CN216368271U - Prevent that knot that building stones production was used supplies screw machine - Google Patents

Abstract

The utility model discloses an anti-caking spiral feeder for stone production, which comprises a feeder body, supporting columns and a crushing box, wherein the supporting columns are arranged on the outer wall of a movable shaft, and the crushing box is arranged on the outer wall of an L-shaped connecting rod. The crushing device has the advantages that the crushing effect on bulky materials is achieved by the arrangement of the material crushing box, the second motor, the rotary rod and the blade, the materials are fed into the material crushing box through the second feeding hole, the output end rotates after the second motor is electrified to drive the rotary rod to rotate at a high speed, meanwhile, the blade crushes the materials when rotating at a high speed, the crushed materials slide to the second discharging hole, the output end rotates after the third motor is electrified to drive the first gear to rotate to drive the toothed plate, the slide rod drives the toothed plate to move backwards through the movable block to drive the baffle to move backwards, so that the materials slide out of the second discharging hole and enter the machine body, the effect of feeding the bulky materials into the interior of the screw machine after being crushed is achieved, the problem of material blockage is avoided, and the condition of damage to the screw machine cannot occur.

Description

Prevent that knot that building stones production was used supplies screw machine

Technical Field

The utility model relates to the technical field of material transportation, in particular to an anti-caking screw feeder for stone production.

Background

The screw machine is also called a screw conveyor, and is widely applied to various industries, such as building material, chemical industry, electric power, metallurgy, coal, grain and the like, but the traditional screw machine cannot transport materials which are large in size and easy to agglomerate, the machine angle cannot be adjusted, and the problems are well solved due to the fact that the anti-caking screw machine for stone production appears.

The existing screw machine has the defects that:

1. the reference document CN213111319U discloses a screw conveyor, the right item of protection of which is "the screw conveyor of the utility model," which includes a hopper and a material conveying cylinder communicated with the hopper, wherein a first material sieving plate and a second material sieving plate are arranged in the hopper, the first material sieving plate and the second material sieving plate are sequentially stacked from top to bottom, the first material sieving plate and the second material sieving plate are relatively rotatably arranged, a plurality of first leaking holes and second leaking holes are respectively arranged on the first sieve plate and the second sieve plate, after the first sieve plate rotates relative to the second sieve plate, the first leaking holes and the second leaking holes are communicated with each other, the first sieve plate and the second sieve plate longitudinally slide relative to the hopper, and a material sieving device for driving the first sieve plate and the second sieve plate to slide is arranged outside the hopper. This screw conveyer screens the fodder through the coincidence area of first small opening and second small opening on first sieve flitch and the second sieve flitch, rejects bulky fodder ", but this screw lack the broken structure of material with bulky, if the too big direct machine that gets into of material volume, can lead to the problem that the jam appears in the machine, still can cause the damage of machine.

2. The angle that current screw machine can not adjust self, when will transporting the material to the car, will rely on the manual work to accomplish the transportation, not only makes the conveying efficiency reduce, has still consumed a large amount of physical powers of manual work, has brought the puzzlement for the manual work.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-caking screw conveyor for stone production, which aims to solve the problems that materials with large volume and easy caking cannot be conveyed and the angle of the machine cannot be adjusted in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an anti-caking feeding screw machine for stone production comprises a machine body, supporting columns and a crushing box, wherein a movable shaft is arranged at the bottom of the machine body, the supporting columns are symmetrically distributed and arranged on the outer wall of the movable shaft, an L-shaped connecting rod is arranged at the top of the machine body, and the crushing box is arranged on the outer wall of the L-shaped connecting rod;

the outer wall of the crushing box is provided with an installation plate, the bottom of the installation plate is provided with a second connecting plate, the bottom of the second connecting plate is provided with a movable block, the outer wall of the support column is provided with a support plate, the top of the support plate is provided with a protection box, and the bottom of the machine body is provided with a chute;

the rotary rod is installed to the inside roof of bits of broken glass workbin, the blade is installed to the outer wall of rotary rod, No. two motors are installed at the top of bits of broken glass workbin, and the output of No. two motors is connected with the top of rotary rod, No. two feed inlets have been seted up at the top of bits of broken glass workbin, No. two discharge gates have been seted up to the inside diapire of bits of broken glass workbin.

Preferably, the inner wall of spout installs the slider, and the connecting block is installed to the bottom of slider, and the vertical plate is installed to the bottom of connecting block, and the spiral shell piece is installed to the outer wall of vertical plate, and the screw rod is installed to the inner wall of spiral shell piece.

Preferably, the hob is installed to the inner wall of fuselage, and the one end of hob is connected with the output of a motor, and a motor is installed to the outer wall of fuselage, and a feed inlet has been seted up at the top of fuselage, and a discharge gate has been seted up to the bottom of fuselage.

Preferably, the bottom of the supporting column is provided with a fixed bottom plate.

Preferably, a connecting plate is installed to the bottom of mounting panel, and the back mounted of a connecting plate has a gear, and the back mounted of a gear has No. three motors, and the output of No. three motors and the inner wall connection of a gear.

Preferably, the inner wall of the movable block is provided with a slide bar, one end of the slide bar is connected with the outer wall of the toothed plate, the outer wall of the toothed plate is provided with a baffle, and the baffle is positioned on one side of the slide bar.

Preferably, unable adjustment base is installed to the inside diapire of protective housing, and the motor is installed to the inner wall of protective housing, and the output of motor is connected with the one end of a transmission shaft, and No. two gears are installed to the outer wall of a transmission shaft, and No. three gears are installed to the outer wall of No. two gears, and No. three gears mesh with No. two gears, and No. two transmission shafts are installed at the top of No. three gears.

Compared with the prior art, the utility model has the beneficial effects that:

1. the crushing device comprises a crushing box, a motor II, a rotary rod and a blade, wherein the crushing box is provided with a feeding opening I, a feeding opening II, a discharging opening II, a motor II, a rotary rod, a movable block and a baffle.

2. According to the utility model, the effect that the spiral machine can adjust the self angle is achieved by installing the protection plate, the motor and the vertical plate, firstly, the output end rotates after the motor is electrified to drive the first transmission shaft to rotate, meanwhile, the second gear on the first transmission shaft rotates along with the first gear, the second gear drives the third gear to rotate, the second transmission shaft rotates along with the second transmission shaft to drive the screw rod to rotate, the spiral piece moves upwards by utilizing the rotation of the screw rod and simultaneously drives the vertical plate to move upwards, the connecting block on the vertical plate drives the sliding block, and the sliding block moves in the sliding groove, so that the effect that the spiral machine can adjust the self angle is achieved, the transportation efficiency is improved, the manual physical strength is also saved, and the manual trouble is solved.

Drawings

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

FIG. 2 is a schematic cross-sectional front view of the present invention;

FIG. 3 is a schematic illustration of a portion of the particle bin of the present invention;

FIG. 4 is a schematic view of a part of the structure of the protective box of the present invention.

In the figure: 1. a body; 101. a screw rod; 102. a first motor; 103. a first feed inlet; 104. an L-shaped connecting rod; 105. a first discharge hole; 2. a support pillar; 201. a movable shaft; 202. a support plate; 203. fixing the bottom plate; 3. crushing the material box; 301. rotating the rod; 302. a blade; 303. a second motor; 304. a second feeding hole; 305. a second discharge hole; 4. mounting a plate; 401. a first connecting plate; 402. a first gear; 403. a third motor; 404. a second connecting plate; 5. a movable block; 501. a slide bar; 502. a toothed plate; 503. a baffle plate; 6. a protective box; 601. a fixed base; 602. a motor; 603. a first transmission shaft; 604. a second gear; 605. a third gear; 606. a second transmission shaft; 7. a chute; 701. a slider; 702. connecting blocks; 703. a vertical plate; 704. a screw block; 705. a screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1: referring to fig. 1 and 2, an anti-caking spiral feeder for stone production comprises a feeder body 1, support columns 2 and a crushed aggregate box 3, wherein a movable shaft 201 is installed at the bottom of the feeder body 1, the support columns 2 are symmetrically distributed on the outer wall of the movable shaft 201, an L-shaped connecting rod 104 is installed at the top of the feeder body 1, the crushed aggregate box 3 is installed on the outer wall of the L-shaped connecting rod 104, the movable shaft 201 of the feeder body 1 provides an installation position, the movable shaft 201 can drive the feeder body 1 to adjust the angle, the support columns 2 play a role of supporting the whole feeder, the L-shaped connecting rod 104 provides an installation position for the crushed aggregate box 3, an installation plate 4 is installed on the outer wall of the crushed aggregate box 3, a second connecting plate 404 is installed at the bottom of the installation plate 4, a movable block 5 is installed at the bottom of the second connecting plate 404, a support plate 202 is installed on the outer wall of the support columns 2, a protection box 6 is installed at the top of the support plate 202, a chute 7 is installed at the bottom of the feeder body 1, the mounting plate 4 provides a mounting position for the second connecting plate 404, the second connecting plate 404 plays a connecting role, the connecting movable block 5 is connected, the support plate 202 plays a supporting role, the mounting position is provided for the protective box 6, the machine body 1 provides a mounting position for the chute 7, the inner wall of the machine body 1 is provided with the screw rod 101, one end of the screw rod 101 is connected with the output end of the first motor 102, the outer wall of the machine body 1 is provided with the first motor 102, the top of the machine body 1 is provided with the first feed inlet 103, the bottom of the machine body 1 is provided with the first discharge outlet 105, the output end of the first motor 102 rotates after being electrified to drive the screw rod 101 to rotate, then the material is fed into the interior of the machine body 1 through the first feed inlet 103, the material is pushed forwards by the rotation of the screw rod 101 and slides out from the first discharge outlet 105 to complete the material transportation work, the bottom of the support column 2 is provided with the fixed bottom plate 203, the supporting column 2 provides a mounting position for the fixed base plate 203, and the fixed base plate 203 plays a role in stabilizing and preventing displacement.

Example 2: referring to fig. 3, a rotating rod 301 is installed on the top wall inside the crushed material box 3, a blade 302 is installed on the outer wall of the rotating rod 301, a second motor 303 is installed on the top of the crushed material box 3, the output end of the second motor 303 is connected with the top of the rotating rod 301, a second feeding hole 304 is formed in the top of the crushed material box 3, a second discharging hole 305 is formed in the bottom wall inside the crushed material box 3, the material is firstly fed into the crushed material box 3 through the second feeding hole 304, the output end rotates after the second motor 303 is powered on to drive the rotating rod 301 to rotate at a high speed, the blade 302 simultaneously crushes the material while rotating at a high speed, the crushed material slides to the second discharging hole 305, at this time, the output end rotates after the third motor is powered on to drive the first gear 402 to rotate and simultaneously drive the toothed plate 502, the toothed plate 502 utilizes the sliding rod 501, the sliding rod 501 drives the toothed plate 502 to move backwards through the movable block 5 and simultaneously drives the baffle 503 to move backwards, so that the material slides out from the second discharge port 305 and enters the interior of the machine body 1.

Example 3: referring to fig. 4, a sliding block 701 is installed on the inner wall of the sliding slot 7, a connecting block 702 is installed at the bottom of the sliding block 701, a vertical plate 703 is installed at the bottom of the connecting block 702, a screw block 704 is installed on the outer wall of the vertical plate 703, a screw 705 is installed on the inner wall of the screw block 704, first, after the motor 602 is powered on, the output end rotates to drive a first transmission shaft 603 to rotate, meanwhile, the second gear 604 on the first transmission shaft 603 rotates, the second gear 604 drives the third gear 605 to rotate, the second transmission shaft 606 rotates to drive the screw 705 to rotate, the screw block 704 moves upwards by the rotation of the screw 705, meanwhile, the vertical plate 703 is driven to move upwards, the connecting block 702 on the vertical plate 703 drives the sliding block 701, the sliding block 701 moves inside the sliding groove 7, the effect that the angle of the screw machine can be adjusted is achieved, the conveying efficiency is improved, manual physical force is saved, and manual troubles are solved.

Example 4: referring to fig. 3 and 4, a first connecting plate 401 is mounted at the bottom of a mounting plate 4, a first gear 402 is mounted at the back of the first connecting plate 401, a third motor 403 is mounted at the back of the first gear 402, an output end of the third motor 403 is connected with an inner wall of the first gear 402, a sliding rod 501 is mounted at an inner wall of a movable block 5, one end of the sliding rod 501 is connected with an outer wall of a toothed plate 502, a baffle 503 is mounted at an outer wall of the toothed plate 502, and the baffle 503 is located at one side of the sliding rod 501, first, the output end of the third motor 403 rotates after being electrified to drive the first gear 402 to rotate and drive the toothed plate 502 at the same time, the toothed plate 502 is driven by the sliding rod 501, the sliding rod 501 drives the toothed plate 502 to move backwards through the movable block 5 and simultaneously drive the baffle 503 to move backwards, a fixed base 601 is mounted at an inner bottom wall of a protection box 6, a motor 602 is mounted at an inner wall of the protection box 6, and an output end of the motor 602 is connected with one end of a first transmission shaft 603, no. two gears 604 are installed on the outer wall of the first transmission shaft 603, No. three gears 605 are installed on the outer wall of the second gear 604, the third gears 605 are meshed with the second gears 604, a second transmission shaft 606 is installed on the top of the third gears 605, firstly, the output end of the motor 602 rotates after being electrified to drive the first transmission shaft 603 to rotate, meanwhile, the second gears 604 on the first transmission shaft 603 rotate along with the first transmission shaft, the second gears 604 drive the third gears 605 to rotate, and the second transmission shaft 606 also rotates along with the second transmission shaft.

The working principle is as follows: firstly, the output end of a first motor 102 rotates after being electrified to drive a screw rod 101 to rotate, then materials are fed into the interior of a machine body 1 through a first feed inlet 103, the materials are pushed forwards by utilizing the rotation of the screw rod 101 and slide out from a first discharge outlet 105 to finish the material transportation work, firstly, the materials are fed into the interior of a material crushing box 3 through a second feed inlet 304, the output end of a second motor 303 rotates after being electrified to drive a rotating rod 301 to rotate at a high speed, simultaneously, a blade 302 crushes the materials while rotating at a high speed, the crushed materials slide to a second discharge outlet 305, at the moment, the output end of a third motor 403 rotates after being electrified to drive a first gear 402 to rotate and simultaneously drive a toothed plate 502, the toothed plate 502 utilizes a sliding rod 501, the sliding rod 501 drives the toothed plate 502 to move backwards through a movable block 5 and simultaneously drives a baffle 503 to move backwards, so that the materials slide out from the second discharge outlet 305 and enter the interior of the machine body 1, firstly, the output end of the motor 602 rotates after being electrified to drive the first transmission shaft 603 to rotate, meanwhile, the second gear 604 on the first transmission shaft 603 rotates along with the first gear 604, the second gear 604 drives the third gear 605 to rotate, the second transmission shaft 606 rotates along with the second gear to drive the screw 705 to rotate, the screw block 704 moves upwards by utilizing the rotation of the screw 705 and simultaneously drives the vertical plate 703 to move upwards, the connecting block 702 on the vertical plate 703 drives the sliding block 701, the sliding block 701 moves in the sliding groove 7, the effect that the screw can adjust the angle of the screw is achieved, the transportation efficiency is improved, the manual physical force is saved, and the manual trouble is solved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a prevent knot of building stones production usefulness and supply screw machine, includes fuselage (1), support column (2) and crushed aggregates case (3), its characterized in that: the crusher is characterized in that a movable shaft (201) is installed at the bottom of the crusher body (1), supporting columns (2) are symmetrically distributed on the outer wall of the movable shaft (201), an L-shaped connecting rod (104) is installed at the top of the crusher body (1), and a crushing box (3) is installed on the outer wall of the L-shaped connecting rod (104);

the outer wall of the scrap box (3) is provided with a mounting plate (4), the bottom of the mounting plate (4) is provided with a second connecting plate (404), the bottom of the second connecting plate (404) is provided with a movable block (5), the outer wall of the support column (2) is provided with a support plate (202), the top of the support plate (202) is provided with a protection box (6), and the bottom of the machine body (1) is provided with a sliding chute (7);

rotary rod (301) are installed to the inside roof of bits of broken glass workbin (3), blade (302) are installed to the outer wall of rotary rod (301), No. two motor (303) are installed at the top of bits of broken glass workbin (3), and the output of No. two motor (303) is connected with the top of rotary rod (301), No. two feed inlets (304) have been seted up at the top of bits of broken glass workbin (3), No. two discharge gates (305) have been seted up to the inside diapire of bits of broken glass workbin (3).

2. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: the inner wall of the sliding groove (7) is provided with a sliding block (701), the bottom of the sliding block (701) is provided with a connecting block (702), the bottom of the connecting block (702) is provided with a vertical plate (703), the outer wall of the vertical plate (703) is provided with a screw block (704), and the inner wall of the screw block (704) is provided with a screw rod (705).

3. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: screw rod (101) are installed to the inner wall of fuselage (1), and the one end of screw rod (101) is connected with the output of a motor (102), and a motor (102) is installed to the outer wall of fuselage (1), and a feed inlet (103) has been seted up at the top of fuselage (1), and a discharge gate (105) has been seted up to the bottom of fuselage (1).

4. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: and a fixed bottom plate (203) is installed at the bottom of the supporting column (2).

5. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: connecting plate (401) is installed to the bottom of mounting panel (4), and the back mounted of connecting plate (401) has gear (402), and the back mounted of gear (402) has motor (403) No. three, and the output of motor (403) and the inner wall connection of gear (402) No. three.

6. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: slide bar (501) is installed to the inner wall of movable block (5), and the outer wall connection of the one end of slide bar (501) and pinion rack (502), and baffle (503) are installed to the outer wall of pinion rack (502), and baffle (503) are located one side of slide bar (501).

7. An anti-caking supply screw machine for stone production according to claim 1, characterized in that: unable adjustment base (601) are installed to the inside diapire of protective housing (6), motor (602) are installed to the inner wall of protective housing (6), and the output of motor (602) is connected with the one end of a transmission shaft (603), No. two gears (604) are installed to the outer wall of a transmission shaft (603), No. three gears (605) are installed to the outer wall of No. two gears (604), and No. three gears (605) mesh with No. two gears (604) mutually, No. two transmission shafts (606) are installed at the top of No. three gears (605).

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