CN217131838U - Vibrating feeder of industrial furnace - Google Patents

Abstract

The utility model discloses an industrial furnace vibrating feeder, which comprises a furnace body, wherein a bracket is arranged at the bottom of the furnace body, an impurity collecting box is arranged on the surface of the bracket, an auxiliary conveyer belt is arranged at the top end of the bracket, and a main conveyer belt is arranged on the upper surface of the auxiliary conveyer belt; a feed inlet is formed in the right side face of the main conveying belt, a first shaft lever is mounted on the inner surface of the feed inlet, a rotating plate is mounted on the surface of the first shaft lever, and a rear belt and a front belt are connected to the surface of the first shaft lever; the bottom end of the rear belt is connected with a rear cam. This vibrating feeder of industrial furnace passes through the rotation that the action of continuous unloading in the feed inlet drove the rotor plate, drives the operation of two belts for the raw materials falls on elasticity cloth surface and is constantly shaken, can not lead to blockking up the port of two conveyer belts because of stewing and sinking the end, solves the problem that current vibrating feeder conveyer belt port easily blockked up of industrial furnace.

Description

Vibrating feeder of industrial furnace

Technical Field

The utility model relates to a feeder technical field specifically is an industrial furnace vibrating feeder.

Background

Industrial agriculture in China is rapidly developed, and an industrial furnace commonly used in industry burns or dibbles raw materials in the furnace to generate heat, and the heat is applied to the operation of other equipment and used as power energy of other equipment.

The vibration type feeder for the industrial furnace is the most commonly used vibration type feeder in use of the existing industrial furnace, and the vibration type feeder for the industrial furnace has problems that raw materials stay at the bottom of a feed inlet for a long time in use, the mouth of the conveyor belt is blocked by the standing raw materials, and impurities cannot be screened out in the process of conveying the raw materials by the conveyor belt, for example, the vibration type feeder for the industrial furnace disclosed by publication No. CN211147331U and publication No. 20200731.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an industrial furnace vibrating feeder to the problem that proposes current industrial furnace vibrating feeder in solving above-mentioned background art and can not sieve out impurity because of the raw materials jam conveyer belt port and the conveyer belt that stews.

In order to achieve the above object, the utility model provides a following technical scheme: the vibrating feeder for the industrial furnace comprises a furnace body, wherein a support is arranged at the bottom of the furnace body, an impurity collecting box is arranged on the surface of the support, an auxiliary conveying belt is arranged at the top end of the support, and a main conveying belt is arranged on the upper surface of the auxiliary conveying belt;

a feed inlet is formed in the right side face of the main conveying belt, a first shaft lever is mounted on the inner surface of the feed inlet, a rotating plate is mounted on the surface of the first shaft lever, and a rear belt and a front belt are connected to the surface of the first shaft lever;

the bottom end of the rear belt is connected with a rear cam, the bottom end of the front belt is connected with a second shaft lever, and the surface of the second shaft lever is provided with a front cam;

the surface of the front cam is in contact connection with an elastic cloth and a convex rod.

Preferably, the number of the rotating plates is 5, and the lengths of the 5 rotating plates are the same;

the 5 rotating plates are distributed in a central symmetry mode about the first shaft rod, and meanwhile the length of each rotating plate is half of the side length of the feeding hole.

Preferably, the length of the rear belt is smaller than that of the front belt, the movement tracks of the front belt and the rear belt are the same, the rear belt is in the vertical direction, and the front belt is in the oblique line direction.

Preferably, the front cam and the rear cam are arranged in the same size and shape, and the front cam is fixedly connected to the second shaft lever;

the second shaft rod bearing is arranged in the feed port, and the front cam and the rear cam surface are both contacted with the lower bottom surface of the elastic cloth;

the surface of the elastic cloth is provided with holes corresponding to the front belt and the rear belt.

Preferably, the convex rod is a straight rod at the front end, the rear end of the convex rod is spherical, the convex rod is fixedly arranged on the knocking rod, and the convex rod is in contact connection with the surface of the front cam

The front end of the convex rod is connected with the knocking rod.

Preferably, the left end of the knocking rod is provided with a vibration ball, and the right end of the knocking rod is provided with a spring rod;

the spring rod is fixedly connected with the knocking rod, the right end of the spring rod is fixedly installed on the inner surface of the feeding hole, and the knocking rod is fixedly connected with the vibration ball.

Compared with the prior art, the beneficial effects of the utility model are that: this vibrating feeder of industrial furnace drives the rotation of rotor plate through the action of continuous unloading in the feed inlet, drives the operation of two belts for the raw materials falls on elasticity cloth surface and is constantly shaken, can not lead to blockking up the port of two conveyer belts because of stewing and sinking the end, solves the problem that current vibrating feeder conveyer belt port of industrial furnace easily blockked up.

1. The raw materials enter from the feeding hole, the rotating plate is driven to rotate, the two belts are driven to run at the same time, the two belts drive the two cams to rotate, and the two cams rotate, so that the raw materials falling on the surface of the elastic cloth do not vibrate, and the port of the conveying belt cannot be blocked due to the fact that the raw materials are kept still;

2. the continuous displacement of rotation drive nose bar through preceding cam, the displacement of nose bar can extrude the spring beam, and current cam continues to rotate and breaks away from the contact with the nose bar, and the nose bar can drive the striking pole and kick-backs rapidly under the effect of spring beam, strikes the right-hand member mouth of two conveyer belts with the vibrations ball, improves the conveying efficiency of conveyer belt and can sieve out the impurity in the raw materials simultaneously.

Drawings

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

FIG. 2 is an enlarged schematic view of point A of FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of the rotating plate of the present invention;

fig. 4 is a schematic view of the top view structure of the knocking rod of the present invention.

In the figure: 1. a furnace body; 2. a support; 3. an impurity collecting box; 4. attaching a conveying belt; 5. a main conveyor belt; 6. a feed inlet; 7. a first shaft lever; 8. a rotating plate; 9. a rear belt; 10. a rear cam; 11. a front belt; 12. a second shaft lever; 13. a front cam; 14. an elastic cloth; 15. a nose bar; 16. a knock bar; 17. a vibration ball; 18. a spring rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the vibrating feeder for the industrial furnace comprises a furnace body 1, wherein a support 2 is arranged at the bottom of the furnace body 1, an impurity collecting box 3 is arranged on the surface of the support 2, an auxiliary conveyer belt 4 is arranged at the top end of the support 2, and a main conveyer belt 5 is arranged on the upper surface of the auxiliary conveyer belt 4;

a feed inlet 6 is formed in the right side face of the main conveying belt 5, a first shaft rod 7 is installed on the inner surface of the feed inlet 6, a rotating plate 8 is installed on the surface of the first shaft rod 7, and a rear belt 9 and a front belt 11 are connected to the surface of the first shaft rod 7;

the bottom end of the rear belt 9 is connected with a rear cam 10, the bottom end of the front belt 11 is connected with a second shaft lever 12, and a front cam 13 is arranged on the surface of the second shaft lever 12;

the front cam 13 is connected with an elastic cloth 14 and a convex rod 15 in surface contact.

5 rotating plates 8 are arranged, and the lengths of the 5 rotating plates 8 are the same;

the 5 rotating plates 8 are distributed in a central symmetry mode about the first shaft lever 7, meanwhile, the length of each rotating plate 8 is one half of the side length of the feeding hole 6, so that the rotation of the rotating plates 8 drives the rear belt 9 and the front belt 11 to run, and the running of the rear belt 9 and the front belt 11 drives the rear cam 10 and the front cam 13 to rotate.

The length of the rear belt 9 is smaller than that of the front belt 11, the movement tracks of the front belt 11 and the rear belt 9 are the same, the rear belt 9 is in a vertical direction, and the front belt 11 is in a diagonal direction.

The front cam 13 and the rear cam 10 are arranged in the same size and shape, and the front cam 13 is fixedly connected to the second shaft lever 12;

the second shaft lever 12 is arranged in the feed inlet 6 in a bearing mode, and the surfaces of the front cam 13 and the rear cam 10 are both in contact with the lower bottom surface of the elastic cloth 14;

the surface of the elastic cloth 14 is provided with holes corresponding to the front belt 11 and the rear belt 9, so that the rotation of the front cam 13 enables the surface of the elastic cloth 14 to be vibrated continuously, and the raw material on the surface of the elastic cloth 14 is shaken continuously.

The convex rod 15 is a straight rod at the front end, the back end is in a spherical shape, the convex rod 15 is fixedly arranged on the knocking rod 16, and the convex rod 15 is in contact connection with the surface of the front cam 13

The front end of the nose bar 15 is connected with a knocking bar 16, so that the loosened nose bar 15 can rebound rapidly under the action of a spring rod 18, and the rapid rebound of the nose bar 15 drives the knocking bar 16 and the vibration ball 17 to move leftwards rapidly.

The left end of the knocking rod 16 is provided with a vibration ball 17, and the right end of the knocking rod 16 is provided with a spring rod 18;

the spring rod 18 is fixedly connected with the knocking rod 16, the right end of the spring rod 18 is fixedly installed on the inner surface of the feeding hole 6, and the knocking rod 16 is fixedly connected with the vibration ball 17, so that the spring rod 18 can rebound rapidly, and the rapid rebound of the convex rod 15 drives the knocking rod 16 and the vibration ball 17 to move leftwards rapidly.

The working principle is as follows: when raw materials need to be conveyed in the furnace body 1, the feeding is started continuously in the feeding hole 6, and the raw materials are fed continuously in the feeding hole 6 to pass through the surface of the rotating plate 8 on the first shaft lever 7 in the feeding hole 6 to drive the rotating plate 8 to rotate, so that the raw materials intermittently fall onto the elastic cloth 14;

the rotation of the rotating plate 8 drives the rear belt 9 and the front belt 11 to run, the running of the rear belt 9 and the front belt 11 drives the rear cam 10 and the front cam 13 to rotate, the rotation of the rear cam 10 and the front cam 13 enables the surface of the elastic cloth 14 to be vibrated continuously, raw materials on the surface of the elastic cloth 14 are vibrated continuously, and the raw materials cannot block the right end inlets of the auxiliary conveying belt 4 and the main conveying belt 5 after standing and sinking;

the rotation of the front cam 13 simultaneously drives the protruding rod 15 to continuously move backwards, after the spring rod 18 is extruded, the front cam 13 continuously rotates to enable the surfaces of the front cam 13 and the protruding rod 15 not to be in contact, the loosened protruding rod 15 can rapidly rebound under the action of the spring rod 18, the rapid rebound of the protruding rod 15 drives the knocking rod 16 and the vibration ball 17 to rapidly move leftwards, the right ends of the auxiliary conveying belt 4 and the main conveying belt 5 are knocked, so that the auxiliary conveying belt 4 and the main conveying belt 5 are continuously vibrated when conveying raw materials, and the efficiency of conveying the raw materials is improved;

the continuous knocking of the right ends of the auxiliary conveyer belt 4 and the main conveyer belt 5 by the vibration balls 17 not only can improve the conveying efficiency, but also can screen out impurities in the raw materials, and the impurities are conveyed from the auxiliary conveyer belt 4 into the impurity collecting box 3 for recycling, and the content which is not described in detail in the specification belongs to the prior art which is well known by a person skilled in the art.

It is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the purpose of convenience and simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are not to be construed as limiting the scope of the present invention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an industrial furnace vibrating feeder which characterized in that: comprises that

The furnace comprises a furnace body, wherein a support is arranged at the bottom of the furnace body, an impurity collecting box is arranged on the surface of the support, an auxiliary conveying belt is arranged at the top end of the support, and a main conveying belt is arranged on the upper surface of the auxiliary conveying belt;

a feed inlet is formed in the right side face of the main conveying belt, a first shaft lever is mounted on the inner surface of the feed inlet, a rotating plate is mounted on the surface of the first shaft lever, and a rear belt and a front belt are connected to the surface of the first shaft lever;

the bottom end of the rear belt is connected with a rear cam, the bottom end of the front belt is connected with a second shaft lever, and the surface of the second shaft lever is provided with a front cam;

the surface of the front cam is in contact connection with an elastic cloth and a convex rod.

2. The vibrating feeder of claim 1, wherein: the number of the rotating plates is 5, and the lengths of the 5 rotating plates are the same;

the 5 rotating plates are distributed in a central symmetry mode about the first shaft rod, and meanwhile the length of each rotating plate is half of the side length of the feeding hole.

3. The vibrating feeder of claim 1, wherein: the length of back belt is less than the front belt, and the front belt is the same with back belt motion orbit to back belt is the vertical direction, and the front belt is the slash direction.

4. The vibrating feeder of claim 1, wherein: the front cam and the rear cam are arranged in the same size and shape, and the front cam is fixedly connected to the second shaft lever;

the second shaft rod bearing is arranged in the feed port, and the front cam and the rear cam surface are both contacted with the lower bottom surface of the elastic cloth;

the surface of the elastic cloth is provided with holes corresponding to the front belt and the rear belt.

5. The vibrating feeder of claim 1, wherein: the convex rod is a straight rod at the front end, the rear end of the convex rod is spherical, the striking rod is fixedly arranged on the convex rod, and the convex rod is in contact connection with the surface of the front cam

The front end of the convex rod is connected with the knocking rod.

6. The vibrating feeder of claim 5, wherein: the left end of the knocking rod is provided with a vibration ball, and the right end of the knocking rod is provided with a spring rod;

the spring rod is fixedly connected with the knocking rod, the right end of the spring rod is fixedly installed on the inner surface of the feeding hole, and the knocking rod is fixedly connected with the vibration ball.

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