CN216970695U

CN216970695U - Bridging-preventing feeding machine

Info

Publication number: CN216970695U
Application number: CN202220115849.3U
Authority: CN
Inventors: 李兵
Original assignee: Jiangsu Duoshang New Material Technology Co ltd
Current assignee: Jiangsu Duoshang New Material Technology Co ltd
Priority date: 2022-01-17
Filing date: 2022-01-17
Publication date: 2022-07-15
Anticipated expiration: 2032-01-17

Abstract

The utility model discloses an anti-bridging feeding machine which comprises a feeding hopper, wherein a vibration motor is arranged at the top of the feeding hopper, the tail end of the vibration motor is connected with a vibration structure, a reinforcing structure is arranged at the lower part of the feeding hopper, a feeding structure is arranged at the bottom of the feeding hopper, the feeding hopper is positioned on a U-shaped support through a supporting plate, the vibration structure comprises a connecting rod positioned at the output end of the vibration motor, the tail end of the connecting rod is connected with a vibration rod through a sleeve rod, a branch rod is arranged outside the vibration rod, and the reinforcing structure comprises an arc-shaped plate, a T-shaped bolt and a fixing bolt. Further solve the problem of material bridging to improve the life of feeder hopper.

Description

Bridging-preventing feeding machine

Technical Field

The utility model relates to the technical field of feeding equipment, in particular to an anti-bridging feeding machine.

Background

The feeding device has the main function that processed or unprocessed materials are continuously and uniformly fed to a receiving device or a conveying machine from a certain device (a hopper, a storage bin and the like), the problem of bridging of powder often exists in the blanking process of powder batching, powder flowing is obstructed due to the fact that the powder cannot automatically blank, the problem of bridging of the materials cannot be well solved by the conventional device, in addition, the upper portion of the feeding hopper of the feeding machine is conical, the lower portion of the feeding hopper is hemispherical, and due to the fact that the materials have pressure on the lower hopper, the conical and hemispherical connecting portion is easy to damage, and the service life of the feeding hopper is shortened.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model discloses an anti-bridging feeder, which further solves the problem of material bridging and prolongs the service life of a feed hopper.

The technical scheme of the utility model is as follows: prevent feeder of building bridge, including the feeder hopper, the feeder hopper top is equipped with vibrating motor, vibrating motor end-to-end connection has the vibration structure, the feeder hopper lower part is equipped with reinforced structure, the feeder hopper bottom is equipped with the pay-off structure, the feeder hopper passes through the backup pad and is located U type support, the vibration structure is including the connecting rod that is located the vibrating motor output, the end of connecting rod is connected with the vibrating arm through the loop bar, the vibrating arm is equipped with the branch pole outward, reinforced structure includes arc and T shape bolt and fixing bolt.

Furthermore, the tail end of the connecting rod is fixedly sleeved with the loop bar, the upper portion and the lower portion of the outer portion of the loop bar are respectively and transversely fixed with a vibration bar which faces upwards and downwards slightly, and branch bars are sequentially arranged on the vibration bar.

Further, the connecting rod end is the loop bar and is located the position of being close the feeder hopper ejection of compact promptly, divides the pole to distribute in proper order on the surface of connecting rod, divides the one side that the loop bar was kept away from to the orientation of pole, and the branch pole of bottommost is located the position of being close the feeder hopper ejection of compact.

Furthermore, feeder hopper upper portion is the toper, and the part that the lower part links to each other with the toper is the hemisphere, the loop bar is located the hemisphere, and toper and hemispherical junction surround has the arc, and the position one end that the arc both ends are close rotates and is equipped with turns over the board, and the other end is equipped with the sleeve.

Furthermore, turn over the board rotation side and be equipped with the logical groove that supplies T shape bolt one end to pass through, turn over the board and keep away from one side of rotation side and the arc passes through the bolt fastening.

Furthermore, an internal thread matched with the external thread of the T-shaped bolt is arranged in the sleeve, and the part of the T-shaped bolt, which is positioned outside the sleeve, is positioned through the fixing bolt.

Furthermore, the feeding structure at the bottom of the feeding hopper comprises a screw and a motor for driving the screw, the tail end of the screw is positioned in the blanking box, and the blanking box is connected with the next working procedure.

The utility model has the advantages that: 1. the vibration is transmitted through the connecting rod, the vibrating rod penetrates into the material upwards, downwards and outwards, the vibration range is expanded, the vibration area of the material is increased by the rods, and the bridging phenomenon of the material during blanking is effectively prevented.

According to the utility model, the reinforcing structure is arranged at the joint of the feed hoppers, so that the feed hoppers can be prevented from being broken due to downward pressure of materials on the feed hoppers, the joint of the feed hoppers is reinforced, and the service life of the feed hoppers is prolonged.

The feeding hopper can effectively prevent bridging during material conveying and prolong the service life of the feeding hopper.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a connecting rod of the present invention;

FIG. 3 is a schematic view of the reinforcement structure of portion A of FIG. 1 in accordance with the present invention;

FIG. 4 is a schematic structural view of a T-shaped bolt of the present invention;

wherein: 1. the device comprises a feeding hopper, 2, a U-shaped support, 3, a supporting plate, 4, a vibrating motor, 5, a connecting rod, 6, a loop bar, 7, a vibrating bar, 8, a branch bar, 9, an arc-shaped plate, 10, a turning plate, 11, a T-shaped bolt, 12, a sleeve, 13, a fixing bolt, 14, a motor, 15 and a discharging box.

Detailed Description

For the purpose of enhancing an understanding of the present invention, the following detailed description of the present invention is provided in conjunction with the accompanying drawings, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

As shown in fig. 1, prevent bridging feeding machine, including

feeder hopper

1, 1 top of feeder hopper is equipped with vibrating

motor

4, 4 end-to-end connection of vibrating motor has vibrating structure, 1 lower part of feeder hopper is equipped with reinforced structure, 1 bottom of feeder hopper is equipped with the pay-off structure, feeder hopper 1 is located U type support 2 through backup pad 3, U type support 2 can prevent that the vibration on upper portion from transmitting for the lower part, vibrating structure is including the connecting rod 5 that is located 4 output of vibrating motor, the end of connecting rod 5 is connected with vibrating arm 7 through loop bar 6, vibrating arm 7 is equipped with branch pole 8 outward, can vibrate the material powder of 1 bottom of hopper down, prevent the bridging, influence unloading speed, reinforced structure includes that arc 9 and T shape are tied 11 and fixing bolt 13, reinforced structure can prevent down that the position of 1 sub-unit connection of hopper from taking place the fracture damage.

The end of connecting rod 7 is located to 6 fixed covers of loop bar, and the outer upper portion of loop bar 6 and lower part transversely are fixed with slightly up and down vibrating arm 7 respectively, are equipped with branch pole 8 on the vibrating arm 7 in proper order, and during the vibrating arm 7 alternates into the material, vibrating arm 7 outwards increaseed vibration range, alternates into in the material, increaseed vibration range, divides 8 contact area who increases vibrating arm 7 and material vibration of pole, further prevents the material bridging, influences unloading speed.

Connecting rod 5 is terminal promptly loop bar 6 is located the position of being close the 1 ejection of compact of feeder hopper, divides pole 8 to distribute in proper order on the surface of connecting rod 5, divides the one side of loop bar 6 to keep away from towards of pole 8, and the branch pole 8 of bottommost is located the position of being close the 1 ejection of compact of feeder hopper, and the material of bottom is the easiest bridge, and vibrating arm 7 and branch pole 8 can be to preventing the processing of bridging to the material of the position of will ejection of compact immediately.

1 upper portion of feeder hopper is the toper, the part that lower part and toper link to each other is the hemisphere, because the material dress is in 1 toper portion of feeder hopper, the material is to the decurrent pressure of toper lateral part, the place that toper and hemisphere are connected so, because the junction is welded, not integrated into one piece, so the junction is more fragile, loop bar 6 is located the hemisphere, toper and hemispherical junction surround there is arc 9, arc 9 surrounds in the junction, play reinforced (rfd) effect to the junction, the position one end rotation that the arc 9 both ends are close is equipped with and turns over board 10, the other end is equipped with sleeve 12, be used for connecting fixedly to arc 9 both sides.

The turning plate 10 is provided with a through groove for one end of the T-shaped bolt 11 to pass through, one side of the turning plate 10, which is far away from the turning side, and the arc-shaped plate 9 are fixed through bolts, and the turning plate 10 can fix the T-shaped bolt.

An internal thread matched with the external thread of the T-shaped bolt 11 is arranged in the sleeve 12, the part, located on the outer side of the sleeve 12, of the T-shaped bolt 11 is located through the fixing bolt 13, the vertical transverse part of the T-shaped bolt 11 penetrates through the through groove to be connected with the sleeve 12, and when the vertical part of the T-shaped bolt 11 is in contact with the overturning part of the turning plate 10, the fixing bolt 13 is screwed on the tail end until fastening.

The feeding structure at the bottom of the feeding hopper 1 comprises a screw 6 and a motor 14 for driving the screw, the tail end of the screw is positioned at a blanking box 15, and the blanking box 15 is connected with the next procedure.

The working principle is as follows: after the material is poured into from feeder hopper 1, open vibrating motor 4 and motor 14, thereby connecting rod 5 drives vibrating arm 7 and drives branch 8 vibrations, vibrates the material on every side, prevents the bridging, and motor 14 starts, transmits the material for feed box 15 through the screw rod, and feed box 15 transmits the material for next process.

Claims

1. Prevent feeder of building bridge, including the feeder hopper, the feeder hopper top is equipped with vibrating motor, vibrating motor end-to-end connection has vibrating structure, the feeder hopper lower part is equipped with reinforced structure, the feeder hopper bottom is equipped with the pay-off structure, the feeder hopper passes through the backup pad and is located U type support, its characterized in that: the vibrating structure is including the connecting rod that is located the vibrating motor output, the end of connecting rod is connected with the vibrating arm through the loop bar, the vibrating arm is equipped with the branch pole outward, reinforced structure includes that arc and T shape bolt and fixing bolt.

2. The bridge formation preventing feeder according to claim 1, wherein: the fixed end of locating the connecting rod of loop bar cover, the outer upper portion of loop bar and lower part transversely are fixed with the vibrating arm slightly up and down respectively, be equipped with branch pole on the vibrating arm in proper order.

3. The bridge formation preventing feeder according to claim 2, wherein: the connecting rod end is the position that the loop bar is located and is close the feeder hopper ejection of compact promptly, divide the pole to distribute in proper order on the surface of connecting rod, divide the orientation of pole to keep away from one side of loop bar, the bottommost divide the pole to be located and be close the position of the feeder hopper ejection of compact.

4. The bridge formation preventing feeder according to claim 1, wherein: the feeding hopper is characterized in that the upper portion of the feeding hopper is conical, the lower portion of the feeding hopper is hemispherical, the loop bar is positioned in the hemisphere, an arc-shaped plate is surrounded at the connection position of the conical shape and the hemisphere, one end of the arc-shaped plate, which is close to the two ends of the arc-shaped plate, is rotatably provided with a turning plate, and the other end of the arc-shaped plate is provided with a sleeve.

5. The bridge formation preventing feeder according to claim 4, wherein: the turning plate rotating side is provided with a through groove for one end of the T-shaped bolt to pass through, and one side of the turning plate, which is far away from the rotating side, is fixed with the arc-shaped plate through a bolt.

6. The bridge formation preventing feeder according to claim 4, wherein: the sleeve is internally provided with an internal thread matched with the external thread of the T-shaped bolt, and the part of the T-shaped bolt, which is positioned outside the sleeve, is positioned through a fixing bolt.

7. The bridge formation preventing feeder according to claim 1, wherein: the feeding structure at the bottom of the feeding hopper comprises a screw and a motor for driving the screw, the tail end of the screw is located in a blanking box, and the blanking box is connected with a next procedure.