CN217910613U

CN217910613U - Civil engineering construction waste recovery processing device

Info

Publication number: CN217910613U
Application number: CN202221011021.XU
Authority: CN
Inventors: 刘宝华; 郝永县
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2022-11-29
Anticipated expiration: 2032-04-28

Abstract

The utility model discloses a civil engineering construction waste recovery processing device, include: casing, collecting box, dust extraction, feed inlet, broken axle, vibration portion, screening portion, the top surface of casing is open setting, is equipped with the feed inlet in the top surface, the whole frustum shape that is inversion of feed inlet, its bottom are the throat, the right flank of casing is equipped with dust extraction, dust extraction runs through the below that the casing extends to the feed inlet, the below of feed inlet is equipped with broken axle, broken axle parallel arrangement has two, the utility model provides a civil engineering construction waste recovery processing device solves current recovery processing device and can appear a large amount of dusts at the during operation often, makes the environment receive the pollution to after the breakage is accomplished, can't effectively separate available material, need the manual work carry out the secondary and sieve many times even, consuming time power.

Description

Civil engineering construction waste recovery processing device

Technical Field

The utility model relates to a civil engineering technical field especially relates to a civil engineering construction waste recycling device.

Background

Civil engineering is a general term for scientific technology for building various land engineering facilities. It refers both to the materials, equipment used and the technical activities carried out, such as surveying, designing, construction, maintenance, repair, etc., and to the objects of engineering construction. The construction materials are constructed on the ground or underground or onshore, and various engineering facilities which directly or indirectly serve human life, production, military affairs and scientific research need to be recovered after the construction materials are used for a long time, so that the aim of recycling resources is fulfilled.

A large amount of dust often can appear at the during operation in current recovery processing device, makes the environment receive the pollution to after the breakage is accomplished, can't effectively separate available material, need the manual work to carry out secondary screening even many times, consuming time and wasting force.

Therefore, there is a need to provide a recycling device for civil engineering construction waste to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming the prior art defect, the utility model provides a civil engineering construction waste recovery processing device solves current recovery processing device and can appear a large amount of dusts at the during operation often, makes the environment receive the pollution to after broken completion, can't effectively separate available material, need the manual work carry out secondary screening even many times, consuming time power.

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

a civil engineering construction waste recovery processing device includes: the device comprises a shell, a collecting box, a dust suction device, a feeding hole, a crushing shaft, a vibrating part and a screening part;

the top surface of the shell is in an open type arrangement, a feed inlet is formed in the top surface, the feed inlet is integrally in an inverted frustum shape, the bottom of the feed inlet is a necking, a dust suction device is arranged on the right side surface of the shell and penetrates through the shell to extend to the position below the feed inlet, a crushing shaft is arranged below the feed inlet, two crushing shafts are arranged in parallel, a crushing point is arranged between the two crushing shafts, a vibrating portion is arranged below the crushing shaft, two sides of the vibrating portion are connected with the inner wall of the shell, the vibrating portion is used for receiving crushed waste materials and enabling the waste materials to fall uniformly, a screening portion is arranged below the vibrating portion and used for receiving the uniformly falling waste materials through the screening portion and collecting iron in the waste materials to screen impurities, a collecting box is arranged below the screening portion, the top surface of the collecting box is in an open type arrangement and communicated with the interior of the shell, the collecting box is divided into two storage spaces, the right side of the collecting box is an impurity collecting box, and the left side of the collecting box is an iron material collecting box.

In one embodiment, the vibrating part comprises a screen plate, a vibrating motor, fixing rods and a swinging spring, wherein a frame is arranged around the screen plate, a screen mesh crossed transversely and longitudinally is arranged in the frame, a plurality of fixing rods are arranged on two sides of the screen plate, one end of each fixing rod is connected with the inner wall of the shell, the other end of each fixing rod is sleeved with the swinging spring, a space is reserved between one side of each fixing rod close to the screen plate and the screen plate, the space is connected with the screen plate through the swinging spring, the vibrating motor is fixedly arranged on the outer wall of the shell, and the output end of the vibrating motor penetrates through the shell and is connected with the screen plate.

In one embodiment, the screening part comprises a screening plate, an electric control box, a connecting rod, a rotating shaft and a servo motor, the top surface of the screening plate is an electromagnet plate, the electric control box is arranged on one side of the bottom surface of the screening plate, the electromagnet plate and the electric control box are electrically connected, the connecting rod is arranged in the middle of the bottom surface of the screening plate, the bottom surface of the connecting rod is connected with the rotating shaft, one side of the rotating shaft is connected with the servo motor, and the rotating shaft is rotatably arranged on the inner wall of the shell.

In one embodiment, the top surface of the sifting plate is a downwardly concave arc surface.

In one embodiment, the screening plate has a top surface width greater than a width of the screen panel.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) The utility model discloses a dust extraction lasts the dust absorption to the bottom of feed inlet to reduce the dust that produces when broken, prevent that the dust from wafting and can't collect.

(2) The utility model discloses vibrating motor drives the vibration of screen cloth board, makes the screen cloth board carry out the swing of small amplitude through swinging spring, makes the waste material after the breakage more even fall into the screening board of below in, because the top surface of screening board is the electromagnetism iron sheet, makes iron and impurity in the waste material disperse through the screen cloth board, makes iron effectively adsorbed by the screening board.

(3) The utility model discloses a servo motor drives pivot clockwise turning, drives the screening board syntropy simultaneously and rotates to being close 90 degrees, because impurity can not be adsorbed by the electro-magnet, fall into the impurity collecting box of below through the dead weight in rotatory to being greater than 200 degrees, remove the magnetic force of screening board through automatically controlled box, make the iron material rely on gravity fall to the iron material collecting box of below in, make screening work more reliable, efficiency, effect all effectively promote.

Drawings

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

FIG. 2 is a detailed view of the interior of the present invention;

FIG. 3 is a detailed view of the vibrating portion of the present invention;

fig. 4 is a detailed view of the screening unit of the present invention.

Wherein, the names corresponding to the reference numbers are: 1-shell, 2-collecting box, 21-impurity collecting box, 22-iron material collecting box, 3-dust collector, 4-feed inlet, 5-crushing shaft, 6-vibration part, 61-screen plate, 62-vibration motor, 63-fixed rod, 64-swinging spring, 7-screening part, 71-screening plate, 72-electric control box, 73-connecting rod, 74-rotating shaft and 75-servo motor.

Detailed Description

The present invention will be further described with reference to the following description and examples, which include but are not limited to the following examples.

As shown in fig. 1-fig. 2, the utility model provides a pair of civil engineering construction waste recovery processing device, include: the device comprises a shell 1, a collecting box 2, a dust suction device 3, a feeding hole 4, a crushing shaft 5, a vibrating part 6 and a screening part 7;

as shown in fig. 1-2, the top surface of the casing 1 is open, a feed inlet 4 is arranged in the top surface, the feed inlet 4 is in an inverted frustum shape as a whole, the bottom of the feed inlet 4 is a throat, a dust suction device 3 is arranged on the right side surface of the casing 1, the dust suction device 3 penetrates through the casing 1 and extends to the position below the feed inlet 4, the bottom of the feed inlet 4 is continuously sucked by the dust suction device 3 to reduce dust generated during crushing and prevent dust from scattering and failing to collect, a crushing shaft 5 is arranged below the feed inlet 4, two crushing shafts 5 are arranged in parallel, a crushing point is arranged between the two crushing shafts, a vibrating part 6 is arranged below the crushing shaft 5, two sides of the vibrating part 6 are connected with the inner wall of the casing 1, the vibrating part 6 is used for receiving crushed waste materials and enabling the waste materials to fall uniformly, a screening part 7 is arranged below the vibrating part 6, the screening part 7 is used for receiving the uniformly falling waste materials and collecting iron in the waste materials, impurities are screened, a collecting box 2 is arranged below the screening part 7, the collecting box 2 is arranged open and is communicated with the inside of the casing 1, the collecting box 2 is divided into two collecting boxes 21, and the left collecting box is used as a collecting box for storing the impurities.

Preferably, as shown in fig. 1-3, the vibrating portion 6 is composed of a screen plate 61, a vibrating motor 62, fixing rods 63, and a swinging spring 64, wherein a frame is disposed around the screen plate 61, a transversely-longitudinally crossed screen is disposed in the frame, a plurality of fixing rods 63 are disposed on two sides of the screen plate 61, one end of each fixing rod 63 is connected to the inner wall of the housing 1, a swinging spring 64 is sleeved on the other end of each fixing rod 63, a space is reserved between one side of each fixing rod 63, which is close to the screen plate 61, and the spacing is connected to the vibrating motor 62 through the swinging spring 64, and the vibrating motor 62 is fixedly disposed on the outer wall of the housing 1, and the output end of the vibrating motor penetrates through the housing 1 and is connected to the screen plate 61.

Preferably, in one embodiment, as shown in fig. 2 and 4, the sieving unit 7 is composed of a sieving plate 71, an electric control box 72, a connecting rod 73, a rotating shaft 74 and a servo motor 75, the top surface of the sieving plate 71 is an electromagnet plate, the electric control box 72 is arranged on one side of the bottom surface of the sieving plate 71, the electromagnet plate and the electric control box 72 are electrically connected, the connecting rod 73 is arranged in the middle of the bottom surface of the sieving plate 71, the bottom surface of the connecting rod 73 is connected with the rotating shaft 74, one side of the rotating shaft 74 is connected with the servo motor 75, and the rotating shaft 74 is rotatably arranged on the inner wall of the housing 1.

Preferably, in one embodiment, the top surface of the screening plate 71 is a downwardly concave arc surface, and the purpose of the top surface of the screening plate 71 is to limit the position of the top surface so as to prevent the waste material from splashing out of the receiving range when the waste material falls down.

Preferably, in one embodiment, the width of the top surface of the sieving plate 71 is larger than the width of the sieving plate 61, so that the sieving plate 71 can effectively receive the waste material falling from the sieving plate 61.

The utility model discloses theory of operation:

during operation, waste materials enter the lower crushing shaft 5 from the feed port 4 to be crushed, the crushed waste materials fall into the vibrating part 6, the vibrating motor 62 drives the screen plate 61 to vibrate, the screen plate 61 swings slightly through the swinging spring 64, the crushed waste materials fall into the lower screening plate 71 more uniformly, the top surface of the screening plate 71 is an electromagnetic steel plate, iron and impurities in the waste materials are dispersed through the screen plate 61, the iron is effectively adsorbed by the screening plate 71, the servo motor 75 drives the rotating shaft 74 to rotate clockwise, the screening plate 71 is driven to rotate in the same direction, when the waste materials rotate to be close to 90 degrees, the impurities cannot be adsorbed by the electromagnet, the waste materials fall into the lower impurity collecting box 21 through self weight, when the waste materials rotate to be larger than 200 degrees, the magnetic force of the screening plate 71 is relieved through the electric control box 72, the iron materials fall into the lower iron material collecting box 22 through gravity, and screening recovery is completed.

The above embodiment is only one of the preferred embodiments of the present invention, and should not be used to limit the protection scope of the present invention, but all the insubstantial changes or modifications made in the spirit and the idea of the main design of the present invention, the technical problems solved by the embodiment are still consistent with the present invention, and all should be included in the protection scope of the present invention.

Claims

1. A civil engineering construction waste recovery processing device includes: a housing;

the top surface of the shell is in an open type, a feed inlet is formed in the top surface, the feed inlet is integrally in an inverted frustum shape, the bottom of the feed inlet is a necking, a dust suction device is arranged on the right side surface of the shell, the dust suction device penetrates through the shell and extends to the position below the feed inlet, two crushing shafts are arranged below the feed inlet in parallel, a crushing point is arranged between the two crushing shafts, a vibrating portion is arranged below each crushing shaft, two sides of each vibrating portion are connected with the inner wall of the shell, each vibrating portion is used for receiving crushed waste materials and enabling the waste materials to fall uniformly, a screening portion is arranged below each vibrating portion, the waste materials falling uniformly are received through the screening portion, iron in the waste materials is collected, impurities are screened, a collecting box is arranged below each screening portion, the top surface of the collecting box is in an open type and is communicated with the inside of the shell, the collecting box is divided into two storage spaces, the right side of the collecting box is the impurities, and the left side of the collecting box is an iron material collecting box.

2. The civil engineering construction waste recycling device of claim 1, wherein the vibrating portion comprises a screen plate, a vibrating motor, fixing rods and a swinging spring, wherein a frame is arranged around the screen plate, a screen is arranged in the frame and is crossed transversely and longitudinally, a plurality of fixing rods are arranged on two sides of the screen plate, one end of each fixing rod is connected with the inner wall of the casing, the other end of each fixing rod is sleeved with the swinging spring, a space is reserved between one side of each fixing rod, which is close to the screen plate, and the screen plate, the space is connected with the screen plate through the swinging spring, the vibrating motor is fixedly arranged on the outer wall of the casing, and the output end of the vibrating motor penetrates through the casing and is connected with the screen plate.

3. The civil engineering construction waste recycling device of claim 1, wherein the screening portion is composed of a screening plate, an electric control box, a connecting rod, a rotating shaft and a servo motor, the top surface of the screening plate is an electromagnet plate, the electric control box is arranged on one side of the bottom surface of the screening plate, the electric control box and the electric control box are electrically connected, the connecting rod is arranged in the middle of the bottom surface of the screening plate, the bottom surface of the connecting rod is connected with the rotating shaft, one side of the rotating shaft is connected with the servo motor, and the rotating shaft is rotatably arranged on the inner wall of the housing.

4. The civil engineering construction waste recycling device of claim 3, wherein the top surface of the screening plate is a downwardly concave arc surface.

5. The civil engineering construction waste recycling device of claim 3, wherein the width of the top surface of the screening plate is larger than the width of the screen plate.