CN114382286B

CN114382286B - Device and method for controlling depth of pipeline pressing groove on structural plate

Info

Publication number: CN114382286B
Application number: CN202111598869.7A
Authority: CN
Inventors: 冯宗耀; 杨晓红
Original assignee: China MCC17 Group Co Ltd
Current assignee: China MCC17 Group Co Ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2023-03-10
Anticipated expiration: 2040-08-31
Also published as: CN112096066A; CN112096066B; CN114382286A

Abstract

The invention discloses a pipeline pressure groove depth control device and method on a structural plate, and belongs to the technical field of laying of pipelines in hydropower installation construction. The control device comprises a control body, a bearing body and a pressure groove body, wherein the control body is adjustably installed on a structural slab, the bearing body comprises a bearing main body and a bearing auxiliary body, the bearing main body is installed on the control body through threads and is positioned above the structural slab, one side of the bearing main body, which is back to the control body, is provided with an installation groove, an elastic waterproof part is installed at the notch of the installation groove, the bearing auxiliary body is installed inside the installation groove, and the bearing auxiliary body is detachably connected with the pressure groove body and is attached to the surface of the elastic waterproof part after being connected with the pressure groove body. The depth of the precise control indent is reached, the thickness of the steel bar protection layer can be guaranteed more efficiently, and the formed concrete surface layer is not easy to be damaged.

Description

Device and method for controlling depth of pipeline pressing groove on structural plate

The invention relates to a device and a method for controlling the depth of a pipeline pressure groove on a structural plate, which is a divisional application of an invention patent application with the application number of 202010895111.9 and the application date of 2020, 08 and 31.

Technical Field

The invention relates to the technical field of laying of pipelines in hydropower installation construction, in particular to a pipeline pressure groove depth control device and a depth control method on a structural plate.

Background

In the building construction, the later-stage pipeline is often required to be subjected to concealed laying, and the procedure of pressing a groove is required to be added in the concealed laying. When a concealed pipeline is required on a structural panel, it is common practice to indent: 1. before concrete pouring, fixing steel pipes (or PVC pipes) with the same pipe diameter on the plate gluten by using iron wires, and taking out the steel pipes (or PVC pipes) after the concrete has certain strength; 2. after concrete is poured, the steel pipe (or the PVC pipe) is manually placed at a preset position, and the steel pipe (or the PVC pipe) is taken away after the steel pipe (or the PVC pipe) is quickly and lightly pressed out of the groove. In the former, on the tied gluten, the pipeline is not easy to be fixed firmly, and in the process of pouring concrete, the gluten is easy to trample, so that the position of the pipeline is changed; in the latter case, the depth of the indent is greatly affected by human factors of the operator. Both of the above two approaches exist: the depth of the pressed groove is not easy to be well controlled, the groove is often too deep, the thickness of a steel bar protection layer of the plate is excessively occupied, and even the plate thickness exceeds the allowable deviation range; easily damaging the formed concrete surface layer, and the like.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a pipeline grooving depth control device and a pipeline grooving depth control method on a structural plate.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a pipeline indent degree of depth controlling means on structural slab, includes the control body, supporting body and indent body, the adjustable installation on the structural slab of the control body, the supporting body is including bearing the main part and bearing the vice body, bear the main part and pass through the top that the screw thread was installed on the control body and was located the structural slab, the mounting groove has been seted up to one side that the main part was the control body dorsad, mounting groove notch department installs the elasticity waterproof part, it installs inside the mounting groove to bear the vice body, it can dismantle with the indent body and be connected the surface laminating of back indent body and elasticity waterproof part to bear the vice body.

Further preferred scheme, the control body includes main part pole, sleeve and stagnant water nut, the main part pole run through inside the sleeve and with bear main part threaded connection, telescopic top and the sealed connection of bearing the main part, stagnant water nut sets up the both sides at the structural slab.

Further preferred scheme, the holding ring has been seted up to the bottom that bears the weight of the main part, the embedded sealing ring that is equipped with of holding ring, set up the annular with the holding ring adaptation on the sleeve, the annular is inside to be equipped with the binder.

Further preferred scheme, it is Y-shaped structure to bear the weight of the main part, it includes the guide rail, resets, slider and positioning claw to bear the weight of the auxiliary body, mounting groove internally mounted has the guide rail that two symmetries set up, two guide rail inside all is equipped with the piece and the slider that reset, two reset piece and the slider fixed connection that corresponds, two all rotate on the slider and be connected with the positioning claw.

Further preferred scheme, it is Y-shaped structure to bear the weight of the main part, the constant head tank has been seted up to the inside symmetry of mounting groove, bear the weight of the subpiece including mainboard, subplate and spacing groove, mainboard and subplate all with mounting groove looks adaptation, mainboard and subplate body coupling, the subplate is equipped with two both sides that are located the supporting body respectively, two all install locating component on the subplate, two the subplate passes through locating component and is connected with the constant head tank that corresponds, spacing groove is seted up in the middle part of mainboard and is laminated with the supporting body surface, be equipped with sealed the pad on the groove face of spacing groove.

Further preferred scheme, two the inside circular arc portion that is equipped with of constant head tank, it is two sets of the locating component includes spout, spring and leading wheel, and is two sets of the spout is all seted up on the subplate that corresponds, and is two sets of the inside spring that all is equipped with of spout, it is two sets of the leading wheel activity respectively sets up inside the spout that corresponds and with the spring coupling that corresponds, the leading wheel gets into circular arc portion connection subplate and constant head tank under the spring action.

Further preferably, the outer wall of the bearing main body is provided with a plurality of waterproof protruding parts which are obliquely arranged downwards along one side close to the control body.

The invention also discloses a depth control method of the pipeline pressure groove depth control device on the structural plate, which comprises the following steps:

A. firstly, a main body rod penetrates through a sleeve and is in threaded connection with a bearing main body, the sleeve is also in sealed connection with the bearing main body, and then a water stop nut is adjusted to enable the top of the bearing main body to be flush with the surface of a steel bar protection layer and then fixed;

B. when the groove pressing body is installed, the two positioning claws and the sliding block are pulled to move upwards together, and the groove pressing body is placed between the two positioning claws;

C. then the positioning claw is loosened, the sliding block drives the positioning claw to move downwards together under the direct action of the resetting piece, the positioning claw rotates downwards and drives the sliding block to move downwards along the guide rail, finally, the positioning claw can tightly press the groove body in an embracing mode, and the groove body is efficiently fixed in the mounting groove and tightly attached to the elastic waterproof piece;

D. and finally, pouring concrete and leveling the concrete to the surface of the designed steel bar protective layer, and pulling the pressure groove body upwards after the concrete reaches a certain strength.

A. firstly, a main body rod penetrates through a sleeve and is in threaded connection with a bearing main body, meanwhile, the sleeve is also in sealed connection with the bearing main body, and then a water stop nut is adjusted to level and fix the top of the bearing main body with the surface of a steel bar protective layer;

B. the groove pressing body is placed on the elastic waterproof piece, the limiting groove and the groove pressing body are guaranteed to be located in the same vertical plane, and the main board and the auxiliary board are downwards extruded;

C. the guide wheel moves downwards and moves to the arc part to be connected with the positioning groove and the auxiliary plate through the guiding and action of the inner wall of the bearing main body with the Y-shaped structure;

D. and finally, pouring concrete and leveling the concrete to the surface of the designed steel bar protective layer, applying an acting force to the main board to pull upwards after the concrete reaches a certain strength, so that the main board drives the auxiliary board to move upwards, and the guide wheel is separated from the arc part under the action of the spring, so that the pressure tank body can be detached.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention is provided with a control body, a bearing body and a groove pressing body, wherein the bearing body is adjustably arranged on a structural plate by utilizing the control body, a bearing main body on the bearing body is connected with the control body, a mounting groove is arranged on the bearing main body, an elastic waterproof piece is arranged on the mounting groove, a bearing auxiliary body and the mounting groove are positioned and mounted, the groove pressing body is arranged on the bearing auxiliary body and is tightly attached to the elastic waterproof piece to prevent slurry from leaking, finally, the groove pressing depth of the groove pressing body is adjusted and controlled by the control body, the groove pressing depth is accurately controlled, meanwhile, the thickness of a steel bar protection layer can be more efficiently ensured, and a formed concrete surface layer is not easy to damage.

2. The control body arranged in the invention comprises a main body rod, a sleeve and a water stop nut, the main body rod penetrates through the sleeve and is in threaded connection with the bearing main body, and meanwhile, the sleeve is also in sealed connection with the bearing main body, so that water leakage in the later period is prevented, and the sleeve and the bearing main body are controlled at a certain height by adjusting the water stop nut, so that the groove pressing depth of the device is ensured.

3. The bearing main body adopted by the invention is of a Y-shaped structure, and one scheme is as follows: the bearing auxiliary body comprises a guide rail, a reset piece, a sliding block and positioning claws, when the groove pressing body is installed, the two positioning claws and the sliding block are pulled to move upwards together, the groove pressing body is placed between the two positioning claws, the sliding block drives the positioning claws to move downwards together under the direct action of the reset piece, the positioning claws rotate downwards and drive the sliding block to move downwards along the guide rail, finally, the positioning claws can clamp and press the groove body, and the groove pressing body is efficiently fixed in the installation groove and is tightly attached to the elastic groove pressing body; the other scheme is as follows: the constant head tank has been seted up to the symmetry in the mounting groove, bear the subplate and include the mainboard, subplate and spacing groove, utilize mainboard and subplate body coupling, spacing groove and indent body adaptation, locating component that is equipped with on the subplate is connected with the constant head tank simultaneously, the realization can be dismantled and is connected, locating component specifically includes the spout, spring and leading wheel, and the inside circular arc portion of constant head tank, utilize the leading wheel downstream and through the inner wall direction and the effect of the main part that bears of Y shape structure, it connects constant head tank and subplate with it to remove the leading wheel department, can upwards stimulate to the mainboard with applying effort when needs are dismantled, make the mainboard drive the subplate rebound, the leading wheel will separate with circular arc portion under the spring action, be convenient for install and remove of supporting body, it can also guarantee its indent degree of depth precision to improve the efficiency of construction greatly.

Drawings

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

FIG. 2 is a sectional view showing the connection of the main bearing body, the sub bearing body and the indent body in FIG. 1;

FIG. 3 is a front view of the connection relationship between the main bearing body, the auxiliary bearing body and the pressure tank in FIG. 1;

FIG. 4 is a schematic view of the overall structure of embodiment 2 of the present invention;

fig. 5 is a sectional view showing a connection relationship between the main bearing body, the sub bearing body and the indent body in fig. 4.

In the figure:

1. a control body; 11. a main body lever; 12. a sleeve; 13. a water stop nut;

2. a carrier;

3. pressing the trough body;

4. a load bearing body; 41. mounting grooves; 42. an elastic waterproof member; 43. a positioning ring; 44. a seal ring; 45. positioning a groove; 451. a circular arc portion; 46. a waterproof boss;

5. a load bearing sub-body; 51. a guide rail; 52. a reset member; 53. a slider; 54. a positioning claw; 55. a main board; 56. A sub-board; 58. a gasket; 59. a chute; 510. a guide wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1 to 3, a pipeline pressure groove depth control device on a structural slab, including the control body 1, supporting body 2 and pressure cell body 3, the adjustable installation of the control body 1 is on the structural slab, the supporting body 2 is including bearing main part 4 and bearing vice body 5, bear main part 4 and pass through the top that the screw thread was installed on the control body 1 and was located the structural slab, bearing main part 4 has seted up mounting groove 41 to one side of the control body 1 dorsad, the elastic waterproof part 42 is installed to mounting groove 41 notch department, it installs inside mounting groove 41 to bear vice body 5, bear vice body 5 and press cell body 3 can dismantle to be connected and be connected the laminating of back pressure cell body 3 and elastic waterproof part 42's surface.

Utilize the control body 1 with 2 adjustable installations of supporting body on the structural slab, the main part 4 that bears on the supporting body 2 is connected with the control body 1, bearing and having seted up mounting groove 41 on the main part 4, be equipped with elasticity waterproof part 42 on the mounting groove 41, bear the vice body 5 and realize the location installation with mounting groove 41 and will press the cell body 3 to install on it and closely laminate with elasticity waterproof part 42 and prevent the seepage thick liquids, finally press the indent degree of depth through 1 regulation control pressure cell body 3 of the control body, reach the degree of depth of accurate control indent, can also guarantee the thickness of protective layer of steel reinforcement more high-efficiently simultaneously, concrete surface course after the shaping is difficult to be destroyed.

In this embodiment, it is further preferable that the control body 1 includes a main body rod 11, a sleeve 12, and a water-stop nut 13, the main body rod 11 penetrates inside the sleeve 12 and is in threaded connection with the bearing main body 4, the top of the sleeve 12 is in sealed connection with the bearing main body 4, and the water-stop nut 13 is disposed on both sides of the structural plate.

Utilize main part pole 11 to run through sleeve 12 and with bear 4 threaded connection of main part, sleeve 12 also with bear 4 sealing connection of main part simultaneously, prevent later stage percolating water, through adjusting stagnant water nut 13 with sleeve 12 and bear 4 control at a take the altitude, guarantee the indent degree of depth of device.

In this embodiment, it is further preferable that a positioning ring 43 is disposed at the bottom of the bearing body 4, a sealing ring 44 is embedded in the positioning ring 43, a ring groove adapted to the positioning ring 43 is disposed on the sleeve 12, and an adhesive is disposed inside the ring groove. A sealing ring 44 is mounted inside the positioning ring 43 and fitted with an annular groove for sealing effect.

In this embodiment, it is further preferable that the bearing main body 4 has a Y-shaped structure, the bearing sub-body 5 includes a guide rail 51, a reset piece 52, a slider 53 and a positioning claw 54, two guide rails 51 symmetrically arranged are installed inside the installation groove 41, the reset piece 52 and the slider 53 are both installed inside the two guide rails 51, the two reset pieces 52 are fixedly connected to the corresponding slider 53, the two sliders 53 are both rotatably connected to the positioning claw 54, and the reset piece 52 is a spring.

When the tank pressing body 3 is installed, the two positioning claws 54 and the sliding block 53 are pulled to move upwards together, the tank pressing body 3 is placed between the two positioning claws 54, the sliding block 53 drives the positioning claws 54 to move downwards together under the direct action of the resetting piece 52, the positioning claws 54 drive the sliding block 53 to move downwards along the guide rail 51 while rotating downwards, finally the positioning claws 54 tightly press the tank body 3 in an embracing mode, and the tank pressing body 3 is efficiently fixed in the installation groove 41 and tightly attached to the elastic waterproof piece 42.

In this embodiment, it is further preferable that the outer wall of the bearing main body 4 is provided with a plurality of waterproof protrusions 46, and the waterproof protrusions 46 are obliquely downward along a side close to the control body 1. The waterproof boss 46 is used for waterproof treatment of the position where the bearing body 4 is installed, and the later stage water leakage effect is prevented.

Example 2:

referring to fig. 4 to 5, what is different from embodiment 1 is that the bearing main body 4 is a Y-shaped structure, the positioning grooves 45 are symmetrically arranged in the mounting groove 41, the bearing auxiliary body 5 comprises a main plate 55, an auxiliary plate 56 and a limiting groove, the main plate 55 and the auxiliary plate 56 are both adapted to the mounting groove 41, the main plate 55 is integrally connected with the auxiliary plate 56, the auxiliary plate 56 is provided with two sides respectively located on the bearing body 2, two positioning components are arranged on the auxiliary plate 56, the auxiliary plate 56 is connected with the corresponding positioning grooves 45 through the positioning components, the limiting groove is arranged in the middle of the main plate 55 and is attached to the surface of the bearing body 2, and the sealing gasket 58 is arranged on the groove surface of the limiting groove.

In this embodiment, further preferred scheme, two the inside circular arc portion 451 that is equipped with of constant head tank 45, two sets of locating component includes spout 59, spring and leading wheel 510, and is two sets of spout 59 all sets up on corresponding subplate 56, and is two sets of spout 59 is inside all to be equipped with the spring, and two sets of leading wheel 510 activity respectively sets up inside corresponding spout 59 and with corresponding spring coupling, leading wheel 510 gets into circular arc portion 451 and connects subplate 56 and constant head tank 45 under the spring action.

Utilize

mainboard

55 and 56 body coupling of subplate, spacing groove and the 3 adaptations of pressure groove body, the locating component who is equipped with on the subplate 56 is connected with constant head tank 45 simultaneously, realize dismantling the connection, utilize 5 downstream of leading wheel and through the inner wall direction and the effect of the main part 4 that bears of Y shape structure, move leading wheel 510 to circular arc portion 451 department and connect constant head tank 45 and subplate 56 with it, can upwards spur to the mainboard with applying effort when needs are dismantled, make mainboard 55 drive 56 rebound of subplate, leading wheel 510 will separate with circular arc portion 451 under the spring action, be convenient for install and remove of supporting body 2, improve the efficiency of construction greatly and can also guarantee its indent degree of depth precision.

Example 3:

a depth control method of a pipeline grooving depth control device on a structural plate is characterized by comprising the following steps:

A. firstly, a main body rod 11 penetrates through a sleeve 12 and is in threaded connection with a bearing main body 4, meanwhile, the sleeve 12 is also in sealed connection with the bearing main body 4, and then a water stop nut 13 is adjusted to enable the top of the bearing main body 4 to be flush with the surface of a steel bar protection layer and then fixed;

B. when the groove pressing body 3 is installed, the two positioning claws 54 and the slide block 53 are pulled to move upwards together, and the groove pressing body 3 is placed between the two positioning claws 54;

C. then the positioning claw 54 is loosened, the sliding block 53 drives the positioning claw 54 to move downwards together under the direct action of the resetting piece 52, the positioning claw 54 rotates downwards and drives the sliding block 53 to move downwards along the guide rail 51, finally the positioning claw 54 can clamp and press the tank body 3, and the tank body 3 is efficiently fixed in the mounting groove 41 and is tightly attached to the elastic waterproof piece 42;

D. and finally, pouring concrete and leveling the concrete to the surface of the designed steel bar protective layer, and pulling the pressure groove body 3 upwards after the concrete reaches a certain strength.

Example 4:

the difference from example 3 is: a depth control method of a pipeline grooving depth control device on a structural plate is characterized by comprising the following steps:

B. the groove pressing body 3 is arranged on the elastic waterproof piece 42, the limiting groove and the groove pressing body 3 are ensured to be positioned in the same vertical plane, and the main plate 55 and the auxiliary plate 56 are downwards extruded;

C. the guide wheel 510 moves downwards and moves to the arc part 451 through the guiding and action of the inner wall of the bearing main body 4 with the Y-shaped structure to connect the positioning groove 45 and the auxiliary plate 56;

D. concrete is poured and the flattening is to design reinforcing bar protective layer surface at last, after the concrete reaches certain intensity, exerts effort to the mainboard and upwards stimulates for mainboard 55 drives subplate 56 rebound, and leading wheel 510 will separate with circular arc portion 451 under the spring action, can demolish the pressure cell body 3.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. The substitution may be of partial structures, devices, method steps, or may be a complete solution. The technical solution and the inventive concept thereof according to the present invention should be equally replaced or changed within the protection scope of the present invention.

Claims

1. The device for controlling the pipeline pressure groove depth on the structural slab is characterized by comprising a control body (1), a bearing body (2) and a pressure groove body (3), wherein the control body (1) is adjustably installed on the structural slab, the bearing body (2) comprises a bearing main body (4) and a bearing auxiliary body (5), the bearing main body (4) is installed on the control body (1) through threads and located above the structural slab, one side, back to the control body (1), of the bearing main body (4) is provided with an installation groove (41), an elastic waterproof part (42) is installed at the notch of the installation groove (41), the bearing auxiliary body (5) is installed inside the installation groove (41), and the bearing auxiliary body (5) and the pressure groove body (3) are detachably connected and are attached to the surface of the pressure groove body (3) and the elastic waterproof part (42) after connection;

bear main part (4) and be Y shape structure, constant head tank (45) have been seted up to mounting groove (41) inside symmetry, bear vice body (5) including mainboard (55), subplate (56) and spacing groove, mainboard (55) and subplate (56) all with mounting groove (41) looks adaptation, mainboard (55) and subplate (56) body coupling, subplate (56) are equipped with two both sides that are located supporting body (2) respectively, two all install locating component on subplate (56), two subplate (56) are connected with constant head tank (45) that correspond through locating component, spacing groove is seted up in the middle part of mainboard (55) and is laminated with supporting body (2) surface, be equipped with sealed pad (58) on the groove face in spacing groove.

2. The device for controlling the depth of the pipeline pressure groove on the structural panel according to claim 1, wherein two positioning grooves (45) are internally provided with arc portions (451), two groups of positioning assemblies comprise sliding grooves (59), springs and guide wheels (510), the sliding grooves (59) are respectively arranged on corresponding auxiliary plates (56), the springs are respectively arranged inside the sliding grooves (59), the guide wheels (510) are respectively and movably arranged inside the corresponding sliding grooves (59) and connected with the corresponding springs, and the guide wheels (510) enter the arc portions (451) under the action of the springs to connect the auxiliary plates (56) and the positioning grooves (45).

3. The pipeline pressure groove depth control device on the structural slab as claimed in claim 2, wherein the control body (1) comprises a main body rod (11), a sleeve (12) and a water stop nut (13), the main body rod (11) penetrates through the inside of the sleeve (12) and is in threaded connection with the bearing main body (4), the top of the sleeve (12) is in sealed connection with the bearing main body (4), the water stop nut (13) is arranged on both sides of the structural slab, and the water stop nut (13) is adjusted to level the top of the bearing main body (4) with the surface of the steel bar protection layer.

4. The device for controlling the groove pressing depth of the pipe line on the structural plate as claimed in claim 3, wherein the bottom of the bearing main body (4) is provided with a positioning ring (43), a sealing ring (44) is embedded in the positioning ring (43), the sleeve (12) is provided with a ring groove adapted to the positioning ring (43), and the ring groove is internally provided with an adhesive.

5. A depth control method for a pipe line groove depth control device on a structural panel as claimed in claim 4, comprising the steps of:

A. firstly, a main body rod (11) penetrates through a sleeve (12) and is in threaded connection with a bearing main body (4), meanwhile, the sleeve (12) is also in sealed connection with the bearing main body (4), and then a water stop nut (13) is adjusted to enable the top of the bearing main body (4) to be flush with the surface of a steel bar protection layer and then fixed;

B. the pressure tank body (3) is arranged on the elastic waterproof piece (42), the limiting groove and the pressure tank body (3) are ensured to be positioned in the same vertical plane, and the main plate (55) and the auxiliary plate (56) are extruded downwards;

C. the guide wheel (510) moves downwards and moves to the arc part (451) through the guiding and acting of the inner wall of the bearing main body (4) with the Y-shaped structure to connect the positioning groove (45) and the auxiliary plate (56);

D. and finally, pouring concrete and leveling the concrete to the surface of the designed steel bar protective layer, after the concrete reaches a certain strength, applying an acting force to the main board (55) to pull upwards, so that the main board (55) drives the auxiliary board (56) to move upwards, and the guide wheel (510) is separated from the arc part (451) under the action of a spring, so that the pressure tank body (3) can be detached.