CN114263220A - Diversion tunnel stagnant water is assembled template construction complementary unit - Google Patents

Abstract

The invention discloses a diversion tunnel water stop assembled template construction auxiliary mechanism, which comprises a rectangular frame, wherein an upper U-shaped frame is movably arranged on a top plate of the rectangular frame, a positioning mechanism is fixed on the upper U-shaped frame, the upper U-shaped frame is fixedly connected with a lower U-shaped frame, an air driving mechanism is fixed on the lower U-shaped frame, the air driving mechanism and the positioning mechanism are communicated through a Y-shaped air conveying pipe, the lower U-shaped frame is connected with an upper hydraulic cylinder through a third driving rod, the left end and the right end of a middle hydraulic cylinder are respectively provided with a first driving rod, the other end of the first driving rod is fixedly connected with a driving frame, the other end of the driving frame is fixedly connected with a clamping piece, the lower hydraulic cylinder is fixedly arranged on a bottom plate of the rectangular frame, the lower hydraulic cylinder is respectively connected with the middle hydraulic cylinder through a first infusion pipe and a second infusion pipe, the upper hydraulic cylinder is communicated, and the lower hydraulic cylinder is fixedly connected with a driving piece movably arranged on the rectangular frame bottom plate. The invention has the functions of automatic splicing and automatic splitting, effectively reduces the working intensity of workers and simultaneously improves the water stopping efficiency.

Description

Diversion tunnel stagnant water is assembled template construction complementary unit

Technical Field

The invention relates to a diversion tunnel water stop assembled template construction auxiliary mechanism, and belongs to the technical field of diversion tunnel water stop.

Background

The diversion tunnel can appear the infiltration phenomenon usually in the work progress to need the staff to carry out urgent stagnant water and handle, current treatment mode majority is to use the template to pour into a mould the stagnant water, nevertheless because the template adopts the metal steel material to make, the quality is heavier and need splice itself, thereby has increased staff's the operation degree of difficulty, and need consume more time, can not be timely carry out the stagnant water treatment to the infiltration point, with this provide a diversion tunnel stagnant water and assemble template construction complementary unit.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an auxiliary mechanism for construction of a diversion tunnel water-stopping assembling formwork.

The technical scheme of the invention is as follows: a diversion tunnel water stop assembled template construction auxiliary mechanism comprises a rectangular frame, an upper U-shaped frame is movably arranged on a rectangular frame top plate, a horizontally arranged positioning mechanism is fixed at the top of the upper U-shaped frame, the upper U-shaped frame movably penetrates through the rectangular frame top plate and then is fixedly connected with a lower U-shaped frame, an air driving mechanism is fixedly arranged on the lower U-shaped frame, the air driving mechanism is communicated with a driving device of the positioning mechanism through a Y-shaped air conveying pipe, the bottom of the lower U-shaped frame is connected with a vertically arranged upper hydraulic cylinder through a third driving rod, the upper hydraulic cylinder is fixedly arranged at the top end of a horizontally arranged middle hydraulic cylinder, a first driving rod is respectively arranged at the left end and the right end of the middle hydraulic cylinder, the other end of the first driving rod is fixedly connected with a driving frame, a clamping piece is fixedly connected with the other end of the driving frame movably penetrating through a rectangular frame side plate, the middle hydraulic cylinder is fixedly arranged at the top of the lower hydraulic cylinder, the lower hydraulic cylinder is fixedly arranged on a bottom plate of the rectangular frame, the lower hydraulic cylinder is communicated with the middle hydraulic cylinder and the upper hydraulic cylinder through a first infusion tube and a second infusion tube respectively, and the lower hydraulic cylinder is fixedly connected with a driving piece movably mounted on the rectangular frame bottom plate.

In the auxiliary mechanism for construction of the water-stopping assembled template of the water diversion tunnel, the driving piece comprises a driving plate horizontally arranged on one side of the lower hydraulic cylinder, two sliding rails are arranged on the bottom surface of the driving plate, the sliding rails are movably clamped into rail grooves arranged on the surface of the rectangular frame bottom plate, a first bending sliding groove and a second bending sliding groove are respectively arranged on the driving plate along the direction of the sliding rails, the first bending sliding groove and the second bending sliding groove are symmetrically arranged along the diagonal line of the driving plate, sliding pieces are respectively and slidably arranged in the first bending sliding groove and the second bending sliding groove, supporting columns are vertically and rotatably arranged at the top ends of the sliding pieces, and the two supporting columns are fixedly connected with the lower hydraulic cylinder, one side of the driving plate, which is far away from the lower hydraulic cylinder, is provided with a pulling part, the pulling part comprises a hydraulic cylinder fixedly installed on a rectangular frame bottom plate, the telescopic end of the hydraulic cylinder is fixedly connected with a connecting frame, and the connecting frame is fixedly installed in the middle of the side edge of the driving plate.

In aforementioned template construction complementary unit is assembled to diversion tunnel stagnant water, lower hydraulic cylinder horizontal installation is in rectangular frame bottom plate one side, the inside horizontal installation of lower hydraulic cylinder has the division board to cut apart it into upper and lower two cavities, upper and lower two cavity inside slidable mounting respectively has fourth sealed push pedal and fifth sealed push pedal, there are last drive frame and lower drive frame fourth sealed push pedal and fifth sealed push pedal one side horizontally connected respectively, it all extends to the outside of lower hydraulic cylinder and tip and connects the driving piece jointly with lower drive frame to go up drive frame, wherein keep away from the support column and the last drive frame of lower hydraulic cylinder and be connected, another support column is connected with lower drive frame, a plurality of second ventholes have been seted up to the tip that lower hydraulic cylinder is close to the driving piece.

In the auxiliary mechanism for construction of the water-stopping assembled template of the water diversion tunnel, a middle hydraulic cylinder is horizontally arranged at the position, located in the middle of the rectangular frame, of the top end of the lower hydraulic cylinder, two sixth sealing push plates are symmetrically and slidably arranged in the middle hydraulic cylinder, one ends, far away from each other, of the two sixth sealing push plates are horizontally connected with first driving rods, the first driving rods extend to the outer part of the middle hydraulic cylinder, and the end parts of the first driving rods are respectively connected with a driving frame; an upper hydraulic cylinder is vertically arranged in the middle of the top of the middle hydraulic cylinder, a third sealing push plate is slidably arranged in the upper hydraulic cylinder, a third driving rod is vertically connected to the top end of the third sealing push plate, the third driving rod extends to the outside of the upper hydraulic cylinder, and the end part of the third driving rod is fixedly connected with the lower U-shaped frame; the upper cavity of the lower hydraulic cylinder is far away from one side of the second vent hole, and the outer side end of the fourth sealing push plate is communicated with the middle cavity of the middle hydraulic cylinder through a first infusion pipe, and the lower cavity of the lower hydraulic cylinder is communicated with the cavity of the upper hydraulic cylinder below the third sealing push plate through a second infusion pipe at the same position.

In the water-stopping assembled template construction auxiliary mechanism for the water-diversion tunnel, the positioning mechanism comprises an upper air box horizontally arranged in the middle position above the rectangular frame top plate, two first sealing push plates are symmetrically and slidably mounted in the upper air box, one ends, away from each other, of the two first sealing push plates are connected with a fourth driving rod, the fourth driving rods extend to the outer part of the upper air box, the end parts of the fourth driving rods are respectively and fixedly connected with a positioning plate, and one ends, away from the fourth driving rod, of the positioning plates are fixedly connected with positioning columns; diversion tunnel stagnant water is assembled the template and is provided with the card dress board including side form board and top arc template with locating plate correspondence position department on the top arc template inner wall, be provided with the locating hole that matches with the reference column on the card dress board, go up the equal vertical U type frame that is connected with in gas tank bottom both ends, go up U type frame equal activity and extend to the inboard and the common vertical connection of tip of rectangular frame and have lower U type frame, the inboard corresponding rectangular frame inboard top position of lower U type frame is provided with the mechanism of driving.

In the water-stopping assembled template construction auxiliary mechanism for the water diversion tunnel, the gas driving mechanism comprises a lower gas tank which is vertically and horizontally fixedly installed on a lower U-shaped frame at the top end of the inner side of the rectangular frame, one end of the lower gas tank is provided with a plurality of first vent holes, a second sealing push plate is slidably installed in the lower gas tank, one side of the second sealing push plate, which is far away from the first vent holes, is horizontally connected with two second drive rods, the two second drive rods jointly extend to the outer part of the lower gas tank, the end parts of the two second drive rods are respectively connected with an L-shaped plate which extends upwards, the outer sides of the second drive rods are respectively sleeved with an extension spring, the two ends of the extension spring are respectively and fixedly connected with the L-shaped plates and the outer walls of the end parts of the lower gas tank, the top ends of the two L-shaped plates are jointly and vertically connected with a first extrusion plate, the edge of the top port of the inner wall of the top arc-shaped plate is vertically connected with a second extrusion plate, and the first extrusion plate and the second extrusion plate are correspondingly arranged in position, the lower air box is far away from one end of the first vent hole and is communicated with a Y-shaped air delivery pipe, the other two ends of the Y-shaped air delivery pipe are communicated with the middle cavity of the upper air box, and the other two ends of the Y-shaped air delivery pipe are respectively provided with a control valve and a one-way valve with the ventilation direction facing the inside of the upper air box.

In the aforementioned template construction complementary unit is assembled in tunnel stagnant water that draws water, first pushing plate keeps away from L template one side intermediate position horizontally connect with spacing column plate, set up on the second pushing plate with spacing hole of spacing column plate assorted.

In the water-stopping assembling formwork construction auxiliary mechanism for the water-diversion tunnel, a first limiting ring is fixedly mounted at the middle position inside the upper air box, and a second limiting ring is fixedly mounted at the middle position inside the middle hydraulic cylinder.

In aforementioned template construction complementary unit is assembled to tunnel stagnant water of drawing water, go up and be provided with sliding structure between gas tank top and the top arc template inner wall, sliding structure includes the H type frame of installing perpendicularly respectively at last gas tank top both ends, and the equal vertical rotation in H type frame top installs the rail wheel, and the track that corresponds with the rail wheel position is installed to the inner wall of top arc template.

In aforementioned template construction complementary unit is assembled to diversion tunnel stagnant water, clamp the subassembly and include the forked tail cutting ferrule of fixed mounting at the drive frame tip, the template is assembled including side form board and top arc template to diversion tunnel stagnant water, and the last horizontally connected with forked tail board of inside wall of side form board, and the draw-in groove has all been seted up to top arc template both ends inner wall, and the equal integrated into one piece in side form board top has with the sealed cardboard of draw-in groove assorted.

The invention has the beneficial effects that: compared with the prior art, the invention has the following advantages:

1. through the arrangement of the second pushing plate, the first pushing plate can be pushed in the moving process of the top arc-shaped template, so that the L-shaped template pulls the second driving rod and the extension spring, the second sealing push plate inputs gas in the lower gas box into the upper gas box through the Y-shaped gas pipe, the two first sealing push plates are driven to move reversely, the fourth driving rod pushes the positioning plate to move, after the top arc-shaped template is pushed in place, the positioning plate can be directly clamped with the clamping plate, and the positioning column extends into the positioning hole, so that the top arc-shaped template is positioned and installed;

2. the sliding structure is arranged, so that the top arc-shaped template can be lifted, the stability of the top arc-shaped template in the moving process is improved, and the operation difficulty of workers is reduced;

3. the dovetail plate, the locking bolt and the dovetail clamping sleeve are arranged, so that the side template can be stably installed, meanwhile, under the matching of the sliding rail and the rail groove, the arranged hydraulic cylinder can drive the driving plate to move, when the driving plate moves towards the contraction direction of the hydraulic cylinder, the corresponding sliding part connected with the lower driving frame can slide on the inclined surface of the first bending sliding groove, so that the lower driving frame is driven to drive the fifth sealing push plate to push the interior of the lower hydraulic cylinder, so that the liquid in the interior of the lower hydraulic cylinder below the separation plate is pushed into the interior of the upper hydraulic cylinder through the second liquid conveying pipe, the third sealing push plate and the third driving rod are driven to push the lower U-shaped frame to rise, the height of the ejection arc-shaped template is adjusted, the sliding part can continuously move towards the horizontal groove surface of the first bending sliding groove after the inclined surface of the first bending sliding groove slides, and the fifth sealing push plate is in a static state, when the sliding part moves on the horizontal groove surface of the first bending chute, the sliding part in the second bending chute moves towards the inclined plane in the second bending chute, so that the upper driving frame is driven to drive the fourth sealing push plate to push towards the interior of the lower hydraulic cylinder, so that the liquid in the interior of the lower hydraulic cylinder above the partition plate is pushed towards the interior of the middle hydraulic cylinder through the first liquid conveying pipe, and the two sixth sealing push plates move in the opposite directions, so that the first driving rod drives the driving frame to push the side templates to the two sides, and the sealing clamp plate is clamped into the clamping groove, so that the side templates and the top arc template can be tightly spliced, similarly, when the driving plate moves in the direction, the two side templates can contract in opposite directions, and after the contraction is finished, the top arc template descends, so that the side templates and the top arc template can be automatically separated, and the technical design has the functions of automatic splicing and automatic splitting, the working strength of workers is effectively reduced, and the water stopping efficiency is improved.

Drawings

FIG. 1 is a schematic view of the split structure of the present invention;

FIG. 2 is a schematic view of an assembly structure of the present invention;

FIG. 3 is a schematic diagram of the axial structure of FIG. 2;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic view of the positioning mechanism of the present invention;

FIG. 6 is a cross-sectional structural view of a portion of the structure of FIG. 5;

FIG. 7 is a schematic view of the driving mechanism of the present invention;

FIG. 8 is a cross-sectional structural view of a portion of the structure of FIG. 7;

fig. 9 is a partial structural schematic diagram of fig. 7.

Reference numerals: a rectangular frame-1, a moving wheel-2, a dovetail plate-3, a side template-4, a top arc template-5, an upper air box-6, an upper U-shaped frame-7, a sealing clamping plate-8, a driving frame-9, a locking bolt-10, a dovetail clamping sleeve-11, a first driving rod-12, an upper hydraulic cylinder-13, a middle hydraulic cylinder-14, a first vent hole-15, a lower air box-16, a lower U-shaped frame-17, a sliding rail-18, a lower hydraulic cylinder-19, a second driving rod-20, a first infusion tube-21, a tension spring-22, an H-shaped frame-23, a first extrusion plate-24, an L-shaped plate-25, a third driving rod-26, a positioning column-27, a positioning plate-28, a fourth driving rod-29, A limit column plate-30, a rail wheel-31, a clamping groove-32, a positioning hole-33, a clamping plate-34, a rail-35, a second pushing plate-36, a limit hole-37, a second infusion tube-38, a Y-shaped air pipe-39, a one-way valve-40, a control valve-41, a first sealing push plate-42, a first limit ring-43, a second sealing push plate-44, a first bending chute-45, a second bending chute-46, a support column-47, a rail chute-48, a sliding part-49, a drive plate-50, a connecting frame-51, a hydraulic cylinder-52, a third sealing push plate-53, a second limit ring-54, a separation plate-55, a fourth sealing push plate-56, a fifth sealing push plate-57, an upper drive frame-58, a fourth sealing push plate-56, a fifth sealing push plate-57, a lower drive plate-42, a lower drive plate-40, a control valve-44, a control valve-41, a second sealing push plate-44, a first bending chute-45, a second bending chute-46, a fourth sealing push plate, a fifth sealing push plate, a fourth sealing push plate, a second vent hole-59, a lower driving frame-60 and a sixth sealing push plate-61.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

The embodiment of the invention comprises the following steps: a diversion tunnel water stop assembled template construction auxiliary mechanism comprises a rectangular frame 1, an upper U-shaped frame 7 is movably arranged on a top plate of the rectangular frame 1, a horizontally arranged positioning mechanism is fixed at the top of the upper U-shaped frame 7, the upper U-shaped frame 7 is fixedly connected with a lower U-shaped frame 17 after movably penetrating through the top plate of the rectangular frame 1, an air driving mechanism is fixedly arranged on the lower U-shaped frame 17, the air driving mechanism is communicated with a driving device of the positioning mechanism through a Y-shaped air conveying pipe 39, the bottom of the lower U-shaped frame 17 is connected with an upper hydraulic cylinder 13 which is vertically arranged through a third driving rod 26, the upper hydraulic cylinder 13 is fixedly arranged at the top end of a middle hydraulic cylinder 14 which is horizontally arranged, a first driving rod 12 is respectively arranged at the left end and the right end of the middle hydraulic cylinder 14, the other end of the first driving rod 12 is fixedly connected with a driving frame 9, the driving frame 9 movably penetrates through the other end of a side plate of the rectangular frame 1 and is fixedly connected with a clamping piece, the middle hydraulic cylinder 14 is fixedly arranged at the top of the lower hydraulic cylinder 19, the lower hydraulic cylinder 19 is fixedly arranged on the bottom plate of the rectangular frame 1, the lower hydraulic cylinder 19 is respectively communicated with the middle hydraulic cylinder 14 and the upper hydraulic cylinder 13 through a first infusion tube 21 and a second infusion tube 38, and the lower hydraulic cylinder 19 is fixedly connected with a driving piece movably arranged on the bottom plate of the rectangular frame 1.

The driving piece comprises a driving plate 50 horizontally arranged on one side of the lower hydraulic cylinder 19, two sliding rails 18 are arranged on the bottom surface of the driving plate 50, the sliding rails 18 are movably clamped in rail grooves 48 arranged on the surface of the bottom plate of the rectangular frame 1, a first bending chute 45 and a second bending chute 46 are respectively arranged on the driving plate 50 along the direction of the slide rail 18, the first bending chute 45 and the second bending chute 46 are symmetrically arranged along the diagonal line of the driving plate 50, a sliding part 49 is respectively arranged in the first bending chute 45 and the second bending chute 46 in a sliding way, supporting columns 47 are respectively arranged at the top ends of the sliding parts 49 in a vertical and rotating way, the two supporting columns 47 are respectively fixedly connected with the lower hydraulic cylinder 19, the side, far away from the lower hydraulic cylinder 19, of the driving plate 50 is provided with a pulling member, the pulling member comprises a hydraulic cylinder 52 fixedly mounted on the bottom plate of the rectangular frame 1, the telescopic end of the hydraulic cylinder 52 is fixedly connected with a connecting frame 51, and the connecting frame 51 is fixedly mounted in the middle of the side edge of the driving plate 50.

The lower hydraulic cylinder 19 is horizontally arranged on one side of a bottom plate of the rectangular frame 1, a partition plate 55 is horizontally arranged in the lower hydraulic cylinder 19 to divide the lower hydraulic cylinder into an upper cavity and a lower cavity, a fourth sealing push plate 56 and a fifth sealing push plate 57 are respectively and slidably arranged in the upper cavity and the lower cavity, one side of each of the fourth sealing push plate 56 and the fifth sealing push plate 57 is respectively and horizontally connected with an upper driving frame 58 and a lower driving frame 60, the upper driving frame 58 and the lower driving frame 60 both extend to the outside of the lower hydraulic cylinder 19 and are connected with a driving piece at the end part, wherein a supporting column 47 far away from the lower hydraulic cylinder 19 is connected with the upper driving frame 58, the other supporting column 47 is connected with the lower driving frame 60, and a plurality of second vent holes 59 are formed in the end part, close to the driving piece, of the lower hydraulic cylinder 19.

The top end of the lower hydraulic cylinder 19 is horizontally provided with a middle hydraulic cylinder 14 at the middle position of the rectangular frame 1, two sixth sealing push plates 61 are symmetrically and slidably arranged in the middle hydraulic cylinder 14, one ends, far away from each other, of the two sixth sealing push plates 61 are horizontally connected with a first driving rod 12, the first driving rods 12 extend to the outer part of the middle hydraulic cylinder 14, and the end parts of the first driving rods are respectively connected with a driving frame 9; the middle position of the top of the middle hydraulic cylinder 14 is vertically provided with an upper hydraulic cylinder 13, the inside of the upper hydraulic cylinder 13 is slidably provided with a third sealing push plate 53, the top end of the third sealing push plate 53 is vertically connected with a third driving rod 26, the third driving rod 26 extends to the outside of the upper hydraulic cylinder 13, and the end part of the third driving rod 26 is fixedly connected with the lower U-shaped frame 17; the upper cavity of the lower hydraulic cylinder 19 is far away from one side of the second vent hole 59, the outer end of the fourth sealing push plate 56 is communicated with the middle cavity of the middle hydraulic cylinder 14 through the first infusion pipe 21, and the lower cavity of the lower hydraulic cylinder 19 is communicated with the cavity of the upper hydraulic cylinder 13 below the third sealing push plate 53 through the second infusion pipe 38 at the same position.

The positioning mechanism comprises an upper air box 6 horizontally arranged in the middle position above a top plate of the rectangular frame 1, two first sealing push plates 42 are symmetrically and slidably arranged in the upper air box 6, one ends, away from each other, of the two first sealing push plates 42 are connected with fourth driving rods 29, the fourth driving rods 29 extend to the outside of the upper air box 6, the end parts of the fourth driving rods 29 are fixedly connected with positioning plates 28 respectively, and one ends, away from the fourth driving rods 29, of the positioning plates 28 are fixedly connected with positioning columns 27; diversion tunnel stagnant water is assembled the template and is provided with clamping plate 34 including side form 4 and top arc form 5 with locating plate 28 corresponding position department in top arc form 5 inner wall, clamps and is provided with the locating hole 33 that matches with reference column 27 on the plate 34, goes up the equal vertical U type frame 7 that is connected with in 6 bottom both ends of gas tank, goes up U type frame 7 equal activity and extends to 1 inboard of rectangular frame and the common vertical connection of tip U type frame 17 down, and the inboard top position that corresponds 1 inboard of rectangular frame of U type frame 17 down is provided with the mechanism of driving gas.

The gas driving mechanism comprises a lower gas box 16 which is vertically and horizontally fixedly installed on a lower U-shaped frame 17 at the top end of the inner side of a rectangular frame 1, one end of the lower gas box 16 is provided with a plurality of first vent holes 15, a second sealing push plate 44 is slidably installed inside the lower gas box 16, one side, far away from the first vent holes 15, of the second sealing push plate 44 is horizontally connected with two second driving rods 20, the two second driving rods 20 jointly extend to the outer part of the lower gas box 16, the end parts of the two second driving rods are respectively connected with an L-shaped plate 25 which extends upwards, the outer sides of the second driving rods 20 are respectively sleeved with an extension spring 22, the two ends of the extension spring 22 are respectively and fixedly connected with the L-shaped plate 25 and the outer wall of the end part of the lower gas box 16, the top ends of the two L-shaped plates 25 are jointly and vertically connected with a first push plate 24, the edge of the top port of the inner wall of the top arc-shaped plate 5 is vertically connected with a second push plate 36, and the first push plate 24 and the second push plate 36 are arranged in a corresponding position, the lower air box 16 is provided with a Y-shaped air pipe 39 in a communication way at one end far away from the first vent hole 15, the other two ends of the Y-shaped air pipe 39 are communicated with the middle cavity of the upper air box 6, and the other two ends of the Y-shaped air pipe 39 are respectively provided with a control valve 41 and a check valve 40 with the ventilation direction facing to the inside of the upper air box 6.

The middle position of one side of the first extrusion plate 24, which is far away from the L-shaped plate 25, is horizontally connected with a limiting column plate 30, and a limiting hole 37 matched with the limiting column plate 30 is formed in the second extrusion plate 36.

A first limiting ring 43 is fixedly arranged at the middle position in the upper air box 6, and a second limiting ring 54 is fixedly arranged at the middle position in the middle hydraulic cylinder 14.

Go up and be provided with sliding construction between 6 tops of gas tank and the 5 inner walls of top arc template, sliding construction includes the H type frame 23 of installing at 6 top both ends of gas tank perpendicularly respectively, and the equal vertical rotation in H type frame 23 top installs rail wheel 31, and the track 35 that corresponds with rail wheel 31 position is installed to the inner wall of top arc template 5.

The clamping piece comprises a dovetail clamping sleeve 11 fixedly mounted at the end part of a driving frame 9, the diversion tunnel water stop assembling template comprises a side template 4 and a top arc-shaped template 5, the inner side wall of the side template 4 is horizontally connected with a dovetail plate 3, the inner walls of two ends of the top arc-shaped template 5 are provided with clamping grooves 32, and the top ends of the side templates 4 are integrally formed with sealing clamping plates 8 matched with the clamping grooves 32.

A diversion tunnel water stop assembling formwork construction auxiliary mechanism is shown in figures 1-9 and comprises a rectangular frame 1, universal wheels 2 with brake mechanisms are mounted at four corners of the bottom of the rectangular frame 1, and the left side, the right side and the top of the rectangular frame 1 are respectively used for being connected with a side formwork 4 and a top arc formwork 5. The top arc template 5 is arranged on the top of the rectangular frame 1 through a positioning mechanism in the using process.

The positioning mechanism comprises an upper air box 6 horizontally arranged in the middle position above a top plate of the rectangular frame 1, two ends of the interior of the upper air box 6 are symmetrically and hermetically provided with first sealing push plates 42 in a sliding manner, one ends, far away from each other, of the two first sealing push plates 42 are connected with fourth driving rods 29, the fourth driving rods 29 extend to the exterior of the upper air box 6, the end parts of the fourth driving rods 29 are respectively and fixedly connected with positioning plates 28, a gap is reserved between the through positions of the fourth driving rods 29 and the upper air box 6, and one ends, far away from the fourth driving rods 29, of the positioning plates 28 are respectively and fixedly connected with positioning columns 27; a clamping plate 34 is arranged at a position, corresponding to the positioning plate 28, of the inner wall of the top arc-shaped formwork 5, a positioning hole 33 matched with the positioning column 27 is formed in the clamping plate 34, the positioning column 27 abuts against the clamping plate 34 in the positioning process of the top arc-shaped formwork 5, and the positioning column 27 extends to the inside of the adjacent positioning hole 33. The upper U-shaped frame 7 is vertically connected to two ends of the bottom of the upper air box 6, the upper U-shaped frame 7 is movably connected to the inner side of the rectangular frame 1, the end portion of the upper U-shaped frame 7 is vertically connected with the lower U-shaped frame 17, the top end of the third driving rod 26 is connected with the middle position of the bottom of the lower U-shaped frame 17, and the inner side of the lower U-shaped frame 17 is provided with an air expelling mechanism corresponding to the inner side top end of the rectangular frame 1.

The air driving mechanism comprises a lower air box 16 which is vertically and horizontally fixedly installed on a lower U-shaped frame 17 at the top end of the inner side of the rectangular frame 1, one end of the lower air box 16 is provided with a plurality of first vent holes 15, a second sealing push plate 44 is installed inside the lower air box 16 in a sealing and sliding manner, one side of the second sealing push plate 44, which is far away from the first vent holes 15, is horizontally connected with two second drive rods 20, the two second drive rods 20 jointly extend to the outer part of the lower air box 16, the end parts of the two second drive rods are respectively connected with an L-shaped plate 25, the outer sides of the second drive rods 20 are respectively sleeved with an extension spring 22, two ends of the extension spring 22 are respectively connected with the L-shaped plates 25 and the outer wall of the end part of the lower air box 16, the top ends of the two L-shaped plates 25 are jointly and vertically connected with a first push plate 24, the edge of the top port at the inner wall of the top arc-shaped plate 5 is vertically connected with a second push plate 36, the first push plate 24 and the second push plate 36 are correspondingly arranged, one end of the lower air box 16, which is far away from the first vent holes 15 is communicated with and installed with a Y-shaped air pipe 39, two ends of the top of the Y-shaped air delivery pipe 39 are communicated with and mounted in the middle of the bottom of the upper air box 6, and two ends of the top of the Y-shaped air delivery pipe 39 are respectively provided with a control valve 41 and a one-way valve 40 with the ventilation direction facing to the inside of the upper air box 6.

Through setting up second crowded board 36, thereby can push first crowded board 24 in pushing the removal of top arc template 5, cause L template 25 to stretch second actuating lever 20 and extension spring 22, make second sealed push pedal 44 with the inside gas of lower gas tank 16 import to inside the upper gas tank 6 through Y type gas-supply pipe 39, with this drive two first sealed push pedals 42 reverse movements, and then promote locating plate 28 through fourth actuating lever 29 and remove, after top arc template 5 pushed to the right place, locating plate 28 can direct and the contact of card dress board 34, and locating column 27 extends to inside locating hole 33, with this to carry out the location installation processing with top arc template 5, and the check valve 40 that sets up can avoid gaseous backward flow, and the control valve 41 that sets up can be convenient for carry out the uninstallation processing to the inside gas of upper gas tank 6.

The first pushing plate 24 is horizontally connected with a limiting column plate 30 at the middle position of one side, far away from the L-shaped plate 25, of the second pushing plate 36, a limiting hole 37 matched with the limiting column plate 30 is formed in the second pushing plate 36, the first pushing plate 24 is abutted to the second pushing plate 36 in the positioning, mounting and processing process, and the limiting column plate 30 extends to the inside of the limiting hole 37. By arranging the limiting column plate 30 and the limiting hole 37, the contact tightness between the first pushing plate 24 and the second pushing plate 36 can be increased, and a certain positioning effect is achieved.

The bottom end of the inner side of the rectangular frame 1 is provided with a driving mechanism for driving the top arc-shaped template 5 to ascend and descend and driving the side template 4 to stretch.

The actuating mechanism includes the lower hydraulic cylinder 19 of horizontal installation on rectangular frame 1 bottom plate surface, the inside horizontal installation of lower hydraulic cylinder 19 has division board 55 to cut apart it into, two lower cavities, on, two lower cavities are inside to seal slidable mounting respectively has fourth sealed push pedal 56 and the sealed push pedal 57 of fifth, there are drive frame 58 and lower drive frame 60 on the sealed push pedal 56 of fourth and the sealed push pedal 57 one side of fifth respectively horizontally connect, it jointly extends to the outside of lower hydraulic cylinder 19 and tip and is connected with the driving piece jointly to go up drive frame 58 and lower drive frame 60, a plurality of second ventholes 59 have been seted up to the tip that lower hydraulic cylinder 19 is close to the driving piece.

The middle hydraulic cylinder 14 is horizontally arranged at the middle position of the rectangular frame 1 at the top end of the lower hydraulic cylinder 19, sixth sealing push plates 61 are symmetrically arranged at two ends of the inside of the middle hydraulic cylinder 14 in a sliding and sealing mode, two sixth sealing push plates 61 are mutually far away from one end and are respectively connected with a first driving rod 12 in a horizontal mode, the first driving rods 12 extend to the outside of the middle hydraulic cylinder 14, the end portions of the first driving rods 12 are respectively connected with a driving frame 9, gaps are reserved between the penetrating positions of the first driving rods 12 and the middle hydraulic cylinder 14, the driving frame 9 penetrates through the side wall of the rectangular frame 1, the end portions of the rectangular frame 9 are connected with clamping pieces, and the clamping pieces are respectively connected with the side template 4 in the using process.

An upper hydraulic cylinder 13 is vertically installed at the middle position of the top of a middle hydraulic cylinder 14, a third sealing push plate 53 is installed inside the upper hydraulic cylinder 13 in a sealing and sliding mode, a third driving rod 26 is vertically connected to the top end of the third sealing push plate 53, the third driving rod 26 extends to the outside of the upper hydraulic cylinder 13, the end portion of the third driving rod 26 is connected with the bottom of a lower U-shaped frame 17, a gap is reserved between the through positions of the third driving rod 26 and the upper hydraulic cylinder 13, a first infusion tube 21 is installed between the middle position of the bottom of the middle hydraulic cylinder 14 and a lower hydraulic cylinder 19 at the end, far away from a second vent hole 59, of a fourth sealing push plate 56 above a partition plate 55, and a second infusion tube 38 is installed between the lower hydraulic cylinder 19 at the position, corresponding to the first infusion tube 21, below the partition plate 55 and the inside bottom end of the upper hydraulic cylinder 13 in a communicating mode.

The driving piece comprises a driving plate 50 horizontally arranged at one end close to the second vent hole 59, two sliding rails 18 are horizontally arranged on the bottom surface of the driving plate 50, the sliding rails 18 are movably clamped into two rail grooves 48 arranged on the surface of the bottom plate of the rectangular frame 1, a first bending sliding groove 45 and a second bending sliding groove 46 are respectively arranged on two sides of the driving plate 50 along the direction of the sliding rails 18, the first bending sliding groove 45 and the second bending sliding groove 46 are symmetrically arranged along the diagonal line of the driving plate 50, sliding pieces 49 are respectively arranged in the first bending sliding groove 45 and the second bending sliding groove 46 in a sliding manner, supporting columns 47 are vertically and rotatably arranged at the top ends of the sliding pieces 49, wherein the top ends of the supporting columns 47 far away from one side of the lower hydraulic cylinder 19 are connected with end corners of the upper driving frame 58, the top ends of the other supporting columns 47 are connected with end corners of the lower driving frame 60, a pulling piece is arranged on one side of the driving plate 50 far away from the lower hydraulic cylinder 19, the pulling piece comprises a hydraulic cylinder 52 fixedly arranged at the bottom end inside the rectangular frame 1, the end part of the telescopic end of the hydraulic cylinder 52 is fixedly provided with a connecting frame 51, and the connecting frame 51 is fixedly arranged in the middle of the side edge of the driving plate 50.

Through the arrangement of the slide rail 18 and the rail groove 48, the driving plate 50 can be slidably mounted at the bottom end of the inner side of the rectangular frame 1, the arranged hydraulic cylinder 52 can drive the driving plate 50 to move along the rail groove 48, when the driving plate 50 moves towards the contraction direction of the hydraulic cylinder 52, the sliding member 49 correspondingly connected with the lower driving frame 60 can slide in the inclined slide groove of the first bending slide groove 45, so that the lower driving frame 60 is driven to drive the fifth sealing push plate 57 to push the lower hydraulic cylinder 19, so as to push the liquid in the lower hydraulic cylinder 19 below the partition plate 55 to the upper hydraulic cylinder 13 through the second liquid conveying pipe 38, so as to drive the third sealing push plate 53 and the third driving rod 26 to push the lower U-shaped frame 17 to rise, thereby adjusting the height of the top arc-shaped template 5, and the sliding member 49 can continuously move towards the horizontal groove of the first bending slide groove 45 after sliding in the inclined slide groove of the first bending slide groove 45, at this time, the fifth sealing push plate 57 is in a static state, while the sliding member 49 moves in the horizontal groove of the first bending sliding groove 45, the sliding member 49 inside the second bending sliding groove 46 moves towards the inclined sliding groove inside the second bending sliding groove 46, so that the upper driving rack 58 is driven to drive the fourth sealing push plate 56 to push towards the inside of the lower hydraulic cylinder 19, so that the liquid inside the lower hydraulic cylinder 19 above the partition plate 55 is pushed towards the inside of the middle hydraulic cylinder 14 through the first liquid conveying pipe 21, so that the two sixth sealing push plates 61 move in opposite directions, and the first driving rod 12 drives the driving rack 9 to push the side mold plates 4 towards two sides, so that the sealing clamp plates 8 are clamped inside the clamping grooves 32, and the side mold plates 4 and the top arc mold plate 5 can be tightly spliced.

A first limiting ring 43 is fixedly arranged at the middle position in the upper air box 6, and a second limiting ring 54 is fixedly arranged at the middle position in the middle hydraulic cylinder 14; by providing the first and second retainer rings 43 and 54, the moving positions of the first and sixth seal push plates 42 and 61 can be retained.

Go up and be provided with sliding construction between 6 tops of gas tank and the 5 inner walls of top arc template, sliding construction includes the H type frame 23 of installing at 6 top both ends of gas tank perpendicularly respectively, and the equal vertical rotation in H type frame 23 top end angle installs rail wheel 31, and the track 35 that corresponds with H type frame 23 position is installed to 5 inner walls of top arc template, and rail wheel 31 slides in the adjacent track 35 outside. Through setting up H type frame 23, rail wheel 31 and track 35 to can lift arc template 5, with this stability of arc template 5 in the removal in-process of top of improving, reduce staff's the operation degree of difficulty simultaneously.

The clamping part comprises a dovetail clamping sleeve 11 fixedly installed at the end part of the driving frame 9, a dovetail plate 3 is horizontally connected to the side wall of the side template 4 at the position corresponding to the dovetail clamping sleeve 11, and the dovetail clamping sleeve 11 is slidably clamped at the outer side of the dovetail plate 3 and connected with the outer side of the dovetail plate through a plurality of locking bolts 10. Through setting up dovetail plate 3, locking bolt 10 and forked tail cutting ferrule 11 to can stabilize the installation to offside template 4, be convenient for simultaneously follow-up offside template 4 dismantlement.

Draw-in groove 32 has all been seted up to 5 both ends inner walls of top arc template, and the equal integrated into one piece in side form 4 top has with the sealed cardboard 8 of draw-in groove 32 assorted, through setting up draw-in groove 32 and sealed cardboard 8 to can increase the compactness of concatenation between top arc template 5 and the side form 4.

The working principle is as follows: firstly, the top arc-shaped template 5 is stably installed through the positioning mechanism, the first pushing plate 24 is pushed in the moving process of the top arc-shaped template 5, so that the L-shaped plate 25 stretches the second driving rod 20 and the stretching spring 22, the second sealing pushing plate 44 inputs the gas in the lower gas box 16 into the upper gas box 6 through the Y-shaped gas pipe 39, the two first sealing pushing plates 42 are driven to move reversely, the positioning plate 28 is pushed to move through the fourth driving rod 29, after the top arc-shaped template 5 is pushed in place, the positioning plate 28 can directly contact with the clamping plate 34, and the positioning column 27 extends to the positioning hole 33, so that the top arc-shaped template 5 is positioned and installed. Meanwhile, the side die plate 4 is stably installed through the clamping component, the dovetail plate 3 on the side die plate 4 is clamped into the dovetail clamping sleeve 11, and then the dovetail plate and the dovetail clamping sleeve are fixedly connected together through the locking bolt 10.

Then the device is moved to the position of the tunnel needing water stopping, under the matching of the slide rail 18 and the rail groove 48, the hydraulic cylinder 52 drives the driving plate 50 to move, when the driving plate 50 moves towards the contraction direction of the hydraulic cylinder 52, the corresponding sliding piece 49 connected with the lower driving frame 60 slides in the inclined slide groove of the first bending slide groove 45, so that the lower driving frame 60 is driven to drive the fifth sealing push plate 57 to push the lower hydraulic cylinder 19, the liquid in the hydraulic cylinder 19 below the separation plate 55 is pushed into the upper hydraulic cylinder 13 through the second liquid conveying pipe 38, so that the third sealing push plate 53 and the third driving rod 26 are driven to push the lower U-shaped frame 17 to ascend, thereby the height of the top arc-shaped template 5 is adjusted, and the sliding piece 49 continuously moves towards the horizontal groove of the first bending slide groove 45 after the inclined surface of the first bending slide groove 45 finishes sliding, at this time, the fifth sealing push plate 57 is in a static state, while the sliding member 49 moves horizontally in the first bending sliding groove 45, the sliding member 49 inside the second bending sliding groove 46 moves toward the inclined sliding groove inside the second bending sliding groove 46, thereby driving the upper driving rack 58 to drive the fourth sealing push plate 56 to push the interior of the lower hydraulic cylinder 19, thereby pushing the liquid in the upper hydraulic cylinder 19 and the lower hydraulic cylinder 19 on the partition plate 55 to the middle hydraulic cylinder 14 through the first liquid conveying pipe 21, causing the two sixth sealing push plates 61 to move reversely, so that the first driving rod 12 drives the driving frame 9 to push the sideforms 4 to both sides, so that the sealing clamping plate 8 is clamped into the clamping groove 32, therefore, the side template 4 and the top arc template 5 can be tightly spliced, thereby facilitating the subsequent grouting and water stopping treatment, and similarly, when the driving plate 50 moves, the two side templates 4 contract oppositely, and after the contraction is finished, the top arc-shaped template 5 descends, so that the side templates 4 and the top arc-shaped template 5 can be automatically separated.

Claims (10)

1. The utility model provides a template construction complementary unit is assembled to diversion tunnel stagnant water which characterized in that: comprises a rectangular frame (1), an upper U-shaped frame (7) is movably arranged on a top plate of the rectangular frame (1), a horizontally arranged positioning mechanism is fixed at the top of the upper U-shaped frame (7), the upper U-shaped frame (7) movably penetrates through the top plate of the rectangular frame (1) and then is fixedly connected with a lower U-shaped frame (17), an air expelling mechanism is fixedly arranged on the lower U-shaped frame (17), the air expelling mechanism and a driving device of the positioning mechanism are communicated through a Y-shaped air conveying pipe (39), the bottom of the lower U-shaped frame (17) is connected with an upper hydraulic cylinder (13) which is vertically arranged through a third driving rod (26), the upper hydraulic cylinder (13) is fixedly arranged at the top end of a middle hydraulic cylinder (14) which is horizontally arranged, a first driving rod (12) is respectively arranged at the left end and the right end of the middle hydraulic cylinder (14), the other end of the first driving rod (12) is fixedly connected with a driving frame (9), and a clamping piece is fixedly connected at the other end of the driving frame (9) which movably penetrates through a side plate of the rectangular frame (1), the middle hydraulic cylinder (14) is fixedly arranged at the top of the lower hydraulic cylinder (19), the lower hydraulic cylinder (19) is fixedly arranged on a bottom plate of the rectangular frame (1), the lower hydraulic cylinder (19) is respectively communicated with the middle hydraulic cylinder (14) and the upper hydraulic cylinder (13) through a first infusion tube (21) and a second infusion tube (38), and the lower hydraulic cylinder (19) is fixedly connected with a driving piece movably arranged on the bottom plate of the rectangular frame (1).

2. The water-stopping assembling formwork construction auxiliary mechanism for the water diversion tunnel according to claim 1, characterized in that: the driving piece comprises a driving plate (50) horizontally arranged on one side of a lower hydraulic cylinder (19), two sliding rails (18) are arranged on the bottom surface of the driving plate (50), the sliding rails (18) are movably clamped into rail grooves (48) formed in the surface of a bottom plate of the rectangular frame (1), a first bending sliding groove (45) and a second bending sliding groove (46) are respectively formed in the driving plate (50) along the direction of the sliding rails (18), the first bending sliding groove (45) and the second bending sliding groove (46) are symmetrically arranged along the diagonal line of the driving plate (50), sliding pieces (49) are respectively and slidably arranged in the first bending sliding groove (45) and the second bending sliding groove (46), supporting columns (47) are vertically and rotatably arranged at the top ends of the sliding pieces (49), the two supporting columns (47) are fixedly connected with the lower hydraulic cylinder (19), and a pulling piece is arranged on one side, far away from the lower hydraulic cylinder (19), of the driving plate (50), the pulling member comprises a hydraulic cylinder (52) fixedly mounted on a bottom plate of the rectangular frame (1), the telescopic end of the hydraulic cylinder (52) is fixedly connected with a connecting frame (51), and the connecting frame (51) is fixedly mounted in the middle of the side edge of the driving plate (50).

3. The diversion tunnel water stop assembling formwork construction auxiliary mechanism of claim 2, characterized in that: the lower hydraulic cylinder (19) is horizontally arranged on one side of a bottom plate of the rectangular frame (1), a partition plate (55) is horizontally arranged in the lower hydraulic cylinder (19) to divide the lower hydraulic cylinder into an upper chamber and a lower chamber, a fourth sealing push plate (56) and a fifth sealing push plate (57) are respectively and slidably arranged in the upper chamber and the lower chamber, one side of the fourth sealing push plate (56) and one side of the fifth sealing push plate (57) are respectively and horizontally connected with an upper driving frame (58) and a lower driving frame (60), the upper driving frame (58) and the lower driving frame (60) both extend to the outside of the lower hydraulic cylinder (19), and the end parts of the upper driving frame and the lower driving frame are jointly connected with a driving piece, the supporting column (47) far away from the lower hydraulic cylinder (19) is connected with the upper driving frame (58), the other supporting column (47) is connected with the lower driving frame (60), and a plurality of second vent holes (59) are formed in the end part, close to the driving piece, of the lower hydraulic cylinder (19).

4. The diversion tunnel stagnant water assembles template construction complementary unit of claim 3, its characterized in that: a middle hydraulic cylinder (14) is horizontally arranged at the top end of the lower hydraulic cylinder (19) and positioned in the middle of the rectangular frame (1), two sixth sealing push plates (61) are symmetrically and slidably arranged in the middle hydraulic cylinder (14), one ends, far away from each other, of the two sixth sealing push plates (61) are horizontally connected with first driving rods (12), the first driving rods (12) extend to the outer part of the middle hydraulic cylinder (14), and the end parts of the first driving rods are respectively connected with a driving frame (9); an upper hydraulic cylinder (13) is vertically arranged in the middle of the top of the middle hydraulic cylinder (14), a third sealing push plate (53) is slidably arranged in the upper hydraulic cylinder (13), a third driving rod (26) is vertically connected to the top end of the third sealing push plate (53), the third driving rod (26) extends to the outside of the upper hydraulic cylinder (13), and the end part of the third driving rod is fixedly connected with the lower U-shaped frame (17); the upper cavity of the lower hydraulic cylinder (19) is far away from one side of the second vent hole (59), the outer side end of the fourth sealing push plate (56) is communicated with the middle cavity of the middle hydraulic cylinder (14) through a first infusion tube (21), and the lower cavity of the lower hydraulic cylinder (19) is communicated with the cavity of the upper hydraulic cylinder (13) below the third sealing push plate (53) through a second infusion tube (38) at the same position.

5. The water-stopping assembling formwork construction auxiliary mechanism for the water diversion tunnel according to claim 1, characterized in that: the positioning mechanism comprises an upper air box (6) horizontally arranged in the middle position above a top plate of the rectangular frame (1), two first sealing push plates (42) are symmetrically and slidably mounted in the upper air box (6), one ends, away from each other, of the two first sealing push plates (42) are connected with fourth driving rods (29), the fourth driving rods (29) extend to the outer part of the upper air box (6), the end parts of the fourth driving rods are fixedly connected with positioning plates (28) respectively, and one ends, away from the fourth driving rods (29), of the positioning plates (28) are fixedly connected with positioning columns (27); diversion tunnel stagnant water is assembled template is provided with card dress board (34) including side form (4) and top arc form (5) with locating plate (28) correspondence position department in top arc form (5) inner wall, be provided with locating hole (33) that match with reference column (27) on the card dress board (34), go up equal vertical being connected with in gas tank (6) bottom both ends U type frame (7), go up U type frame (7) equal activity and extend to rectangular frame (1) inboard and the common vertical connection of tip U type frame (17) down, U type frame (17) inboard corresponds rectangular frame (1) inboard top position down and is provided with and drives the gas mechanism.

6. The diversion tunnel water stop assembling formwork construction auxiliary mechanism of claim 5, characterized in that: the gas driving mechanism comprises a lower gas tank (16) which is vertically and horizontally fixedly installed on a U-shaped frame (17) below the top end of the inner side of a rectangular frame (1), one end of the lower gas tank (16) is provided with a plurality of first vent holes (15), a second sealing push plate (44) is installed inside the lower gas tank (16) in a sliding mode, one side, far away from the first vent holes (15), of the second sealing push plate (44) is horizontally connected with two second driving rods (20), the two second driving rods (20) jointly extend to the outer portion of the lower gas tank (16), the end portions of the two second driving rods (20) are respectively connected with an L-shaped plate (25) which extends upwards, the outer sides of the second driving rods (20) are respectively sleeved with an extension spring (22), two ends of the extension spring (22) are respectively fixedly connected with the L-shaped plates (25) and the outer wall of the end portion of the lower gas tank (16), the top ends of the two L-shaped plates (25) are jointly and vertically connected with a first pushing plate (24), the top end portion of the inner wall of a top arc-shaped template (5) is vertically connected with a second pushing plate (36), the first pushing plate (24) and the second pushing plate (36) are correspondingly arranged in position, the lower air box (16) is far away from one end of the first vent hole (15) and is provided with a Y-shaped air conveying pipe (39), the other two ends of the Y-shaped air conveying pipe (39) are communicated with the middle cavity of the upper air box (6), and the other two ends of the Y-shaped air conveying pipe (39) are respectively provided with a control valve (41) and a one-way valve (40) with the ventilation direction facing the inside of the upper air box (6).

7. The diversion tunnel stagnant water assembles template construction complementary unit of claim 6, its characterized in that: the first pushing plate (24) is horizontally connected with a limiting column plate (30) at the middle position of one side, away from the L-shaped plate (25), of the first pushing plate, and a limiting hole (37) matched with the limiting column plate (30) is formed in the second pushing plate (36).

8. The diversion tunnel water stop assembling formwork construction auxiliary mechanism of claim 5, characterized in that: a first limiting ring (43) is fixedly arranged at the middle position inside the upper air box (6), and a second limiting ring (54) is fixedly arranged at the middle position inside the middle hydraulic cylinder (14).

9. The diversion tunnel water stop assembling formwork construction auxiliary mechanism of claim 5, characterized in that: go up and be provided with sliding construction between gas tank (6) top and top arc template (5) inner wall, sliding construction includes H type frame (23) of installing at gas tank (6) top both ends perpendicularly respectively, and rail wheel (31) are installed to the equal vertical rotation in H type frame (23) top, and track (35) that correspond with rail wheel (31) position are installed to the inner wall of top arc template (5).

10. The water-stopping assembling formwork construction auxiliary mechanism for the water diversion tunnel according to claim 1, characterized in that: clamping the piece and including dovetail cutting ferrule (11) of fixed mounting in drive frame (9) tip, the template is assembled including side form board (4) and top arc form board (5) to diversion tunnel stagnant water, and last horizontally connect with dovetail board (3) on the inside wall of side form board (4), and draw-in groove (32) have all been seted up to top arc form board (5) both ends inner wall, and the equal integrated into one piece in side form board (4) top has with draw-in groove (32) assorted sealed cardboard (8).

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