filter box (201).

7. The nylon particle screening device in the production of reinforced nylon according to claim 1, wherein the machine body (100) further comprises supporting legs fixedly connected to the bottom of the casing (101), the bottom of the casing (101) is in a conical shape, and the bottom of the casing (101) is in an open structure.

8. The nylon particle screening device in the reinforced nylon production as claimed in claim 5, wherein the bottom of the rotating shaft (302) is rotatably connected with the side wall of the housing (101) through a bearing, and the bottom of the transmission shaft (203) is rotatably connected with the side wall of the housing (101) through a bearing.

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