CN209956866U - Dry material conveying type ground turnover device - Google Patents

Abstract

The utility model discloses a dry material conveying type ground turnover device, which solves the technical problems that when the turnover device cuts and processes dry materials, the waste materials drop to the lower part of the device in large quantity, which causes time and labor waste and reduces the efficiency, and comprises a turnover frame, wherein the side wall surfaces of a first frame and a second frame are respectively articulated with a first driving displacement structure and a second driving displacement structure, the upper surface of the second frame is fixedly connected with a conveyor belt close to the lower part of the first driving displacement structure, the outer side of the right angle of the turnover frame is fixedly connected with a tripod, the side wall surfaces of the tripod are articulated with a driving turnover structure, the dry materials are conveyed and turned to the lower part of the cutting device through the driving turnover structure, the first driving displacement structure and the second driving displacement structure, the waste materials can accurately drop to the conveyor belt and then are conveyed to one side of the device through the conveyor belt, thereby saving the process of manually cleaning the waste materials, time and labor are saved, and the processing efficiency is improved.

Description

Dry material conveying type ground turnover device

Technical Field

The utility model relates to a dry material processing field specifically is a dry material carries type ground turning device.

Background

The aerated concrete is an important component of dry materials, is an ideal wall material for replacing clay bricks after years of application and practice proves, has the advantages of light weight, good heat insulation performance, good sound absorption effect, certain strength, processability and the like, is used as a filling and heat insulation material of a building enclosure, and is widely applied to buildings. Generally, fly ash or silica sand is ground into slurry by adding water, powdered lime, a proper amount of cement, gypsum and a foaming agent are added, the slurry is stirred and then injected into a mold frame, the mixture is statically stopped, foamed and solidified, and then cut into building blocks or plates with various specifications, and the building blocks or plates are sent into a still kettle by a steam curing vehicle and cured by high-temperature saturated steam to form a porous lightweight aerated concrete product.

Dry material is in the course of working, need use turning device to realize its whole upset, for example in the utility model patent of publication No. CN 205185043U, disclose a ground turn-over table behind the cauldron, the frame has, the roll-over table, the upset angle piece, the upset hydro-cylinder, building block translation subassembly and curb plate translation subassembly, above-mentioned roll-over table is "L" shape and frame rotation are connected, roll-over angle piece fixed connection is in the corner of roll-over table, make the building block realize automatic operation together with the upset separation of curb plate, the angle piece is used for being connected with roll-over table and upset hydro-cylinder and realizes the upset function, moreover, the steam generator is cutting processing at dry material, the waste material drops in a large number and leads to artifical clearance to waste time and energy to the device below, and efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a dry material carries type ground turning device has solved turning device and has cut man-hour at dry material, and the waste material drops in a large number and leads to artifical clearance to waste time and energy, the technical problem of inefficiency to the device below.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a dry material transport type ground turning device, includes the roll-over stand, the roll-over stand comprises the perpendicular concatenation of first frame and second frame, the inboard rotation of roll-over stand right angle department is connected with the main shaft, main shaft both sides end runs through roll-over stand lateral wall face, and fixes through a pair of auxiliary bearing seat, the main shaft central point puts the cover and is equipped with main bearing seat, main bearing seat lower surface rigid coupling has first supporting seat, first frame and second frame lateral wall face have been had a drive displacement structure and second drive displacement structure respectively to the activity, second frame upper surface just is close to first drive displacement structure below rigid coupling and has the conveyer belt, second frame central point puts the fretwork, and the rigid coupling has a pair of strengthening rib, roll-over stand right angle department outside rigid coupling has the tripod, tripod both sides lateral wall face has been had the drive flip structure.

Preferably, first drive displacement structure includes biax driving motor and a pair of displacement frame, biax driving motor rigid coupling is put, and is a pair of in first frame upper surface central point the displacement frame rigid coupling is in first frame lateral wall face, biax driving motor both sides drive end loose joint has a pair of shaft coupling, and is a pair of shaft coupling lateral wall loose joint has a pair of actuating lever, and is a pair of actuating lever opposite side end rigid coupling has a pair of dwang, and is a pair of the dwang cartridge is in a pair of in the displacement frame, and is a pair of the dwang overcoat is equipped with a pair of drive gear, and is a pair of the drive gear meshing is connected with a pair of chain, and is a pair of chain lower part end meshing is connected with a pair of pinion, and is a.

Preferably, a pair of tooth chain side wall surface rigid coupling has a pair of mounting bracket, and is a pair of mounting bracket upper surface rigid coupling has the first subassembly of placing, the first subassembly side wall surface rigid coupling of placing has a pair of clamping component.

Preferably, the pair of clamping assemblies comprises a pair of clamping oil cylinders and a pair of folding fixing frames.

Preferably, the second driving displacement structure comprises a pair of pushing oil cylinders fixedly connected to the upper surface of the second frame, two pairs of displacement blocks fixedly connected to the driving ends of the pushing oil cylinders, a second placing component fixedly connected to the upper ends of the two pairs of displacement blocks, a pair of sliding rods sleeved on the lower ends of the two pairs of displacement blocks, and a pair of sliding rods fixed to the side wall surfaces of the second frame through two pairs of fixing seats on two sides.

Preferably, the driving and overturning structure comprises a pair of driving oil cylinders, driving ends of the pair of driving oil cylinders are fixedly connected to two side wall surfaces of the tripod, and the pair of driving oil cylinders are fixedly connected to the ground through a pair of mounting seats.

Preferably, the device further comprises a pair of supporting columns for supporting the second frame.

Preferably, the distance between the two pairs of displacement blocks and the first frame is larger than the transverse width of the conveyor belt.

Advantageous effects

To the above problem, the utility model provides a dry material transport type ground turning device, it cuts man-hour at dry material to have solved turning device, the waste material drops in a large number and leads to artifical clearance to waste time and energy to the device below, the technical problem of inefficiency, through drive flip structure, first drive displacement structure and second drive displacement structure carry and overturn the dry material to cutting equipment below, when cutting, the waste material can accurately drop to the conveyer belt, transport to device one side through the conveyer belt afterwards, the artifical process of clearing up the waste material has been saved, time saving and labor saving, and the machining efficiency is increased.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a top view of the present invention.

In the figure: 1-a roll-over stand; 2-a first frame; 3-a second frame; 4-a main shaft; 5-auxiliary bearing seat; 6-a main bearing seat; 7-a first support; 8-a conveyor belt; 9-reinforcing ribs; 10-tripod; 11-a dual-axis drive motor; 12-a displacement frame; 13-a coupler; 14-a drive rod; 15-rotating rods; 16-a drive gear; 17-toothed chain; 18-a rotating gear; 19-a mounting frame; 20-a first placement assembly; 21-a clamping assembly; 22-clamping oil cylinder; 23-fold fixing frame; 24-pushing the oil cylinder; 25-a displacement block; 26-a second placement assembly; 27-a slide bar; 28-a fixed seat; 29-driving oil cylinder; 30-a mounting seat; 31-support column.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a dry material conveying type ground turnover device, comprising a turnover frame 1, wherein the turnover frame 1 is formed by vertically splicing a first frame 2 and a second frame 3, the inner side of the right angle of the turnover frame 1 is rotatably connected with a main shaft 4, the two side ends of the main shaft 4 penetrate through the side wall surface of the turnover frame 1 and are fixed by a pair of auxiliary bearing seats 5, the main shaft 4 is sleeved with a main bearing seat 6 at the center position, a first supporting seat 7 is fixedly connected to the lower surface of the main bearing seat 6, the side wall surfaces of the first frame 2 and the second frame 3 are respectively movably connected with a first driving displacement structure and a second driving displacement structure, a conveyor belt 8 is fixedly connected to the upper surface of the second frame 3 and near the lower part of the first driving displacement structure, the center position of the second frame 3 is hollowed out and is fixedly connected with a pair of reinforcing ribs 9, a tripod 10 is fixedly connected to the, two side wall surfaces of the tripod 10 are movably connected with a driving overturning structure; the first driving displacement structure comprises a double-shaft driving motor 11 and a pair of displacement frames 12, the double-shaft driving motor 11 is fixedly connected to the center of the upper surface of the first frame 2, the pair of displacement frames 12 is fixedly connected to the side wall surfaces of the first frame 2, driving ends on two sides of the double-shaft driving motor 11 are movably connected with a pair of couplers 13, a pair of driving rods 14 are movably connected to the side wall surfaces of the couplers 13, a pair of rotating rods 15 are fixedly connected to the other end of the pair of driving rods 14, the pair of rotating rods 15 are inserted into the pair of displacement frames 12, a pair of driving gears 16 are sleeved outside the pair of rotating rods 15, the pair of driving gears 16 are in meshing connection with a pair of toothed chains 17, the lower ends of the pair of toothed chains 17 are in meshing connection with a pair of rotating gears 18, and; a pair of mounting brackets 19 are fixedly connected to the side wall surfaces of the pair of toothed chains 17, a first placing component 20 is fixedly connected to the upper surfaces of the pair of mounting brackets 19, and a pair of clamping components 21 is fixedly connected to the side wall surfaces of the first placing component 20; the pair of clamping assemblies 21 comprises a pair of clamping oil cylinders 22 and a pair of folding fixing frames 23; the second driving displacement structure comprises a pair of pushing oil cylinders 24, the pair of pushing oil cylinders 24 are fixedly connected to the upper surface of the second rack 3, two pairs of displacement blocks 25 are fixedly connected to the driving ends of the pair of pushing oil cylinders 24, the upper end heads of the two pairs of displacement blocks 25 are fixedly connected with a second placing component 26, the lower end heads of the two pairs of displacement blocks 25 are sleeved on a pair of sliding rods 27, and the pair of sliding rods 27 are fixed to the side wall surface of the second rack 3 through two pairs of fixing seats 28 on two sides; the driving and overturning structure comprises a pair of driving oil cylinders 29, the driving ends of the pair of driving oil cylinders 29 are fixedly connected to two side wall surfaces of the tripod 10, and the pair of driving oil cylinders 29 are fixedly connected to the ground through a pair of mounting seats 30; further comprising a pair of support posts 31 for supporting the second frame 3; the distance between the two pairs of displacement blocks 25 and the first frame 2 is greater than the transverse width of the conveyor belt 8.

The following working principles, detailed connecting means thereof, and the following main descriptions of the working principles and processes are well known in the art, and will be referred to by those skilled in the art for the specific connection and operation sequence of the components in this application.

As will be understood from the description of the attached figures 1-3, the dry material is placed on the first placing assembly 20, then the driving end of the driving oil cylinder 29 is extended, the tripod 10 drives the roll-over stand 1 to roll over, therefore, the dry material is turned over and falls on the second placing component 26, then the driving end of the clamping oil cylinder 22 is shortened, the folded fixing frame 23 is driven to fix the side plate of the dry material, at the same time, the driving end of the pushing oil cylinder 24 is shortened, the displacement block 25 is driven to move to one side through the sliding rod 27, make dry material to a lateral movement, cutting device cuts dry material afterwards, and the waste material is then placed the space between the subassembly 26 through first placing the subassembly 20 and the second and is dropped to conveyer belt 8 on, and conveyer belt 8 is carried the waste material to the assigned position, has saved the process of artifical clearance waste material, through mutually supporting of above-mentioned part for turning device can clear up the waste material automatically.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a dry material transport type ground turning device, includes roll-over stand (1), roll-over stand (1) comprises first frame (2) and the perpendicular concatenation of second frame (3), roll-over stand (1) right angle department inboard is rotated and is connected with main shaft (4), main shaft (4) both sides end runs through roll-over stand (1) lateral wall face, and fixes through a pair of subshaft seat (5), main shaft (4) central point puts and overlaps and is equipped with main bearing seat (6), main bearing seat (6) lower surface rigid coupling has first supporting seat (7), its characterized in that, first frame (2) and second frame (3) lateral wall face have the swing joint respectively and have first drive displacement structure and second drive displacement structure, second frame (3) upper surface just is close to first drive displacement structure below rigid coupling and has conveyer belt (8), second frame (3) central point puts the fretwork, and a pair of reinforcing ribs (9) is fixedly connected, a tripod (10) is fixedly connected to the outer side of the right angle of the roll-over stand (1), and two side wall surfaces of the tripod (10) are movably connected with a driving roll-over structure.

2. The dry material conveying type ground turnover device according to claim 1, wherein the first driving displacement structure comprises a double-shaft driving motor (11) and a pair of displacement frames (12), the double-shaft driving motor (11) is fixedly connected to the center of the upper surface of the first frame (2), the pair of displacement frames (12) is fixedly connected to the side wall of the first frame (2), the driving ends of two sides of the double-shaft driving motor (11) are movably connected with a pair of couplers (13), the side wall of the pair of couplers (13) is movably connected with a pair of driving rods (14), the other end of the pair of driving rods (14) is fixedly connected with a pair of rotating rods (15), the pair of rotating rods (15) is inserted into the pair of displacement frames (12), the pair of rotating rods (15) is sleeved with a pair of driving gears (16), and the pair of driving gears (16) is meshed with a pair of toothed chains (17), and the lower end heads of the pair of toothed chains (17) are connected with a pair of rotating gears (18) in a meshing manner, and the pair of rotating gears (18) are rotatably connected into the lower end heads of the pair of displacement frames (12).

3. The dry material conveying type ground overturning device is characterized in that a pair of mounting frames (19) are fixedly connected to the side wall surfaces of a pair of toothed chains (17), a first placing component (20) is fixedly connected to the upper surface of the pair of mounting frames (19), and a pair of clamping components (21) are fixedly connected to the side wall surfaces of the first placing component (20).

4. The dry material conveying type floor turnover device is characterized in that the pair of clamping assemblies (21) comprises a pair of clamping oil cylinders (22) and a pair of fold-shaped fixing frames (23).

5. The dry material conveying type ground turnover device is characterized in that the second driving displacement structure comprises a pair of pushing oil cylinders (24), the pair of pushing oil cylinders (24) is fixedly connected to the upper surface of the second rack (3), two pairs of displacement blocks (25) are fixedly connected to the driving ends of the pair of pushing oil cylinders (24), a second placing assembly (26) is fixedly connected to the upper end of each of the two pairs of displacement blocks (25), the lower end of each of the two pairs of displacement blocks (25) is sleeved on a pair of sliding rods (27), and the pair of sliding rods (27) are fixed to the side wall surface of the second rack (3) through two pairs of fixing seats (28) on two sides.

6. The dry material conveying type ground overturning device is characterized in that the driving overturning structure comprises a pair of driving oil cylinders (29), the driving ends of the pair of driving oil cylinders (29) are fixedly connected to two side wall surfaces of the tripod (10), and the pair of driving oil cylinders (29) are fixedly connected to the ground through a pair of mounting seats (30).

7. A dry material conveying floor turnover device according to claim 1, further comprising a pair of support columns (31) for supporting the second frame (3).

8. A dry material conveying floor turnover device according to claim 5, characterized in that the distance between the two pairs of displacement blocks (25) and the first frame (2) is greater than the transverse width of the conveyor belt (8).

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