CN216368823U

CN216368823U - Sand and stone separation electromechanical device for constructional engineering

Info

Publication number: CN216368823U
Application number: CN202123154450.0U
Authority: CN
Inventors: 杨思皓
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-04-26
Anticipated expiration: 2031-12-15

Abstract

The utility model relates to a sand-stone separation electromechanical device for building engineering, which comprises an inclined conveyor belt, a lower bin and a separation assembly, wherein a drive motor drives a drive shaft rod to rotate, the drive shaft rod rotates to drive an annular sheet and a screen to rotate together, sand and stones mixed by a shovel handle are poured into the lower bin from a feed inlet, the mixed sand and stones fall onto the lower bin from a feed outlet, the mixed sand and stones on the lower bin plate enter into the screen from an inlet of the screen, the sand falls onto the inclined conveyor belt below the screen from the screen through the rotating screen, the sand is conveyed to one direction through the inclined conveyor belt, the stones in the screen fall to the other direction from an outlet of the screen, the sand and the stones are separated towards different directions, the sand and the stones are not mixed together when being separated too much, and repeated separation is not needed, time is saved and work efficiency is increased. The screen mesh is not blocked by the arrangement of the cleaning assembly.

Description

Sand and stone separation electromechanical device for constructional engineering

Technical Field

The utility model relates to a sand and stone separation electromechanical device for constructional engineering.

Background

In the building engineering, sand is often used, the sand belongs to one of building materials, another building material is obtained by mixing the sand with other building materials, and the sand and cement are commonly mixed for use.

When the sand is produced, a plurality of stones with different sizes can be contained in the sand, the sand containing the stones is impure and cannot be mixed with other building materials for use, and at the moment, the sand and the stones need to be separated.

However, the sand and stones are often separated in one direction in the separation process of the existing sand and stone separation equipment, and after the separated sand and stones, part of the sand and stones are mixed together and must be separated again, so that time is wasted, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a sand and stone separation electromechanical device for building engineering, which can separate sand and stones in different directions.

In order to achieve the aim, the utility model provides a sand-stone separation electromechanical device for constructional engineering, which comprises an inclined conveyor belt, a blanking bin and a separation assembly;

the feeding bin is arranged at the front end of the inclined conveying belt, a feeding hole is formed in the upper end of the feeding bin, a feeding hole is formed in the lower end of the feeding bin, a feeding plate is arranged at the lower end of the feeding hole, and the rear end of the feeding plate is fixed to the outer wall of the feeding bin;

the separating assembly is arranged at the rear end of the inclined conveying belt and comprises a screen, a driving shaft rod, a plurality of annular sheets and a driving motor, the driving shaft rod is connected with the inner sides of the annular sheets through reinforcing rods, the annular sheets are arranged along the axial direction of the driving shaft rod, the screen is connected with the outer sides of the annular sheets, two ends of the screen are respectively provided with an inlet and an outlet, the driving motor is connected with the driving shaft rod, and the front end of the feeding plate is arranged in the inlet of the screen.

The beneficial effects of the aforesaid do, it is rotatory to start driving motor earlier to drive the drive axostylus axostyle, it is rotatory together with the screen cloth to drive the annular piece through the rotation of drive axostylus axostyle, at this moment pour mixed sand and stone into down the feed bin from the feed inlet through the forklift, mixed sand and stone on the lower feed bin then can follow the feed inlet department of screen cloth and get into to the screen cloth in, at this moment make the sand drop to the oblique conveyer belt of screen cloth below from the screen cloth through rotatory screen cloth, carry sand to an orientation through putting the conveyer belt to one side, stone in the screen cloth then can drop to another orientation from the exit of screen cloth, make sand and stone separate towards different directions, also can not mix together again when separating too much, need not carry out repeated separation, the time of having saved has also increased work efficiency.

The inclined conveyor belt comprises a conveyor belt body, wherein the conveyor belt body is provided with a front end side plate and a rear end side plate, the front end side plate and the rear end side plate are respectively provided with supporting legs, the inclined conveyor belt body is provided with a belt body, the belt body is provided with a belt, the belt is provided with the supporting legs under the belt body, the belt is arranged to one preferable scheme, the belt is arranged below the front end side plates are provided with the supporting legs respectively, the belt is arranged to one side plates are arranged, the supporting legs are arranged to one, the support legs are arranged below the belt is arranged below the rear end side plates are arranged to one, the rear end side of the belt is provided with the support legs are arranged to one, the support legs are arranged below the rear end side plates are arranged to one, the belt to one, the rear end of the belt to one, the belt is arranged to one, the rear end of the belt to one, the rear end of the belt to the belt is arranged to the belt to one, and to the rear end of the belt is arranged to one, and to the support the belt to the support legs are arranged to one, and to the rear end of the belt to the inclined conveyor belt to the rear end of the support belt to the rear end, and to the belt to the.

One preferred scheme is, the feed opening of feed bin is put the feed opening to one side down, the both sides both ends of feed bin are provided with the bracing piece respectively down, the feed plate is put the feed plate to one side, be provided with the backplate on the both sides of feed plate respectively.

One preferred scheme is that the separation assembly further comprises inclined rods, a fixed plate, baffles, an upper baffle and a lower material plate, the inclined rods are four, the four inclined rods are divided into two groups, every two inclined rods are one group, the two groups of inclined rods are respectively arranged at the rear ends of the side plates at two sides, the baffles are arranged between the inclined rods, the upper ends of the four inclined rods are respectively connected with the upper baffle, the lower material plate is arranged below the rear end of the screen, the two ends of the lower material plate are respectively connected with the inclined rods at two adjacent sides, the two ends of the fixed plate are respectively connected with the middle positions of the inclined rods at two adjacent sides, the screen is arranged below the upper baffle, and the two sides of the screen are the baffles.

One preferred scheme is that the front end of the driving shaft rod is connected with the rear end of the discharging bin through a fixing block, and the driving shaft rod is connected with a driving motor through a fixing plate.

One preferred scheme is, still including cleaning the subassembly, clean the lower extreme that the subassembly set up at the overhead gage, clean the subassembly and include the connecting block, cleaning brush and closing plate, the connecting block is connected with the lower extreme of overhead gage, be provided with the T-slot on the connecting block, the front end to the connecting block is seted up from the rear end of connecting block to the T-slot, the front end tip of connecting block is the enclosed construction, the rear end tip of connecting block is open structure, the upper end of cleaning brush has the T-shaped piece, the cleaning brush passes through the separable setting of T-shaped piece at the T-slot, the closing plate passes through screw detachable and sets up on the rear end tip of connecting block. The screen cloth is convenient to clean through the setting of cleaning the subassembly, prevents that the screen cloth from being plugged up, makes the sand unable drop to put to one side on the conveyer belt.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of an electromechanical sand and stone separating apparatus for construction engineering according to the present invention;

FIG. 2 is a schematic structural diagram of the sand and stone separating electromechanical device for construction engineering of the present invention;

FIG. 3 is a schematic structural diagram of the sand and stone separating electromechanical device for construction engineering of the present invention;

FIG. 4 is a schematic diagram of a structure of a part of a sand and stone separation electromechanical device for construction engineering according to the present invention;

FIG. 5 is a schematic structural view of a sand and stone separator electromechanical device sweeping assembly for construction work in accordance with the present invention;

fig. 6 is a schematic structural view of a sand and stone separating electromechanical device sweeping assembly for construction work according to the present invention.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

A first embodiment;

as shown in fig. 1 and 4, the present invention provides a sand and stone separation electromechanical device for construction engineering, which comprises an inclined conveyor belt 10, a blanking bin 20 and a separation assembly 30;

the feeding bin 20 is arranged at the front end of the inclined conveyor belt 10, a feeding hole 21 is formed in the upper end of the feeding bin 20, a feeding hole 22 is formed in the lower end of the feeding bin 20, a feeding plate 23 is arranged at the lower end of the feeding hole 22, and the rear end of the feeding plate 23 is fixed to the outer wall of the feeding bin 20;

the separation assembly 30 is disposed on the rear end of the inclined conveyor 10, the separation assembly 30 includes a screen 31, a driving shaft 32, a plurality of annular sheets 33, and a driving motor 34, the driving shaft 32 is connected to the inner side of the annular sheets 33 through a reinforcing rod 35, the plurality of annular sheets 33 are arranged along the axial direction of the driving shaft 32, the screen 31 is connected to the outer side of the plurality of annular sheets 33, both ends of the screen 31 respectively have an inlet 36 and an outlet 37, the driving motor 34 is connected to the driving shaft 32, and the front end of the feeding plate 23 is disposed in the inlet 36 of the screen 31.

The working process is that the driving motor 34 is started to drive the driving shaft lever 32 to rotate, the annular sheet 33 and the screen 31 are driven to rotate together through the rotation of the driving shaft lever 32, the mixed sand and stones are poured into the lower storage bin 20 from the feeding hole 21 through the shovel, the mixed sand and stones fall onto the feeding plate 23 from the discharging hole 22, the mixed sand and stones on the feeding plate 23 enter into the screen 31 from the inlet 36 of the screen 31, at the moment, the sand falls onto the inclined conveyor belt 10 below from the screen 31 through the rotating screen 31, the sand is conveyed to the front ground through the inclined conveyor belt 10, the stones in the screen 31 fall onto the rear side of the inclined conveyor belt 10 from the outlet 37 of the screen 31, the sand and the stones are separated towards different directions, the sand and the stones cannot be mixed together when the separation is excessive, and the repeated separation is not needed, time is saved and work efficiency is increased.

Preferably, support legs 12 are respectively arranged below the side plates 11 on the two sides of the front end of the inclined conveyor belt 10, support legs 12 are respectively arranged below the side plates 11 on the two sides of the rear end of the inclined conveyor belt 10, and the support legs 12 on the front end of the inclined conveyor belt 10 are higher than the support legs 12 on the two sides of the rear end.

Preferably, the feed opening 22 of the feed bin 20 is an inclined feed opening, the two ends of the two sides of the feed bin 20 are respectively provided with a support rod 28, the feed plate 23 is an inclined feed plate, and the two sides of the feed plate 23 are respectively provided with a guard plate 29.

The sand and stones falling from the feed opening 22 onto the feed plate 23 are prevented from falling onto the inclined conveyor belt 10 by the arrangement of the apron 29.

Preferably, the separation assembly 30 further includes four inclined rods 41, a fixed plate 42, a baffle 43, an upper baffle 44 and a lower baffle 45, where the four inclined rods 41 are divided into two groups, each two inclined rods 41 are a group, and the two groups of inclined rods 41 are respectively disposed at the rear ends of the side plates 11 on both sides, a baffle 43 is disposed between the inclined rods 41 in each group, the upper ends of the four inclined rods 41 are respectively connected with the upper baffle 44, the lower baffle 45 is disposed below the rear end of the screen 31, the two ends of the lower baffle 45 are respectively connected with the inclined rods 41 on both sides, the two ends of the fixed plate 42 are respectively connected with the middle positions of the inclined rods 41 on both sides, the screen 31 is disposed below the upper baffle 44, and the two sides of the screen 31 are the baffles 43.

The baffles 43 and the upper baffles 44 are respectively arranged at the two sides and the upper end of the screen mesh 31, so that sand is prevented from being screened out from the two sides and the upper end of the screen mesh 31 in the rotating process of the screen mesh 31, the sand can only be screened out from the lower end of the screen mesh 31 and falls onto the inclined conveyor belt 10 through the arrangement, then the sand is conveyed to the front ground through the inclined conveyor belt 10, and the rest stones in the screen mesh 31 can go out from the outlet of the screen mesh 31, fall onto the blanking plate 45 and fall onto the rear ground of the inclined conveyor belt 10 from the blanking plate 45.

Preferably, the front end of the driving shaft 32 is connected to the rear end of the blanking bin 20 through a fixing block 51, and the driving shaft 32 is connected to the driving motor 34 through a fixing plate 42.

A second embodiment;

as shown in fig. 5 and 6, it is preferable that the cleaning assembly 80 is further included, the cleaning assembly 80 is disposed at the lower end of the upper baffle 44, the cleaning assembly 80 includes a connecting block 81, a cleaning brush 82 and a closing plate 83, the connecting block 81 is connected to the lower end of the upper baffle 44, a T-shaped groove 84 is disposed on the connecting block 81, the T-shaped groove 84 is opened from the rear end of the connecting block 81 to the front end of the connecting block 81, the front end of the connecting block 81 is of a closed structure, the rear end of the connecting block 81 is of an open structure, the upper end of the cleaning brush 82 is provided with a T-shaped block 86, the cleaning brush 82 is detachably disposed in the T-shaped groove 84 through the T-shaped block 86, and the closing plate 83 is detachably disposed at the rear end of the connecting block 81 through a screw.

When the screen mesh 31 separates stones and sands, the screen mesh 31 is easy to block, so that the sands are not easy to screen out, the screen mesh 31 is cleaned through the cleaning brush 82 at the upper end of the screen mesh 31, in the process, the screen mesh 31 is in contact with the cleaning brush 82 in the rotating separation process, and therefore the screen mesh 31 is cleaned comprehensively, the screen mesh 31 cannot be blocked, when the cleaning brush 31 needs to be replaced, the closing plate 83 is unscrewed through manual operation, the closing plate 83 is taken down, the cleaning brush 82 is drawn out from the T-shaped groove 84, then a new cleaning brush 82 is pushed into the T-shaped groove 84 through the matching of the T-shaped block 86 at the upper end of the cleaning brush 82 and the T-shaped groove 84, and then the closing plate 83 is connected to the rear end of the connecting block 81 through screws, so that the cleaning brush 82 is replaced conveniently and quickly.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all 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.

Claims

1. A sand and stone separation electromechanical device for constructional engineering, comprising;

obliquely placing a conveyor belt;

discharging a bin; the feeding bin is arranged at the front end of the inclined conveying belt, a feeding hole is formed in the upper end of the feeding bin, a feeding hole is formed in the lower end of the feeding bin, a feeding plate is arranged at the lower end of the feeding hole, and the rear end of the feeding plate is fixed to the outer wall of the feeding bin;

the separating assembly is arranged at the rear end of the inclined conveying belt and comprises a screen, a driving shaft rod, annular pieces and a driving motor, the driving shaft rod is connected with the inner sides of the annular pieces through reinforcing rods, the annular pieces are arranged along the axial direction of the driving shaft rod, the screen is connected with the outer sides of the annular pieces, the two ends of the screen are respectively provided with an inlet and an outlet, the driving motor is connected with the driving shaft rod, and the front end of the feeding plate is arranged in the inlet of the screen.

2. The sand and stone separation electromechanical device for building engineering according to claim 1, wherein support legs are respectively provided under side plates on both sides of a front end of the inclined conveyor belt, support legs are respectively provided under side plates on both sides of a rear end of the inclined conveyor belt, and the support legs on the front end of the inclined conveyor belt are higher than the support legs on both sides of the rear end.

3. The electromechanical sand-stone separator for building engineering according to claim 1, wherein the feed opening of the feeding bin is an inclined feed opening, two ends of the two sides of the feeding bin are respectively provided with a support rod, the feed plate is an inclined feed plate, and two sides of the feed plate are respectively provided with a guard plate.

4. The sand-stone separating electromechanical device for building engineering according to claim 1, wherein the separating assembly further comprises four inclined rods, a fixing plate, a baffle, an upper baffle and a lower baffle, the four inclined rods are divided into two groups, every two inclined rods are one group, the two groups of inclined rods are respectively arranged at the rear ends of the side plates at two sides, the baffle is arranged between the inclined rods of each group, the upper ends of the four inclined rods are respectively connected with the upper baffle, the lower baffle is arranged below the rear end of the screen, the two ends of the lower baffle are respectively connected with the inclined rods at two adjacent sides, the two ends of the fixing plate are respectively connected with the middle positions of the inclined rods at two adjacent sides, the screen is arranged below the upper baffle, and the two sides of the screen are the baffle.

5. The sand-stone separation electromechanical device for constructional engineering according to claim 1, wherein the front end of the driving shaft is connected with the rear end of the blanking bin through a fixing block, and the driving shaft is connected with the driving motor through a fixing plate.

6. The sand-stone separation electromechanical device for building engineering according to claim 1, further comprising a cleaning assembly, wherein the cleaning assembly is arranged at the lower end of the upper baffle plate and comprises a connecting block, a cleaning brush and a sealing plate, the connecting block is connected with the lower end of the upper baffle plate, a T-shaped groove is formed in the connecting block and is formed in the front end of the connecting block from the rear end of the connecting block, the front end of the connecting block is of a closed structure, the rear end of the connecting block is of an open structure, a T-shaped block is arranged at the upper end of the cleaning brush, the cleaning brush is detachably arranged in the T-shaped groove through the T-shaped block, and the sealing plate is detachably arranged at the rear end of the connecting block through screws.