CN212975767U

CN212975767U - Municipal works are with shaking sieve device

Info

Publication number: CN212975767U
Application number: CN202020996608.5U
Authority: CN
Inventors: 沈炳海
Original assignee: Anhui Yingyin Construction Engineering Co ltd
Current assignee: Anhui Yingyin Construction Engineering Co ltd
Priority date: 2020-06-04
Filing date: 2020-06-04
Publication date: 2021-04-16
Anticipated expiration: 2030-06-04

Abstract

The utility model discloses a municipal works are with shaking sieve device, shake sieve mechanism, sandy soil transport mechanism including device removal support, feed mechanism, stone, the device removes support rear side upper portion and is provided with feed mechanism, feed mechanism downside front portion is provided with stone shakes sieve mechanism, stone shakes sieve mechanism lower part and is provided with sandy soil transport mechanism. Has the advantages that: realize shaking the sieve device through device movable support and remove, solve the problem that traditional shaking sieve device is bulky to remove the difficulty, the work progress transition of being convenient for, the nimble use, realize the grit through feed mechanism and unload, avoid artifical sand throwing to reduce intensity of labour, shake sieve mechanism through the stone and realize automatic shaking the sieve, improve and shake sieve efficiency, adopt rotatory shaking sieve wheel to reduce the device vibration, reach different shaking sieve construction requirements, realize the automatic conveying of sand after the screening through sand transport mechanism, the stone freely slides and falls further promotes and shakes the sieve effect.

Description

Municipal works are with shaking sieve device

Technical Field

The utility model relates to a shake sieve device field especially relates to a municipal works are with shaking sieve device.

Background

Along with city modernization construction goes on, city construction is developing with higher speed, use a large amount of grit in municipal works construction, the grit needs to filter before the use, its effect of grit of different granularity size is inconsistent, consequently, need filter, in prior art, work is thrown the grit to the screen cloth, this kind of method efficiency is extremely low, workman's intensity of labour is very big, when needs large batch grit, then can't satisfy needs, traditional large-scale sieve device that shakes is bulky, be not convenient for remove, in addition, utilize the manual work to throw the grit, its work load is big, the workman that needs is also more.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a municipal works is with shaking sieve device just in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a municipal works are with shaking sieve device, includes that the device removes support, feed mechanism, stone and shakes sieve mechanism, husky soil transport mechanism, device removes support rear side upper portion and is provided with feed mechanism, feed mechanism downside front portion is provided with stone shakes sieve mechanism, stone shakes sieve mechanism lower part and is provided with husky soil transport mechanism.

Preferably, the device moving support comprises a device underframe, the inner side of the device underframe is connected with a reinforcing frame, moving wheels are arranged on two sides of the device underframe, a supporting upright post is connected to the upper part of the device underframe, the device underframe is connected with the reinforcing frame through welding, the moving wheels are connected with the device underframe through bearings, and the device underframe is connected with the supporting upright post through welding.

Preferably, the feeding mechanism comprises a feeding strut, the upper part of the feeding strut is connected with a feeding groove, the lower part of the feeding groove is connected with a guide plate, the feeding strut is connected with the feeding groove through welding, and the feeding groove is connected with the guide plate through welding.

Preferably, the stone shaking mechanism comprises an upper support rod, the inner side of the upper support rod is connected with a shaking sieve wheel seat, the right side of the shaking sieve wheel seat is provided with a rotary driving motor, the upper part of the left side of the rotary driving motor is connected with a rotary motor reducer, the inner front part of the shaking sieve wheel seat is connected with a first fine shaking sieve wheel, the front part of the first fine shaking sieve wheel is connected with a rotary shaft connecting rod, the front part of the rotary shaft connecting rod is connected with a rotary shaft seat, the two sides of the rotary shaft seat are connected with lower support rods, the lower part of the lower support rods is connected with a shaking sieve discharging plate, the upper support rod is connected with the shaking sieve wheel seat through welding, the upper support rod is connected with the rotary driving motor through bolts, the rotary driving motor is connected with the rotary motor reducer through a gear, the rotary motor reducer is connected with the first fine, the first fine shaking sieve wheel is connected with the rotating shaft connecting rod in a welding mode, the rotating shaft connecting rod is connected with the rotating shaft in a welding mode, the rotating shaft is connected with the rotating shaft seat through a bearing, the rotating shaft seat is connected with the lower supporting rod in a welding mode, and the lower supporting rod is connected with the shaking sieve discharging plate in a welding mode.

Preferably, the stone shaking mechanism comprises an upper support rod, the inner side of the upper support rod is connected with a shaking sieve wheel seat, the right side of the shaking sieve wheel seat is provided with a rotary driving motor, the upper part of the left side of the rotary driving motor is connected with a rotary motor reducer, the inner front part of the shaking sieve wheel seat is connected with a second coarse shaking sieve wheel, the front part of the second coarse shaking sieve wheel is connected with a rotary shaft connecting rod, the front part of the rotary shaft connecting rod is connected with a rotary shaft seat, the two sides of the rotary shaft seat are connected with lower support rods, the lower part of the lower support rods is connected with a shaking sieve discharging plate, the upper support rod is connected with the shaking sieve wheel seat through welding, the upper support rod is connected with the rotary driving motor through bolts, the rotary driving motor is connected with the rotary motor reducer through a gear, the rotary motor reducer is connected with the second coarse, the second coarse shaking sieve wheel is connected with the rotating shaft connecting rod in a welding mode, the rotating shaft connecting rod is connected with the rotating shaft in a welding mode, the rotating shaft is connected with the rotating shaft seat through a bearing, the rotating shaft seat is connected with the lower supporting rod in a welding mode, and the lower supporting rod is connected with the discharging plate of the shaking sieve in a welding mode.

Preferably, sandy soil transport mechanism includes sandy soil area support, sandy soil area curb plate is connected to sandy soil area support inboard, sandy soil area curb plate left side is provided with sandy soil area motor, sandy soil motor rear portion connection sandy soil motor speed reducer, sandy soil area curb plate inboard is provided with the sandy soil conveyer belt, sandy soil discharge plate is connected to sandy soil area curb plate rear portion, sandy soil area support passes through welded connection sandy soil area curb plate, sandy soil area curb plate passes through bolted connection sandy soil area motor, sandy soil area motor passes through gear connection sandy soil motor speed reducer, sandy soil motor speed reducer passes through the gyro wheel connection the sandy soil conveyer belt, sandy soil area curb plate passes through welded connection the sandy soil discharge plate.

Has the advantages that: realize shaking the sieve device through device movable support and remove, solve the problem that traditional shaking sieve device is bulky to remove the difficulty, the work progress transition of being convenient for, the nimble use, realize the grit through feed mechanism and unload, avoid artifical sand throwing to reduce intensity of labour, shake sieve mechanism through the stone and realize automatic shaking the sieve, improve and shake sieve efficiency, adopt rotatory shaking sieve wheel to reduce the device vibration, reach different shaking sieve construction requirements, realize the automatic conveying of sand after the screening through sand transport mechanism, the stone freely slides and falls further promotes and shakes the sieve effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a first perspective view of an embodiment 1 of a shaker for municipal works of the present invention;

FIG. 2 is a second perspective view of the embodiment 1 of the shaking screen device for municipal works of the present invention;

FIG. 3 is a third perspective view of the embodiment 1 of the shaking screen device for municipal works of the present invention;

figure 4 is the utility model discloses a municipal works are with shaking sieve device embodiment 2's perspective.

The reference numerals are explained below:

1. a device moving support; 2. a feeding mechanism; 3. a stone shaking mechanism; 4. a sand delivery mechanism; 101. a device chassis; 102. a reinforcing frame; 103. a moving wheel; 104. supporting the upright post; 201. a feed leg; 202. a feed chute; 203. a guide plate; 301. an upper support rod; 302. shaking a sieve wheel seat; 303. a rotary drive motor; 304. a rotating motor reducer; 305. a first fine shaker wheel; 306. a second coarse shaker wheel; 307. a lower support bar; 308. a rotary shaft seat; 309. a rotating shaft; 310. a rotating shaft connecting rod; 311. a discharge plate of a shaking screen; 401. a sandy soil belt support; 402. side plates of sandy soil belts; 403. a sandy soil charged motor; 404. a sandy soil motor reducer; 405. a sandy soil discharging plate; 406. a sand and soil conveying belt.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

in the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

As shown in figures 1, 2 and 3, the shaking screen device for municipal engineering comprises a device moving support 1, a feeding mechanism 2, a stone shaking screen mechanism 3 and a sand conveying mechanism 4, wherein the feeding mechanism 2 is arranged on the upper portion of the rear side of the device moving support 1, the stone shaking screen mechanism 3 is arranged on the front portion of the lower side of the feeding mechanism 2, and the sand conveying mechanism 4 is arranged on the lower portion of the stone shaking screen mechanism 3.

Preferably, the device moving support 1 comprises a device chassis 101, the inner side of the device chassis 101 is connected with a reinforcing frame 102, two sides of the device chassis 101 are provided with moving wheels 103, the upper part of the device chassis 101 is connected with a supporting upright 104, the device chassis 101 is connected with the reinforcing frame 102 by welding, the moving wheels 103 are connected with the device chassis 101 by bearings, the device chassis 101 is connected with the supporting upright 104 by welding, the feeding mechanism 2 comprises a feeding strut 201, the upper part of the feeding strut 201 is connected with a feeding groove 202, the lower part of the feeding groove 202 is connected with a guide plate 203, the feeding strut 201 is connected with the feeding groove 202 by welding, the feeding groove 202 is connected with the guide plate 203 by welding, the stone shaking screen mechanism 3 comprises an upper supporting rod 301, the inner side of the upper supporting rod 301 is connected with a shaking screen wheel seat 302, the right side of the shaking screen wheel seat 302 is provided with a rotary driving motor 303, the upper part of the left side of the rotary, the front part of a first fine swinging sieve wheel 305 is connected with a rotating shaft connecting rod 310, the front part of the rotating shaft connecting rod 310 is connected with a rotating shaft 309, the front part of the rotating shaft 309 is connected with a rotating shaft seat 308, two sides of the rotating shaft seat 308 are connected with lower supporting rods 307, the lower part of the lower supporting rods 307 is connected with a swinging sieve discharging plate 311, an upper supporting rod 301 is connected with the swinging sieve wheel seat 302 through welding, the upper supporting rod 301 is connected with a rotating driving motor 303 through bolts, the rotating driving motor 303 is connected with a rotating motor speed reducer 304 through gears, the rotating motor speed reducer 304 is connected with a first fine swinging sieve wheel 305 through gears, the first fine swinging sieve wheel 305 is connected with the rotating shaft connecting rod 310 through welding, the rotating shaft connecting rod 310 is connected with the rotating shaft 309 through welding, the rotating shaft 309 is connected with the rotating shaft seat 308 through a bearing, the rotating shaft seat 308 is connected with, the sand belt support 401 is connected with a sand belt side plate 402 on the inner side, a sand belt motor 403 is arranged on the left side of the sand belt side plate 402, a sand motor speed reducer 404 is connected with the rear portion of the sand belt motor 403, a sand conveyor belt 406 is arranged on the inner side of the sand belt side plate 402, a sand discharging plate 405 is connected with the rear portion of the sand belt side plate 402, the sand belt support 401 is connected with the sand belt side plate 402 through welding, the sand belt side plate 402 is connected with the sand motor 403 through bolts, the sand motor 403 is connected with the sand motor speed reducer 404 through gears, the sand motor speed reducer 404 is connected with the sand conveyor belt 406 through rollers, and the sand belt side plate 402 is connected with the sand discharging plate 405 through welding.

In the structure, device chassis 101 and removal wheel 103 accomplish the nimble removal of sieve shaker device, grit passes through feed chute 202 and deflector 203 and gets into the stone and shakes sieve mechanism 3, rotation driving motor 303 drives the rotation through the first fine sieve wheel 305 that shakes of rotating electrical machines speed reducer 304 speed reduction, the different sand construction that requires of sieve is accomplished to first fine sieve wheel 305, the stone falls to device the place ahead through shaking sieve play board 311, sandy soil belt motor 403 drives sandy soil conveyer belt 406 through the speed reduction of sandy soil motor speed reducer 404, sandy soil falls to the device rear through sandy soil play board 405 and accomplishes the gravel and shakes the sieve.

Example 2

As shown in figure 4, a municipal works are with shaking sieve device, including device removal support 1, feed mechanism 2, stone shake sieve mechanism 3, sand and soil transport mechanism 4, device removal support 1 rear side upper portion is provided with

feed mechanism

2, 2 downside fronts of feed mechanism are provided with stone shake sieve mechanism 3, stone shake sieve mechanism 3 lower part is provided with sand and soil transport mechanism 4.

Preferably, the device moving frame 1 comprises a device chassis 101, a reinforcing frame 102 is connected to the inner side of the device chassis 101, moving wheels 103 are arranged on two sides of the device chassis 101, a supporting upright 104 is connected to the upper portion of the device chassis 101, the device chassis 101 is connected to the reinforcing frame 102 through welding, the moving wheels 103 are connected to the device chassis 101 through bearings, and the device chassis 101 is connected to the supporting upright 104 through welding.

The feeding mechanism 2 comprises a feeding strut 201, the upper part of the feeding strut 201 is connected with a feeding groove 202, the lower part of the feeding groove 202 is connected with a guide plate 203, the feeding strut 201 is connected with the feeding groove 202 through welding, and the feeding groove 202 is connected with the guide plate 203 through welding.

The stone shaking and screening mechanism 3 comprises an upper supporting rod 301, the inner side of the upper supporting rod 301 is connected with a shaking and screening wheel seat 302, the right side of the shaking and screening wheel seat 302 is provided with a rotary driving motor 303, the upper part of the left side of the rotary driving motor 303 is connected with a rotary motor reducer 304, the front part of the inner side of the shaking and screening wheel seat 302 is connected with a second coarse shaking and screening wheel 306, the front part of the second coarse shaking and screening wheel 306 is connected with a rotary shaft connecting rod 310, the front part of the rotary shaft connecting rod 310 is connected with a rotary shaft 309, the front part of the rotary shaft 309 is connected with a rotary shaft seat 308, two sides of the rotary shaft seat 308 are connected with lower supporting rods 307, the lower part of the lower supporting rods 307 is connected with a shaking and screening discharge plate 311, the upper supporting rod 301 is connected with the shaking and screening wheel seat 302 through welding, the upper supporting rod 301 is connected with a rotary driving motor 303 through bolts, the rotating shaft connecting rod 310 is connected with a rotating shaft 309 through welding, the rotating shaft 309 is connected with a rotating shaft seat 308 through a bearing, the rotating shaft seat 308 is connected with a lower supporting rod 307 through welding, and the lower supporting rod 307 is connected with a sieve shaking discharging plate 311 through welding.

The sand and soil conveying mechanism 4 comprises a sand and soil belt support 401, a sand and soil belt side plate 402 is connected to the inner side of the sand and soil belt support 401, a sand and soil belt motor 403 is arranged on the left side of the sand and soil belt side plate 402, a sand and soil motor speed reducer 404 is connected to the rear portion of the sand and soil belt motor 403, a sand and soil conveying belt 406 is arranged on the inner side of the sand and soil belt side plate 402, a sand and soil discharging plate 405 is connected to the rear portion of the sand and soil belt side plate 402, the sand and soil belt support 401 is connected with the sand and soil belt side plate 402 through welding, the sand and soil belt side plate 402 is connected with the sand and soil motor 403 through a bolt, the sand and soil motor speed reducer 404 is connected with the sand and soil motor speed reducer 404 through a gear.

In the structure, the device chassis 101 and the removal wheel 103 complete the flexible movement of the sieve shaking device, sand enters the stone sieve shaking mechanism 3 through the feeding chute 202 and the guide plate 203, the rotary driving motor 303 drives the second coarse sieve shaking wheel 306 to rotate through the rotary motor reducer 304 in a speed reduction manner, the second coarse sieve shaking wheel 306 completes different sand screening construction requirements, the stone falls to the front of the device through the sieve shaking discharging plate 311, the sandy soil belt motor 403 drives the sandy soil conveying belt 406 through the sandy soil motor reducer 404 in a speed reduction manner, and the sandy soil falls to the rear of the device through the sandy soil discharging plate 405 to complete the sand sieve shaking.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a municipal works are with shaking sieve device which characterized in that: including device movable support (1), feed mechanism (2), stone shake sieve mechanism (3), sand and soil transport mechanism (4), device movable support (1) rear side upper portion is provided with feed mechanism (2), feed mechanism (2) downside front portion is provided with stone shakes sieve mechanism (3), stone shakes sieve mechanism (3) lower part and is provided with sand and soil transport mechanism (4).

2. The sieve shaker for municipal engineering according to claim 1, wherein: the device moving support (1) comprises a device bottom frame (101), a reinforcing frame (102) is connected to the inner side of the device bottom frame (101), moving wheels (103) are arranged on two sides of the device bottom frame (101), a supporting upright post (104) is connected to the upper portion of the device bottom frame (101), the device bottom frame (101) is connected with the reinforcing frame (102) through welding, the moving wheels (103) are connected with the device bottom frame (101) through bearings, and the device bottom frame (101) is connected with the supporting upright post (104) through welding.

3. The sieve shaker for municipal engineering according to claim 1, wherein: the feeding mechanism (2) comprises a feeding strut (201), wherein the upper part of the feeding strut (201) is connected with a feeding groove (202), the lower part of the feeding groove (202) is connected with a guide plate (203), the feeding strut (201) is connected with the feeding groove (202) through welding, and the feeding groove (202) is connected with the guide plate (203) through welding.

4. The sieve shaker for municipal engineering according to claim 1, wherein: the stone shaking and screening mechanism (3) comprises an upper supporting rod (301), the inner side of the upper supporting rod (301) is connected with a shaking and screening wheel seat (302), the right side of the shaking and screening wheel seat (302) is provided with a rotary driving motor (303), the upper part of the left side of the rotary driving motor (303) is connected with a rotary motor speed reducer (304), the front part of the inner side of the shaking and screening wheel seat (302) is connected with a first fine shaking and screening wheel (305), the front part of the first fine shaking and screening wheel (305) is connected with a rotary shaft connecting rod (310), the front part of the rotary shaft connecting rod (310) is connected with a rotary shaft seat (309), the front part of the rotary shaft (309) is connected with a rotary shaft seat (308), the two sides of the rotary shaft seat (308) are connected with lower supporting rods (307), the lower part of the lower supporting rod (307) is connected with a shaking and screening discharge plate (311), the upper supporting rod (301) is connected, the rotary driving motor (303) is connected with the rotary motor speed reducer (304) through a gear, the rotary motor speed reducer (304) is connected with the first fine shaking screening wheel (305) through a gear, the first fine shaking screening wheel (305) is connected with the rotary shaft connecting rod (310) through a welding connection, the rotary shaft connecting rod (310) is connected with the rotary shaft (309) through a welding connection, the rotary shaft (309) is connected with the rotary shaft seat (308) through a bearing, the rotary shaft seat (308) is connected with the lower supporting rod (307) through a welding connection, and the lower supporting rod (307) is connected with the shaking screening discharging plate (311) through a welding connection.

5. The sieve shaker for municipal engineering according to claim 1, wherein: the stone shaking and screening mechanism (3) comprises an upper supporting rod (301), the inner side of the upper supporting rod (301) is connected with a shaking and screening wheel seat (302), the right side of the shaking and screening wheel seat (302) is provided with a rotary driving motor (303), the upper part of the left side of the rotary driving motor (303) is connected with a rotary motor speed reducer (304), the inner front part of the shaking and screening wheel seat (302) is connected with a second coarse shaking and screening wheel (306), the front part of the second coarse shaking and screening wheel (306) is connected with a rotary shaft connecting rod (310), the front part of the rotary shaft connecting rod (310) is connected with a rotary shaft seat (309), the front part of the rotary shaft (309) is connected with a rotary shaft seat (308), the two sides of the rotary shaft seat (308) are connected with lower supporting rods (307), the lower part of the lower supporting rod (307) is connected with a shaking and screening discharge plate (311), the upper supporting rod (301) is connected with the shaking, the rotary driving motor (303) is connected with the rotary motor speed reducer (304) through a gear, the rotary motor speed reducer (304) is connected with the second coarse shaking screen wheel (306) through a gear, the second coarse shaking screen wheel (306) is connected with the rotary shaft connecting rod (310) through a welding connection, the rotary shaft connecting rod (310) is connected with the rotary shaft (309) through a welding connection, the rotary shaft (309) is connected with the rotary shaft seat (308) through a bearing, the rotary shaft seat (308) is connected with the lower supporting rod (307) through a welding connection, and the lower supporting rod (307) is connected with the shaking screen discharging plate (311) through a welding connection.

6. The sieve shaker for municipal engineering according to claim 1, wherein: the sand and soil conveying mechanism (4) comprises a sand and soil belt bracket (401), the inner side of the sand and soil belt bracket (401) is connected with a sand and soil belt side plate (402), a sand belt motor (403) is arranged on the left side of the sand belt side plate (402), the back part of the sand belt motor (403) is connected with a sand motor speed reducer (404), a sand conveying belt (406) is arranged on the inner side of the sand belt side plate (402), the back part of the sand belt side plate (402) is connected with a sand discharging plate (405), the sand belt bracket (401) is connected with the sand belt side plate (402) through welding, the sand belt side plate (402) is connected with a sand belt motor (403) through a bolt, the sandy soil belt motor (403) is connected with the sandy soil motor speed reducer (404) through a gear, the sandy soil motor speed reducer (404) is connected with the sandy soil conveyor belt (406) through a roller, the sand and soil belt side plate (402) is connected with the sand and soil discharging plate (405) through welding.