CN218506976U - Novel translation type three-way funnel - Google Patents

Abstract

The utility model relates to a novel translation formula tee bend funnel relates to material transport technical field, and it includes the frame, set up a set of guide way in the frame, the roll sets up a set of pulley in the guide way, the frame is served and is set up the forward motor, set up reverse motor on the frame other end, forward motor and reverse motor are used for driving the pulley roll, set up material separating funnel jointly between the pulley, the pulley rotates with material separating funnel to be connected. This application has the effect of being convenient for pellet normal transportation.

Description

Novel translation type three-way funnel

Technical Field

The utility model belongs to the technical field of the material transportation technique and specifically relates to a novel translation formula tee bend funnel is related to.

Background

In the production and conveying operation of the pellets, in order to convey materials to different material collecting hoppers at the same time, a three-way funnel is usually arranged at the tail of a belt conveyor to change the flow direction of the materials.

In the related art, chinese patent with an authorization publication number CN201619874U provides a flap-type three-way funnel, which includes an upper funnel body, a lower funnel body communicated with the bottom of the upper funnel body, a material-separating flap rotatably disposed in the lower funnel body, and a group of material-discharging cavities communicated with the bottom of the lower funnel body. The material enters from the top of the upper funnel body and falls into the material-dividing turning plate, and the material is guided by the material-dividing turning plate to move into one of the material-discharging cavities and then moves into the corresponding material-collecting hopper from the material-discharging cavity.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: when the material distribution turning plate rotates, materials can be clamped between the material distribution turning plate and the inner wall of the lower hopper body, so that the material distribution turning plate is difficult to turn, and normal transportation of pellets is influenced.

SUMMERY OF THE UTILITY MODEL

In order to facilitate normal transportation of pellets, the application provides a novel translation type three-way funnel.

The application provides a pair of novel translation formula tee bend funnel adopts following technical scheme:

the utility model provides a novel translation formula tee bend funnel, includes the frame, set up a set of guide way in the frame, the roll sets up a set of pulley in the guide way, the frame is served and is set up the forward motor, set up reverse motor on the frame other end, forward motor and reverse motor are used for driving the pulley roll, set up material separating funnel jointly between the pulley, the pulley rotates with material separating funnel to be connected.

Through adopting above-mentioned technical scheme, with the afterbody of rack-mount at belt conveyor, make the distribution funnel top be located belt conveyor discharge gate below, start forward motor and reverse motor, forward motor and reverse motor drive pulley roll along the guide way, the pulley roll drives the distribution funnel and removes, make the distribution funnel bottom be located corresponding material and collect the fill top, the material drops to the distribution funnel in by belt conveyor, the material in the distribution funnel falls into corresponding material by the bottom of distribution funnel and collects the fill in, reduce the material and divide the condition that the board upset is difficult, reach the effect of the normal transportation of the pelletizing of being convenient for.

Preferably, the rack is provided with a forward roller in a rotating mode at one end close to a forward motor, the forward motor is used for driving the forward roller to rotate, a first traction rope is wound on the forward roller, one end of the first traction rope is fixedly connected with the forward roller, and the other end of the first traction rope is fixedly connected with one end of the material distribution funnel.

By adopting the technical scheme, the forward motor is started, the normal motor drives the forward roller to rotate, the forward roller rotates the first rolling traction rope, the traction rope is tightly tensioned to apply traction force to the distribution hopper, the pulley rolls towards one end, close to the forward motor, of the rack, and then the pulley drives the distribution hopper to move towards one end, close to the forward motor, of the rack, so that the effect that the distribution hopper moves towards one end, close to the rack, of the distribution hopper is achieved.

Preferably, the rack is close to one end of the reverse motor and is rotatably provided with a reverse roller, the reverse motor is used for driving the reverse roller to rotate, the reverse roller is wound with a second traction rope, one end of the second traction rope is fixedly connected with the reverse roller, and the other end of the second traction rope is fixedly connected with the other end of the distribution hopper.

By adopting the technical scheme, the reversing motor is started, the abnormal motor drives the reversing roller to rotate, the reversing roller rotates the rolling traction rope II, the traction rope II is tensioned to apply traction force to the material distribution funnel, the pulley rolls towards one end, close to the reversing motor, of the rack, and then the pulley drives the material distribution funnel to move towards one end, close to the reversing motor, of the rack, so that the effect that the material distribution funnel moves towards the other end, close to the rack, of the material distribution funnel is achieved.

Preferably, the side wall of the distribution hopper is fixedly provided with a plurality of positioning seats, the positioning seats are provided with positioning holes, positioning pins are arranged in the positioning holes, the rack is provided with a plurality of positioning grooves, and the positioning pins penetrate through the positioning holes and are inserted in the positioning pins.

By adopting the technical scheme, after the distribution hopper moves to a proper position, the positioning pin penetrates through the positioning hole in the positioning seat and is inserted into the positioning pin of the rack, so that the positioning seat is fixed with the rack, the distribution hopper is fixed with the rack, and the condition that the distribution hopper moves in the material conveying process is reduced.

Preferably, the two ends of the rack are fixedly provided with the baffle plates.

By adopting the technical scheme, when the distribution hopper moves towards the end wall of the rack, the baffle blocks the distribution hopper from moving continuously, and the situation that the distribution hopper is influenced by inertia and is separated from the rack is reduced.

Preferably, the opposite surface of the baffle is provided with a buffer groove, a plurality of buffer springs are fixedly arranged in the buffer groove, and the buffer springs are provided with the anti-collision plates together.

Through adopting above-mentioned technical scheme, when dividing hopper and removing to when contacting with the anticollision board, dividing hopper extrusion anticollision board, anticollision board compression buffer spring, buffer spring take place elastic deformation and offset some effort, reduce the condition that dividing hopper leads to dividing hopper to damage with the baffle collision.

Preferably, the inner wall of the buffer groove is provided with a limiting groove, a limiting block is arranged in the limiting groove in a sliding manner, and the limiting block is fixedly connected with the side wall of the anti-collision plate.

By adopting the technical scheme, when the distribution hopper moves to be in contact with the anti-collision plate, the distribution hopper extrudes the anti-collision plate, and the anti-collision plate drives the limiting block to move along the direction of the limiting groove, so that the anti-collision plate moves along the direction of the buffer groove.

Preferably, the inner walls of the distribution hoppers are provided with insertion grooves, the adjacent insertion grooves are communicated with each other, the insertion grooves are internally provided with distribution lining plates together, one of the insertion grooves is internally provided with a taking-out groove, and the insertion groove penetrates through the side wall of the distribution hopper.

Through adopting above-mentioned technical scheme, when dividing the material welt and inserting and establishing the inslot, the material is piled up in dividing the material funnel, removes and divides the material funnel to remove the material, when will dividing the material welt from inserting and establishing the inslot and take out, divides the material welt through taking out the groove out, divides the material on the material welt to fall into the material downwards and collects in the fill.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the effect of facilitating normal transportation of the pellets is achieved by arranging the rack, the guide groove, the pulley, the forward motor, the reverse motor and the distribution hopper;

2. the situation that the material distribution hopper moves in the transportation process is reduced by arranging the positioning seat, the positioning hole, the positioning groove and the positioning pin;

3. through setting up the baffle, the baffle blocks that the feed hopper continues to remove, reduces the condition that the feed hopper receives inertia influence and frame separation.

Drawings

Fig. 1 is a schematic structural diagram of a novel translational three-way funnel in an embodiment of the present application.

Fig. 2 is a sectional view of a novel translational three-way funnel in an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a sectional view showing the connection relationship between the distributing liner plate and the distributing hopper in the embodiment of the application.

Fig. 5 is an enlarged view of a portion B in fig. 4.

Description of reference numerals: 1. a frame; 11. a material collecting hopper; 2. a pulley; 21. a guide groove; 3. a forward motor; 31. a forward roller; 32. a first traction rope; 4. a reverse motor; 41. a reverse roll; 42. a second traction rope; 5. a material separating funnel; 6. positioning seats; 61. positioning holes; 62. positioning pins; 63. positioning a groove; 7. a baffle plate; 71. a buffer tank; 711. a limiting groove; 72. a buffer spring; 73. an anti-collision plate; 731. a limiting block; 8. distributing a lining plate; 81. inserting into a groove; 82. and taking out the groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a novel translation formula tee bend funnel. Referring to fig. 1 to 2, the device comprises a frame 1, wherein a set of guide grooves 21 are formed in the top wall of the frame 1 along the length direction of the frame 1, and a set of pulleys 2 are arranged in the guide grooves 21 in a rolling manner. A forward motor 3 is arranged at one end of the rack 1, a reverse motor 4 is arranged at the other end of the rack 1, and the forward motor 3 and the reverse motor 4 are used for driving the pulley 2 to roll. A material distributing funnel 5 is arranged between the pulleys 2, and the side wall of the material distributing funnel 5 is rotationally connected with the pulleys 2 through a rotating shaft. The caliber of the top of the distribution funnel 5 is larger than that of the bottom of the distribution funnel 5. The frame 1 is arranged at the tail part of the belt conveyor, the top of the material separating funnel 5 is positioned below the discharge hole of the belt conveyor, and the group of material collecting hoppers 11 are arranged below the frame 1. And starting the forward motor 3, wherein the forward motor 3 drives the pulley 2 to roll towards one end of the rack 1 along the guide groove 21, and the pulley 2 rolls to drive the distribution funnel 5 to move towards one end of the rack 1, so that the bottom of the distribution funnel 5 is positioned above the material collecting hopper 11 close to the forward motor 3. And starting the reverse motor 4, driving the pulley 2 to roll towards the other end of the rack 1 along the guide groove 21 by the reverse motor 4, driving the distribution hopper 5 to move towards the other end of the rack 1 by the rolling of the pulley 2, and enabling the bottom of the distribution hopper 5 to be positioned above the material collecting hopper 11 close to the reverse motor 4. The materials fall into the distribution hopper 5 through the belt conveyer, and the materials in the distribution hopper 5 fall into the corresponding material collecting hopper 11 from the bottom of the distribution hopper 5, so that the situation that the turning plate is difficult to turn over during material distribution is reduced, and the effect of facilitating normal transportation of pellets is achieved.

In order to achieve the effect of moving the material separating funnel 5, referring to fig. 1 and 2, a forward roller 31 is installed on one end of the frame 1 close to the forward motor 3, and the forward roller 31 is arranged along the width direction of the frame 1. The end wall of a driving shaft of the forward motor 3 is welded with one end of a forward roller 31, and one end of the forward roller 31 is rotatably connected with the frame 1. A first traction rope 32 is wound on the forward roller 31, one end of the first traction rope 32 is bolted with the forward roller 31, and the other end of the first traction rope 32 is bolted with one end, close to the forward motor 3, of the material separating funnel 5. And starting the forward motor 3, driving the forward roller 31 to rotate by the normal motor, and rolling the first traction rope 32 by the forward roller 31. Traction force is applied to the material distribution funnel 5 by tensioning the first traction rope 32, so that the pulley 2 rolls towards one end, close to the forward motor 3, of the rack 1, and then the pulley 2 drives the material distribution funnel 5 to move towards one end, close to the forward motor 3, of the rack 1.

Referring to fig. 1 and 2, a reversing roller 41 is installed on one end of the frame 1 near the reversing motor 4, and the reversing roller 41 is arranged along the width direction of the frame 1. The end wall of a driving shaft of the reverse motor 4 is welded with one end of a reverse roller 41, and one end of the reverse roller 41 is rotatably connected with the frame 1. A second traction rope 42 is wound on the reverse roller 41, one end of the second traction rope 42 is bolted with the reverse roller 41, and the other end of the second traction rope 42 is bolted with one end of the material separating funnel 5 close to the reverse motor 4. And starting the reverse motor 4, driving the reverse roller 41 to rotate by the abnormal motor, and rolling the second traction rope 42 by the rotation of the reverse roller 41. The traction rope II 42 is tensioned to apply traction force to the distribution funnel 5, so that the pulley 2 rolls towards one end, close to the reverse motor 4, of the rack 1, and then the pulley 2 drives the distribution funnel 5 to move towards one end, close to the reverse motor 4, of the rack 1.

In order to fix the hopper 5, referring to fig. 4 and 5, a plurality of positioning seats 6 are mounted on the side wall of the hopper 5 close to the pulley 2, positioning holes 61 are formed in the positioning seats 6, and positioning pins 62 are arranged in the positioning holes 61. A plurality of positioning grooves 63 are formed in the top wall of the machine frame 1 along the height direction, and the positioning pins 62 penetrate through the positioning holes 61 and are inserted into the positioning pins 62. After the distribution hopper 5 moves to a proper position, the positioning pin 62 penetrates through the positioning hole 61 on the positioning seat 6 and is inserted into the positioning pin 62 of the rack 1, so that the positioning seat 6 and the rack 1 are fixed in position. And then the position of the material distribution funnel 5 is fixed with the frame 1, so that the condition that the material distribution funnel 5 moves in the material conveying process is reduced.

In order to reduce the separation of the material separating funnel 5 from the frame 1 under the influence of inertia, referring to fig. 2 and 3, baffles 7 are mounted at both ends of the frame 1, and buffer grooves 71 are formed on the opposite surfaces of the baffles 7. The inner wall of the buffer groove 71 is provided with a limit groove 711, and a limit block 731 is slidably arranged in the limit groove 711. And an anti-collision plate 73 is welded between the limiting blocks 731, and the side wall of the anti-collision plate 73 is attached to the inner wall of the buffer groove 71. A plurality of buffer springs 72 are arranged between the anti-collision plate 73 and the buffer groove 71, one ends of the buffer springs 72 are welded with the inner wall of the buffer groove 71, and the other ends of the buffer springs 72 are welded with the side wall of the anti-collision plate 73. When the hopper 5 moves toward the end wall of the frame 1, the hopper 5 moves to contact the collision-preventing plate 73, and the hopper 5 presses the collision-preventing plate 73. The anti-collision plate 73 drives the limiting block 731 to move along the opening direction of the limiting groove 711, so that the anti-collision plate 73 moves along the opening direction of the buffer groove 71. The bumper plate 73 compresses the cushion spring 72, and the cushion spring 72 is elastically deformed to cancel a part of the acting force. On one hand, the impact force on the distribution funnel 5 is buffered, on the other hand, the counterforce of the baffle 7 prevents the distribution funnel 5 from continuously moving, and the situation that the distribution funnel 5 is influenced by inertia and separated from the rack 1 is reduced.

Referring to fig. 1 and 4, insertion grooves 81 are formed in the inner wall of the distribution hopper 5 along the horizontal direction, and the adjacent insertion grooves 81 are communicated with each other. The inserting groove 81 is internally provided with a material distributing lining plate 8, and the side wall of the material distributing lining plate 8 is mutually attached to the inner wall of the inserting groove 81. One of the inserting grooves 81 is provided with a taking-out groove 82, and the inserting groove 81 penetrates through the side wall of the separating funnel 5. When the distribution lining plate 8 is inserted into the insertion groove 81, the material is stacked in the distribution hopper 5, and the distribution hopper 5 is moved to move the material. When the material separating liner 8 is taken out from the inserting groove 81, the material separating liner 8 is drawn out through the taking-out groove 82, and the material on the material separating liner 8 falls down into the material collecting hopper 11.

The implementation principle of the novel translation type three-way funnel in the embodiment of the application is as follows: and starting the forward motor 3, driving the forward roller 31 to rotate by the normal motor, and rolling the first traction rope 32 by the forward roller 31. Traction force is applied to the distribution funnel 5 through tension of the traction rope I32, the pulley 2 rolls towards one end, close to the forward motor 3, of the rack 1, the pulley 2 drives the distribution funnel 5 to move towards one end, close to the forward motor 3, of the rack 1, and the bottom of the distribution funnel 5 is located above the material collecting hopper 11, close to the forward motor 3. And starting the reverse motor 4, driving the reverse roller 41 to rotate by the abnormal motor, and rolling the second traction rope 42 by the rotation of the reverse roller 41. Traction force is applied to the distribution funnel 5 through tensioning of the second traction rope 42, the pulley 2 rolls towards one end, close to the reverse motor 4, of the rack 1, the pulley 2 drives the distribution funnel 5 to move towards one end, close to the reverse motor 4, of the rack 1, and the bottom of the distribution funnel 5 is located above the material collecting hopper 11 close to the reverse motor 4. The materials fall into the distribution hopper 5 through the belt conveyer, and the materials in the distribution hopper 5 fall into the corresponding material collecting hopper 11 from the bottom of the distribution hopper 5, so that the situation that the turning plate is difficult to turn over during material distribution is reduced, and the effect of facilitating normal transportation of pellets is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a novel translation formula tee bend funnel, includes frame (1), its characterized in that: set up a set of guide way (21) on frame (1), the roll sets up a set of pulley (2) in guide way (21), frame (1) is served and is set up forward motor (3), set up reverse motor (4) on frame (1) the other end, forward motor (3) and reverse motor (4) are used for driving pulley (2) to roll, set up branch hopper (5) between pulley (2) jointly, pulley (2) rotate with branch hopper (5) and are connected.

2. The novel translation type three-way funnel according to claim 1, characterized in that: frame (1) is close to and rotates on forward motor (3) one end and sets up forward roller (31), forward motor (3) are used for driving forward roller (31) and rotate, around establishing haulage rope (32) on forward roller (31), haulage rope (32) one end and forward roller (31) fixed connection, haulage rope (32) the other end and branch hopper (5) one end fixed connection.

3. The novel translation type three-way funnel according to claim 2, characterized in that: frame (1) is close to and rotates on reverse motor (4) one end and sets up reverse roller (41), reverse motor (4) are used for driving reverse roller (41) and rotate, around establishing haulage rope two (42) on reverse roller (41), haulage rope two (42) one end and reverse roller (41) fixed connection, haulage rope two (42) other end and minute hopper (5) other end fixed connection.

4. The novel translation type three-way funnel according to claim 3, characterized in that: the side wall of the distribution hopper (5) is fixedly provided with a plurality of positioning seats (6), the positioning seats (6) are provided with positioning holes (61), positioning pins (62) are arranged in the positioning holes (61), the rack (1) is provided with a plurality of positioning grooves (63), and the positioning pins (62) penetrate through the positioning holes (61) and are inserted into the positioning pins (62).

5. The novel translation type three-way funnel according to claim 3, characterized in that: both ends of the frame (1) are fixedly provided with baffle plates (7).

6. The novel translation type three-way funnel according to claim 5, characterized in that: a buffer groove (71) is formed in the opposite surface of the baffle (7), a plurality of buffer springs (72) are fixedly arranged in the buffer groove (71), and the buffer springs (72) are jointly provided with an anti-collision plate (73).

7. The novel translation type three-way funnel according to claim 6, characterized in that: the anti-collision device is characterized in that a limiting groove (711) is formed in the inner wall of the buffer groove (71), a limiting block (731) is arranged in the limiting groove (711) in a sliding mode, and the limiting block (731) is fixedly connected with the side wall of the anti-collision plate (73).

8. The novel translation type three-way funnel according to claim 1, characterized in that: divide on hopper (5) inner wall all set up and insert and establish groove (81), it is adjacent insert and establish groove (81) intercommunication each other, insert and set up branch material welt (8) jointly in establishing groove (81), one of them insert and establish in groove (81) and take out groove (82), insert and establish groove (81) and run through hopper (5) lateral wall.

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