CN113062179A

CN113062179A - Ditch slipform machine of adjustable wall thickness

Info

Publication number: CN113062179A
Application number: CN202110380737.0A
Authority: CN
Inventors: 朱谷丰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-07-02

Abstract

The invention relates to the field of hydraulic engineering equipment, in particular to a gutter slide molding machine with adjustable wall thickness, which comprises a first fixing frame, an extrusion mechanism, a tamping mechanism and the like; the first fixing frame is fixedly connected with an extrusion mechanism, and the extrusion mechanism is fixedly connected with a tamping mechanism. Through smash in same direction as the cooperation of the fixed frame of second mount, the second of mechanism and smash in same direction as the frame and install on it for carry out repeated smash in same direction as to the concrete, reach the effect that makes the concrete evenly lay more, adjust the synovial membrane thickness that reaches the ditch through changing the movable block, reach the effect of the quick adjustment ditch synovial membrane thickness of being convenient for.

Description

Ditch slipform machine of adjustable wall thickness

Technical Field

The invention relates to the field of hydraulic engineering equipment, in particular to a gutter sliding formwork machine with adjustable wall thickness.

Background

The distribution of water resource and land resource is not harmonious, south water is more and arable land is few, north water is less and arable land is more, need construct the ditch of drainage or diversion in daily life, it is comparatively slow through the mode of artifical brush concrete in the in-process of ditch construction, can accelerate the speed of construction through the slipform device.

Slip form device result of use is not good for the water conservancy construction in the existing market, and the size of slip form device is fixed, and the slipform of a model can only be applied to the ditch of making a size, and the suitability is not strong, and the ditch surface after the brush is wet, because ditch inclination is great, the concrete surface after the brush is good easily drops, needs the manual work to restore, and the repair process is too loaded down with trivial details.

Therefore, the design of the water channel sliding formwork machine with the adjustable wall thickness, which can adjust the thickness of the sliding formwork, has strong applicability and can quickly repair the concrete which is easy to fall off, is urgently needed.

Disclosure of Invention

With solving water conservancy construction on the existing market with slipform device result of use not good, be difficult for adjusting slipform thickness, the suitability is not strong, the ditch surface after the brush is good is wet, because ditch inclination is great, the concrete surface after the brush is good easily drops, needs the manual work to carry out prosthetic problem, provides one kind can adjust slipform thickness, the suitability is strong, can restore the ditch slipform machine of the adjustable wall thickness of the concrete that easily drops fast.

The technical scheme of the invention is as follows: a gutter sliding machine with adjustable wall thickness comprises a first fixing frame, an extrusion mechanism and a tamping mechanism, wherein the first fixing frame is fixedly connected with the extrusion mechanism, and the extrusion mechanism is fixedly connected with the tamping mechanism.

Further, the extrusion mechanism comprises a first fixed frame, a motor, a two-way screw, a first sliding frame, a second sliding frame, a first sliding rod, a first reset spring, a movable block, a third sliding frame, a fourth sliding frame and a second reset spring, wherein the first fixed frame is fixedly connected with the first fixed frame, the motor is fixedly connected with the first fixed frame, the two-way screw is fixedly connected with an output shaft of the motor, the two-way screw is connected with the first sliding frame in a thread fit manner, the first sliding frame is in sliding fit with the first fixed frame, the first fixed frame is symmetrically and slidably connected with the second sliding frame, the first sliding rod is symmetrically and slidably connected with the first fixed frame, the second sliding frame is fixedly connected with the first reset spring, the other end of the first reset spring is fixedly connected with the first fixed frame, the movable block is arranged between the two second sliding frames, the first sliding frame is connected with a third sliding frame in a sliding mode, the first fixing frame is connected with a fourth sliding frame in a sliding mode in a symmetrical mode, the fourth sliding frame is in contact with the second sliding frame, and a second reset spring is connected between the fourth sliding frame and the first fixing frame.

Further, the tamping mechanism comprises a second fixing frame, a first rotating rod, a third fixing frame, a second rotating rod, a second fixing frame, a fourth fixing frame, a fifth fixing frame, a third rotating rod, a fifth sliding frame, a tooth-shaped strip, a sixth fixing frame, a second sliding rod, a third return spring and a tamping frame, wherein the second fixing frame is symmetrically and fixedly connected to the first fixing frame, the first rotating rod is rotatably connected to the second fixing frame, the third fixing frame is symmetrically and fixedly connected to the first sliding frame, the second rotating rod is slidably connected to the third fixing frame, the second rotating rod is rotatably connected to the first rotating rod, the second fixing frame is fixedly connected to the first fixing frame, the fourth fixing frame is symmetrically and fixedly connected to the fourth fixing frame, the fifth sliding frame is slidably connected to the fourth fixing frame, the fifth fixing frame is fixedly connected to one end of the fifth sliding frame, and the fifth fixing frame is slidably connected to the third rotating rod, the third rotating rod is rotatably connected with the first rotating rod, one end of the fifth sliding frame is fixedly connected with a toothed strip, a sixth fixing frame is symmetrically and fixedly connected onto the second fixing frame, a second sliding rod is slidably connected onto the sixth fixing frame, one end of the second sliding rod is fixedly connected with a tamping frame, the tamping frame is in contact with the toothed strip, a third reset spring is fixedly connected onto the tamping frame, and the other end of the third reset spring is fixedly connected with the sixth fixing frame.

Further, the stamping machine comprises a blanking mechanism, the blanking mechanism is arranged on the stamping mechanism, the blanking mechanism comprises a seventh fixing frame, a sixth sliding frame, a fourth reset spring, a first baffle frame, a rotating frame, a first torsion spring, a blanking pipe, a second baffle frame, a third sliding rod and a fifth reset spring, one end of the fifth sliding frame is fixedly connected with the seventh fixing frame, the seventh fixing frame is connected with the sixth sliding frame in a sliding manner, the fourth reset spring is connected between the sixth sliding frame and the seventh fixing frame, one side of the sixth sliding frame is fixedly connected with the first baffle frame, the rotating frame is connected with the rotating frame in a sliding manner, the rotating frame is contacted with the first baffle frame, the first torsion spring is connected between the rotating frame and the sixth sliding frame, the blanking pipe is fixedly connected on external blanking equipment, the second baffle frame is symmetrically connected on the blanking pipe in a sliding manner, the second baffle frame is connected with the third sliding rod in a sliding manner, one end of the third sliding rod is fixedly connected with the blanking pipe, and a fifth return spring is connected between the second blocking frame and the blanking pipe.

Further, still including control mechanism, be equipped with control mechanism on the extrusion mechanism, control mechanism is including the eighth mount, first rack, the ninth mount, the gear, seventh carriage and second rack, first slide bar one end fixedly connected with eighth mount, the first rack of fixedly connected with on the eighth mount, symmetrical formula fixedly connected with ninth mount on the fixed frame of second, the pivoted joint has the gear on the ninth mount, gear and first rack toothing, the pivoted joint has the seventh carriage on the ninth mount, the seventh carriage contacts with the sixth carriage, fixedly connected with second rack on the seventh carriage, second rack and gear toothing.

Further, still including drawing the seam mechanism, be equipped with on the extrusion mechanism and draw seam mechanism, draw seam mechanism including the tenth mount, rotate the strip, second torsion spring, the third keeps off frame and wedge frame, sliding connection has the tenth mount on the first mount, the symmetry rotary type is connected with the rotation strip on the tenth mount, it is connected with second torsion spring to rotate between strip and the tenth mount, symmetry fixedly connected with third keeps off the frame on the tenth mount, the third keeps off the frame and rotates the contact of strip, fixedly connected with wedge frame on the third mount.

The beneficial effects are that:

through smash in same direction as the cooperation of the fixed frame of second mount, the second of mechanism and smash in same direction as the frame and install on it for carry out repeated smash in same direction as to the concrete, reach the effect that makes the concrete evenly lay more, adjust the synovial membrane thickness that reaches the ditch through changing the movable block, reach the effect of the quick adjustment ditch synovial membrane thickness of being convenient for.

Through the tenth mount, the rotation strip and the third that draw seam mechanism keep off the cooperation of putting on the frame for draw the seam to the good not hard up concrete of synovial membrane, reach the effect of drawing the seam fast.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic partial perspective view of the pressing mechanism of the present invention.

Fig. 5 is a schematic view of a partial sectional perspective structure of the pressing mechanism of the present invention.

Fig. 6 is an enlarged perspective view of the present invention D.

Fig. 7 is a schematic sectional perspective view of the tamping mechanism of the present invention.

Fig. 8 is an enlarged perspective view of the present invention a.

Fig. 9 is a perspective view of a third embodiment of the present invention.

Fig. 10 is an enlarged perspective view of the present invention E.

Fig. 11 is an enlarged perspective view of the present invention B.

Fig. 12 is an enlarged perspective view of the present invention C.

In the reference symbols: 1_ first fixed frame, 2_ pressing mechanism, 21_ first fixed frame, 22_ motor, 23_ two-way screw, 24_ first sliding frame, 25_ second sliding frame, 26_ first sliding bar, 27_ first return spring, 28_ movable block, 29_ third sliding frame, 211_ fourth sliding frame, 212_ second return spring, 3_ smoothing mechanism, 31_ second fixed frame, 32_ first rotating bar, 33_ third fixed frame, 34_ second rotating bar, 35_ second fixed frame, 36_ fourth fixed frame, 37_ fifth fixed frame, 38_ third rotating bar, 39_ fifth sliding frame, 311_ toothed bar, 312_ sixth fixed frame, 313_ second sliding bar, 314_ third return spring, 315_ smoothing frame, 4_ blanking mechanism, 41_ seventh fixed frame, 42_ sixth sliding frame, 43_ fourth return spring, 44_ first stop frame, 45_ rotating frame, 46_ first torsion spring, 47_ blanking tube, 48_ second blocking frame, 49_ third sliding rod, 411_ fifth return spring, 5_ control mechanism, 51_ eighth fixing frame, 52_ first rack, 53_ ninth fixing frame, 54_ gear, 55_ seventh sliding frame, 56_ second rack, 6_ sewing mechanism, 61_ tenth fixing frame, 62_ rotating strip, 63_ second torsion spring, 64_ third blocking frame and 65_ wedge frame.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

A gutter slipform machine with adjustable wall thickness is shown in figures 1-2 and comprises a first fixing frame 1, an extrusion mechanism 2 and a tamping mechanism 3, wherein the extrusion mechanism 2 is fixedly connected to the first fixing frame 1, the extrusion mechanism 2 is used for pushing concrete to perform slipform, the tamping mechanism 3 is fixedly connected to the extrusion mechanism 2, and the tamping mechanism 3 is used for repeatedly tamping the concrete.

Example 2

On the basis of embodiment 1, as shown in fig. 3 to 12, the extruding mechanism 2 includes a first fixing frame 21, a motor 22, a two-way screw 23, a first sliding frame 24, a second sliding frame 25, a first sliding rod 26, a first return spring 27, a movable block 28, a third sliding frame 29, a fourth sliding frame 211 and a second return spring 212, the first fixing frame 1 is fixedly connected with the first fixing frame 21, the first fixing frame 21 is fixedly connected with the motor 22, an output shaft of the motor 22 is fixedly connected with the two-way screw 23, the two-way screw 23 is used for driving the first sliding frame 24 to move, the two-way screw 23 is connected with the first sliding frame 24 in a threaded fit manner, the first sliding frame 24 is in a sliding fit with the first fixing frame 21, the first fixing frame 21 is symmetrically and slidably connected with the second sliding frame 25, the first sliding frame 21 is symmetrically and slidably connected with the first sliding rod 26, the first sliding rod 26 transversely penetrates through the first fixing frame 21, the first sliding rod 26 is fixedly connected with the second sliding frame 25, a first reset spring 27 is fixedly connected onto the second sliding frame 25, the first reset spring 27 is used for resetting the second sliding frame 25, the other end of the first reset spring 27 is fixedly connected with the first fixing frame 21, a movable block 28 is placed between the two second sliding frames 25, the movable block 28 can be replaced, the thickness of the sliding film of the ditch can be conveniently and rapidly adjusted, a third sliding frame 29 is connected onto the first sliding frame 24 in a sliding mode, a fourth sliding frame 211 is connected onto the first fixing frame 21 in a sliding mode in a symmetrical mode, the fourth sliding frame 211 is in contact with the second sliding frame 25, a second reset spring 212 is connected between the fourth sliding frame 211 and the first fixing frame 21, and the second reset spring 212 is used for resetting the fourth sliding frame.

The tamping mechanism 3 comprises a second fixed frame 31, a first rotating rod 32, a third fixed frame 33, a second rotating rod 34, a second fixed frame 35, a fourth fixed frame 36, a fifth fixed frame 37, a third rotating rod 38, a fifth sliding frame 39, a toothed strip 311, a sixth fixed frame 312, a second sliding rod 313, a third return spring 314 and a tamping frame 315, wherein the first fixed frame 21 is symmetrically and fixedly connected with the second fixed frame 31, the second fixed frame 31 is rotationally connected with the first rotating rod 32, the first sliding frame 24 is symmetrically and fixedly connected with the third fixed frame 33, the third fixed frame 33 is slidably connected with the second rotating rod 34, the second rotating rod 34 slides in the third fixed frame 33, the second rotating rod 34 is rotationally connected with the first rotating rod 32, the first fixed frame 21 is fixedly connected with the second fixed frame 35, the second fixed frame 35 is symmetrically and fixedly connected with the fourth fixed frame 36, a fifth sliding frame 39 is slidably connected to the fourth fixing frame 36, one end of the fifth sliding frame 39 is fixedly connected to a fifth fixing frame 37, the fifth fixing frame 37 is slidably connected to a third rotating rod 38, the third rotating rod 38 slides inside the fifth fixing frame 37, the third rotating rod 38 is rotatably connected to the first rotating rod 32, one end of the fifth sliding frame 39 is fixedly connected to a toothed strip 311, a sixth fixing frame 312 is symmetrically and fixedly connected to the second fixing frame 35, a second sliding rod 313 is slidably connected to the sixth fixing frame 312, one end of the second sliding rod 313 is fixedly connected to a tamping frame 315, the tamping frame 315 is used for tamping concrete, the tamping frame 315 is in contact with the toothed strip 311, one end of the tamping frame 315 is located inside the second fixing frame 35, a third return spring 314 is fixedly connected to the tamping frame 315, the third return spring 314 is used for returning the tamping frame 315 and devices thereon, and the other end of the third return spring 314 is fixedly connected to the sixth fixing frame 312.

The stamping machine is characterized by further comprising a blanking mechanism 4, the blanking mechanism 4 is arranged on the stamping mechanism 3, the blanking mechanism 4 comprises a seventh fixed frame 41, a sixth sliding frame 42, a fourth reset spring 43, a first baffle frame 44, a rotating frame 45, a first torsion spring 46, a blanking pipe 47, a second baffle frame 48, a third sliding rod 49 and a fifth reset spring 411, one end of a fifth sliding frame 39 is fixedly connected with the seventh fixed frame 41, the seventh fixed frame 41 is connected with the sixth sliding frame 42 in a sliding manner, the fourth reset spring 43 is connected between the sixth sliding frame 42 and the seventh fixed frame 41, the fourth reset spring 43 is used for resetting the sixth sliding frame 42, one side of the sixth sliding frame 42 is fixedly connected with the first baffle frame 44, the first baffle frame 44 is used for limiting the rotating frame 45, the rotating frame 45 is connected with the rotating frame 42 in a rotating manner, the rotating frame 45 is in contact with the first baffle frame 44, the first torsion spring 46 is connected between the rotating frame 45 and the sixth sliding frame 42, a blanking pipe 47 is fixedly connected to external blanking equipment, the blanking pipe 47 is used for conveying concrete, a second retaining frame 48 is symmetrically and slidably connected to the blanking pipe 47, a third sliding rod 49 is slidably connected to the second retaining frame 48, one end of the third sliding rod 49 is fixedly connected to the blanking pipe 47, a fifth return spring 411 is connected between the second retaining frame 48 and the blanking pipe 47, and the fifth return spring 411 is used for returning the second retaining frame 48.

The extrusion mechanism 2 is provided with the control mechanism 5, the control mechanism 5 comprises an eighth fixed frame 51, a first rack 52, a ninth fixed frame 53, a gear 54, a seventh sliding frame 55 and a second rack 56, one end of the first slide bar 26 is fixedly connected with the eighth fixed frame 51, the top of the eighth fixed frame 51 is fixedly connected with the first rack 52, the second fixed frame 35 is symmetrically and fixedly connected with the ninth fixed frame 53, the ninth fixed frame 53 is rotatably connected with the gear 54, the gear 54 is positioned above the first rack 52, the gear 54 is meshed with the first rack 52, the ninth fixed frame 53 is slidably connected with the seventh sliding frame 55, the seventh sliding frame 55 is contacted with the sixth sliding frame 42, the seventh sliding frame 55 is positioned above the second rack 56, the seventh sliding frame 55 is fixedly connected with the second rack 56, the second rack 56 is positioned above the gear 54, the second rack 56 meshes with the gear 54.

Still including drawing seam mechanism 6, be equipped with on the extrusion mechanism 2 and draw seam mechanism 6, draw seam mechanism 6 including tenth mount 61, rotate strip 62, second torsion spring 63, third fender frame 64 and wedge frame 65, sliding connection has tenth mount 61 on first mount 21, through tenth mount 61, rotate strip 62 and wedge frame 65 and the cooperation of device on it, be used for drawing the seam to the good concrete of synovial membrane, the symmetry rotary type is connected with rotates strip 62 on the tenth mount 61, be connected with second torsion spring 63 between rotation strip 62 and the tenth mount 61, second torsion spring 63 is used for restoring to the throne and rotates strip 62, symmetry fixedly connected with third fender frame 64 on the tenth mount 61, third fender frame 64 is used for spacing rotating strip 62, third fender frame 64 contacts with rotation strip 62, fixedly connected with wedge frame 65 on the third mount 33.

When hydraulic engineering construction needs to be carried out, firstly, a worker installs the equipment on a concrete truck, connects a blanking pipe 47 with an output port of the concrete truck, manually starts the motor 22 to operate, an output shaft of the motor 22 drives the rotary bidirectional screw 23 to rotate, so that the first sliding frame 24 carries out reciprocating motion, when the first sliding frame 24 and the device on the first sliding frame move towards one side far away from the motor 22, the first rotary rod 32 and the device on the first rotary rod are matched to drive the fifth sliding frame 39 and the device on the fifth sliding frame to move towards the direction far away from the second fixed frame 35, so that the rotary frame 45 swings, the first torsion spring 46 is compressed along with the first torsion spring, and simultaneously drives the tooth-shaped strip 311 to move, so that the third return spring 314 is repeatedly stretched and reset, finally, the rotary frame 45 moves to one end of the inclined surface of the second blocking frame 48, and simultaneously drives the first sliding frame 24 to be contacted, the fourth sliding frame 211 moves relatively, at this time, the motor 22 continues to operate, and further the first sliding frame 24 and the upper device thereof are driven to move towards the side close to the motor 22, the fifth sliding frame 39 and the upper device thereof move towards the side close to the second fixed frame 35, and the second blocking frame 48 and the upper device thereof are matched with the second blocking frame 48 through the rotating frame 45, so that the blanking pipe 47 is relatively not blocked, and the blanking pipe 47 falls into the concrete.

After the second fixed frame 35 is filled with concrete, the worker continues to manually control the operation of the motor 22, and further drives the first sliding frame 24 and the device thereon to move towards the side far away from the motor 22, so that the fifth sliding frame 39 and the device thereon move towards the side far away from the second fixed frame 35, and further drives the toothed strip 311 to move, so that the tamping frame 315 repeatedly moves, the third return spring 314 is repeatedly stretched and reset, the concrete is repeatedly tamped by the tamping frame 315, and the effect of more uniformly paving the concrete is achieved, the first sliding frame 24 is in contact with the fourth sliding frame 211, so that the fourth sliding frame 211 relatively moves, so that the concrete is paved on the wall of the ditch, after the ditch is smoothened, the concrete is loosened due to various reasons, and at this time, the worker manually installs the tenth fixed frame 61 and the device thereon on the first fixed frame 21, when the first sliding frame 24 and the device thereon move towards the direction away from one side of the motor 22, the wedge-shaped frame 65 enables the rotating strip 62 to swing, the second torsion spring 63 is compressed, the wedge-shaped frame 65 further moves to the other side of the rotating strip 62, and the concrete with loosened sliding film is subjected to seam drawing through the matching of the wedge-shaped frame 65 and the rotating strip 62.

When the thickness of the ditch needs to be adjusted, firstly, a worker manually takes off the movable block 28 and then puts in the movable block 28 with another specification, when the movable block 28 of the operator is removed, the second sliding frame 25 will be reset by the second reset spring 212, when a movable block 28 with a larger size is placed, the second sliding frame 25 will move toward the side close to the first fixed frame 21, the first rack 52 will drive the gear 54 to rotate forward, so that the second rack 56 and the devices thereon perform relative movement, so that when the rotating frame 45 pushes the second stop 48 to increase the movement range, so that more concrete falls from the blanking pipe 47, and finally the movable block 28 is clamped and limited by the action of the second return spring 212, when the movable block 28 with smaller specification is put in, the effect is opposite, the thickness of the ditch can be adjusted by replacing the movable block 28, so that the effect of conveniently and rapidly adjusting the thickness of the ditch is achieved. After the ditch is synovial, the worker manually turns off the motor 22, and the device is taken out of the cement transport vehicle, so that the device is convenient to use next time.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a ditch slide molding machine of adjustable wall thickness which characterized in that, including first fixed frame (1), extrusion mechanism (2) and smash in same direction as mechanism (3), fixedly connected with extrusion mechanism (2) on first fixed frame (1), fixedly connected with smashes in same direction as mechanism (3) on extrusion mechanism (2).

2. The gutter sliding machine with the adjustable wall thickness according to claim 1, wherein the extrusion mechanism (2) comprises a first fixed frame (21), a motor (22), a two-way screw (23), a first sliding frame (24), a second sliding frame (25), a first sliding rod (26), a first return spring (27), a movable block (28), a third sliding frame (29), a fourth sliding frame (211) and a second return spring (212), the first fixed frame (1) is fixedly connected with the first fixed frame (21), the first fixed frame (21) is fixedly connected with the motor (22), the two-way screw (23) is fixedly connected with an output shaft of the motor (22), the two-way screw (23) is connected with the first sliding frame (24) in a threaded fit manner, the first sliding frame (24) is in sliding fit with the first fixed frame (21), the first fixed frame (21) is symmetrically and slidably connected with the second sliding frame (25), first slide bar (26) is symmetrically and slidably connected to first fixing frame (21), first slide bar (26) and fixedly connected second sliding frame (25), first reset spring (27) is fixedly connected to second sliding frame (25), the other end of first reset spring (27) is fixedly connected to first fixing frame (21), movable block (28) is placed between two second sliding frames (25), third sliding frame (29) is slidably connected to first sliding frame (24), fourth sliding frame (211) is symmetrically and slidably connected to first fixing frame (21), fourth sliding frame (211) is in contact with second sliding frame (25), and second reset spring (212) is connected between fourth sliding frame (211) and first fixing frame (21).

3. The gutter mold sliding machine with the adjustable wall thickness according to claim 2, characterized in that the tamping mechanism (3) comprises a second fixed frame (31), a first rotating rod (32), a third fixed frame (33), a second rotating rod (34), a second fixed frame (35), a fourth fixed frame (36), a fifth fixed frame (37), a third rotating rod (38), a fifth sliding frame (39), a toothed strip (311), a sixth fixed frame (312), a second sliding rod (313), a third return spring (314) and a tamping frame (315), the second fixed frame (31) is symmetrically and fixedly connected to the first fixed frame (21), the first rotating rod (32) is rotatably connected to the second fixed frame (31), the third fixed frame (33) is symmetrically and fixedly connected to the first sliding frame (24), and the second rotating rod (34) is slidably connected to the third fixed frame (33), the second rotating rod (34) is rotatably connected with the first rotating rod (32), a second fixing frame (35) is fixedly connected to the first fixing frame (21), a fourth fixing frame (36) is symmetrically and fixedly connected to the second fixing frame (35), a fifth sliding frame (39) is slidably connected to the fourth fixing frame (36), a fifth fixing frame (37) is fixedly connected to one end of the fifth sliding frame (39), a third rotating rod (38) is slidably connected to the fifth fixing frame (37), the third rotating rod (38) is rotatably connected with the first rotating rod (32), a toothed strip (311) is fixedly connected to one end of the fifth sliding frame (39), a sixth fixing frame (312) is symmetrically and fixedly connected to the second fixing frame (35), a second sliding rod (313) is slidably connected to the sixth fixing frame (312), and a tamping frame (315) is fixedly connected to one end of the second sliding rod (313), the tamping frame (315) is in contact with the tooth-shaped bar (311), a third return spring (314) is fixedly connected to the tamping frame (315), and the other end of the third return spring (314) is fixedly connected with a sixth fixing frame (312).

4. The gutter mold sliding machine with the adjustable wall thickness according to claim 3, characterized by further comprising a blanking mechanism (4), wherein the tamping mechanism (3) is provided with the blanking mechanism (4), the blanking mechanism (4) comprises a seventh fixing frame (41), a sixth sliding frame (42), a fourth return spring (43), a first blocking frame (44), a rotating frame (45), a first torsion spring (46), a blanking pipe (47), a second blocking frame (48), a third sliding rod (49) and a fifth return spring (411), one end of the fifth sliding frame (39) is fixedly connected with the seventh fixing frame (41), the seventh fixing frame (41) is slidably connected with the sixth sliding frame (42), the fourth return spring (43) is connected between the sixth sliding frame (42) and the seventh fixing frame (41), one side of the sixth sliding frame (42) is fixedly connected with the first blocking frame (44), the rotary frame (45) is connected with the sixth sliding frame (42) in a rotating mode, the rotary frame (45) is in contact with the first blocking frame (44), a first torsion spring (46) is connected between the rotary frame (45) and the sixth sliding frame (42), a discharging pipe (47) is fixedly connected to external discharging equipment, a second blocking frame (48) is symmetrically and slidably connected to the discharging pipe (47), a third sliding rod (49) is slidably connected to the second blocking frame (48), one end of the third sliding rod (49) is fixedly connected with the discharging pipe (47), and a fifth reset spring (411) is connected between the second blocking frame (48) and the discharging pipe (47).

5. The gutter mold sliding machine with the adjustable wall thickness according to claim 4, characterized in that the gutter mold sliding machine further comprises a control mechanism (5), the control mechanism (5) is arranged on the extrusion mechanism (2), the control mechanism (5) comprises an eighth fixing frame (51), a first rack (52), a ninth fixing frame (53), a gear (54), a seventh sliding frame (55) and a second rack (56), one end of the first sliding rod (26) is fixedly connected with the eighth fixing frame (51), the eighth fixing frame (51) is fixedly connected with the first rack (52), the second fixing frame (35) is symmetrically and fixedly connected with the ninth fixing frame (53), the ninth fixing frame (53) is rotatably connected with the gear (54), the gear (54) is engaged with the first rack (52), the ninth fixing frame (53) is slidably connected with the seventh sliding frame (55), and the seventh sliding frame (55) is in contact with the sixth sliding frame (42), a second rack (56) is fixedly connected to the seventh sliding frame (55), and the second rack (56) is meshed with the gear (54).

6. The gutter sliding formwork machine with the adjustable wall thickness according to claim 5, characterized by further comprising a seam pulling mechanism (6), wherein the extruding mechanism (2) is provided with the seam pulling mechanism (6), the seam pulling mechanism (6) comprises a tenth fixing frame (61), a rotating strip (62), a second torsion spring (63), a third blocking frame (64) and a wedge frame (65), the tenth fixing frame (61) is connected with the first fixing frame (21) in a sliding manner, the rotating strip (62) is connected with the tenth fixing frame (61) in a symmetrical and rotating manner, the second torsion spring (63) is connected between the rotating strip (62) and the tenth fixing frame (61), the third blocking frame (64) is fixedly connected with the tenth fixing frame (61) in a symmetrical manner, the third blocking frame (64) is in contact with the rotating strip (62), and the wedge frame (65) is fixedly connected with the third fixing frame (33).