CN217378780U - Diversion open channel side slope lining machine - Google Patents

Abstract

The utility model discloses a diversion channel side slope lining cutting machine, including slide track, truss and cloth system, slide the track and set up at the bottom of the canal along the canal direction, the truss bottom is provided with the wheel with slide rail connection, cloth system includes first cloth machine, second cloth machine and third cloth machine, and second cloth machine and third cloth machine are connected in the truss both sides and are set up on domatic in the canal both sides through the truss, and first cloth machine is connected on the truss, and the feeder hopper of first cloth machine is close to the side slope top and sets up, and first cloth machine is to second cloth machine and third cloth machine pay-off. The utility model discloses can once only solve the problem of diversion open channel both sides side slope concrete lining for the channel concrete can one-time molding, improves the appearance quality, the roughness of concrete, and the wholeness is good.

Description

Diversion open channel side slope lining machine

Technical Field

The utility model relates to a concrete lining machine technical field, concretely relates to diversion open channel slope lining cutting machine.

Background

The lining technology is widely applied to tunnel engineering and water conservancy channels, and when a diversion open channel is constructed, the slope of the open channel is generally required to be lined and laid. During construction, foundation treatment should be carried out on the surface of the channel side slope according to needs, then concrete is uniformly paved on the channel side slope, and lining is completed through vibration and surface collection during paving.

The lining machine is a machine generally used for pouring river course revetment cement in water conservancy construction. The channel lining machine can effectively replace manpower to operate in the construction of the water diversion channel, and the engineering quality is improved. However, the existing lining machine can only operate one side slope surface generally, and cannot finish lining of two side slope surfaces simultaneously, so that lining needs to be carried out back and forth when long-distance channel construction is carried out, and construction time is long. In addition, the prior method for plastering the channel mostly adopts manual operation, cannot finish the work of spreading, vibrating, collecting the surface and the like at one time, needs to consume a large amount of time and labor cost, and has lower efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome the shortcoming that exists among the prior art, effectively improve channel side slope lining cutting efficiency, save cost of labor and equipment cost, provide a diversion open channel side slope lining cutting machine.

The utility model provides a diversion channel slope lining cutting machine, is including dragging track, truss and cloth system, the dragging track sets up at the bottom of the canal along the ditch direction, the truss bottom is provided with the wheel with dragging the rail junction, the cloth system includes first cloth machine, second cloth machine and third cloth machine, and second cloth machine and third cloth machine are connected in the truss both sides and are set up on the domatic of ditch both sides through the truss, and first cloth machine is connected on the truss, and the feeder hopper of first cloth machine is close to the setting of slope top of slope, and first cloth machine is to second cloth machine and third cloth machine pay-off.

The further technical scheme is as follows: and a stirrer is arranged in the truss, the first material distributor feeds materials into the stirrer, and the stirrer feeds materials into the second material distributor and the third material distributor.

The further technical scheme is as follows: the truss includes crossbearer, crossbearer and base down, has laid the horizontally roof on the crossbearer, and the roof center is provided with the feed port that link up, first cloth machine fixed connection is on the roof, and mixer fixed connection is on the crossbearer down, and in first cloth machine passed through the feed port and carried the concrete to the mixer, the mixer both sides were provided with the chute that is used for unloading, and the both sides chute corresponds the pan feeding mouth of second cloth machine and third cloth machine respectively.

The further technical scheme is as follows: the two sides of the truss are connected with paving devices which are arranged at the rear sides of the second material distributing machine and the third material distributing machine.

The further technical scheme is as follows: the spreading device is provided with a vibrator.

The further technical scheme is as follows: the two sides of the truss are also connected with a flour pressing device which is arranged at the rear side of the paving device.

The further technical scheme is as follows: the truss is provided with a generator and an electric control system.

The further technical scheme is as follows: the upper cross frame, the lower cross frame and the base of the truss are fixedly connected through a plurality of inclined rods and vertical supporting rods.

The further technical scheme is as follows: be provided with the cat ladder on the truss, cat ladder fixed connection is between last crossbearer and lower crossbearer.

The further technical scheme is as follows: an operating platform is arranged on the top plate, and a step ladder is arranged between the top plate and the operating platform.

The utility model has the advantages that:

the utility model discloses can once only solve the problem of diversion open channel both sides side slope concrete lining for the channel concrete can one-time molding, effectively replace artifical cloth, pave, vibrate and receive the face, improve the appearance quality, the roughness of concrete, and the wholeness is good, improves the efficiency of construction, saves the cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of a truss;

in the figure: 1. the device comprises wheels, 2, a sliding rail, 3, a truss, 31, an upper cross frame, 32, a lower cross frame, 33, a base, 34, an inclined rod, 35, a supporting rod, 36, a top plate, 4, a stirrer, 5, a feeding hole, 6, a chute, 7, a generator, 8, a first material distributor, 9, a second material distributor, 10, a third material distributor, 11, a spreading device, 12, a vibrator, 13, a step ladder, 14, an operation platform, 15, a surface pressing device, 16, an electrical control system, 17, a slope surface, 18 and a ladder stand.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the description of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" and the like are presented, the directions or positional relationships indicated are based on the directions or positional relationships shown in the drawings, and are only for convenience of description of the present invention and simplification of description, but not for indication or suggestion that the indicated device or element must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as a limitation of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a diversion canal side slope lining cutting machine, as shown in fig. 1-fig. 2, including slide rail 2, truss 3 and cloth system, slide rail 2 sets up at the bottom of the canal along the canal direction, truss 3 bottom is provided with wheel 1 of being connected with slide rail 2, cloth system includes first cloth machine 8, second cloth machine 9 and third cloth machine 10, and second cloth machine 9 and third cloth machine 10 are connected in truss 3 both sides and set up on domatic 17 of canal both sides through truss 3 for second cloth machine 9 and third cloth machine 10 slide along both sides domatic on slide rail 2, and first cloth machine 8 is connected on truss 3, and the feeder hopper of first cloth machine 8 is close to the setting of side slope top, and first cloth machine 8 is to the pay-off of second cloth machine 9 and third cloth machine 10.

Specifically, a first distributing machine 8, a second distributing machine 9 and a third distributing machine 10 of the distributing system are all spiral distributing machines, the first distributing machine 8 conveys concrete to the second distributing machine 9 and the third distributing machine 10 from the slope top of the side slope, and the second distributing machine 9 and the third distributing machine 10 convey the concrete to the slope surfaces on the two sides of the channel for distributing.

A stirrer 4 is arranged in the truss 3, the first material distributor 8 feeds materials into the stirrer 4, and the stirrer 4 feeds materials to the second material distributor 9 and the third material distributor 10. The first distributing machine 8 conveys the concrete into the mixer 4 from a carrying vehicle of the side slope, and the mixer 4 uniformly mixes the concrete and then conveys the concrete into the second distributing machine 9 and the third distributing machine. The slope quality can be improved to the concrete of stirring.

Truss 3 includes crossbearer 31, crossbearer 32 and base 33 down, goes up crossbearer 31 upper berth and is equipped with horizontally roof 36, and roof 36 center is provided with feed port 5 that link up, 8 fixed connection of first cloth machine are on roof 36, and 4 fixed connection of mixer are on crossbearer 32 down, and the discharge hopper setting of first cloth machine 8 is in the top of feed port 5, and the pan feeding mouth setting of mixer 4 is in the below of feed port 5, and first cloth machine 8 is carried the concrete to mixer 4 in through feed port 5. Chutes 6 for discharging are arranged on two sides of the stirrer 4, and the chutes 6 on the two sides respectively correspond to the feeding ports of the second material distributor 9 and the third material distributor 10. The wheels 1 are connected to the base 33, and the base 33 is connected to the sliding rail 2 through the wheels 1 so that the girder 3 can move along the sliding rail 2.

The two sides of the truss 3 are connected with paving devices 11, the paving devices 11 can slide on the slope surfaces of the two sides of the channel along the sliding rails 2, and the paving devices 11 are arranged on the rear sides of the second material distributing machine 9 and the third material distributing machine 10. Specifically, the spreading device 11 is a steel plate connected to both sides of the truss 3, and after the second material distributor 9 and the third material distributor 10 distribute material on the slope surfaces on both sides, the spreading device 11 spreads concrete on the slope surfaces.

The spreading device 11 is provided with a vibrator 12. Specifically, the vibrator 12 may be an attached plate vibrator or a vibrating rod, the vibrator 12 is fixedly connected to the paving device 11, and the vibrator 12 is configured to vibrate the concrete.

Two sides of the truss 3 are also connected with a flour pressing device 15, the flour pressing device 15 can slide on the slope surfaces of two sides of the channel along the sliding track 2, and the flour pressing device 15 is arranged on the rear side of the paving device 11. Specifically, the face pressing device 15 is two steel plates with smooth and flat bottom surfaces connected to two sides of the truss, and can perform face pressing construction on paved and vibrated concrete in the moving process of the truss.

The truss 3 is provided with a generator 7 and an electric control system 16, and the electric control system 16 is connected with the stirring machine 4, the material distribution system, the vibrator 12 and the wheels 1. The electric control system 16 is used for controlling the operation of the stirring machine 4, the material distribution system and the vibrator 12 and controlling the sliding or stopping of the wheels 1 on the sliding track 2. Specifically, the electrical control system 16 is an electrical control box fixedly connected to the lower cross frame 32, which facilitates operation and maintenance by the constructor.

The upper cross frame 31, the lower cross frame 32 and the base 33 are fixedly connected through a plurality of inclined rods 34 and vertical support rods 35, and the whole truss 3 is of an inverted trapezoid frame structure. The second material distributor 9, the third material distributor 10, the spreading device 11 and the noodle pressing device 15 are hinged on the upper cross frame 31, the lower cross frame 32, the base 33 and the inclined rod 34 through a plurality of steel rods. The truss 3 is provided with a ladder stand 18, and the ladder stand 18 is fixedly connected between an upper cross frame 31 and a lower cross frame 32. The ladder 18 facilitates construction and maintenance of the upper and lower trusses 3 by a constructor.

The top plate of the upper transverse frame 31 is provided with one or two operation platforms 14 used for maintenance and construction operation of constructors, a step 13 is arranged between the top plate and the operation platforms 14, and the operation platforms 14 are close to the top of the side slope. Preferably, the operation platform 14 is further provided with a climbing plate, the climbing plate is convenient for constructors to move to the operation platform 14 from the top of the side slope, and concrete materials can be conveyed conveniently.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a diversion canal side slope lining cutting machine, its characterized in that, is including sliding track, truss and cloth system, sliding track sets up at the bottom of the canal along the canal direction, the truss bottom is provided with the wheel of being connected with sliding track, cloth system includes first cloth machine, second cloth machine and third cloth machine, and second cloth machine and third cloth machine are connected in the truss both sides and are set up on domatic in the canal both sides through the truss, and first cloth machine is connected on the truss, and the feeder hopper of first cloth machine is close to the side slope top setting, and first cloth machine is to second cloth machine and third cloth machine pay-off.

2. The diversion open channel slope lining machine of claim 1 wherein a blender is provided in the truss, the first spreader feeds into the blender, and the blender feeds into the second spreader and the third spreader.

3. The diversion canal side slope lining machine according to claim 2, wherein the truss comprises an upper cross frame, a lower cross frame and a base, a horizontal top plate is laid on the upper cross frame, a through feeding hole is formed in the center of the top plate, the first material distributor is fixedly connected to the top plate, the stirring machine is fixedly connected to the lower cross frame, the first material distributor conveys concrete into the stirring machine through the feeding hole, chutes for discharging are formed in two sides of the stirring machine, and the chutes on two sides respectively correspond to feeding ports of the second material distributor and the third material distributor.

4. The diversion open channel slope lining machine according to claim 1, 2 or 3, wherein paving devices are connected to two sides of the truss and are arranged on the rear sides of the second distributing machine and the third distributing machine.

5. The open channel slope lining machine of claim 4, wherein the paving device is provided with a vibrator.

6. The diversion open channel slope lining machine of claim 5, wherein a surface pressing device is further connected to two sides of the truss, and the surface pressing device is arranged on the rear side of the paving device.

7. The open channel slope lining machine of claim 5, wherein the truss is provided with a generator and an electrical control system.

8. The open channel slope lining machine of claim 3, wherein the upper cross frame, the lower cross frame and the base of the truss are fixedly connected through a plurality of inclined rods and vertical support rods.

9. The diversion open channel slope lining machine according to claim 3, wherein the truss is provided with a ladder which is fixedly connected between the upper cross frame and the lower cross frame.

10. The open channel side slope lining machine of claim 3, wherein an operating platform is arranged on the top plate, and a step is arranged between the top plate and the operating platform.

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