CN209834826U

CN209834826U - Concrete transfer equipment

Info

Publication number: CN209834826U
Application number: CN201920215879.XU
Authority: CN
Inventors: 南华宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-02-20
Filing date: 2019-02-20
Publication date: 2019-12-24
Anticipated expiration: 2029-02-20

Abstract

The utility model discloses a concrete transfer equipment, include: the device comprises a bearing plate, an anti-roll fixing frame, a high-density rubber roller, a clamping column, a clamping bolt, a traveling motor, a traveling rail wheel, a driven wheel, an electric cabinet and the like; when the concrete conveying device is used, the storage hopper is used for containing concrete, after the concrete is filled in the storage hopper, the advancing motor is controlled by a switch on the electric cabinet to drive the advancing rail wheel to rotate through the belt, the driving wheel and the driven wheel, rolling friction force is formed between the advancing rail wheel and the transfer steel rail, the advancing rail wheel rolls on the transfer steel rail to drive the two sliding assemblies and the supporting plate to move stably, and then the concrete is conveyed to a destination stably and efficiently; the utility model has the advantages that: can be steady transport the concrete.

Description

Concrete transfer equipment

Technical Field

The utility model relates to civil engineering field specifically is a concrete transfer equipment.

Background

In civil engineering, the concrete of batch often can be used, and the concrete has certain mobility, when the short distance transportation, must keep its stationarity otherwise will spatter and spill and cause certain waste, and the current technique is few to have a kind of equipment that can be used for the steady short distance of concrete specially to transport.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete transfer equipment to solve the problem mentioned in the above-mentioned background art.

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

a concrete transfer apparatus comprising: bearing plate, prevent side slope mount, high density rubber gyro wheel, press from both sides tight post, press from both sides tight bolt, the motor of marcing, the rail wheel of marcing, follow driving wheel, electric cabinet, bearing frame, bearing wheel, layer board, transport rail, swivel mount, hopper, push away handle, pivot, widen board, cushion, a concrete transfer equipment, the main part comprises two sliding assembly and a layer board, sliding assembly includes: the steel rail clamping device comprises a clamping bolt, a traveling rail wheel, a driven wheel, a bearing frame and a bearing wheel, wherein a group of anti-heeling fixing frames are arranged on the front side and the rear side of a bearing plate respectively, two inclined rotating shafts are connected below the anti-heeling fixing frames, a high-density rubber roller is connected to each rotating shaft through a bearing, the high-density rubber roller can clamp and transport the lower side wall of a steel rail when in use, a vertical bearing frame is vertically fixed between the two opposite anti-heeling fixing frames at the front position and the rear position of the bearing plate, a horizontal cross rod is arranged on the bearing frame, and two bearing wheels are installed on the cross rod through bolts.

Every prevent that the welding has two to press from both sides tight post on the side-tipping mount, through pressing from both sides tight post and pressing from both sides tight bolted connection between two relative side-tipping mounts in the place ahead position of bearing plate and rear position, press from both sides tight bolt and be the straight-bar structure of screw rod for both ends, the tight post that presss from both sides between two relative side-tipping mounts in the place ahead position of bearing plate and rear position is equipped with opposite direction's internal thread, can screw the tight post that presss from both sides tight bolt both sides simultaneously when making to press from both sides tight bolt rotatory and connect.

A support with a tripod structure is arranged below one of the two sliding assemblies, two advancing rail wheels are arranged on the support through a bearing and a shaft lever and are arranged on two sides of the support, and a driven wheel is fixed on the outer side of each advancing rail wheel through the shaft lever and a clamping key; the traveling motor is arranged at the center of the bearing plate above the driven wheel, the front end of the traveling motor is provided with a driving wheel, and the driving wheel and the driven wheel are in transmission connection through a belt.

An electric cabinet is fixed on the bearing plate and beside the traveling motor through bolts; an integrated PCL motion control chip PCL6114-6144 is arranged in the electric control box to control the circuit.

The electric power of the travelling motor and the electric cabinet is supplied by a storage battery or a power cord with enough length.

And a widening plate is welded above the supporting plate, and the width of the widening plate is four thirds of the width of the supporting plate.

Two groups of rotary bases are welded on the side, far away from the electric cabinet, of the widening plate, and a material storage hopper is connected between each group of rotary bases through a rotating shaft.

The storage hopper is of an upper opening hopper type structure, the side face of the storage hopper is of a right trapezoid structure, a group of push handles are welded at the non-inclined end of the storage hopper, and a rotating shaft penetrates through the bottom edge of the bottom of the inclined end of the storage hopper in parallel.

And a cushion block is welded below the storage hopper and used for maintaining the level of the storage hopper after the rotating shaft of the storage hopper is laterally cushioned.

When the device is used, the high-density rubber roller wheels below the anti-tilting fixing frame clamp the lower side wall of the transfer steel rail, the bearing wheels below the bearing frame are supported on two arc corners above the transfer steel rail, the bearing frame integrally supports the bearing plate, meanwhile, the advancing rail wheels are tightly pressed on the upper surface and the two arc corners of the transfer steel rail, the storage hopper is used for containing concrete, after the concrete is filled in the storage hopper, the distance for conveying the concrete is set through a switch on the electric cabinet by rotating a button, the concrete transferring device advances to the positive direction and retreats to the negative direction, the advancing and retreating of the concrete transferring device are determined through the current pulse direction output to the advancing motor by the electric cabinet, the moving distance of the concrete transport vehicle is determined by the current pulse time output to the advancing motor by the electric cabinet, and the advancing motor drives the advancing rail wheels to rotate through a belt, a driving wheel and a driven wheel, the rail wheel of marcing and having the rolling friction power between the transportation rail, the rail wheel of marcing rolls on transporting the rail and then drives two slip subassemblies and layer board stationary motion, and then steady, and the efficient transports the concrete to the destination, when the concrete transportation reaches the back, can because lever principle anticlockwise promote the push handle with the material storage hopper around the pivot anticlockwise turn, pour the concrete from the material storage hopper.

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

can be steady transport the concrete.

Drawings

Fig. 1 is a schematic perspective view of a concrete transfer apparatus.

Fig. 2 is a schematic view of a driving support structure of a concrete transfer apparatus.

Fig. 3 is a perspective view of a slide assembly of a concrete transfer apparatus.

In the figure: 1-bearing plate, 2-anti-heeling fixing frame, 3-high density rubber roller, 4-clamping column, 5-clamping bolt, 6-advancing motor, 7-advancing rail wheel, 8-driven wheel, 9-electric cabinet, 10-bearing frame, 11-bearing wheel, 12-supporting plate, 13-transferring rail, 14-swivel mount, 15-storage hopper, 16-push handle, 17-rotating shaft, 18-widening plate and 19-cushion block.

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 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, in an embodiment of the present invention, a concrete transfer apparatus includes: bearing plate 1, prevent heeling mount 2, high density rubber gyro wheel 3, press from both sides tight post 4, press from both sides tight bolt 5, motor 6 of marcing, the rail wheel 7 of marcing, follow driving wheel 8, electric cabinet 9, bearing frame 10, bearing wheel 11, layer board 12, transport rail 13, swivel mount 14, hopper 15, push away handle 16, pivot 17, widen board 18, cushion 19, a concrete transfer equipment, the main part comprises two sliding assembly and a layer board 12, sliding assembly includes: the clamping bolt 5, the rail wheel 7 of marcing, from driving wheel 8, bearing frame 10, bearing wheel 11, both sides respectively are equipped with a set of mount 2 that prevents heeling around the bearing plate 1, prevent that heeling mount 2 below is connected with the pivot of two slopes, are connected with a high density rubber gyro wheel 3 through the bearing in every pivot, and high density rubber gyro wheel 3 can press from both sides the lower lateral wall of tight transfer rail 13 when using, vertically be fixed with a vertically bearing frame 10 between two relative heeling mount 2 of preventing of the place ahead position and the rear position of bearing plate 1, be equipped with a horizontally horizontal pole on the bearing frame 10, install two bearing wheels 11 through the bolt on the horizontal pole.

Every prevent that the welding has two tight posts 4 of clamp on the heeling mount, two relative heeling mounts 2 of preventing of the place ahead position of bearing plate 1 and rear position are connected through pressing from both sides tight post 4 and clamp bolt 5, clamp bolt 5 is the straight-bar structure that both ends are the screw rod, two relative tight posts 4 of preventing between heeling mounts 2 of the place ahead position of bearing plate 1 and rear position are equipped with opposite direction's internal thread, can screw the tight post 4 of clamp that presss from both sides tight bolt 5 both sides simultaneously when making clamp bolt 5 rotatory and connect.

A support with a tripod structure is arranged below one of the two sliding assemblies, two traveling rail wheels 7 are arranged on the support through a bearing and a shaft lever and are arranged on two sides of the support, and a driven wheel 8 is fixed on the outer side of each traveling rail wheel 7 through the shaft lever and a clamping key; the traveling motor 6 is arranged at the center of the bearing plate 1 above the driven wheel 8, the front end of the traveling motor 6 is provided with a driving wheel, and the driving wheel and the driven wheel 8 are in transmission connection through a belt.

An electric cabinet 9 is fixed on the bearing plate 1 and beside the traveling motor 6 through bolts; an integrated PCL motion control chip PCL6114-6144 is arranged in the electric control box 9 to control the circuit.

The electric power of the traveling motor 6 and the electric cabinet 9 is supplied by a storage battery or a power cord which is long enough.

An expansion plate 18 is welded above the supporting plate 12, and the width of the expansion plate 18 is four thirds of the width of the supporting plate 12.

Two groups of rotary bases 14 are welded on the straight side of the widening plate 18 far away from the electric cabinet 9, and a material storage hopper 15 is connected between each group of rotary bases 14 through a rotating shaft 17.

The storage hopper 15 is of an upper opening hopper-shaped structure, the side face of the storage hopper 15 is of a right trapezoid structure, a group of push handles 16 are welded at the non-inclined end of the storage hopper 15, and a rotating shaft 17 penetrates through the bottom edge of the bottom of the inclined end of the storage hopper 15 in parallel.

A cushion block 19 is welded below the storage hopper 15 for keeping the storage hopper 15 horizontal after the rotation shaft 17 side of the storage hopper 15 is lifted.

When in use, the high-density rubber rollers 3 below the anti-roll fixing frame 2 clamp the lower side wall of the transfer steel rail 13, the bearing wheels 11 below the bearing frame 10 are supported on the two arc corners above the transfer steel rail 13, the bearing frame 10 integrally supports the bearing plate 1, meanwhile, the advancing rail wheels 7 are tightly pressed on the upper surface and the two arc corners of the transfer steel rail 13, the storage hopper 15 is used for containing concrete, after the concrete is completely filled in the storage hopper 15, the switch on the electric cabinet 9 is used for setting the distance for conveying the concrete through the rotary button, the concrete transferring equipment advances in the positive direction and retreats in the negative direction, the advancing and retreating of the concrete transferring equipment are determined by the current pulse direction output to the advancing motor 6 through the electric cabinet 9, the moving distance of the concrete transporting vehicle is determined by the current pulse time output from the electric cabinet 9 to the advancing motor 6, marching motor 6 passes through the belt, the drive wheel with from driving wheel 8 drive rail wheel 7 of marcing and rotate, marching rail wheel 7 and transport and have rolling friction between the rail 13, marching rail wheel 7 rolls and then drives two slip subassemblies and layer board 12 stationary motion on transporting rail 13, and then steady, the efficient transports the concrete to the destination, after the concrete transportation reaches, can because lever principle anticlockwise promotion push away the handle 16 with deposit hopper 15 around pivot 17 anticlockwise turn, pour the concrete from deposit hopper 15 internal inclination (electric cabinet 9 does the utility model discloses a direct application does not belong to the utility model discloses a protection scope omits its concrete structure admittedly.

The utility model discloses a theory of operation is: when the device is used, the high-density rubber roller wheels below the anti-tilting fixing frame clamp the lower side wall of the transfer steel rail, the bearing wheels below the bearing frame are supported on the two arc angles above the transfer steel rail, the bearing frame integrally supports the bearing frame, meanwhile, the advancing rail wheels are tightly pressed on the upper surface and the two arc angles of the transfer steel rail, the storage hopper is used for containing concrete, after the concrete is filled in the storage hopper, the distance for conveying the concrete (the conveying distance is not more than the length of the transfer steel rail) is set through a rotary button through a switch on the electric cabinet, the concrete transfer device advances in the positive direction and retreats in the negative direction, the advancing and retreating of the concrete transfer device are determined through the current pulse direction output by the electric cabinet to the advancing motor, and the moving distance of the concrete transport vehicle is determined by the current pulse time output by the electric cabinet to the advancing motor, the motor of marcing passes through the belt, the drive wheel with from the driving wheel drive rail wheel of marcing and rotates, the rail wheel of marcing and transport and have the rolling friction power between the rail, the rail wheel of marcing rolls on transporting the rail and then drives two slip subassemblies and layer board stationary motion, and then steady, the efficient transports concrete to the destination, after concrete transportation reaches, can because lever principle anticlockwise promotion push away the handle with the material storage hopper around the pivot anticlockwise turn, pour the concrete from the material storage hopper.

It will be evident to those skilled in the art that the invention 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 invention 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A concrete transfer apparatus comprising: bearing plate (1), prevent heeling mount (2), high density rubber gyro wheel (3), press from both sides tight post (4), press from both sides tight bolt (5), motor (6) of marcing, the rail wheel of marcing (7), from driving wheel (8), electric cabinet (9), bearing frame (10), bearing wheel (11), layer board (12), transport rail (13), swivel mount (14), storage hopper (15), push away handle (16), pivot (17), widen board (18), cushion (19), its characterized in that: the concrete transfer equipment is characterized in that a main body is composed of two sliding assemblies and a supporting plate (12), wherein the sliding assemblies comprise: the clamping bolt (5), the rail wheel (7) of marcing, from driving wheel (8), bearing frame (10), bearing wheel (11), both sides respectively are equipped with a set of mount (2) of heeling of preventing around bearing plate (1), the mount (2) below of heeling of preventing is connected with the pivot of two slopes, is connected with a high density rubber gyro wheel (3) through the bearing in every pivot, and high density rubber gyro wheel (3) can press from both sides the lower lateral wall of transporting rail (13) when using tightly, vertically be fixed with a vertically bearing frame (10) between two relative heeling mounts (2) of preventing of the place ahead position and rear position of bearing plate (1), are equipped with a horizontally horizontal pole on bearing frame (10), install two bearing wheels (11) through the bolt on the horizontal pole.

2. A concrete transfer apparatus according to claim 1, wherein: every prevent that the welding has two tight posts (4) of clamp on the side-tipping mount, the place ahead position of bearing plate (1) and two relative side-tipping mounts (2) of preventing of rear position are connected through pressing from both sides tight post (4) and pressing from both sides tight bolt (5), press from both sides tight bolt (5) and be the straight-bar structure of screw rod for two, the tight post (4) of clamp between two relative side-tipping mounts (2) of the place ahead position of bearing plate (1) and rear position are equipped with opposite direction's internal thread, can be simultaneously with pressing from both sides tight post (4) of tight bolt (5) both sides and screw when making clamp tight bolt (5) rotatory and connect.

3. A concrete transfer apparatus according to claim 1, wherein: a support with a tripod structure is arranged below one of the two sliding assemblies, two traveling rail wheels (7) are arranged on the support through a bearing and a shaft lever and are arranged on two sides of the support, and a driven wheel (8) is fixed on the outer side of each traveling rail wheel (7) through the shaft lever and a clamping key; the traveling motor (6) is arranged at the center of the bearing plate (1) above the driven wheel (8), the front end of the traveling motor (6) is provided with a driving wheel, and the driving wheel is in transmission connection with the driven wheel (8) through a belt.

4. A concrete transfer apparatus according to claim 1, wherein: an electric cabinet (9) is fixed on the bearing plate (1) and beside the advancing motor (6) through bolts; an integrated PCL motion control chip PCL6114-6144 is arranged in the electric control box (9) to control the circuit.

5. A concrete transfer apparatus according to claim 1, wherein: the electric power of the travelling motor (6) and the electric cabinet (9) is supplied by a storage battery or a power cord with enough length.

6. A concrete transfer apparatus according to claim 1, wherein: a widening plate (18) is welded above the supporting plate (12), and the width of the widening plate (18) is four thirds of the width of the supporting plate (12).

7. A concrete transfer apparatus according to claim 1, wherein: two groups of rotary bases (14) are welded on the straight side of the widening plate (18) far away from the electric cabinet (9), and a material storage hopper (15) is connected between each group of rotary bases (14) through a rotating shaft (17).

8. A concrete transfer apparatus according to claim 1, wherein: the storage hopper (15) is of an upper opening hopper-shaped structure, the side face of the storage hopper (15) is of a right trapezoid structure, a group of push handles (16) are welded at the non-inclined-plane end of the storage hopper (15), and a rotating shaft (17) penetrates through the bottom edge of the bottom of the inclined-plane end of the storage hopper (15) in parallel.

9. A concrete transfer apparatus according to claim 1, wherein: a cushion block (19) is welded below the storage hopper (15) and used for keeping the storage hopper (15) horizontal after the rotating shaft (17) of the storage hopper (15) is lifted.