CN218174000U - Rotary distributor capable of preventing material blockage - Google Patents

Abstract

The utility model relates to an engineering equipment field, concretely relates to gyration tripper of preventable putty, include rotary unit, support, divide the hopper and hold the material chute. The rotary unit of the utility model is vertically arranged and locked on the bracket, and can intermittently rotate, the material distributing hopper comprises a hopper body and a discharge port, the material distributing hopper is locked on the rotary unit and can distribute materials to the periphery through the discharge port, and a plurality of material bearing chutes are arranged at the lower front part of the material distributing hopper and downwards incline to be distributed around the periphery of the material distributing hopper in a scattering way so as to discharge the materials distributed by the material distributing hopper into different separating bins of the material receiving bin respectively; a plurality of dispersing holes are also formed in the bottom wall of the chute body of the material bearing chute at intervals and used for dispersing materials sliding downwards in the chute body; the material bearing chute is hinged around the support and can swing up and down by using the air cylinder. The utility model discloses a to conventional gyration tripper improve, can reduce equipment failure rate, can improve the mobility of material, preventable tripper putty.

Description

Rotary distributor capable of preventing material blockage

Technical Field

The utility model relates to an engineering equipment field, concretely relates to gyration tripper of preventable putty.

Background

In engineering stirring equipment, different sandstone materials are often distributed into different separation bins of a large receiving bin by a rotary distributor according to different specifications and varieties for storage. In order to allow a plurality of separate bins to share one distributor, a rotary distributor is generally installed at the top center of a large receiving bin. In order to meet the material receiving requirements of separation bins with different distances, most of the separation hoppers of the conventional rotary distributor are fixedly connected with a long chute at one side below a hopper body, but the long chute is easy to block materials; when the chute rotates along with the hopper body, the rotating parts of the rotating unit are easily damaged due to the fact that the chute is long, heavy and suspended; in addition, some sand materials with higher mud content are easy to adhere to the bottom wall of the chute when the materials are distributed, so that the smooth discharging is influenced. In view of this, there is a need for improvements in rotary dispensers.

SUMMERY OF THE UTILITY MODEL

For overcoming the not enough among the prior art, the utility model discloses a can prevent gyration tripper of putty, include rotary unit, support, divide the hopper and hold the material chute. The rotary unit of the utility model is vertically arranged and locked on the bracket, and can intermittently rotate, the material distributing hopper comprises a hopper body and a discharge port, the material distributing hopper is locked on the rotary unit and can distribute materials to the periphery through the discharge port, and a plurality of material bearing chutes are arranged at the lower front part of the material distributing hopper and downwards incline to be distributed around the periphery of the material distributing hopper in a scattering way so as to discharge the materials distributed by the material distributing hopper into different separating bins of the material receiving bin respectively; a plurality of dispersing holes are also formed in the bottom wall of the chute body of the material bearing chute at intervals and used for dispersing materials sliding downwards in the chute body; the material bearing chute is hinged around the support and can swing up and down by using the air cylinder. The utility model discloses a improve conventional gyration tripper, change the long chute of rigid coupling in the lower part of branch hopper into short discharge gate, then scatter and distribute the material supporting chute that has a plurality of luffing motion all around in the front under the branch hopper to accept the material that the branch hopper distributes, thus can lighten the weight of the rotatory branch hopper, reduce the equipment failure rate; and the height difference between the discharge port of the distributing hopper and the material bearing chute, the dispersion holes on the bottom wall of the chute body and the material bearing chute can swing up and down to ensure that the materials are not easy to adhere to the bottom wall of the chute to improve the flowability of the materials, thereby preventing the blockage of the distributor.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a gyration tripper of preventable putty, includes rotating element and support, rotating element for contain gear motor and the drive component of intermittent type rotation, the rotating element lock solid is on the support and its rotary power's output end upwards, its characterized in that: the material distributing device is characterized by further comprising a material distributing hopper and a material bearing chute, wherein the material distributing hopper is a cavity member formed by fixedly connecting a hopper body on the upper portion and a discharge port on the lower portion, the material distributing hopper is fixedly locked at the output end of the rotating power of the rotating unit and used for distributing materials in the hopper body downwards around the material distributing hopper through the discharge port, the material bearing chute is arranged in the lower front of the material distributing hopper and is provided with a plurality of pieces, the plurality of pieces of material bearing chutes are distributed in a scattering mode around the periphery of the material distributing hopper and downwards incline, and the plurality of pieces of material bearing chutes are hinged around the support and can swing up and down around hinge points respectively.

The hopper body is a hollow hopper body with a round opening on the upper part and a square opening on the lower part, and an inclined plane on one side of the lower part, the discharge port is a short groove body formed by enclosing a bottom wall and two side walls, the discharge port is obliquely butted on the opening on the lower part of the hopper body and communicated with the opening, and the inclination angle of the bottom wall is consistent with the inclination angle of the inclined side surface of the hopper body.

The chute body is a long trough-shaped body which is formed by enclosing a bottom wall and two side walls, the chute body is obliquely arranged, the upper end of the chute body is hinged to the upper side edge of the support through a hinge, the middle of the bottom wall of the chute body is hinged to a cylinder rod of the cylinder, and the tail of a cylinder body of the cylinder is hinged to the lower side edge of the support.

The width of the chute body of the material bearing chute is larger than that of the discharge hole of the material distributing hopper. The chute bodies of the plurality of material bearing chutes are scattered around the periphery of the distributing hopper and are arranged below and in front of the discharge port, and any chute body can bear the materials provided by the discharge port and can discharge the materials into the corresponding separating bin of the receiving bin.

The chute body is characterized in that a plurality of dispersing holes are formed in the bottom wall of the chute body at intervals and used for dispersing materials sliding downwards in the chute body, and the dispersing holes are waist-shaped through holes.

The support is a polygonal support.

As can be seen from the above description, the utility model provides a can prevent gyration tripper of putty's advantage lies in: firstly, a long chute fixedly connected to the lower part of a distributing hopper on a conventional rotary distributor is changed into a short discharge hole, and a plurality of material bearing chutes capable of swinging up and down are scattered and distributed on the periphery of the lower front part of the distributing hopper to bear materials distributed by the distributing hopper, so that the weight of the rotary distributing hopper can be reduced, and the failure rate of equipment can be reduced; secondly, a plurality of material bearing chutes are arranged in the lower front of the distributing hopper and are distributed around the distributing hopper in a downward inclined and scattering manner to bear the materials distributed by the distributing hopper and respectively discharge the materials into different separating bins of the receiving bin, and the material blockage at the discharge outlet of the distributing hopper can be avoided by utilizing the height difference formed between the discharge outlet of the distributing hopper and the material bearing chutes, and the materials of the distributing hopper fall into the material bearing chutes to generate downward impact force, so that the materials on the material bearing chutes slide down more easily, and the smoothness of the materials can be improved; thirdly, the air cylinder is arranged at the bottom of each material bearing chute, and the air cylinder can be started to enable the material bearing chute to swing up and down for shaking aiming at the materials with strong adhesion, so that the materials can slide down more smoothly and fall into the material receiving bin more dispersedly, and the accumulation at one position can be avoided; fourthly, the plurality of dispersing holes arranged on the bottom wall of the chute body of the material bearing chute at intervals can disperse the materials sliding downwards in the chute body, so that the materials are not easy to coalesce, and the material blockage is avoided. The utility model relates to a rationally, simple structure, low cost, facilitate promotion.

Drawings

FIG. 1 is a general schematic view of a rotary distributor capable of preventing material blockage of the present invention

FIG. 2 is a schematic view of the direction A in FIG. 1

FIG. 3 is an enlarged view of the material distributing hopper

FIG. 4 is an enlarged view of the loading chute

FIG. 5 is a schematic view of a conventional rotary distributor

Reference numerals:

1 a rotation unit; 2, a bracket; 3, distributing a hopper; 31 a bucket body; 32 a discharge hole; 4, a material bearing chute; 41 chute body; 411 discrete holes; a 42 cylinder; 43 hinge; 900 receiving bin

Detailed Description

The present invention is further described below in the following with reference to specific embodiments.

As shown in fig. 1 to fig. 4, the rotary distributor of the present invention comprises a rotary unit 1, a support 2, a distribution hopper 3 and a material-bearing chute 4. The rotating unit 1 is a driving component which comprises a speed reducing motor and can rotate intermittently, the rotating unit 1 is locked on the bracket 2, and the output end of the rotating power of the rotating unit is upward; the material distributing hopper 3 is a cavity member formed by fixedly connecting an upper hopper body 31 and a lower discharge port 32, the hopper body 31 is a hollow hopper body with a round opening at the upper part and a square opening at the lower part, one side surface of the lower part is an inclined surface, the discharge port 32 is a short groove body formed by enclosing a bottom wall and two side walls, the discharge port 32 is obliquely butted on the lower opening of the hopper body 31 and communicated with the opening, the inclined angle of the bottom wall is consistent with that of the inclined side surface of the hopper body 31, and the material distributing hopper 3 is locked at the output end of the rotating power of the rotating unit 1 and used for sliding the material in the hopper body 31 downwards to distribute the material around the material distributing hopper 3 through the discharge port 32. The material bearing chute 4 comprises a chute body 41, an air cylinder 42 and a hinge 43, wherein the chute body 41 is a long chute-shaped body formed by enclosing a bottom wall and two side walls, the chute body 41 is obliquely arranged, the upper end of the chute body is hinged to the upper side edge of the bracket 2 through the hinge 43, the middle part of the bottom wall of the chute body is hinged to a cylinder rod of the air cylinder 42, the tail part of the cylinder body of the air cylinder 42 is hinged to the lower side edge of the bracket 2, and the chute body 41 can swing up and down around the center of the hinge 43 when the air cylinder 42 works. The width of the chute body 41 of the material bearing chute 4 is larger than that of the discharge hole 32 of the material distribution hopper 3; the material bearing chutes 4 are a plurality of pieces, chute bodies 41 of the plurality of material bearing chutes 4 incline downwards, scatter around the periphery of the distribution hopper 3 and are arranged below and in front of the discharge port 32, and any chute body 41 can bear the material provided by the discharge port 32 and can discharge the material into the corresponding separation bin of the receiving bin 900. The bottom wall of chute body 41 on the interval be equipped with a plurality of dispersion hole 411 and be used for dispersing the material of gliding in chute body 41, dispersion hole 411 be waist shape through-hole, support 2 be polygon support.

Fig. 5 shows a conventional rotary distributor, in which a long chute is fixedly connected to one side of the lower part of a hopper body, and the chute rotates along with the hopper body. The structure is easy to block materials, the chute is long and heavy, rotating parts of the rotating unit are easy to damage, and the failure rate of the device is increased.

The utility model discloses a improve conventional gyration tripper, change the long chute of rigid coupling in the lower part of branch hopper into short discharge gate, then scatter and distribute the material supporting chute that has a plurality of luffing motion all around in the front under the branch hopper to accept the material that the branch hopper distributes, thus can lighten the weight of the rotatory branch hopper, reduce the equipment failure rate; and the height difference between the discharge hole of the distributing hopper and the material bearing chute, the dispersion holes on the bottom wall of the chute body and the material bearing chute can swing up and down to ensure that the materials are not easy to adhere to the bottom wall of the chute to improve the fluidity of the materials, thereby preventing the material distributor from blocking.

The above-mentioned only be a specific embodiment of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and all utilize this conception to be right the utility model discloses carry out immaterial change, all should belong to the action of infringing the scope of protection.

Claims (6)

1. The utility model provides a gyration tripper of preventable putty, includes rotating element (1) and support (2), rotating element (1) for contain gear motor and the rotatory drive member of intermittent type, rotating element (1) lock solid is on support (2) and its rotatory power's output is upwards, its characterized in that: the material distributing device is characterized by further comprising a material distributing hopper (3) and material bearing chutes (4), wherein the material distributing hopper (3) is a cavity member formed by fixedly connecting an upper hopper body (31) and a lower discharge port (32), the material distributing hopper (3) is locked at the output end of the rotary power of the rotary unit (1) and used for enabling materials in the hopper body (31) to slide down to the periphery of the material distributing hopper (3) through the discharge port (32) and distributing the materials, the material bearing chutes (4) are arranged in the lower front of the material distributing hopper (3), the material bearing chutes (4) are a plurality of pieces, the material bearing chutes (4) are distributed in a scattering mode around the periphery of the material distributing hopper (3) and downwards incline, and the material bearing chutes (4) are hinged around the support (2) respectively and can swing up and down around a hinge point respectively.

2. The rotary distributor capable of preventing blockage according to claim 1, wherein: the hopper body (31) is a hollow hopper body with a round opening at the upper part and a square opening at the lower part, and an inclined plane at one side of the lower part, the discharge port (32) is a short groove body formed by enclosing a bottom wall and two side walls, the discharge port (32) is obliquely butted on the opening at the lower part of the hopper body (31) and communicated with the opening, and the inclination angle of the bottom wall is consistent with the inclination angle of the inclined side surface of the hopper body (31).

3. The rotary distributor capable of preventing blockage according to claim 2, wherein: the material bearing chute (4) comprises a chute body (41), an air cylinder (42) and a hinge (43), wherein the chute body (41) is a long groove-shaped body formed by enclosing a bottom wall and two side walls, the chute body (41) is obliquely arranged, the upper end of the chute body is hinged to the upper side edge of the support (2) through the hinge (43), the middle part of the bottom wall of the chute body is hinged to a cylinder rod of the air cylinder (42), and the tail part of a cylinder body of the air cylinder (42) is hinged to the lower side edge of the support (2).

4. The rotary distributor capable of preventing blockage according to claim 3, wherein: the width of the chute bodies (41) of the material bearing chutes (4) is larger than that of the discharge ports (32) of the material distribution hoppers (3), the chute bodies (41) of a plurality of material bearing chutes (4) are scattered around the periphery of the material distribution hoppers (3) and are arranged in the lower front of the discharge ports (32), and any chute body (41) can bear the materials provided by the discharge ports (32) and can discharge the materials into the corresponding separation bins of the material receiving bins (900).

5. The rotary distributor capable of preventing blockage according to claim 4, wherein: the bottom wall of the chute body (41) is provided with a plurality of dispersion holes (411) at intervals, and the dispersion holes (411) are kidney-shaped through holes.

6. The rotary distributor capable of preventing blockage according to claim 5, wherein: the support (2) is a polygonal support.

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