CN212711122U - Powder conveying device - Google Patents

Abstract

The utility model discloses a powder conveyor relates to the technical field of transportation powder, it includes the frame, be provided with transmission portion in the frame, transmission portion includes the climbing conveyer belt, it has a plurality of horizontally live-rollers to rotate in the frame, climbing conveyer belt transmission cover is located on the live-rollers, the frame becomes certain angle with ground, be fixed with the motor in the frame, the terminal live-rollers of motor drive climbing conveyer belt rotates, be fixed with the anticreep board along its length direction on the climbing conveyer belt, climbing conveyer belt length direction both sides all are fixed with the barrier plate. After dropping into the powder to the climbing conveyer belt on, starter motor, the motor drives the rotation of live-rollers to make the climbing conveyer belt transport the powder, owing to set up barrier plate and anticreep board, consequently can avoid the powder to drop from the both sides of climbing conveyer belt at the in-process of transmission, and avoid the powder swift current material, owing to set up the climbing conveyer belt, realized the automatic transportation of powder, consequently reduced workman's fatigue.

Description

Powder conveying device

Technical Field

The utility model belongs to the technical field of the technique that the powder was carried and specifically relates to a powder conveyor is related to.

Background

At present, in the iron-making process, fine iron powder needs to be extracted from iron ore and used as a raw material for iron-making. The extracted iron ore is changed into powder and then sold to building material manufacturers, so that the powder is recycled.

In the prior art, the powder ore is usually transported to the outside of the factory by workers and piled together.

When the place for accumulating the powder is far away from the station for processing the iron ore or the frequency for transporting the powder by the staff is high, the staff can be tired.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art existence, the utility model aims at providing a reduce powder conveyor of staff's fatigue.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a powder conveyor, includes the frame, be provided with transmission portion in the frame, transmission portion includes the climbing conveyer belt, it has a plurality of horizontally live-rollers to rotate in the frame, climbing conveyer belt drive cover is located on the live-roller, the frame becomes certain angle with ground, be fixed with the motor in the frame, the terminal live-roller of motor drive climbing conveyer belt rotates, be fixed with the anticreep board along its length direction on the climbing conveyer belt, climbing conveyer belt length direction both sides all are fixed with the barrier plate.

Through adopting above-mentioned technical scheme, after dropping the powder on the climbing conveyer belt, starter motor, the rotation of motor drive live-rollers to make the climbing conveyer belt transport powder, owing to set up barrier plate and anticreep board, consequently can avoid the powder to drop from the both sides of climbing conveyer belt at the in-process of transmission, and avoid the powder swift current material, owing to set up the climbing conveyer belt, the automatic transportation of powder has been realized, consequently workman's fatigue has been reduced.

Further: the anti-falling plates are all arranged in a bent mode and are same in bending direction.

Through adopting above-mentioned technical scheme, the purpose that the bending set up is, when preventing that the powder swift current material, can increase the space of placing the powder between two liang of anticreep boards.

Further: the material stopping plates are arranged in a wave shape.

Through adopting above-mentioned technical scheme, set up wavy purpose, when preventing that the powder from dropping from climbing conveyer belt both sides, further increase the space that the material was placed to the climbing conveyer belt.

Further: the climbing conveyer belt is provided with the multistage, and every section is all transmitted alone, the back one the beginning of climbing conveyer belt is less than the end of preceding climbing conveyer belt, arranges in and is provided with the sealed cowling on the climbing conveyer belt outside the factory building.

Through adopting above-mentioned technical scheme, the purpose of setting the climbing conveyer belt to the multistage and transporting alone is, when the transport distance is longer, can reduce the burden of initial end motor, and the purpose of setting up the sealed cowling is, when avoiding the powder to transmit outside the factory building, receives the influence of external wind-force, causes the raise dust phenomenon.

Further: and each section of the rotating roller far away from the motor horizontally slides on the rack.

Through adopting above-mentioned technical scheme, set up the purpose that the live-rollers slided, when the climbing conveyer belt is more pine, can adjust the rate of tension of climbing conveyer belt to improve the transmission effect of climbing conveyer belt.

Further: the frame both ends all slide and have the socket, can slide the live-rollers with accept the seat and rotate and be connected, be fixed with the nut in the frame, nut internal thread is connected with the horizontally bolt, the bolt with accept the seat and rotate and be connected.

Through adopting above-mentioned technical scheme, when climbing conveyer belt rate of tension was adjusted to needs, the bolt rotated, and the bolt can drive accepting sliding of seat to the rate of tension of climbing conveyer belt is adjusted.

Further: it has the turning block to rotate on the seat to accept, the auxiliary tank has been seted up on the turning block, the joint groove has been seted up to the auxiliary tank inner wall, set up the mounting groove about its axis symmetry on the bolt, it has the joint piece to slide in the mounting groove, the joint spring has been placed in the mounting groove, the both ends of joint spring respectively with joint piece and mounting groove diapire fixed connection.

Through adopting above-mentioned technical scheme, the extrusion joint piece, the joint spring is compressed for the bolt is pegged graft in the auxiliary tank, then the joint piece joint in the joint inslot under the elasticity of joint spring, when making the rotation bolt, the turning block rotates, and the removal of accepting the seat is accepted in the drive.

Further: the frame is provided with a guide groove, the bearing seat is fixed with a roller, and the roller slides in the guide groove.

Through adopting above-mentioned technical scheme, the purpose that sets up the gyro wheel reduces and accepts the seat in the frictional force that the frame slided to make the staff save labour when rotating the bolt.

Further: the two bolts are coaxially fixed with first belt pulleys, an auxiliary plate is vertically fixed on the ground, the auxiliary plate is provided with a rotating rod perpendicular to the length direction of the auxiliary plate in a rotating mode, the rotating rod is coaxially slidably provided with two second belt pulleys, the two second belt pulleys are fixedly connected and are respectively connected with the two first belt pulleys through belt transmission, a sliding block is fixed on the rotating rod, a sliding groove is formed in each second belt pulley, and the sliding block slides in the sliding groove.

Through adopting above-mentioned technical scheme, when adjusting the rate of tension of climbing conveyer belt, rotate the dwang, the dwang drives the rotation of two second belt pulleys, and two second belt pulleys drive two first belt pulleys respectively and rotate to drive the rotation of two bolts, thereby make two and accept the seat and slide in step, thereby make the staff laborsaving.

To sum up, the utility model discloses a beneficial technological effect does:

1. the purpose of arranging the climbing conveyor belt is that after the powder is put on the climbing conveyor belt, a motor is started, and the motor drives a rotating roller to rotate, so that the climbing conveyor belt transports the powder;

2. the purpose of arranging the material blocking plates in a wavy shape is to further increase the space for placing materials on the climbing conveyor belt while preventing powder from falling from the two sides of the climbing conveyor belt;

3. the purpose of setting up first belt pulley and second belt pulley is, when adjusting the rate of tension of climbing conveyer belt, rotates the dwang, and the dwang drives the rotation of two second belt pulleys, and two second belt pulleys drive two first belt pulleys respectively and rotate to drive the rotation of two bolts, thereby make two accept the seat and slide in step, thereby make the staff laborsaving.

Drawings

FIG. 1 is a schematic view of the overall structure of a section of the climbing conveyor belt according to the present embodiment;

FIG. 2 is a schematic diagram of a structure for adjusting the tension of a climbing conveyor belt;

FIG. 3 is an exploded view showing the connection of the turning rod to the second pulley and the connection of the bolt to the turning block;

fig. 4 is a schematic view showing the overall structure of the integral climbing conveyor belt of the sealing cap.

Reference numerals: 100. a frame; 110. a transmission section; 111. a rotating roller; 112. a climbing conveyor belt; 113. an anti-drop plate; 114. a blocking plate; 120. a motor; 121. a drive pulley; 122. a driven pulley; 130. a bearing seat; 131. a guide groove; 132. a roller; 133. a nut; 134. a bolt; 135. mounting grooves; 136. a clamping block; 137. clamping a spring; 138. rotating the block; 139. an auxiliary groove; 140. a clamping groove; 141. a first pulley; 142. an auxiliary plate; 143. a second pulley; 144. rotating the rod; 145. a sliding block; 146. a sliding groove; 147. and (6) sealing the cover.

Detailed Description

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

As shown in FIG. 1, for the utility model discloses a powder conveyor, including frame 100, frame 100 is fixed in subaerially to become 30~60 degrees, preferably 45 degrees with ground. The rack 100 is provided with a transmission part 110, the transmission part 110 comprises a climbing conveyor belt 112 and a rotating roller 111, the rotating roller 111 is provided with a plurality of rollers which uniformly rotate on the rack 100, and the climbing conveyor belt 112 is rotatably sleeved on the rotating roller 111. A motor 120 is fixed on the ground, a driving pulley 121 is coaxially fixed on an output shaft of the motor 120, a driven pulley 122 is coaxially fixed on the rotating roller 111 at the tail end of the climbing conveyor belt 112, and the driving pulley 121 and the driven pulley 122 are in transmission connection through a belt. After the powder is put into the climbing belt 112, the motor 120 is started, and the motor 120 drives the driving pulley 121 to rotate, so as to drive the driven pulley 122 to rotate, so that the rotating roller 111 rotates, and the climbing belt 112 transports the powder.

In order to avoid the powder material from sliding and falling from the two sides of the climbing conveyor belt 112 in the conveying process, the anti-falling plates 113 are uniformly fixed along the length direction of the climbing conveyor belt 112, and the anti-falling plates 113 are all arranged in a bending mode and are in the same bending direction. Blocking plates 114 are fixed on the racks 100 on two sides of the length direction of the climbing conveyor belt 112, and the blocking plates 114 are arranged in a corrugated shape, so that the space for placing powder on the climbing conveyor belt 112 is enlarged.

In order to adjust the tension of the climbing belt 112 and enhance the transmission of the climbing belt 112, the receiving seats 130 are slidably moved on the frame 100 on both sides of the beginning end of the climbing belt 112, and both ends of the rotating roller 111 are rotatably connected to the two receiving seats 130, respectively. A guide groove 131 is formed on the frame 100, a roller 132 (see fig. 2) is rotatably mounted on the receiving base 130, and the roller 132 slides in the guide groove 131.

As shown in fig. 2 and 3, in order to drive the sliding movement of the socket 130, a nut 133 is fixed to the frame 100, and a horizontal bolt 134 is threaded into the nut 133. Offer on bolt 134 about its axis symmetry's mounting groove 135, the slip has joint piece 136 and has placed joint spring 137 in mounting groove 135, joint spring 137's both ends respectively with the diapire fixed connection of joint piece 136 and mounting groove 135. The bearing seat 130 is provided with a rotating block 138 through a rotating shaft, the rotating block 138 is provided with an auxiliary groove 139, the side wall of the auxiliary groove 139 is provided with a clamping groove 140, and the clamping block 136 can be clamped in the clamping groove 140. The clamping block 136 is extruded, the clamping spring 137 is compressed, the bolt 134 is inserted into the auxiliary groove 139, then the clamping block 136 is clamped in the clamping groove 140 under the elastic force of the clamping spring 137, and then the bolt 134 is rotated to drive the rotation of the rotation block 138, so that the bearing seat 130 is driven to move.

In order to drive the two bearing seats 130 to slide synchronously and save labor for workers, a first belt pulley 141 is coaxially fixed on each bolt 134. An auxiliary plate 142 is vertically fixed on the floor, a rotating rod 144 perpendicular to the length direction of the auxiliary plate 142 is rotated on the auxiliary plate 142, and two second pulleys 143 are coaxially slidably rotated on the rotating rod 144. The two second pulleys 143 are coaxially and fixedly connected, and the two second pulleys 143 are respectively connected with the two first pulleys 141 through belt transmission. When the tightness of the climbing belt 112 is adjusted, the rotating rod 144 is rotated, the rotating rod 144 drives the two second belt pulleys 143 to rotate, and the two second belt pulleys 143 respectively drive the two first belt pulleys 141 to rotate, thereby driving the two bolts 134 to rotate, and further enabling the two bearing seats 130 to synchronously slide.

In order to realize the sliding of the second pulley 143 on the rotating rod 144, a sliding groove 146 is formed on the second pulley 143, a sliding block 145 is fixed on the rotating rod 144, and the sliding block 145 slides in the sliding groove 146. When the rotating rod 144 rotates, because the sliding block 145 is in the sliding groove 146, the rotating rod 144 can drive the second pulley 143 to rotate, and when the bolt 134 drives the bearing seat 130 to move, the first pulley 141 can drive the second pulley 143 to slide on the rotating rod 144 through the belt.

As shown in fig. 4, in order to reduce the burden of the motor 120 at the initial end, the climbing conveyer 112 is provided in multiple stages, each stage of climbing conveyer 112 is transported separately, the structure of each stage of climbing conveyer 112 is identical to that of the initial stage of climbing conveyer 112, and the initial end of the subsequent climbing conveyer 112 is lower than the end of the previous climbing conveyer 112. An inclined slide is fixed on the previous climbing conveyor belt 112, and the outlet of the slide is arranged on the subsequent climbing conveyor belt 112. A sealing cover 147 is fixed on the rack 100 of the climbing conveyor belt 112 outside the plant, and the sealing cover 147 completely covers the climbing conveyor belt 112, so that the dust is prevented from being influenced by external wind power when the powder is conveyed outside the plant, and the dust raising phenomenon is avoided.

The specific working process of this embodiment: after the material is placed on the climbing conveyor belt 112, the motor 120 is started, the motor 120 drives the driving pulley 121 to rotate, the driving pulley 121 drives the driven pulley 122 to rotate through the belt, and the driven pulley 122 drives the rotating roller 111 to rotate, so that the climbing conveyor belt 112 transports the powder. When the climbing belt 112 is not flexible, the rotating rod 144 is rotated, and the rotating rod 144 drives the two second belt pulleys 143 to rotate, so as to drive the two first belt pulleys 141 to rotate, so as to rotate the bolt 134, so as to drive the two sockets 130 to move synchronously, so as to adjust the tension of the climbing belt 112, and to tension the climbing belt 112.

Claims (9)

1. The utility model provides a powder conveyor which characterized in that: including frame (100), be provided with transmission portion (110) on frame (100), transmission portion (110) are including climbing conveyer belt (112), it has a plurality of horizontally live-rollers (111) to rotate on frame (100), climbing conveyer belt (112) transmission cover is located on live-rollers (111), frame (100) and ground are certain angle, be fixed with motor (120) on frame (100), motor (120) drive climbing conveyer belt (112) terminal live-rollers (111) rotate, be fixed with anticreep board (113) along its length direction on climbing conveyer belt (112), climbing conveyer belt (112) length direction both sides all are fixed with barrier plate (114).

2. The powder conveying apparatus according to claim 1, wherein: the anti-drop plates (113) are all arranged in a bending mode, and the bending directions are the same.

3. The powder conveying apparatus according to claim 2, wherein: the blocking plate (114) is arranged in a wave shape.

4. A powder delivery apparatus as defined in claim 3, wherein: climbing conveyer belt (112) are provided with the multistage, and every section is all transmitted alone, the latter climbing conveyer belt (112) the top is less than the end of preceding climbing conveyer belt (112), is provided with sealed cowling (147) on climbing conveyer belt (112) outside arranging the factory building in.

5. The powder conveying apparatus according to claim 4, wherein: and each section of the rotating roller (111) far away from the motor (120) horizontally slides on the rack (100).

6. The powder conveying apparatus according to claim 5, wherein: the improved roller mill is characterized in that the two ends of the rack (100) are respectively provided with a bearing seat (130) in a sliding manner, the rotatable roller (111) is rotatably connected with the bearing seats (130), a nut (133) is fixed on the rack (100), a horizontal bolt (134) is connected with the nut (133) in an internal thread manner, and the bolt (134) is rotatably connected with the bearing seats (130).

7. The powder conveying apparatus according to claim 6, wherein: accept to rotate on seat (130) and have turning block (138), supplementary groove (139) have been seted up on turning block (138), joint groove (140) have been seted up to supplementary groove (139) inner wall, mounting groove (135) about its axis symmetry have been seted up on bolt (134), it has joint piece (136) to slide in mounting groove (135), joint spring (137) have been placed in mounting groove (135), the both ends of joint spring (137) respectively with joint piece (136) and mounting groove (135) diapire fixed connection.

8. The powder conveying apparatus according to claim 7, wherein: a guide groove (131) is formed in the rack (100), a roller (132) is fixed on the bearing seat (130), and the roller (132) slides in the guide groove (131).

9. The powder conveying apparatus according to claim 8, wherein: the two bolts (134) are coaxially fixed with first belt pulleys (141), an auxiliary plate (142) is vertically fixed on the ground, the auxiliary plate (142) is provided with a rotating rod (144) which is perpendicular to the length direction of the auxiliary plate, the rotating rod (144) is provided with two second belt pulleys (143) in a coaxial sliding and rotating mode, the two second belt pulleys (143) are fixedly connected and are respectively connected with the two first belt pulleys (141) through belt transmission, a sliding block (145) is fixed on the rotating rod (144), a sliding groove (146) is formed in each second belt pulley (143), and the sliding block (145) slides in the sliding groove (146).

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