CN214526175U

CN214526175U - High-efficient nylon raw materials lifting machine

Info

Publication number: CN214526175U
Application number: CN202120228031.8U
Authority: CN
Inventors: 李书松
Original assignee: Dongguan Jinwo Plastic Technology Co ltd
Current assignee: Dongguan Jinwo Plastic Technology Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-10-29
Anticipated expiration: 2031-01-27

Abstract

The utility model relates to the field of nylon processing equipment, in particular to a high-efficiency nylon raw material hoister, which comprises a vertically arranged hoisting shell, a base positioned at the bottom of the hoisting shell, a feeding mechanism positioned at one side of the lower end of the hoisting shell and used for feeding nylon raw materials, a discharging mechanism positioned at one side of the upper end of the hoisting shell and deviated from the feeding mechanism and used for discharging the nylon raw materials, a power mechanism positioned at the top of the hoisting shell, and a transmission mechanism positioned in the hoisting shell and used for hoisting the nylon raw materials from the feeding mechanism to the discharging mechanism; the feeding mechanism is obliquely connected to the feeding hopper of the lifting shell, the screen positioned inside the feeding hopper and the feeding port detachably connected to the top of the feeding hopper, the cross sectional area of the feeding port is matched with that of the feeding port, and the horizontal height of the screen is lower than that of the top of the feeding port. The utility model discloses simple structure, the lifting efficiency is high.

Description

High-efficient nylon raw materials lifting machine

Technical Field

The utility model relates to a nylon processing equipment field especially relates to high-efficient nylon raw materials lifting machine.

Background

Polyamide is commonly known as Nylon (Nylon), called Polyamide (PA for short), has a density of 1.15g/cm3, and is a general name of thermoplastic resins containing repeated amide groups- [ NHCO ] -in the molecular main chain, and comprises aliphatic PA, aliphatic-aromatic PA and aromatic PA. The aliphatic PA has many varieties, large yield and wide application, and the name is determined by the specific carbon atom number of the synthetic monomer.

The preparation process of the nylon particles comprises a nylon particle processing production line, which comprises a nylon mixing forming machine, a water bath component, a dewatering component, a granulating mechanism, a uniform mixing and packaging mechanism and the like.

In the nylon particle preparation process, need use the lifting machine for block granular materials such as nylon particles through the pelleter are promoted perpendicularly, and prior art's nylon raw materials lifting machine lifting efficiency remains to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a high-efficient nylon raw material lifting machine simple structure, that lifting efficiency is high.

The utility model adopts the technical proposal that: the efficient nylon raw material hoister comprises a vertically arranged hoisting shell, a base positioned at the bottom of the hoisting shell, a feeding mechanism positioned at one side of the lower end of the hoisting shell and used for feeding nylon raw materials, a discharging mechanism positioned at one side of the upper end of the hoisting shell and far away from the feeding mechanism and used for discharging the nylon raw materials, a power mechanism positioned at the top of the hoisting shell, and a transmission mechanism positioned in the hoisting shell and used for hoisting the nylon raw materials from the feeding mechanism to the discharging mechanism; the feeding mechanism is obliquely connected to a feeding hopper of the lifting shell, a screen positioned in the feeding hopper and a feeding port detachably connected to the top of the feeding hopper, the cross sectional area of the feeding port is matched with that of the feeding port, and the horizontal height of the screen is lower than that of the top of the feeding port; the transmission mechanism comprises a driven belt connected with the power mechanism, material boxes uniformly distributed on the outer side of the driven belt and used for containing nylon raw materials, and also comprises limiting transmission devices positioned at the bottom and the top of the driven belt and used for ensuring the stable transmission of the driven belt, wherein the distance between the two limiting transmission devices is equal to the distance between the inner side of the top and the inner side of the bottom of the driven belt so as to ensure the tensioning of the driven belt; the lifting shell is formed by screwing a plurality of sections.

The technical scheme is further improved in that the limiting transmission device comprises fixing seats arranged on two opposite sides of the lifting shell, a transmission shaft connected between the two fixing seats, a transmission guide wheel arranged on the transmission shaft, and a plurality of shifting blades arranged on the transmission guide wheel, wherein the shifting blades at the top of the lifting shell drive the driven belt to transmit.

The further improvement of the technical scheme is that the power mechanism comprises a motor, a speed reducer connected to the output end of the motor and a driving belt connected to the output end of the speed reducer, wherein the driving belt is arranged on the outer side of a transmission shaft at the top of the lifting shell to drive the transmission shaft at the top of the lifting shell to move so as to drive a driven belt to move.

The further improvement to the technical scheme is that an access door is arranged on one side, deviating from the feeding mechanism, of the lifting shell.

The technical scheme is further improved in that an acute angle is formed between the lower bottom surface of the blanking mechanism and the ground.

The technical scheme is further improved in that the angle between the material box and the driven belt is the same as the angle between the discharging mechanism and the lifting shell, and the outer diameter of the material box is smaller than that of the discharging mechanism.

The utility model has the advantages that:

1. on the one hand, high-efficient nylon raw materials lifting machine, including the promotion casing of vertical setting, be located the base that promotes the casing bottom, be located the feed mechanism that promotes casing lower extreme one side and be used for the nylon raw materials to get into, be located and promote the casing upper end and deviate from feed mechanism one side and be used for nylon raw materials exhaust blanking mechanism, be located the power unit that promotes the casing top, still including being located the inside drive mechanism who is used for promoting the nylon raw materials to promote blanking mechanism from feed mechanism that promotes of promotion casing. Under the action of the power mechanism, the transmission mechanism lifts the nylon raw material from the feeding mechanism to the discharging mechanism to be discharged. Simple structure is compact, and the lifting efficiency is high. In the second aspect, feed mechanism connects in the feeding funnel that promotes the casing, is located the inside screen cloth of feeding funnel, can dismantle the material loading mouth of connecting in the feeding funnel top, the cross-sectional area phase-match of material loading mouth and material loading mouth, the level of screen cloth is less than the level at material loading mouth top, and the inside screen cloth that is equipped with of feed mechanism can carry out prefilter to the impurity in the nylon raw materials, and material loading mouth, feeding funnel play the effect of direction to the flow direction of nylon raw materials simultaneously, ensure the smooth promotion of nylon raw materials, further are favorable to improving lifting efficiency. The third aspect, drive mechanism is including connecting in power unit's driven belt, the equipartition is used for the magazine of splendid attire nylon raw materials in the drive belt outside, still including the spacing transmission who is located driven belt bottom and top and is used for guaranteeing the stable conveying of driven belt, distance between two spacing transmission equals the distance between driven belt top inboard and the bottom inboard in order to ensure driven belt tensioning, and the nylon raw materials falls into the magazine from the feeding funnel, and the magazine is from down and up promoted to unloading mechanism department under driven belt's drive, and unloading mechanism is equipped with the evacuation structure, and under the vacuum action, the nylon raw materials passes through unloading mechanism and discharges, and at the promotion in-process, is equipped with spacing transmission to guarantee drive belt's steady motion, thereby drive the stable promotion of nylon raw materials, further improved lifting efficiency. In the fourth aspect, the lifting shell is formed by a plurality of sections of screw joints, and the length of the lifting shell can be adjusted according to different lifting height requirements, so that the lifting shell is suitable for different occasions.

2. Spacing transmission including install in the fixing base of promoting the relative both sides of casing, connect transmission shaft between two fixing bases, install transmission guide pulley on the transmission shaft, all locate a plurality of on the transmission guide pulley and stir the blade, it drives driven belt transmission to promote the stirring blade at casing top. The fixing base is used for spacing to the transmission shaft, and under power unit's effect, the motion of transmission guide pulley drives the motion of stirring the piece above that to stir drive belt's motion, realize the promotion of magazine, simple structure, the lifting efficiency is high.

3. The power mechanism comprises a motor, a speed reducer connected to the output end of the motor and a driving belt connected to the output end of the speed reducer, wherein the driving belt is arranged on the outer side of a transmission shaft at the top of the lifting shell to drive the transmission shaft at the top of the lifting shell to move so as to drive the driven belt to move. Power unit and drive mechanism's setting can realize driven belt's stable transport, ensures the nylon raw materials in the magazine by stable promotion, is favorable to improving work efficiency.

4. The access door has been seted up to one side that promotes the casing and deviate from feed mechanism, is convenient for maintain the inside equipment of promotion casing, ensures normal work, promotes work efficiency.

5. The lower bottom surface of the blanking mechanism forms an acute angle with the ground, so that nylon raw materials can be conveniently blanked under the action of vacuum and self gravity, and the working efficiency is high.

6. The angle between the material box and the driven belt is the same as the angle between the discharging mechanism and the lifting shell, and the outer diameter of the material box is smaller than that of the discharging mechanism, so that the nylon raw material in the material box can be discharged smoothly through the discharging mechanism, and the improvement of the working efficiency is further facilitated.

The utility model discloses a theory of operation does: the nylon raw materials enter the feeding port firstly, enter the feeding hopper after passing through the screen mesh, fall into the material box of the driven belt under the action of self gravity, the material box is lifted up along with the driven belt from bottom to top, and when the material box moves to the discharging mechanism, the nylon raw materials are discharged under the action of vacuum and under the action of self gravity through the discharging mechanism. In the movement process, the power of the motor drives the driving belt to move after passing through the speed reducer, the driving belt drives the driven belt to move, and the driven belt drives the material box to lift.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic structural view of the present invention with the lifting housing removed;

FIG. 3 is an enlarged view of FIG. 2 at B;

fig. 4 is an enlarged view of a portion a in fig. 2.

Detailed Description

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

As shown in fig. 1-4, the three-dimensional view, the schematic structural view after removing the lifting housing, the enlarged view of the position a and the enlarged view of the position B are shown.

High-efficient nylon raw materials lifting machine 100, including the promotion casing 110 of vertical setting, be located the base 120 that promotes casing 110 bottom, be located and promote casing 110 lower extreme one side and be used for the feed mechanism 130 that the nylon raw materials got into, be located and promote casing 110 upper end and deviate from feed mechanism 130 one side and be used for the discharged unloading mechanism 140 of nylon raw materials, be located and promote the power unit 160 at casing 110 top, still including being located and promote casing 110 inside be used for promoting the nylon raw materials to the drive mechanism 170 of unloading mechanism 140 from feed mechanism 130.

On the one hand, high-efficient nylon raw materials lifting machine 100, including the promotion casing 110 of vertical setting, be located the base 120 that promotes casing 110 bottom, be located and promote casing 110 lower extreme one side and be used for the feed mechanism 130 that the nylon raw materials got into, be located and promote casing 110 upper end and deviate from feed mechanism 130 one side and be used for the discharged unloading mechanism 140 of nylon raw materials, be located and promote the power unit 160 at casing 110 top, still including being located and promoting casing 110 inside be used for promoting the nylon raw materials to unloading mechanism 140's drive mechanism 170 from feed mechanism 130. Under the action of the power mechanism 160, the transmission mechanism 170 lifts the nylon raw material from the feeding mechanism 130 to the discharging mechanism 140 for discharging. Simple structure is compact, and the lifting efficiency is high. Second aspect, feed mechanism 130 connects in the upper hopper 131 that promotes casing 110 in the slope, be located the inside screen cloth 132 of upper hopper 131, can dismantle the material loading mouth 133 of connecting in the upper hopper 131 top, the cross-sectional area of material loading mouth 133 and the cross-sectional area phase-match of material loading mouth 133, the level of screen cloth 132 is less than the level at material loading mouth 133 top, the inside screen cloth 132 that is equipped with of feed mechanism 130, can carry out the prefilter to the impurity in the nylon raw materials, material loading mouth 133 simultaneously, material loading mouth 131 plays the effect of direction to the flow direction of nylon raw materials, ensure the smooth promotion of nylon raw materials, further be favorable to improving lifting efficiency. In a third aspect, the transmission mechanism 170 includes a driven belt 171 connected to the power mechanism 160, magazines 172 evenly distributed on the outer side of the driven belt for containing nylon raw materials, and further includes limit transmission devices 173 located at the bottom and top of the driven belt 171 for ensuring stable transmission of the driven belt 171, the distance between the two limit transmission devices 173 is equal to the distance between the inner side of the top and the inner side of the bottom of the driven belt 171 for ensuring tension of the driven belt 171, the nylon raw materials fall into the magazines 172 from the feeding hopper 131, the magazines 172 are lifted from bottom to top to the blanking mechanism 140 under the driving of the driven belt 171, the blanking mechanism 140 is provided with a vacuum pumping structure, under the action of vacuum, the nylon raw material is discharged through the blanking mechanism 140, and in the lifting process, a limit transmission device 173 is arranged, the stable motion of driving belt is guaranteed to drive the nylon raw materials and stably promote, and the promotion efficiency is further improved. In the fourth aspect, the lifting housing 110 is formed by screwing a plurality of sections, and the length of the lifting housing 110 can be adjusted according to different lifting height requirements, so that the lifting housing is suitable for different occasions.

The limit transmission device 173 includes fixing seats 173a installed on opposite sides of the lifting housing 110, a transmission shaft 173b connected between the two fixing seats 173a, a transmission guide wheel 173c installed on the transmission shaft 173b, and a plurality of toggle blades 173d both disposed on the transmission guide wheel 173c, and the toggle blades 173d at the top of the lifting housing 110 drive the driven belt 171 to transmit. The fixing seat 173a is used for limiting the transmission shaft 173b, and under the action of the power mechanism 160, the transmission guide wheel 173c moves to drive the shifting blade 173d thereon to move, so that the transmission belt is shifted to realize the lifting of the material box 172.

The power mechanism 160 includes a motor 161, a speed reducer 162 connected to an output end of the motor 161, and a driving belt 163 connected to an output end of the speed reducer 162, wherein the driving belt 163 is disposed outside a transmission shaft 173b at the top of the lifting housing 110 to drive the transmission shaft 173b at the top of the lifting housing 110 to move, so as to drive the driven belt 171 to move. The arrangement of the power mechanism 160 and the transmission mechanism 170 can realize the stable transmission of the driven belt 171, ensure the stable lifting of the nylon raw material in the material box 172, and is beneficial to improving the working efficiency.

An access door (not shown in the figure) is opened on one side of the lifting shell 110 departing from the feeding mechanism 130, so that the equipment inside the lifting shell 110 can be maintained conveniently, normal work is ensured, and the work efficiency is improved.

The lower bottom surface of the blanking mechanism 140 forms an acute angle with the ground, so that the nylon raw material can be conveniently blanked under the action of vacuum and self gravity, and the working efficiency is high.

The angle between the material box 172 and the driven belt 171 is the same as the angle between the discharging mechanism 140 and the lifting shell 110, and the outer diameter of the material box 172 is smaller than the outer diameter of the discharging mechanism 140, so that the nylon raw material in the material box 172 can be smoothly discharged through the discharging mechanism 140, and the improvement of the working efficiency is further facilitated.

The utility model discloses a theory of operation does: the nylon raw material firstly enters the feeding port 133, enters the feeding hopper 131 after passing through the screen 132, falls into the material box 172 of the driven belt 171 under the action of self gravity, the material box 172 is lifted up along with the driven belt 171 from bottom to top, and when the material box 172 moves to the discharging mechanism 140, the nylon raw material is discharged under the action of vacuum and the action of self gravity through the discharging mechanism 140. In the moving process, the power of the motor 161 drives the driving belt 163 to move after passing through the speed reducer 162, the driving belt 163 drives the driven belt 171 to move, and the driven belt 171 drives the material box 172 to lift.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. High-efficient nylon raw materials lifting machine, its characterized in that: the nylon material feeding device comprises a vertically arranged lifting shell, a base, a feeding mechanism, a discharging mechanism, a power mechanism and a transmission mechanism, wherein the base is positioned at the bottom of the lifting shell, the feeding mechanism is positioned at one side of the lower end of the lifting shell and used for feeding nylon materials, the discharging mechanism is positioned at one side, away from the feeding mechanism, of the upper end of the lifting shell and used for discharging the nylon materials, the power mechanism is positioned at the top of the lifting shell, and the transmission mechanism is positioned in the lifting shell and used for lifting the nylon materials from the feeding mechanism to the discharging mechanism; the feeding mechanism is obliquely connected to a feeding hopper of the lifting shell, a screen positioned in the feeding hopper and a feeding port detachably connected to the top of the feeding hopper, the cross sectional area of the feeding port is matched with that of the feeding port, and the horizontal height of the screen is lower than that of the top of the feeding port; the transmission mechanism comprises a driven belt connected with the power mechanism, material boxes uniformly distributed on the outer side of the driven belt and used for containing nylon raw materials, and also comprises limiting transmission devices positioned at the bottom and the top of the driven belt and used for ensuring the stable transmission of the driven belt, wherein the distance between the two limiting transmission devices is equal to the distance between the inner side of the top and the inner side of the bottom of the driven belt so as to ensure the tensioning of the driven belt; the lifting shell is formed by screwing a plurality of sections.

2. The high-efficiency nylon raw material hoister as claimed in claim 1, characterized in that: the limiting transmission device comprises fixing seats arranged on two opposite sides of the lifting shell, a transmission shaft connected between the two fixing seats, a transmission guide wheel arranged on the transmission shaft, and a plurality of toggle blades arranged on the transmission guide wheel, wherein the toggle blades at the top of the lifting shell drive the driven belt to transmit.

3. The high-efficiency nylon raw material hoister as claimed in claim 2, characterized in that: the power mechanism comprises a motor, a speed reducer connected to the output end of the motor and a driving belt connected to the output end of the speed reducer, wherein the driving belt is arranged on the outer side of a transmission shaft at the top of the lifting shell to drive the transmission shaft at the top of the lifting shell to move so as to drive the driven belt to move.

4. The high-efficiency nylon raw material hoister as claimed in claim 3, characterized in that: an access door is arranged on one side, deviating from the feeding mechanism, of the lifting shell.

5. The high-efficiency nylon raw material hoister as claimed in claim 3, characterized in that: the lower bottom surface of the blanking mechanism and the ground form an acute angle.

6. The high-efficiency nylon raw material hoister as claimed in claim 4, characterized in that: the angle between the material box and the driven belt is the same as the angle between the discharging mechanism and the lifting shell, and the outer diameter of the material box is smaller than that of the discharging mechanism.