CN219343203U - Auxiliary slideway device for pouring concrete on groove wall - Google Patents

Abstract

The utility model relates to an auxiliary slideway device for pouring concrete on a groove wall, belonging to the technical field of concrete construction. The device comprises a bottom supporting frame, wherein two ends of the bottom supporting frame are fixedly provided with an outer vertical pipe, a middle vertical pipe and an inner vertical pipe which are sleeved with each other, the outer vertical pipe, the middle vertical pipe and the inner vertical pipe are in threaded transmission connection, two sides of the top of the middle vertical pipe are provided with supporting rods with pulleys, a top cross beam is fixedly arranged between the inner vertical pipes, the front side and the rear side of the top cross beam are hinged with slide rail plates through hinges, and the slide rail plates are slidably supported on the pulleys of the supporting rods. The utility model has scientific design, ingenious structure, simple operation and convenient use, can move in various industrial grooves, can flexibly adjust the height and the width of the slide way, realizes pouring of groove walls with various widths, effectively improves the pouring efficiency of the groove walls, effectively solves the problems of occupied labor resources, mechanical assistance and the like when the groove walls are poured in the prior art, improves the pouring efficiency of the groove walls, saves labor resources and machinery, and reduces the construction cost.

Description

Auxiliary slideway device for pouring concrete on groove wall

Technical Field

The utility model belongs to the technical field of concrete construction, and particularly relates to an auxiliary slideway device for pouring concrete on a groove wall.

Background

The concrete engineering is an important construction process in the construction process of construction projects, and various waste water grooves are all in-situ concrete structures in the construction process of coal chemical industry devices.

The traditional pouring method comprises the steps of pouring a groove bottom plate, pouring groove walls, firstly setting up a platform plate with the same height as the groove walls on the inner sides of the grooves during pouring because the groove walls are small in thickness and different in distance and height, then placing concrete on the platform plate through machinery, and finally pouring the groove walls manually. The method has low construction efficiency, wastes human resources and machinery and increases construction cost.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides an auxiliary slideway device for pouring concrete on a groove wall. The device is mainly used for pouring various concrete trench walls, can flexibly move in the trench, effectively saves manpower resources and machinery, and effectively improves the pouring efficiency of the concrete trench walls.

The utility model is realized by the following technical scheme:

the utility model provides a slot wall concrete placement auxiliary slide device, includes bottom sprag frame, bottom sprag frame's left and right sides both ends are respectively perpendicular to be fixed with left outer riser and the right outer riser that upwards extend and establish.

The top end of the left outer vertical pipe is provided with a first left control box, and a first left transmission turbine which is horizontally arranged is arranged in the first left control box; the top end of the right outer vertical pipe is provided with a first right control box, and a first right transmission turbine which is horizontally arranged is arranged in the first right control box; the first left control box and the first right control box are connected with a first transmission rod in a rotating mode, a first left transmission worm section is arranged on a rod section, located in the first left control box, of the first transmission rod, the first left transmission worm section is connected with a first left transmission turbine in a meshed mode, a first right transmission worm section is arranged on a rod section, located in the first right control box, of the first transmission rod, the first right transmission worm section is connected with the first right transmission turbine in a meshed mode, and a first rotating handle is connected with the end portion of the first transmission rod on the outer side wall of the first left control box.

A left middle vertical pipe is inserted into the left outer vertical pipe, and is connected in the shaft hole of the first left transmission turbine and is in threaded connection with the first left transmission turbine; the top end of the left middle vertical pipe is provided with a second left control box, and a second left transmission turbine which is horizontally arranged is arranged in the second left control box; a right middle vertical pipe is inserted in the right outer vertical pipe, and is connected in the shaft hole of the first right transmission turbine and is in threaded connection with the first right transmission turbine; the top end of the right middle vertical pipe is provided with a second right control box, and a second right transmission turbine which is horizontally arranged is arranged in the second right control box; the second left control box and the second right control box are connected with a second transmission rod in a rotating mode, a second left transmission worm section is arranged on a rod section, located in the second left control box, of the second transmission rod, the second left transmission worm section is connected with a second left transmission turbine in a meshed mode, a second right transmission worm section is arranged on a rod section, located in the second right control box, of the second transmission rod, the second right transmission worm section is connected with a second right transmission turbine in a meshed mode, and a second rotating handle is connected with the end portion of the second transmission rod on the outer side wall of the second left control box.

A left inner vertical pipe is inserted into the left neutral pipe, and is connected in the shaft hole of the second left transmission turbine, and the left inner vertical pipe and the shaft hole are in threaded connection; the right inner vertical pipe is inserted into the right middle vertical pipe, and is connected in the shaft hole of the second right transmission turbine and is in threaded connection with the second right transmission turbine.

The front end of the second left control box is fixed with a left front supporting rod which is horizontally extended forwards, the rear end of the second left control box is fixed with a left rear supporting rod which is horizontally extended backwards, and pulleys are arranged at the front end part of the left front supporting rod and the rear end part of the left rear supporting rod; the front end of the second right control box is fixed with a right front supporting rod which is horizontally extended forwards, the rear end of the second right control box is fixed with a right rear supporting rod which is horizontally extended backwards, and pulleys are mounted at the front end part of the right front supporting rod and the rear end part of the right rear supporting rod.

A top cross beam is fixed between the top end of the left inner vertical pipe and the top end of the right inner vertical pipe, a front slideway plate is hinged at the front end beam edge of the top cross beam through a hinge, and a rear slideway plate is hinged at the rear end beam edge of the top cross beam through a hinge; the bottom of the front slideway plate is simultaneously and slidably supported on the pulleys of the left front supporting rod and the right front supporting rod, and the bottom of the rear slideway plate is simultaneously and slidably supported on the pulleys of the left rear supporting rod and the right rear supporting rod.

Further, the four corners of the bottom support frame are provided with movable rollers.

Further, the inner wall of the shaft hole of the first left transmission turbine is provided with transmission threads, the outer pipe wall of the left middle vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the left middle vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first left transmission turbine; the inner wall of the shaft hole of the first right transmission turbine is provided with transmission threads, the outer pipe wall of the right middle vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the right middle vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first right transmission turbine; the inner wall of the shaft hole of the second left transmission turbine is provided with transmission threads, the outer pipe wall of the left inner vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the left inner vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second left transmission turbine; the inner wall of the shaft hole of the second right transmission turbine is provided with transmission threads, the outer pipe wall of the right inner vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the right inner vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second right transmission turbine.

Further, the bottom section of the outer tube wall of the left neutral tube and the bottom section of the outer tube wall of the right neutral tube are all arranged as light tube walls; the top section and the bottom section of the outer tube wall of the left inner vertical tube are all arranged as light tube walls, and the top section and the bottom section of the outer tube wall of the right inner vertical tube are all arranged as light tube walls.

Further, fixing strips are respectively arranged on two sides of the bottom surface of the front slideway plate and are respectively connected with pulleys on the left front supporting rod and pulleys on the right front supporting rod; fixing strips are respectively arranged on two sides of the bottom surface of the rear slideway plate and are respectively connected with pulleys on the left rear supporting rod and pulleys on the right rear supporting rod.

Further, the baffle plates are respectively and vertically fixed at the two side plate edges of the front slideway plate, and the baffle plates are respectively and vertically fixed at the two side plate edges of the rear slideway plate.

Further, the vertical section of the top cross beam is triangular, the front end edge of the top cross beam is hinged with a front slideway plate through a hinge, and the rear end edge of the top cross beam is hinged with a rear slideway plate through a hinge.

The auxiliary chute device for pouring the concrete on the chute wall has scientific design, ingenious structure, simple operation and convenient use, can move in various industrial ditches, can flexibly adjust the height and the width of the chute, and can realize pouring of chute walls with various widths of 500-1000 mm, so that the pouring efficiency of the chute walls is effectively improved, the problems that the traditional pouring of the chute walls occupies labor resources and needs mechanical assistance and the like are effectively solved, the pouring efficiency of the chute walls is improved, the labor resources and the machinery are saved, and the construction cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the utility model.

Fig. 1 is a front view of the structure of the device of the present utility model (the chute plate is not deployed).

Fig. 2 is a top view of the structure of the device of the present utility model (the chute plate is not deployed).

Fig. 3 is a left side view of the structure of the device of the present utility model (the chute plate is not deployed).

Fig. 4 is a right side view of the structure of the device of the present utility model (the chute plate is not deployed).

Fig. 5 is a front view of the structure of the device of the present utility model (the chute plate is extended).

Fig. 6 is a top plan view of the device of the present utility model (the chute plate is extended).

Fig. 7 is a left side view of the device of the present utility model (the chute plate has been unfolded).

Fig. 8 is a right side view of the structure of the device of the present utility model (the chute plate has been unfolded).

Fig. 9 is a cross-sectional view a-a of fig. 7.

Fig. 10 is a cross-sectional view b-b of fig. 7.

Fig. 11 is a schematic view of the use of the device of the present utility model.

In the figure: 1-bottom support frame, 2-moving roller, 3-left outer riser, 4-right outer riser, 5-diagonal brace, 6-first left control box, 7-first left drive worm gear, 8-first right control box, 9-first right drive worm gear, 10-first drive bar, 11-first left drive worm section, 12-first right drive worm section, 13-first rotating handle, 14-left middle riser, 15-second left control box, 16-second left drive worm gear, 17-right middle riser, 18-second right control box, 19-second right drive worm gear, 20-second drive bar, 21-second left drive worm section, 22-second right drive worm section, 23-second rotating handle, 24-left inner riser, 25-right inner riser, 26-left front support bar, 27-left rear support bar, 28-pulley, 29-right front support bar, 30-right rear support bar, 31-top cross bar, 32-33-front slide plate, 34-rear slide plate, 35-36-channel, 37-channel, and channel for pumping.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, if directional descriptions such as "front", "rear", "left", "right", "outer", "middle", "inner", "top", "bottom", etc. are referred to, the directional or positional relationship indicated based on fig. 1 is merely for convenience of description of the present utility model and to simplify the description, and does not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. When a feature is referred to as being "disposed," "secured" or "connected" to another feature, it can be disposed, secured or connected to the other feature or it can be indirectly disposed, secured or connected to the other feature.

As shown in fig. 1 to 10, an auxiliary slideway device for pouring concrete on a groove wall comprises a bottom supporting frame 1 made of 10# channel steel, which is in an I-shaped design, and has a length of 2m and a width of 0.35m; the four corners of the bottom supporting frame 1 are provided with moving rollers 2 with the height of 0.13m, and the moving rollers 2 can adopt rollers with self-locking function for the integral movement and positioning and fixing of the device; the left and right ends of the bottom supporting frame 1 are respectively and vertically fixed with a left outer vertical pipe 3 and a right outer vertical pipe 4 which are arranged in an upward extending way, the left outer vertical pipe 3 and the right outer vertical pipe 4 are made of DN80 steel pipes, and the height is 0.4m; and inclined bracing beams 5 are arranged between the two sides of the bottom of the left outer vertical pipe 3 and the bottom supporting frame 1 and between the two sides of the bottom of the right outer vertical pipe 4 and the bottom supporting frame 1 and are used for guaranteeing the stability of the main body frame structure, and the inclined bracing beams 5 are made of 20# round steel.

The top end of the left outer vertical pipe 3 is provided with a first left control box 6, and a first left transmission turbine 7 which is horizontally arranged is arranged in the first left control box 6; the top of right outer riser 4 is provided with first right control box 8, installs the first right drive turbine 9 of horizontal setting in the first right control box 8.

A first transmission rod 10 is rotatably connected between the first left control box 6 and the first right control box 8, a first left transmission worm section 11 is arranged on a rod section, which is positioned in the first left control box 6, on the first transmission rod 10, and the first left transmission worm section 11 is in meshed connection with the first left transmission turbine 7, a first right transmission worm section 12 is arranged on a rod section, which is positioned in the first right control box 8, on the first transmission rod 10, and the first right transmission worm section 12 is in meshed connection with the first right transmission turbine 9, and a first rotating handle 13 is arranged on the outer side wall of the first left control box 6 and in end connection with the first transmission rod 10.

The left outer vertical pipe 3 is internally provided with a left middle vertical pipe 14, the left middle vertical pipe 14 is made of DN65 steel pipes, and the length is 0.5m; the left middle vertical pipe 14 is connected in the shaft hole of the first left transmission turbine 7, and the two are in threaded connection, specifically: the inner wall of the shaft hole of the first left transmission turbine 7 is provided with transmission threads, the outer pipe wall of the left middle vertical pipe 14 is provided with transmission threads, and the transmission threads on the outer pipe wall of the left middle vertical pipe 14 are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first left transmission turbine 7; further, in order to prevent the left middle vertical pipe 14 from being separated from the shaft hole of the first left transmission turbine 7 during the screw transmission, the bottom of the outer pipe wall of the left middle vertical pipe 14 is provided with a light pipe wall, namely, no transmission screw thread is provided, and the length of the light pipe wall section is 50mm; the top end of the left middle vertical pipe 14 is provided with a second left control box 15, and a second left transmission turbine 16 which is horizontally arranged is arranged in the second left control box 15.

A right middle pipe 17 is inserted into the right outer vertical pipe 4, the right middle pipe 17 is made of DN65 steel pipes, and the length is 0.5m; the right neutral pipe 17 is connected in the shaft hole of the first right transmission turbine 9, and the two are in threaded connection, specifically: the inner wall of the shaft hole of the first right transmission turbine 9 is provided with transmission threads, the outer pipe wall of the right middle pipe 17 is provided with transmission threads, and the transmission threads on the outer pipe wall of the right middle pipe 17 are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first right transmission turbine 9; further, in order to prevent the right central tube 17 from being separated from the shaft hole of the first right transmission turbine 9 during the screw transmission, the bottom of the outer tube wall of the left central tube 14 is provided with a light tube wall, namely, no transmission screw thread is provided, and the length of the light tube wall section is 50mm; the top end of the right neutral pipe 17 is provided with a second right control box 18, and a second right transmission turbine 19 which is horizontally arranged is arranged in the second right control box 18.

A second transmission rod 20 is rotatably connected between the second left control box 15 and the second right control box 18, a second left transmission worm section 21 is arranged on a rod section, which is positioned in the second left control box 15, on the second transmission rod 20, and the second left transmission worm section 21 is in meshed connection with the second left transmission turbine 16, a second right transmission worm section 22 is arranged on a rod section, which is positioned in the second right control box 18, on the second transmission rod 20, and the second right transmission worm section 22 is in meshed connection with the second right transmission turbine 19, and a second rotary handle 23 is connected with the end part of the second transmission rod 20 on the outer side wall of the second left control box 15.

The left inner vertical pipe 24 is inserted into the left middle vertical pipe 14, the left inner vertical pipe 24 is made of DN50 steel pipes, and the length of the left inner vertical pipe 24 is 0.42m; the left inner vertical pipe 24 is connected in the shaft hole of the second left transmission turbine 16 and is in threaded connection with the second left transmission turbine, specifically: the inner wall of the shaft hole of the second left transmission turbine 16 is provided with transmission threads, the outer pipe wall of the left inner vertical pipe 24 is provided with transmission threads, and the transmission threads on the outer pipe wall of the left inner vertical pipe 24 are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second left transmission turbine 16; further, in order to prevent the left inner vertical pipe 24 from being separated from the shaft hole of the second left transmission turbine 16 during the screw transmission, the bottom of the outer pipe wall of the left inner vertical pipe 24 is provided with a light pipe wall, i.e. no transmission screw thread is provided, and the length of the light pipe wall section is 50mm; meanwhile, in order to make the top section of the left inner vertical pipe 24 always exposed outside the left middle vertical pipe 14 and not affected by the screw transmission, the top section of the outer pipe wall of the left inner vertical pipe 24 is provided with a light pipe wall, that is, no transmission screw thread is provided, and the length of the light pipe wall section is 50mm.

A right inner vertical pipe 25 is inserted into the right middle vertical pipe 17, the right inner vertical pipe 25 is made of DN50 steel pipes, and the length is 0.42m; the right inner vertical pipe 25 is connected in the shaft hole of the second right transmission turbine 19, and is in threaded connection with the shaft hole, specifically: the inner wall of the shaft hole of the second right transmission turbine 19 is provided with transmission threads, the outer pipe wall of the right inner vertical pipe 25 is provided with transmission threads, and the transmission threads on the outer pipe wall of the right inner vertical pipe 25 are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second right transmission turbine 19; further, in order to prevent the right inner vertical pipe 25 from being separated from the shaft hole of the second right transmission turbine 19 during the screw transmission, the bottom of the outer pipe wall of the right inner vertical pipe 25 is provided with a light pipe wall, i.e. no transmission screw thread is provided, and the length of the light pipe wall section is 50mm; meanwhile, in order to make the top section of the right inner vertical pipe 25 always exposed outside the right middle vertical pipe 17 and not affected by the screw transmission, the top section of the outer pipe wall of the right inner vertical pipe 25 is provided with a light pipe wall, that is, no transmission screw thread is provided, and the length of the light pipe wall section is 50mm.

The front end of the second left control box 15 is fixed with a left front supporting rod 26 which is horizontally extended forwards, the rear end of the second left control box 15 is fixed with a left rear supporting rod 27 which is horizontally extended backwards, the front end part of the left front supporting rod 26 and the rear end part of the left rear supporting rod 27 are both provided with pulleys 28, the left front supporting rod 26 and the left rear supporting rod 27 are both made of steel plates with the length of 1.85m, the width of 0.38m and the thickness of 6mm, and the middle position of the wheel surface of the pulleys 28 is provided with grooves; the front end of the second right control box 18 is fixed with a right front supporting rod 29 which is horizontally extended forwards, the rear end of the second right control box 18 is fixed with a right rear supporting rod 30 which is horizontally extended backwards, the front end part of the right front supporting rod 29 and the rear end part of the right rear supporting rod 30 are both provided with pulleys 28, the right front supporting rod 29 and the right rear supporting rod 30 are both made of steel plates with the length of 1.85m, the width of 0.38m and the thickness of 6mm, and the middle position of the wheel surface of each pulley 28 is provided with a groove.

A top cross beam 31 is fixed between the top end of the left inner vertical pipe 24 and the top end of the right inner vertical pipe 25, the top cross beam 31 is made of steel plates with the thickness of 6mm, the whole length is 2m, and the vertical section is in an isosceles triangle shape with the bottom side length of 132mm and the two waist lengths of 123 mm; the front end edge of the top beam 31 is hinged with a front slideway plate 33 through a hinge 32, the rear end edge of the top beam 31 is hinged with a rear slideway plate 34 through a hinge 32, and the length of the hinge 32 is 0.1m; the front slideway plate 33 and the rear slideway plate 34 are made of steel plates with the length of 2m, the width of 0.46m and the thickness of 4 mm; the bottom of the front slideway plate 33 is simultaneously supported on the pulleys 28 of the left front supporting rod 26 and the right front supporting rod 29 in a sliding manner, specifically: the two sides of the bottom surface of the front slideway plate 33 are respectively provided with a fixing strip 35, the two fixing strips 35 are respectively connected with the pulley 28 on the left front supporting rod 26 and the pulley 28 on the right front supporting rod 29, the fixing strips 35 are made of solid square steel with the length of 0.46m, the width of 4mm and the thickness of 4mm, the fixing strips can be embedded into grooves on the pulley surface of the pulley 28, a slideway structure is formed between the fixing strips 35 and the pulley 28, and the relative sliding between the fixing strips and the pulley 28 is convenient; the bottom of the rear slide plate 34 is simultaneously slidably supported on the pulleys 28 of the left rear support bar 27 and the right rear support bar 30, specifically: the bottom surface both sides of rear portion slide board 34 are provided with fixed strip 35 respectively, and two fixed strips 35 are connected with the pulley 28 on the left back bracing piece 27 and the pulley 28 on the right back bracing piece 30 respectively, and fixed strip 35 adopts 0.46m, wide 4mm, thick 4 mm's solid square steel to make, and it can imbed in the slot on the pulley 28 tread, forms the slide rail structure between fixed strip 35 and the pulley 28, makes things convenient for the relative slip between the two.

The two side edges of the front slideway plate 33 are respectively and vertically fixed with a baffle plate 36, and the two side edges of the rear slideway plate 34 are respectively and vertically fixed with a baffle plate 36; the baffle 36 is made of 4mm thick steel plate, 0.45m long and 0.06m high.

The utility model relates to a trench wall concrete pouring auxiliary slideway device which is roughly divided into a lower integral structure, a middle integral structure and an upper integral structure, wherein the lower integral structure mainly comprises a bottom supporting frame 1, a left outer vertical pipe 3, a first left control box 6, a right outer vertical pipe 4, a first right control box 8, a first transmission rod 10 and the like, the middle integral structure mainly comprises a left middle vertical pipe 14, a second left control box 15, a right middle vertical pipe 17, a second right control box 18, a second transmission rod 20, a left front supporting rod 26, a pulley 28, a left rear supporting rod 27, a pulley 28, a right front supporting rod 29, a pulley 28, a right rear supporting rod 30, a pulley 28 and the like, and the upper integral structure mainly comprises a left inner vertical pipe 24, a right inner vertical pipe 25, a top beam 31, a front slideway plate 33, a rear slideway plate 34 and the like. The lower part integral structure and the middle part integral structure are in threaded transmission, the middle part integral structure can move up and down relative to the lower part integral structure, the middle part integral structure and the upper part integral structure are in threaded transmission, and the upper part integral structure can move up and down relative to the middle part integral structure, so that the integral height of the device can be adjusted to meet the requirement of the height of the groove. In addition, when the upper integral structure and the middle integral structure relatively move, the front left support bar 26 and the pulley 28, the rear left support bar 27 and the pulley 28, the front right support bar 29 and the pulley 28, and the rear right support bar 30 and the pulley 28 in the middle integral structure can adjust the unfolding or closing degree of the front slideway plate 33 and the rear slideway plate 34 in the upper integral structure so as to meet the requirement of the width of the groove.

In the operation on site, as shown in fig. 11, the device of the present utility model is first moved into the trench 37 to be poured, then the whole width of the front and rear chute plates 34 is made to be the same as the width of the trench 37 by adjusting the height of the device and the opening and closing degree of the front and rear chute plates 33, 34, the height of the lower edges of the front and rear chute plates 34 is made to be the same as the height of the upper edges of the walls of the trench 37, so that the pouring condition is satisfied, finally, the concrete 38 is pumped, falls from the right above the top beam 31, and is split into two parts by the top beam 31 to slide from the front chute plate 33 and the rear chute plate 34 to the two side walls of the trench 37 respectively. When the groove wall of the groove 37 is poured, the device can be flexibly moved in the groove 37 according to the pouring position, and the device can be moved out of the groove 37 after pouring is finished.

The above examples illustrate only one embodiment of the utility model, which is described in more detail and is not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (7)

1. The utility model provides a slot wall concreting auxiliary slide device which characterized in that: the vertical support comprises a bottom support frame, wherein a left outer vertical pipe and a right outer vertical pipe which are arranged in an upward extending manner are respectively and vertically fixed at the left end and the right end of the bottom support frame;

the top end of the left outer vertical pipe is provided with a first left control box, and a first left transmission turbine which is horizontally arranged is arranged in the first left control box; the top end of the right outer vertical pipe is provided with a first right control box, and a first right transmission turbine which is horizontally arranged is arranged in the first right control box; a first transmission rod is rotationally connected between the first left control box and the first right control box, a first left transmission worm section is arranged on a rod section positioned in the first left control box on the first transmission rod, the first left transmission worm section is in meshed connection with a first left transmission turbine, a first right transmission worm section is arranged on a rod section positioned in the first right control box on the first transmission rod, the first right transmission worm section is in meshed connection with a first right transmission turbine, and a first rotating handle is connected with the end part of the first transmission rod on the outer side wall of the first left control box;

a left middle vertical pipe is inserted into the left outer vertical pipe, and is connected in the shaft hole of the first left transmission turbine and is in threaded connection with the first left transmission turbine; the top end of the left middle vertical pipe is provided with a second left control box, and a second left transmission turbine which is horizontally arranged is arranged in the second left control box; a right middle vertical pipe is inserted in the right outer vertical pipe, and is connected in the shaft hole of the first right transmission turbine and is in threaded connection with the first right transmission turbine; the top end of the right middle vertical pipe is provided with a second right control box, and a second right transmission turbine which is horizontally arranged is arranged in the second right control box; a second transmission rod is rotationally connected between the second left control box and the second right control box, a second left transmission worm section is arranged on a rod section positioned in the second left control box on the second transmission rod, the second left transmission worm section is in meshed connection with a second left transmission turbine, a second right transmission worm section is arranged on a rod section positioned in the second right control box on the second transmission rod, the second right transmission worm section is in meshed connection with a second right transmission turbine, and a second rotating handle is connected with the end part of the second transmission rod on the outer side wall of the second left control box;

a left inner vertical pipe is inserted into the left neutral pipe, and is connected in the shaft hole of the second left transmission turbine, and the left inner vertical pipe and the shaft hole are in threaded connection; a right inner vertical pipe is inserted into the right middle vertical pipe, and is connected in the shaft hole of the second right transmission turbine and is in threaded connection with the second right transmission turbine;

the front end of the second left control box is fixed with a left front supporting rod which is horizontally extended forwards, the rear end of the second left control box is fixed with a left rear supporting rod which is horizontally extended backwards, and pulleys are arranged at the front end part of the left front supporting rod and the rear end part of the left rear supporting rod; the front end of the second right control box is fixedly provided with a right front supporting rod which horizontally extends forwards, the rear end of the second right control box is fixedly provided with a right rear supporting rod which horizontally extends backwards, and the front end part of the right front supporting rod and the rear end part of the right rear supporting rod are both provided with pulleys;

a top cross beam is fixed between the top end of the left inner vertical pipe and the top end of the right inner vertical pipe, a front slideway plate is hinged at the front end beam edge of the top cross beam through a hinge, and a rear slideway plate is hinged at the rear end beam edge of the top cross beam through a hinge; the bottom of the front slideway plate is simultaneously and slidably supported on the pulleys of the left front supporting rod and the right front supporting rod, and the bottom of the rear slideway plate is simultaneously and slidably supported on the pulleys of the left rear supporting rod and the right rear supporting rod.

2. The trench wall concreting auxiliary slide assembly of claim 1, wherein: the four corners of the bottom support frame are provided with movable rollers.

3. The trench wall concreting auxiliary chute device according to claim 1 or 2, characterized in that: the inner wall of the shaft hole of the first left transmission turbine is provided with transmission threads, the outer pipe wall of the left middle vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the left middle vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first left transmission turbine; the inner wall of the shaft hole of the first right transmission turbine is provided with transmission threads, the outer pipe wall of the right middle vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the right middle vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the first right transmission turbine; the inner wall of the shaft hole of the second left transmission turbine is provided with transmission threads, the outer pipe wall of the left inner vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the left inner vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second left transmission turbine; the inner wall of the shaft hole of the second right transmission turbine is provided with transmission threads, the outer pipe wall of the right inner vertical pipe is provided with transmission threads, and the transmission threads on the outer pipe wall of the right inner vertical pipe are in fit engagement with the transmission threads on the inner wall of the shaft hole of the second right transmission turbine.

4. A trench wall concreting auxiliary slide assembly according to claim 3, wherein: the bottom section of the left middle pipe outer pipe wall and the bottom section of the right middle pipe outer pipe wall are all arranged as light pipe walls; the top section and the bottom section of the outer tube wall of the left inner vertical tube are all arranged as light tube walls, and the top section and the bottom section of the outer tube wall of the right inner vertical tube are all arranged as light tube walls.

5. The trench wall concreting auxiliary chute assembly according to claim 4, wherein: fixing strips are respectively arranged on two sides of the bottom surface of the front slideway plate and are respectively connected with pulleys on the left front supporting rod and pulleys on the right front supporting rod; fixing strips are respectively arranged on two sides of the bottom surface of the rear slideway plate and are respectively connected with pulleys on the left rear supporting rod and pulleys on the right rear supporting rod.

6. The trench wall concreting auxiliary chute assembly according to claim 5, wherein: the two side plate edges of the front slideway plate are respectively and vertically fixed with a baffle, and the two side plate edges of the rear slideway plate are respectively and vertically fixed with a baffle.

7. The trench wall concreting auxiliary slide assembly of claim 6, wherein: the vertical section of the top cross beam is triangular, the front end edge of the top cross beam is hinged with a front slideway plate through a hinge, and the rear end edge of the top cross beam is hinged with a rear slideway plate through a hinge.

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