CN221325108U - 360-Degree rotary type distributing machine - Google Patents

Abstract

The utility model discloses a 360-degree rotary type distributing machine, and relates to the technical field of distributing machines. The feeding hopper comprises a feeding hopper body, a feeding frame and an inclined plate, wherein a discharging pipe is welded at the bottom of the feeding hopper body in a penetrating mode, a driving gear is arranged on the outer peripheral surface of the discharging pipe body, the feeding frame is connected with the outer peripheral surface of the discharging pipe in a sliding clamping mode, a first stepping motor is connected with one side in the feeding frame in a clamping mode, the inclined plate is connected with the bottom in the feeding frame in a rotating mode in a clamping mode, a damping block is attached to the bottom of the inclined plate, and a second stepping motor is arranged at one end of the bottom of the inclined plate. According to the utility model, the feeding hopper, the feeding frame and the inclined plate are arranged, so that the problems that the position of a discharging point of the receiving spoon of the rotary type material distributor is relatively fixed from a material distributing pipe, a certain impact is often generated on the receiving spoon when materials fall into the receiving spoon, the receiving spoon cannot release stress generated by collision, and the receiving spoon is possibly worn and even falls off from the bottom end of the material distributing pipe after long-time use are solved.

Description

360-Degree rotary type distributing machine

Technical Field

The utility model belongs to the technical field of cloth machines, and particularly relates to a 360-degree rotary cloth machine.

Background

The distributing device is one of the key devices for the production of the shaft kiln, and mainly comprises a rotary volute distributing device, a rotary grading distributing device, a lifting distributing device, a double-layer distributing bell and the like, wherein the rotary distributing device has the advantages of improving the quality of products, saving fuel, being uniform in distribution, free of accumulated materials, free of mechanical faults, large in bearing, good in operation effect, short in production period, preferential in price and the like, and the rotary distributing device has the following defects in actual use:

1. the utility model has disclosed a new kind of rotary distributing device in the publication number CN208736150U, the said feeder hopper is fixed on gyrorotor, link with cloth tube vertically of inferior part, gyrorotor and drive unit are installed on support, the drive unit is meshed and transmitted with driven gear on gyrorotor through the bevel gear, the said receiving spoon is sleeved on fixed axle under cloth tube through the axle sleeve, fixed with the support on the cloth tube, the hoist engine is installed on support, connect with receiving spoon through the pair of wire ropes, the rotary distributing device can only regulate the angle of the cloth in horizontal direction and vertical direction usually, but the position of the blanking point of the receiving spoon is relatively fixed, the flexibility used is limited by certain;

2. When the rotary distributor distributes materials, the materials tend to fall to the material receiving spoon under the action of gravity and are fed along the inclined material receiving spoon, but the materials tend to generate certain impact to the material receiving spoon when falling into the material receiving spoon, the material receiving spoon cannot release the stress generated by collision, and the material receiving spoon is possibly worn and even falls off from the bottom end of the material distribution pipe after long-time use.

Disclosure of utility model

The utility model aims to provide a 360-degree rotary type material distributor, which solves the problems that the rotary type material distributor can only regulate the material distribution angle in the horizontal direction and the vertical direction through a material feeding hopper, a material passing frame and an inclined plate, the position of a material receiving spoon discharging point is relatively fixed from a material distribution pipe, a material often generates certain impact on the material receiving spoon when falling into the material receiving spoon, the material receiving spoon cannot release stress generated by collision, and the material receiving spoon is possibly worn or even falls off from the bottom end of a material distribution pipe after long-time use.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

The utility model relates to a 360-degree rotary type material distributor, which comprises a feeding hopper, a material passing frame and an inclined plate, wherein a blanking pipe is welded at the bottom of the feeding hopper in a penetrating way, first sliding blocks are welded and fixed at two ends of the outer peripheral surface of the blanking pipe, a driving gear is arranged on the outer peripheral surface of the blanking pipe, the material passing frame is clamped on the outer peripheral surface of the blanking pipe in a sliding way, a first stepping motor is clamped on one side in the material passing frame, an inclined plate is clamped on the inner bottom of the material passing frame in a rotating way, a damping block is attached to the bottom of the inclined plate, and a second stepping motor is arranged at one end of the bottom of the inclined plate;

The feeding pipe can be driven to rotate through rotation of the driving gear, the feeding position is adjusted in the horizontal direction, the material distribution efficiency is guaranteed, the feeding frame can be driven to move through the first stepping motor, the position between the feeding frame and the feeding pipe is adjusted, the position of the material distribution is further adjusted, the flexibility of use is improved, materials falling into the feeding frame under the action of gravity can move along the inclined plate, the feeding is carried out through the feeding opening of the feeding frame, and when the materials collide with the inclined plate, the stress generated by the collision can be released through the damping block, the damage to the inclined plate and the feeding frame caused by the collision is reduced, the damage probability of the material distributor is reduced, the position of the damping block can be adjusted through the second stepping motor, the inclined plate is enabled to rotate in the vertical direction, the inclined angle of the inclined plate is adjusted, the speed of the material distribution can be further adjusted, and the material distribution efficiency is guaranteed.

Further, a driven gear is fixedly clamped on the outer peripheral surface of the blanking pipe, a supporting frame is rotatably clamped on the outer peripheral surface of the blanking pipe, the supporting frame is positioned between the driven gear and a first sliding block, one end of the first sliding block is penetrated and fixedly clamped with a first threaded pipe, and connecting frames are welded and fixed on the periphery of the top of the supporting frame;

Can make cloth machine and supporting equipment or mobile device connect through the link, guarantee the stability at cloth in-process, first slider can slide along leading to the work or material rest, adjusts the unloading pipe and leads to the position between the work or material rest, further adjusts the cloth position, improves the flexibility of use.

Further, the top of the support frame is fixedly clamped with a rotating motor, the driving gear is clamped at the top of the rotating motor, and the driving gear is meshed with the peripheral surface of the driven gear;

The driving gear can be driven to rotate through the rotating motor, the driven gear and the blanking pipe are further driven to rotate, the blanking angle is adjusted in the horizontal direction, and the cloth efficiency is guaranteed.

Further, first sliding grooves are formed in two inner sides of the feeding frame, the first stepping motor is clamped on the inner side of one first sliding groove, one end of the first stepping motor is rotatably clamped with a first threaded rod, the first sliding block is slidably clamped on the inner side of the first sliding groove, and the first threaded rod penetrates through and is screwed on one end of the first threaded pipe;

The first stepping motor can drive the first threaded rod to rotate, the first sliding block is further driven to move along the first sliding groove, the position between the blanking pipe and the feeding frame is adjusted, the position of the cloth is further adjusted, and the use flexibility is improved.

Further, two ends of the bottom of the material passing frame are respectively provided with a feed opening and a second chute in a penetrating way, the inclined plate is rotationally clamped at one side of the top of the feed opening, and the feed pipe is suspended at the top of the inclined plate;

The material is when passing through the unloading pipe and falling to the material frame inboard, and the material strikes in the hang plate surface to remove along the hang plate, carry out the cloth through the feed opening, and when the material collides in the hang plate, can release the stress that the collision produced through the snubber block, reduce the injury that the collision caused hang plate and material frame, reduce the damage probability of cloth machine.

Further, a second sliding block is fixedly clamped at the bottom of the shock absorption block, one end of the second sliding block is penetrated and clamped with a second threaded pipe, one end of the second stepping motor is rotatably clamped with a second threaded rod, the second threaded rod is penetrated and screwed at one end of the second threaded pipe, the second threaded rod and the second stepping motor are clamped in a second sliding groove, and the second sliding block is slidably clamped at the inner side of the second sliding groove;

Through the rotation that the second stepper motor can drive the second threaded rod, make the second slider remove along the second spout, further drive the snubber block and remove, can make the laminating in the inclined plate of snubber block upside rotate in vertical direction through the removal of snubber block, adjust the angle of vertical direction, further can adjust the speed that the material removed when passing through the inclined plate, guarantee cloth efficiency.

The utility model has the following beneficial effects:

1. According to the utility model, through arranging the feeding hopper and the feeding frame, the problem that the rotating distributing device can only generally adjust the angle of the cloth in the horizontal direction and the vertical direction, but the position of the discharging point of the receiving spoon away from the cloth pipe is relatively fixed, and the use flexibility is limited to a certain extent is solved.

2. According to the utility model, the problem that the material receiving spoon is worn or even falls off from the bottom end of the material distribution pipe after long-time use is solved by arranging the material passing frame and the inclined plate, when the material distribution device distributes materials, the materials fall to the material receiving spoon under the action of gravity and are fed along the inclined material receiving spoon, but when the materials fall into the material receiving spoon, a certain impact is generated on the material receiving spoon, the material receiving spoon cannot release the stress generated by collision, the material receiving spoon can be worn or even fall off from the bottom end of the material distribution pipe after long-time use, when the materials fall to the surface of the inclined plate through the material feeding pipe, the stress generated by collision can be released through the damping block, the damage to the inclined plate and the material passing frame caused by collision is reduced, the damage probability of the material distribution machine is reduced, the position of the damping block can be regulated through the second stepping motor, the inclined plate can rotate in the vertical direction, the material distribution speed can be regulated, and the material distribution efficiency is further ensured.

Drawings

FIG. 1 is a structural effect diagram of the present utility model;

FIG. 2 is a block diagram of a feed hopper of the present utility model;

FIG. 3 is an enlarged view of the structure of FIG. 2A in accordance with the present utility model;

FIG. 4 is a block diagram of the feed-through rack of the present utility model;

Fig. 5 is a structural view of the inclined plate of the present utility model.

Reference numerals:

1. A feed hopper; 101. a support frame; 102. discharging pipes; 103. a driven gear; 104. a connecting frame; 105. a rotating motor; 106. a drive gear; 107. a first slider; 108. a first threaded pipe; 2. a feeding frame; 201. a first chute; 202. a first threaded rod; 203. a first stepping motor; 204. a second chute; 205. a feed opening; 3. an inclined plate; 301. a second stepping motor; 302. a second threaded rod; 303. a second slider; 304. a second threaded tube; 305. and a shock absorption block.

Detailed Description

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

Referring to fig. 1-5, the present utility model is a 360 ° rotary distributor, which comprises a feeding hopper 1, a feeding frame 2 and an inclined plate 3, wherein a blanking pipe 102 is welded at the bottom of the feeding hopper 1 in a penetrating manner, a first sliding block 107 is welded and fixed at both ends of the outer peripheral surface of the blanking pipe 102, a driving gear 106 is arranged on the outer peripheral surface of the blanking pipe 102, the feeding frame 2 is slidably clamped at the outer peripheral surface of the blanking pipe 102, a first stepping motor 203 is clamped at one side of the feeding frame 2, the inclined plate 3 is rotatably clamped at the bottom of the feeding frame 2, a shock-absorbing block 305 is attached at the bottom of the inclined plate 3, and a second stepping motor 301 is arranged at one end of the bottom of the inclined plate 3;

When the material is distributed, according to the distribution position, the first stepping motor 203 is controlled to drive the first threaded rod 202 to rotate, the first sliding block 107 is further driven to move along the first sliding groove 201, the relative position between the blanking pipe 102 and the feeding frame 2 is adjusted, the distance between the blanking hole 205 and the blanking pipe 102 is further adjusted, the second stepping motor 301 is controlled to drive the second threaded rod 302 to rotate, the damping block 305 is further driven to slide along the second sliding groove 204, the inclined plate 3 is enabled to rotate in the vertical direction, the moving speed of the material when passing through the inclined plate 3 is adjusted, a large amount of material is poured into the inner side of the feeding hopper 1, the material falls onto the surface of the inclined plate 3 through the blanking pipe 102 under the action of gravity and is buffered through the damping block 305, the material moves along the inclined plate 3 and is distributed through the blanking hole 205, meanwhile, the rotary motor 105 drives the blanking pipe 102 to rotate through the driving gear 106, and the blanking hole 205 is further driven to rotate, and the distribution position is adjusted.

As shown in fig. 1-4, a driven gear 103 is clamped and fixed on the outer peripheral surface of the blanking pipe 102, a supporting frame 101 is rotatably clamped and connected on the outer peripheral surface of the blanking pipe 102, the supporting frame 101 is positioned between the driven gear 103 and a first sliding block 107, one end of one first sliding block 107 is penetrated and clamped with a first threaded pipe 108, a connecting frame 104 is welded and fixed on the periphery of the top of the supporting frame 101, a rotating motor 105 is clamped and fixed on the top of the supporting frame 101, a driving gear 106 is clamped and connected on the top of the rotating motor 105, and the driving gear 106 is meshed on the outer peripheral surface of the driven gear 103;

The two sides in the material passing frame 2 are provided with first sliding grooves 201, a first stepping motor 203 is clamped on the inner side of one first sliding groove 201, one end of the first stepping motor 203 is rotatably clamped with a first threaded rod 202, a first sliding block 107 is slidably clamped on the inner side of the first sliding groove 201, the first threaded rod 202 is penetrated and rotatably connected with one end of a first threaded pipe 108, two ends at the bottom of the material passing frame 2 are respectively penetrated and provided with a feed opening 205 and a second sliding groove 204, an inclined plate 3 is rotatably clamped on one side of the top of the feed opening 205, and a feed pipe 102 is suspended on the top of the inclined plate 3;

before the cloth, connect fixed cloth machine and supporting equipment or mobile device through link 104, the position control first step motor 203 of cloth as required drives first threaded rod 202 and rotates, further drive first screwed pipe 108 and rotate, make first slider 107 follow first spout 201 and slide, adjust the distance between feed opening 205 and the unloading pipe 102, when carrying out the cloth, pour the material into feed hopper 1 through the conveyer, the material falls to the logical work or material rest 2 through unloading pipe 102 under the action of gravity, and remove along inclined plate 3, carry out the cloth through the feed opening 205, in-process of cloth, drive driving gear 106 through rotating motor 105 rotates, further drive driven gear 103 and unloading pipe 102 rotate, adjust the position of feed opening 205 in the horizontal direction.

As shown in fig. 1 and 5, a second slider 303 is fixedly clamped at the bottom of the shock absorbing block 305, one end of the second slider 303 is penetrated and clamped with a second threaded pipe 304, one end of the second stepping motor 301 is rotatably clamped with a second threaded rod 302, the second threaded rod 302 is penetrated and screwed at one end of the second threaded pipe 304, the second threaded rod 302 and the second stepping motor 301 are clamped in the second sliding groove 204, and the second slider 303 is slidably clamped at the inner side of the second sliding groove 204;

Before the material is distributed, the second stepping motor 301 is controlled to drive the second threaded rod 302 to rotate, the second threaded pipe 304 is further driven to rotate, the damping block 305 and the second sliding block 303 move along the second sliding groove 204, the inclined plate 3 is enabled to rotate in the vertical direction by adjusting the position of the damping block 305, the moving speed of the material when passing through the inclined plate 3 is adjusted, and the inclined plate 3 is subjected to damping protection by the damping block 305 when the material impacts the inclined plate 3.

The specific working principle of the utility model is as follows: before distributing, the distributing machine and the supporting device or the moving device are connected and fixed through the connecting frame 104, the first stepping motor 203 is controlled to drive the first threaded rod 202 to rotate according to the position required to distribute, the first threaded pipe 108 is further driven to rotate, the first sliding block 107 slides along the first sliding groove 201, the distance between the material discharging opening 205 and the material discharging pipe 102 is adjusted, the second stepping motor 301 is controlled to drive the second threaded rod 302 to rotate according to the speed required to distribute, the second threaded pipe 304 is further driven to rotate, the damping block 305 and the second sliding block 303 move along the second sliding groove 204, the inclined plate 3 rotates in the vertical direction through adjusting the position of the damping block 305, the inclined plate 3 is adjusted to incline the inclined angle, materials are poured into the feeding hopper 1 through the conveying device, the materials fall onto the surface of the inclined plate 3 through the material discharging pipe 102 under the action of gravity, the inclined plate 3 is subjected to damping protection through the damping block 305, the materials move along the inclined plate 3 and distribute through the material discharging opening 205, in the process, the driving gear 106 is driven to rotate through the rotating motor 105, the driven gear 103 and the material discharging pipe 102 is further driven to rotate according to the speed required to the speed of distributing, and the position of the material in the horizontal direction is adjusted.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (6)

1. 360 Rotatory cloth machine of degree, including feeding hopper (1), logical work or material rest (2) and hang plate (3), its characterized in that: the feeding hopper (1) bottom runs through the welding and has unloading pipe (102), unloading pipe (102) outer peripheral face both ends all welded fastening has first slider (107), unloading pipe (102) outer peripheral face is provided with driving gear (106), unloading pipe (102) outer peripheral face slip joint has logical work or material rest (2), one side joint has first step motor (203) in leading to work or material rest (2), the internal rotation joint in leading to work or material rest (2) has inclined plate (3), the laminating of inclined plate (3) bottom has snubber block (305), inclined plate (3) bottom one end is provided with second step motor (301).

2. A 360 ° rotary distributor according to claim 1, characterized in that: the automatic feeding device is characterized in that a driven gear (103) is fixedly clamped on the outer peripheral surface of the feeding pipe (102), a supporting frame (101) is rotatably clamped on the outer peripheral surface of the feeding pipe (102), the supporting frame (101) is located between the driven gear (103) and a first sliding block (107), one end of the first sliding block (107) penetrates through a first threaded pipe (108) in a clamping mode, and a connecting frame (104) is fixedly welded on the periphery of the top of the supporting frame (101).

3. A 360 ° rotary distributor according to claim 2, characterized in that: the top joint of support frame (101) is fixed with rotation motor (105), driving gear (106) joint is in rotation motor (105) top, driving gear (106) meshing is in driven gear (103) outer peripheral face.

4. A 360 ° rotary distributor according to claim 2, characterized in that: first spout (201) have all been seted up to both sides in expert work or material rest (2), first step motor (203) joint is inboard in a first spout (201), first threaded rod (202) have been rotated joint to first step motor (203) one end, first slider (107) slip joint is inboard in first spout (201), first threaded rod (202) run through and connect in first screwed pipe (108) one end soon.

5. A 360 ° rotary distributor according to claim 1, characterized in that: the feeding frame is characterized in that two ends of the bottom of the feeding frame (2) are respectively penetrated and provided with a feed opening (205) and a second chute (204), the inclined plate (3) is rotationally clamped on one side of the top of the feed opening (205), and the feed pipe (102) is suspended at the top of the inclined plate (3).

6. A 360 ° rotary distributor according to claim 5, wherein: the damping block (305) bottom joint is fixed with second slider (303), second slider (303) one end runs through the joint and has second screwed pipe (304), second stepper motor (301) one end rotation joint has second threaded rod (302), second threaded rod (302) run through the spin connect in second screwed pipe (304) one end, second threaded rod (302) and second stepper motor (301) joint are in second spout (204), second slider (303) slip joint is inboard in second spout (204).