CN218951885U - Assembled stone mixing and spreading device - Google Patents

Abstract

The utility model discloses an assembled stone mixing and spreading device which comprises a control console, a driving device, a main storage bin and an assembled storage bin, wherein the assembled storage bin is clamped in the main storage bin; the bottom of the main storage bin is provided with a material scattering outlet, and a sliding block is arranged at the material scattering outlet; the control console is arranged on one side of the storage bin, and the driving device is arranged at the bottom of the storage bin; the control console is connected with the driving device; a material conveying plate is arranged in the main storage bin, one end of the material conveying plate is connected with the side wall of the main storage bin, a baffle plate is arranged at the other end of the material conveying plate, and the baffle plate is movably connected with the material conveying plate; a mixed discharge port is formed in one end, close to the baffle plate, of the material conveying plate; the assembled storage silo bottom is equipped with the auxiliary material discharge gate, assembled storage silo bottom is close to auxiliary material discharge gate department and is provided with the ejection of compact and transfers the board, has improved the homogeneity of mixing the stone material effectively, has saved the engineering time, has expanded application scope.

Description

Assembled stone mixing and spreading device

Technical Field

The utility model belongs to the technical field of stone mixing devices, and particularly relates to an assembled stone mixing and spreading device.

Background

In the process of disposing the crushed stone sealing layer and the high-friction surface layer, the spreading work of crushed stone is usually carried out manually, a large amount of labor is needed to be hired during spreading, and the problem of uneven spreading exists. In order to realize the mechanization of stone spreading, some projects use synchronous stone sealing vehicles or bridge deck pavement stone spreading vehicles to spread stone. However, since the spreading vehicle has a large volume and the spreading of the scraped adhesive material (modified epoxy resin, emulsified asphalt and modified emulsified asphalt) on the road surface in advance can limit the moving range of the spreading vehicle, the spreading efficiency of the macadam spreading vehicle is low and the cost is high. From the aspect of integral construction, the advantages of the method compared with manual spreading cannot be represented.

At present, aggregate blending designs based on differential buffing principles are widely used in pavement wearing layers. The stone for paving the wearing layer is not a single type of high-skid-resistance wear-resistant stone any more, but two or more stones with high and low polishing values are mixed and paved so as to realize the skid resistance durability of the wearing layer. However, mixing multiple stones before construction delays the construction time, and the uniformity of mixing stones cannot be ensured. The conventional stone spreading device can only spread pre-mixed stone, and the difference polishing effect generated by the paved wearing layer in the service period is not obvious and is not suitable for the adhesive materials with quick curing time.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the mixing and spreading device for the stones, which effectively improves the uniformity of mixing stones, saves the construction time and expands the application range.

The utility model is realized by the following technical scheme:

an assembled stone mixing and spreading device comprises a storage bin, a control console and a driving device;

the storage bin comprises a main storage bin and an assembled storage bin, and the assembled storage bin is clamped in the main storage bin; the bottom of the main storage bin is provided with a material scattering outlet, and a sliding plate is arranged at the material scattering outlet;

the control console is arranged on one side of the storage bin, and the driving device is arranged at the bottom of the storage bin; the control console is connected with the driving device;

a material conveying plate is arranged in the main storage bin, one end of the material conveying plate is connected with the side wall of the main storage bin, a baffle plate is arranged at the other end of the material conveying plate, and the baffle plate is movably connected with the material conveying plate; a mixed discharge port is formed in one end, close to the baffle plate, of the material conveying plate; the assembled storage silo bottom is equipped with the auxiliary material discharge gate, assembled storage silo bottom is close to auxiliary material discharge gate department and is provided with the ejection of compact and transfers the board.

Preferably, the outside of the main storage bin is fixedly provided with a steering handrail.

Preferably, the assembled storage bin is matched and fixed with the main storage bin through the fixing clamping groove.

Preferably, the baffle plate is movably connected with the material conveying plate through a rotating shaft; the rotating shaft is provided with a long shaft motor.

Preferably, the discharge plate shell is arranged at the discharge outlet, and the sliding plate is arranged in the discharge plate shell.

Preferably, a bin door is arranged on the outer side of the assembled storage bin; the bottom of the assembled storage bin is provided with an auxiliary material discharge hole, and a discharge adjusting plate is arranged at the bottom of the assembled storage bin; the side wall of the bottom of the assembled storage bin is provided with a positioning clamping groove, and the discharging adjusting plate and the positioning clamping groove are matched;

preferably, the control console is provided with a starting switch, a speed regulating pull rod, a discharging knob and a baffle control knob; the speed regulating pull rod is electrically connected with the hub motor, the discharging knob is electrically connected with the gear motor, and the baffle control knob is electrically connected with the long shaft motor.

Preferably, the driving device comprises a hub motor, an axle and driving wheels, wherein the driving wheels are arranged at two ends of the axle, and the axle is connected with the storage bin through a fixed guide block; the hub motor is connected with a driving wheel; the hub motor is arranged on the axle;

preferably, the sliding plate is provided with a rack, the rack is meshed with a driving gear, and the driving gear is provided with a gear motor.

Preferably, a braking device is arranged on the driving wheel.

Compared with the prior art, the utility model has the following beneficial technical effects:

the utility model relates to an assembled stone mixing and spreading device, which comprises a main storage bin and an assembled storage bin, wherein the embedded assembled storage bin is adopted to spread single stone, and two stones can be mixed and spread, so that the application range of the equipment is realized; the mechanical semiautomatic device of the control console and the driving device saves labor cost and improves construction efficiency; mixing and doping the stones at the discharge hole, reducing construction steps, effectively ensuring the uniformity of mixing and doping stone distribution, controlling stone mixing and doping proportion and spreading amount, saving spreading materials and providing construction quality; the equipment is simple to assemble and convenient to operate. The method is mainly suitable for stone mixing and spreading in pavement macadam seal pavement construction, and is also suitable for design and research work of wearing layer material differential polishing in a laboratory.

Drawings

FIG. 1 is an overall view of the device of the present utility model;

FIG. 2 is a front view of the device of the present utility model;

FIG. 3 is a side view of the device of the present utility model;

FIG. 4 is a top view of the device of the present utility model;

FIG. 5 is a schematic view of the internal structure of the device of the present utility model;

FIG. 6 is a schematic view of the structure of an assembled storage bin of the device of the utility model;

FIG. 7 is a detailed schematic diagram of a positioning slot in the device of the present utility model.

In the figure, 1, a storage bin, 11, a main storage bin, 111, a material conveying plate, 112, a rotating shaft, 1121, a long shaft motor, 1122, a baffle, 113, a mixed discharge port, 12, an assembled storage bin, 121, a bin gate, 122, a positioning clamping groove, 123, a discharge adjusting plate, 124, an auxiliary material discharge port 13, a clamping groove structure, 14, a scattering material outlet, 15, a discharge plate shell, 151, a sliding plate, 152, a driving gear, 1521, a gear motor, 16, a steering handrail, 2, a control console, 21, a starting switch, 22, a speed regulating pull rod, 23, a discharge knob, 24, a baffle control knob, 25, a body pipe column, 3, a driving wheel, 31, an axle, 311, a fixed guide block, 32 and a hub motor.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present.

In the detailed description of the present utility model, the positional or azimuthal relation indicated by the terms "upper", "lower", "left", "right", "front", "rear", "inner", "outer", "bottom", etc. are based on the positional or azimuthal relation shown in the drawings, and are merely for convenience of description of the present utility model and not required that the present utility model must be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. The terms "upper", "lower", "left", "right", "front", "rear" and "back" as used in the description of the present utility model refer to directions in the drawings, and the terms "inner", "outer" and "bottom" refer to directions toward the geometric center of the component of the principal character, respectively.

An assembled stone mixing and spreading device comprises a storage bin 1, a console 2 and a hub motor 32;

the storage bin 1 consists of a main storage bin 11 and an assembled storage bin 12, wherein the assembled storage bin 12 is fittingly fixed in the main storage bin 11 through a fixing clamping groove 13; the clamping groove 13 is formed in the side wall of the main storage bin 11, the clamping groove 13 is a rectangular groove body, the side wall of the A surface of the assembled storage bin 12 is not provided with the structure of embedding the clamping groove 13, the upper part of the A surface of the assembled storage bin is clamped in the clamping groove 13, the fixed connection of the assembled storage bin 12 and the main storage bin 11 is realized, the assembled storage bin 12 is connected to the main storage bin 11, and the side wall of the A surface of the assembled storage bin 12 and the side wall of the main storage bin 11 provided with the clamping groove 13 share the same side wall;

the long shaft motor 1121, the light Wei motor 2IK 6A-C6W optical axis motor, the rotation of the motor shaft drives the rotation of the rotation shaft 112, thus realizing the position control of the baffle 1122;

the gear motor 1521 is a light-to-shade motor 2IK 6A-C6W gear shaft motor, and the gear motor 1521 rotates to drive the driving gear 152 to move, so as to realize the control of the Huadong plate 151;

the bottom of the main storage bin 11 is provided with a material scattering outlet 14, the material scattering outlet 14 is transversely distributed along the bottom of the main storage bin 11 and penetrates through the bottom of the whole bin body, a discharging plate shell 15 is arranged at the material scattering outlet, the discharging plate shell 15 is of 2 symmetrically arranged half-cuboids, the inside of each cuboid is of a hollow structure, the outer walls of the half-cuboids are respectively welded with the bottom of the main storage bin 11, gaps with certain width exist between the 2 half-cuboids, the width of each gap is equal to the length of each material scattering outlet 14, the length of each gap is not more than and parallel to the corresponding material scattering outlet 14, and a sliding plate 151 for opening and closing the material scattering outlet 14 is arranged inside the discharging plate shell 15; the width of the sliding plate 151 is larger than the gap between 2 half cuboids, so that the opening and closing of the material scattering outlet 14 are ensured, a material conveying plate 111 is arranged in the main storage bin 11, one end of the material conveying plate 111 is provided with a rotating shaft 112, the other end of the material conveying plate 111 is connected with the inner wall of the main storage bin 11 in a welding way, and a mixed discharge port 113 is arranged between one end, close to the rotating shaft 112, of the material conveying plate 111 and the side wall of the main storage bin 11;

the bottom of the assembled storage bin 12 is provided with an auxiliary material discharge port 124, a positioning clamping groove 122 is arranged on the side wall of the bottom of the assembled storage bin 12 near the auxiliary material discharge port 124, a discharge adjusting plate 123 for controlling the opening and closing of the auxiliary material discharge port 124 and the discharge amount of the auxiliary material is arranged at the positioning clamping groove 122, and the discharge adjusting plate 123 is in buckle connection with the positioning clamping groove 124;

the control console 2 is arranged on the right side of the vehicle body and is connected with the top of a vehicle body pipe column 25 on the right side of the vehicle body in a welding manner or a bolt and nut assembly manner, and the vehicle body pipe column 25 is arranged on the right side of the outer side wall of the storage bin; the storage bin is fixedly arranged on the outer side wall of the storage bin through a fixing part;

the driving wheels 3 are arranged at the bottom of the storage bin 1, the driving wheels 3 are provided with hub motors 32, the driving wheels 3 are connected to two ends of an axle 31, and the axle 31 is provided with a fixing structure fixedly connected with the bottom of the storage bin 1;

preferably, a bin gate 121 is arranged on the outer wall of one side of the storage bin 1, the top of the bin gate 121 is connected with the upper part of the opening of the outer wall of the storage bin 1 through a hinge, the width of the bin gate 121 is slightly larger than the width of the opening of the outer wall of the storage bin 1, and the bottom of the bin gate 121 is placed on the inner side of the opening bottom of the outer wall of the storage bin 1, so that the bin gate can be opened from the outer side of the dispensing device to the inner side, but cannot be opened from the inner side of the dispensing device to the outer side, and the bin gate 121 can be opened to manually adjust the clamping positions of the discharging adjusting plate 123 and the clamping groove 122.

Preferably, the positioning clamping grooves 122 are provided with 3 positioning clamping grooves and are arranged at intervals in parallel, the first positioning clamping grooves, the second positioning clamping grooves and the third positioning clamping grooves 122 are sequentially formed in the lower part, the discharging adjusting plate 123 is matched with the first clamping grooves in a buckling manner, the auxiliary material discharging port 124 is completely closed, the discharging adjusting plate 123 is matched with the second clamping grooves in a buckling manner, the auxiliary material discharging port 124 is partially opened, and the discharging adjusting plate 123 is completely opened with the third clamping grooves in a buckling manner.

Preferably, the rotating shaft 112 is a rotating shaft of a small long shaft motor 1121, the small long shaft motor 1121 with the rotating shaft 112 is arranged on the right side of one end of the material conveying plate 111 close to the auxiliary material discharging hole 124, a baffle 1122 is arranged at one end of the material conveying plate 111, the material conveying plate 111 is movably connected with the baffle 1122 through the rotating shaft 112, the small long shaft motor 1121 is used for controlling the rotation of the rotating shaft 112, realizing the rotation of the baffle 1122, and adjusting the size of the mixed discharging hole 113;

preferably, the sliding plate 151 is provided with a driving gear 152, a rack is arranged on the plate surface of the sliding plate 151 and is meshed with the driving gear 152, the driving gear 152 is provided with a gear motor 1521, the rotation of the driving gear 152 through the gear motor 1521 realizes the movement of the sliding plate 151, the opening size and closing of the material scattering outlet 14 are controlled, and the size of the sliding plate 151 can completely close the material scattering outlet 14.

Preferably, the console 2 includes a start switch 21, a speed adjusting pull rod 22, a discharge knob 23 and a baffle control knob 24, wherein the start switch 21 is electrically connected with the hub motor 32, the speed adjusting pull rod 22 is electrically connected with the hub motor 32 through a controller, the discharge knob 23 is electrically connected with the gear motor 1521, and the baffle control knob 24 is electrically connected with the small-sized long shaft motor 1121. The assembled stone mixing and spreading device is also provided with a power switch, and the whole device is powered by accessing a power supply;

preferably, the axle 31 is sleeved with a fixing guide block 311, and the fixing guide block 311 is fixed at the bottom of the vehicle body. The fixed guide block 311 is of a sleeve structure, the axle 31 is sleeved on the fixed guide block 311, and the fixed guide block 311 is fixedly connected with the bottom of the storage bin 1;

the preferred embodiment is as follows:

referring to fig. 1-7, the utility model discloses an assembled stone mixing and spreading device, which comprises a storage bin 1, a control console 2 and driving wheels 3, wherein the storage bin 1 consists of a main storage bin 11, an assembled storage bin 12 and a steering handrail 16, the main storage bin and the assembled storage bin are assembled and matched through a fixed clamping groove 13, a material conveying plate 111 is arranged in the main storage bin 11, a rotating shaft 112 is arranged at the left end of the material conveying plate 111, a baffle 1122 is arranged on the rotating shaft 112, a spreading outlet 14 is arranged at the bottom of the main storage bin 11, a discharging plate shell 15 internally provided with a sliding plate 151 is arranged at the spreading outlet 14, a bin door 121 is arranged at the outer side of the assembled storage bin 12, an auxiliary material discharging hole 124 is arranged at the bottom of the assembled storage bin 12, a position adjusting clamping groove 122 is arranged near the auxiliary material discharging hole 124, a discharging plate 123 for controlling the opening and closing of the auxiliary material discharging amount of the auxiliary material discharging hole 124 is arranged at the position adjusting clamping groove 122, and two sides of the handrail 16 are respectively fixedly used for controlling the rotation direction of the storage bin 1 at two sides;

the control console 2 is arranged on the right side of the vehicle body and is connected with the upper end of a vehicle body pipe column 25 on the right side of the vehicle body, the control console 2 is provided with a starting switch 21, a speed regulating pull rod 22, a discharging knob 23 and a baffle control knob 24, the vehicle body pipe column 25 is arranged on the right side of the storage bin 1, the driving wheel 3 is arranged at the bottom of the storage bin 1, the driving wheel 3 is provided with a hub motor 32, and the driving wheel 3 is connected with two ends of an axle 31.

Further, the sliding plate 151 is provided with a rack, the rack is meshed with the driving gear 152, the driving gear 152 is provided with a gear motor 1521, the gear motor 1521 is provided with a rotation angle control rack through an encoder, so that the sliding plate 151 can be moved, and the size of the material scattering outlet 14 can be controlled. The baffle 1122 is arranged on the rotating shaft 112, the rotating shaft 112 is connected with a small long shaft motor 1121, the long rotating shaft of the small long shaft motor 1121 is the rotating shaft 112, the small long shaft motor 1121 is provided with a rotating angle through an encoder to control the rotating shaft 112 to rotate, so that the position of the baffle 1122 is changed, and the size of the mixing discharge port 113 is controlled. The positioning clamping grooves 122 are provided with 3 parallel and spaced-apart, when the discharging adjusting plates 123 are buckled with the first clamping groove, the auxiliary material discharging holes 124 are completely closed, when the discharging adjusting plates 123 are buckled with the second clamping groove, the auxiliary material discharging holes 124 are partially opened, and when the discharging adjusting plates 123 are buckled with the third clamping groove, the auxiliary material discharging holes 124 are completely opened. The sliding plate 151 is sized to completely close the spreading outlet 14, the baffle 1122 is sized to completely close the mixing outlet 113, and to block stone in the main silo 11 from passing through the mixing outlet 113 when the baffle is turned up. The control console 2 is provided with a starting switch 21, a speed regulating pull rod 22, a discharging knob 23 and a baffle control knob 24, the starting switch 21 is electrically connected with the hub motor 32, the speed regulating pull rod 22 is electrically connected with the hub motor 32 through a controller, the discharging knob 23 is electrically connected with a gear motor 1521, the baffle control knob 24 is electrically connected with a long shaft motor 1121, the starting switch 21 controls the on-off of the hub motor 3, a magnet and a Hall switch are arranged in the speed regulating pull rod 22, the speed regulating pull rod 22 is firstly connected with the controller, the controller is connected with the hub motor 3 again, so that the speed regulating pull rod 22 is pulled to control the rotating speed of the hub motor 32, when the speed regulating pull rod 22 is positioned at the top end, no current signal is generated between the magnet and the Hall switch and transmitted to the hub motor 32, and the hub motor 32 does not rotate; as the speed regulating pull rod 22 is pulled downwards, current signals generated by the magnet and the Hall switch are increased and transmitted to the controller, the controller controls the hub motor 32 to output electric quantity according to the received current signals, the speed regulating pull rod is pulled downwards, the generated current signals are larger, the electric quantity of the hub motor 32 is larger, the rotating speed of the hub motor 32 is faster, the rotating speed of the hub motor 32 is further controlled to be the speed of driving the wheel 3, the discharging knob 22 controls the rotating angle of the gear motor, the baffle control knob 24 controls the rotation and the rotating direction of the small long shaft motor 1121, 4 switches are arranged in the baffle control knob 24, and when the baffle control knob 24 rotates clockwise, the built-in two switches are closed to ensure that current flows forwards, and the small long shaft motor 1121 rotates clockwise; when the barrier control knob 24 is rotated counterclockwise, the other two built-in switches are closed to ensure the reverse flow of current, and the small-sized long-axis motor 1121 is rotated counterclockwise. The axle 31 is sleeved with a fixed guide block 311, and the fixed guide block 311 is fixed at the bottom of the storage bin 1.

The working process of the device comprises the following steps: assembling and fixing the assembled storage bin 12 with the main storage bin 11 through a clamping groove 13, and splicing the assembled storage bin into a storage bin 1; opening the start switch 21, adjusting the baffle control knob 24, and controlling the baffle to be upward; filling the main storage bin 11 with first stone materials, opening an assembly storage bin door 121, adjusting the fastening position of a discharging adjusting plate 123 and a positioning clamping groove 122 to enable an auxiliary material discharging hole 124 to be in a closed state, and arranging second stone materials in the assembly storage bin; the device is provided with two operators, one operator operates the steering handrail 16 to control the running direction of the device at any time, and the other operator operates the control console 2 to control the discharge port and the running speed of the device, and stone adding operation can be performed if necessary; when the discharge amount of the assembled storage bin needs to be controlled, opening the assembled storage bin door 121, and adjusting the fastening position of the discharge adjusting plate 123 and the positioning clamping groove 122 to control the size of the auxiliary material discharge port 124; when the stopping device is needed, the speed regulating pull rod 22 is pulled to a stopping state, and after the construction is completed, the starting switch 21 is closed, so that the construction is finished.

The above description is only of the preferred embodiments of the present utility model, and is not intended to limit the present utility model in any way; those skilled in the art will readily appreciate that the present utility model may be implemented as shown in the drawings and described above; however, those skilled in the art will appreciate that many modifications, adaptations, and variations of the present utility model are possible in light of the above teachings without departing from the scope of the utility model; meanwhile, any equivalent changes, modifications and evolution of the above embodiments according to the essential technology of the present utility model still fall within the scope of the present utility model.

Claims (10)

1. An assembled stone mixing and spreading device is characterized by comprising a storage bin (1), a control console (2) and a driving device;

the storage bin (1) comprises a main storage bin (11) and an assembled storage bin (12), and the assembled storage bin (12) is clamped in the main storage bin (11); a material scattering outlet (14) is formed in the bottom of the main storage bin (11), and a sliding plate (151) is arranged at the material scattering outlet (14);

the control console (2) is arranged on one side of the storage bin (1), and the driving device is arranged at the bottom of the storage bin (1); the control console (2) is connected with a driving device;

a material conveying plate (111) is arranged in the main storage bin (11), one end of the material conveying plate (111) is connected with the side wall of the main storage bin (11), a baffle (1122) is arranged at the other end of the material conveying plate (111), and the baffle (1122) is movably connected with the material conveying plate (111); a mixing discharge hole (113) is formed in one end, close to the baffle plate (1122), of the material conveying plate (111); the assembled storage bin (12) bottom is equipped with auxiliary material discharge gate (124), assembled storage bin (12) bottom is close to auxiliary material discharge gate (124) department and is provided with ejection of compact regulating plate (123).

2. An assembled stone mixing and spreading device according to claim 1, characterized in that the outside of the main storage silo (11) is fixedly equipped with a turning handrail (16).

3. An assembled stone mixing and spreading device according to claim 1, characterized in that the assembled storage bin (12) is fitted and fixed with the main storage bin (11) by means of a fixing clamping groove (13).

4. The assembled stone mixing and spreading device according to claim 1, characterized in that the baffle (1122) is movably connected with the feeding plate (111) by a rotating shaft (112); the rotating shaft (112) is provided with a long shaft motor (1121).

5. An assembled stone mixing and spreading device according to claim 1, characterized in that the spreading outlet (14) is provided with a discharge plate housing (15), and that the sliding plate (151) is arranged in the discharge plate housing (15).

6. An assembled stone mixing and spreading device according to claim 1, characterized in that the outside of the assembled storage silo (12) is provided with a silo door (121); an auxiliary material discharging hole (124) is formed in the bottom of the assembled storage bin (12), and a discharging adjusting plate (123) is arranged at the bottom of the assembled storage bin (12); the side wall of the bottom of the assembled storage bin (12) is provided with a positioning clamping groove (122), and the discharging adjusting plate (123) and the positioning clamping groove (122) are matched.

7. An assembled stone mixing and spreading device according to claim 1, characterized in that the console (2) is provided with a start switch (21), a speed regulating pull rod (22), a discharge knob (23) and a baffle control knob (24); the speed regulating pull rod (22) is electrically connected with the hub motor (32), the discharging knob (23) is electrically connected with the gear motor (1521), and the baffle control knob (24) is electrically connected with the long shaft motor (1121).

8. An assembled stone mixing and spreading device according to claim 1, characterized in that the driving device comprises a hub motor (32), an axle (31) and driving wheels (3), the driving wheels (3) are arranged at two ends of the axle (31), and the axle (31) is connected with the storage bin (1) through a fixed guide block (311); the hub motor (32) is connected with the driving wheel (3); the hub motor (32) is mounted on the axle (31).

9. An assembled stone mixing and spreading device according to claim 1, characterized in that the slide plate (151) is provided with a rack, which is in engagement with a drive gear (152), and that the drive gear (152) is provided with a gear motor (1521).

10. An assembled stone mixing and spreading device according to claim 8, characterized in that the drive wheel (3) is provided with braking means (321).

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