CN215614670U - Auxiliary correcting equipment for vertical rib outlet of prefabricated part - Google Patents

Abstract

The utility model discloses a correcting auxiliary device for a vertical rib of a prefabricated part, which comprises a groove positioning device and an adjusting device, wherein the groove positioning device is used for reserving a groove at the extending position of the vertical rib on the surface of the prefabricated part, the adjusting device comprises an auxiliary supporting piece, the auxiliary supporting piece is used for providing a supporting force application point for the bending of the vertical rib, the auxiliary supporting piece comprises a base and a stepless adjusting piece, the upper surface of the base is provided with a fixed rod, the stepless adjusting piece is rotatably sleeved on the fixed rod, and the stepless adjusting piece is fixed on the fixed rod through a fixing piece. According to the auxiliary device for correcting the vertical rib output of the prefabricated part, the auxiliary supporting piece is arranged to provide a force application supporting point for the vertical rib output straightening operation, so that the accuracy and reliability of the whole vertical rib output adjusting process are guaranteed, the vertical rib output is guaranteed to be adjusted in place, and the more convenient and accurate vertical rib output adjustment of the prefabricated part can be realized.

Description

Auxiliary correcting equipment for vertical rib outlet of prefabricated part

Technical Field

The utility model belongs to the technical field of construction of fabricated buildings, and particularly relates to auxiliary correction equipment for vertical reinforcement outlet of a prefabricated part.

Background

The hoisting of the prefabricated parts is a key ring in the construction process of the fabricated building, and whether accurate hoisting alignment can be realized is important to the construction quality of the prefabricated parts. The prefabricated parts are usually connected in a reinforcing steel bar sleeve mode, namely, a stress bar of a lower prefabricated part extends out from the surface of the top side to form a bar, a sleeve is embedded in the bottom of an upper prefabricated part, the upper prefabricated part is placed on the top side of the lower prefabricated part, the bar extending out of the lower prefabricated part extends into the sleeve of the upper prefabricated part, and then the connection between the bar and the sleeve is realized through grouting. The connection mode has high requirement on the accuracy of the rib outlet position, and when the rib outlet position deviates, the rib outlet can be properly bent and corrected to a target position within a certain range, and then the rib outlet can smoothly extend into the sleeve.

Because a gasket with the height of 2cm is generally arranged between the upper prefabricated part and the lower prefabricated part, the vertical ribbing can only be corrected within the range of 2 cm. According to the requirements of building specifications (drawing rules and construction detailed diagrams of the plane overall representation method of the construction drawing of the 03G101-1 concrete structure), in order to ensure that the performance of the reinforcing bar is not affected, the procedure of reinforcing bar bending cheapness can only be adjusted within the range that the width-height ratio is less than 1/6, the width-height ratio is also the ratio between the horizontal distance of reinforcing bar bending offset and the bending height, and therefore the allowable bending offset range within the height range of 2cm is usually 3 mm. However, since the accuracy of construction errors is often in the centimeter level, the adjustment offset of the protruding rib in the height range of 2cm is often larger than the limit value. At this moment, the concrete around the vertical reinforcing bar needs to be partially chiseled to provide an operation space for the adjustment of the reinforcing bar, and the reinforcing bar is ensured to be bent to a target position within a standard allowable range so as to smoothly extend into the sleeve. Such an operation not only affects the construction progress, but also results in poor concrete appearance quality.

In the adjustment process of the bar outlet, the bar outlet is generally bent for the second time to ensure that the bar outlet is adjusted in place. Bending the vertical steel bar to a target position by the first bending; and bending for the second time to straighten the vertical ribs. The first bending point is the joint of the vertical rib and the surface of the prefabricated part, and the second bending point is above the surface of the prefabricated part. Since the distance between the upper and lower prefabricated parts is typically within 2cm, the second bending point can only be located at a maximum of 2cm above the surface of the lower prefabricated part. The technical problems of the vertical rib-outlet adjusting operation mode are as follows: when the distance between the two bending points is too close, concrete is broken to increase the distance between the bending points; the secondary bending point is located the surface top of prefabricated component, if not place cushion etc. and support, the reinforcing bar can appear kick-backing during the adjustment of buckling, hardly adjusts to target in place, and the precision of unable accurate control adjustment leads to needing to adjust repeatedly many times.

In summary, it is desirable to provide a correction auxiliary device for a vertical rib of a prefabricated component, which is used to solve the above problems in the prior art, so as to achieve more convenient and accurate adjustment of the rib of the prefabricated component.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a prefabricated component vertical goes out correction auxiliary assembly of muscle for solve the above-mentioned problem that exists among the prior art, with the play muscle that realizes more convenient more accurate adjustment prefabricated component.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a prefabricated component vertical play muscle rectify auxiliary assembly, includes recess positioning device and adjusting device, recess positioning device is used for the prefabricated component vertical play muscle on the surface stretching out position department reserve the recess, adjusting device includes supplementary support piece, supplementary support piece is used for providing the support impetus for vertical play muscle's buckling, supplementary support piece includes base and stepless trimmer, the upper surface of base is provided with the dead lever, stepless trimmer rotationally the cover is established on the dead lever, will through the mounting stepless trimmer is fixed in the dead lever.

On the basis of the scheme, in another improved scheme, the ratio of the radius of the reserved groove to the sum of the height of the reserved groove and the distance between the upper-layer prefabricated part and the lower-layer prefabricated part is less than or equal to 1: 6.

On the basis of the scheme, in another improved scheme, the groove positioning device comprises an embedded part, the embedded part comprises a hollow steel bar sleeve and a round table, the top end of the round table is connected with the bottom end of the steel bar sleeve, and a through hole for the vertical steel bar to pass through is formed in the bottom end of the round table.

On the basis of the scheme, in another improved scheme, the circular truncated cone is in a cone-like shape or a cylinder-like shape, and a circle of elastic annular belt is arranged on the inner side surface of the opening end. The top end of the steel bar sleeve is provided with a blind hole.

On the basis of the scheme, in another improved scheme, the groove positioning device comprises an elastic piece, the elastic piece is in a cone-like shape or a cylinder-like shape, and a vertical hole for allowing the vertical rib to penetrate is formed in the elastic piece.

On the basis of the scheme, in another improved scheme, the groove positioning equipment further comprises a dismounting piece, the dismounting piece comprises a clamping piece and a pull rod, the clamping piece is provided with a clamping groove, and the pull rod is fixed on one side of the clamping piece.

On the basis of the scheme, in another improved scheme, the shape radian of the lower part of the base is matched with the shape radian of the inner wall of the reserved groove.

On the basis of the above scheme, in another modified scheme, the stepless adjusting sheet is of a spiral plate-like structure, the fixing rod is in threaded connection with the stepless adjusting sheet, and the fixing piece is a nut which is arranged on the upper surface of the stepless adjusting sheet and is in threaded connection with the fixing rod.

On the basis of the scheme, in another improved scheme, the base comprises a vertical plate and a transverse plate which are vertically and fixedly connected with each other, and the fixing rod and the fixing piece are used for arranging the stepless adjusting plate on the upper surface of the transverse plate.

On the basis of the scheme, in another improved scheme, the positioning device further comprises an auxiliary positioning piece, and a notch groove is formed in the edge of the auxiliary positioning piece.

On the basis of the scheme, in another improved scheme, the height of the auxiliary positioning piece is smaller than or equal to the distance between the upper-layer prefabricated part and the lower-layer prefabricated part.

On the basis of the scheme, in another improved scheme, the sum of the thicknesses of the transverse plate and the stepless adjusting sheet is smaller than or equal to the distance between the upper-layer prefabricated part and the lower-layer prefabricated part.

On the basis of the above scheme, in another improved scheme, the adjusting device further comprises an adjusting piece, and the adjusting piece is used for being sleeved on the vertical bar outlet to bend the vertical bar outlet.

The technical scheme of the utility model has the beneficial technical effects that:

according to the auxiliary device for correcting the vertical steel bar outlet of the prefabricated part, the extending position of the vertical steel bar outlet of the prefabricated part is realized through the embedded part, the reserved groove is formed after the prefabricated part is disassembled, the space required by the vertical steel bar outlet during bending adjustment is reserved, and the later concrete chiseling operation in the steel bar adjustment process is avoided; the hollow steel pipe is sleeved on the vertical steel bar outlet, so that a force application point for bending and adjusting the vertical steel bar outlet is provided, and a supporting point for applying force is provided for the second straightening operation of the vertical steel bar outlet by arranging the auxiliary supporting piece, so that the accuracy and reliability of the adjusting process of the whole vertical steel bar outlet are ensured, and the vertical steel bar outlet is adjusted in place.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model.

FIG. 1 is a schematic structural diagram of an embedded part in embodiment 1 of the present invention (the dotted line indicates a non-visible line);

FIG. 2 is a vertical cross-sectional view of an embedment member anchored to a prefabricated member in embodiment 1 of the utility model;

FIG. 3 is a schematic structural view of a knock-out member in embodiment 1 of the present invention;

FIG. 4 is a schematic structural view of an auxiliary supporting member in embodiment 1 of the present invention;

FIG. 5 is a vertical cross-sectional view of the auxiliary support of FIG. 4;

fig. 6 is a schematic view of a process of adjusting vertical ribs by using steel pipes and auxiliary supporting members in embodiment 1 of the present invention (fixing rods and fixing members are not shown);

fig. 7 is a schematic structural diagram of an auxiliary positioning element in embodiment 2 of the present invention;

fig. 8 is a top view of an auxiliary positioning element in an application state in embodiment 2 of the present invention.

Reference numerals:

1-embedded part 2-steel pipe 3-auxiliary supporting piece

4-dismounting member 5-fixing rod 6-fixing member

7-base 8-steel bar sleeve 9-round table

10-elastic ring belt 11-clamping piece 12-pull rod

14-notch groove 15-auxiliary positioning piece 16-stepless adjusting piece

01-prefabricated part 02-vertical rib

Detailed Description

The present invention will now be described in detail with reference to the drawings, which are given by way of illustration and explanation only and should not be construed to limit the scope of the present invention in any way. Furthermore, features from embodiments in this document and from different embodiments may be combined accordingly by a person skilled in the art from the description in this document.

Example 1

Referring to the illustrations of fig. 1 to 7, the auxiliary device for correcting the vertical ribs of the prefabricated part 01 in the embodiment includes a groove positioning device and an adjusting device, the groove positioning device is used for reserving a groove at an extending position of the vertical ribs on the surface of the prefabricated part 01, the adjusting device includes an auxiliary support member 3, the auxiliary support member 3 is used for providing a supporting force acting point for bending of the vertical ribs, the auxiliary support member 3 includes a base 7 and a stepless adjustment piece 16, a fixing rod 5 is arranged on the upper surface of the base 7, the stepless adjustment piece 16 is rotatably sleeved on the fixing rod 5, and the stepless adjustment piece 16 is fixed on the fixing rod 5 through a fixing member 6.

When the prefabricated part 01 is produced, the embedded part 1 can be embedded in a designated position, and the reserved groove is formed after concrete is cured and formed and then is removed. In order to facilitate the removal of the embedded part 1, a release agent is coated on the outer surface of the embedded part 1, which is in contact with the concrete, before embedding. In the prior art, the vertical reinforcement outlet to be corrected can only be adjusted within the range of the distance (generally 2cm) between the upper-layer prefabricated component and the lower-layer prefabricated component, and the horizontal displacement required by building specifications cannot be larger than one sixth of the vertical height. The reserved groove is arranged at the extending position of the vertical bar extending out, the height range of the vertical bar extending out is increased, the adjustment can be corrected in the range of the sum of the depth of the reserved groove and the distance of 2cm between the prefabricated parts, the elevation of the first bending point is reduced, the distance between the two bending points is increased, and the adjustable range of the vertical bar extending out in the horizontal direction is improved. Set up auxiliary stay piece 3, through pushing up stepless trimmer 16 in the one side of vertical play muscle, stepless trimmer 16 provides the strong point for the second time of vertical play muscle is buckled, then buckles through steel pipe 2 the upper portion to vertical of vertical play muscle. The vertical rib outlet in the adjusting process is prevented from rebounding, and the adjusting precision is improved.

Referring to the schematic diagrams of fig. 1 and fig. 2, on the basis of this embodiment, in another modified embodiment, the groove positioning apparatus in this embodiment includes an embedded part 1, where the embedded part 1 includes a hollow steel bar sleeve 8 and a circular truncated cone 9, the top end of the circular truncated cone 9 is connected to the bottom end of the steel bar sleeve 8, and the bottom end of the circular truncated cone 9 is provided with a through hole for a vertical steel bar to pass through. The bottom of the steel bar sleeve 8 is communicated with the round table 9, the embedded part 1 can be made of high-strength steel, and can be reused after being detached from the prefabricated part 01.

Referring to the schematic illustration of fig. 1, on the basis of the present embodiment, in another modified embodiment, the circular truncated cone 9 is a cone-like shape with a narrow bottom and a wide top, and the inner side surface of the opening end is provided with a ring of elastic annular band 10. Thus, the vertical ribs extend into the circular truncated cone 9 and the reinforcing steel bar sleeve 8 from the bottom of the circular truncated cone 9, and the conical shape with the narrow lower bottom and the wide upper bottom is convenient for later-stage detachment from concrete; a circle of elastic ring belt 10 is arranged on the inner side of the opening end of the bottom of the circular truncated cone 9, so that slurry is prevented from entering the circular truncated cone 9 in the concrete pouring process. In other embodiments, the truncated cone 9 may also be provided as a cylinder-like shape, which performs the same function as the cone. Because the round platforms 9 with different shapes correspondingly obtain the reserved grooves with different shapes, the lower part of the base 7 of the auxiliary supporting piece 3 needs to be consistent with the shape of the reserved grooves, and when the round platforms 9 are cylindrical, the lower part of the base 7 is also arranged to be a cylindrical part.

Referring to the schematic illustration of fig. 3, in a modified example of this embodiment, the groove positioning apparatus further includes a detaching member 4, the detaching member 4 includes a clamping member 11 and a pull rod 12, the clamping member 11 is provided with a clamping groove, and the pull rod 12 is fixed on one side of the clamping member 11. The clamping groove is in a trapezoidal notch form and can adapt to embedded parts 1 with different diameters; the opening part of the clamping groove is wide, the closed part is narrow, and the pull rod 12 is fixed at the end part of the closed part of the clamping piece 11. The U-shaped clamping piece 11 is clamped on the periphery of the circular truncated cone 9 during use, the pull rod 12 is pried in the opposite direction of the circular truncated cone 9, and the embedded part 1 is detached from concrete.

Referring to the schematic diagram of fig. 2, on the basis of the embodiment, in another modified embodiment, the top end of the steel bar sleeve 8 is provided with a blind hole, so that the steel bar sleeve can be suspended on the vertical steel bar, the embedded part 1 can be positioned, and the embedded part 1 can be prevented from falling into concrete due to disturbance in the pouring process.

Referring to the schematic drawings of fig. 1 to 3, the operation of the groove-positioning apparatus in one embodiment will be briefly described:

(1) and (4) checking a construction drawing, and checking the position of the vertical bar outlet according to the position of the vertical bar outlet on the production drawing before the concrete pouring of the prefabricated part 01.

(2) The outer side of the round table 9 of the embedded part 1 is coated with a release agent, and the steel bar sleeves are sleeved on each vertical steel bar one by one, so that the overall stability is improved, and the deviation generated in the construction process is reduced.

(3) And after the installation is finished, pouring concrete, vibrating and curing the concrete, and cleaning the plate surface.

(4) Removing the embedded part 1 on the next day after the concrete is poured, slowly clamping the clamping groove of the removing part 4 on the top of the wide opening of the circular truncated cone 9, and shaking the pull rod 12 back and forth to separate the circular truncated cone 9 from the concrete of the prefabricated component 01; and lifting the pull rod 12 upwards to pull the embedded part 1 out of the plate surface of the prefabricated part 01.

Referring to the schematic diagrams of fig. 4 and 5, on the basis of the above embodiment, in another modified embodiment, the stepless adjustment sheet 16 is of a spiral disk-like structure, the fixing rod 5 is in threaded connection with the stepless adjustment sheet 16, and the fixing piece 6 is a nut which is arranged on the upper surface of the stepless adjustment sheet 16 and is in threaded connection with the fixing rod 5. That is, the stepless adjusting sheet 16 is provided with an internal thread hole, the fixing rod 5 is provided with an external thread, and the stepless adjusting sheet 16 is sleeved on the fixing rod 5 and is in threaded connection with the fixing rod 5. The stepless adjusting sheet 16 adopts a variable radius design, and is similar to a spiral disc structure, so that after the base 7 of the auxiliary support 3 is placed in the prefabricated groove, the distance between the vertical rib and the fixing rod 5 is changed when the stepless adjusting sheet 16 rotates around the fixing rod 5. The stepless adjusting sheet 16 can be rotated to adjust the distance between the vertical protruding rib and the fixed rod 5 according to the distance required to be adjusted, so that the edge of the stepless adjusting sheet 16 is abutted against the vertical protruding rib when the base 7 is tightly attached to the inner wall of the reserved groove; after the adjustment is completed, the position of the stepless adjusting sheet 16 is fixed through the fixing piece 6. When the stepless adjusting sheet 16 abuts against the vertical protruding rib and the auxiliary supporting member 3 provides a supporting force point for the bending of the vertical protruding rib, because the fixing member 6 fixes the position of the stepless adjusting sheet 16, the vertical protruding rib applies an opposite acting force to the stepless adjusting sheet 16 in the bending process but cannot cause the displacement of the stepless adjusting sheet 16, and the reliable support is provided for the bending of the vertical protruding rib at the auxiliary supporting member 3.

Referring to the schematic of fig. 5, stepless tabs 16 are of a variable radius design, similar to a spiral disk-like structure. With the arrangement, the purpose of abutting one end of the stepless adjusting sheet 16 against the vertical rib can be realized through convenient adjustment.

Referring to the schematic illustration of fig. 6, the adjusting apparatus in this embodiment further includes an adjusting member, which is a hollow steel pipe 22 and is used for bending the vertical ribs 02. The inner diameter of the steel pipe 22 is larger than the diameter of the vertical ribs 02, and the length of the steel pipe 22 is at least 2 times of the length of the vertical ribs 02 exposed out of the surface of the prefabricated part 01. The steel pipe 22 is used as an adjusting part, so that materials are convenient to obtain, the cost is low, and the operation is convenient. In other embodiments, other tools may be used to form the adjusting member for bending the vertical protruding rib 02, such as a hydraulic reinforcing bar bending apparatus in the prior art.

Referring to the illustrations of fig. 4 and 6, in the present embodiment, the sum of the thicknesses of the transverse plate and the stepless adjustment sheet 16 is equal to or less than the distance between the upper prefabricated member and the lower prefabricated member (2 cm in the prior art). Because the vertical protruding rib 02 can only be bent within the interval range between the upper prefabricated part and the lower prefabricated part, the horizontal plate is placed on the surface of the lower prefabricated part because the stepless adjusting plate 16 is used for abutting against the vertical protruding rib 02, and the sum of the thicknesses of the horizontal plate and the stepless adjusting plate 16 is less than or equal to 2 cm.

On the basis of the above embodiment, in another improved embodiment, the ratio of the radius of the preformed groove to the sum of the height of the preformed groove and the distance between the upper prefabricated part and the lower prefabricated part is less than or equal to 1: 6. By the arrangement, when the steel pipe 2 is adopted to bend the vertical protruding rib, the maximum horizontal distance of bending of the vertical protruding rib is the radius of the pre-buried groove, the vertical range of bending of the vertical protruding rib is the depth of the pre-buried groove plus 2cm (the distance range between the upper prefabricated part and the lower prefabricated part is generally 2cm), and the ratio of the two is less than or equal to 1:6, so that the requirement of building specifications can be met when the vertical protruding rib is bent to the maximum horizontal distance.

Referring to the schematic diagram of fig. 6, the method for correcting the vertical ribs 02 of the prefabricated part 01 in one embodiment of the utility model comprises the following steps:

s1, when the prefabricated part 01 is produced, sleeving groove positioning equipment on the vertical ribs 02 and positioning, anchoring the lower part of the groove positioning equipment in concrete after the concrete is poured, hoisting and positioning the prefabricated part 01 after curing and forming, removing the groove positioning equipment, and forming reserved grooves on the periphery of the vertical ribs 02;

s2, calculating and measuring a target position of the vertical bar outlet 02 to be adjusted, sleeving the periphery of the vertical bar outlet 02 with a steel pipe 2 (see a diagram A in the attached drawing 6), and bending the vertical bar outlet 02 towards the target position for the first time, so that the position, at which the vertical bar outlet 02 is flush with the surface of the prefabricated part 01, is bent to the target position (see a diagram B in the attached drawing 6);

s3, placing the base 7 of the auxiliary support 3 in a reserved groove, wherein a vertical plate is tightly attached to the inner wall of the reserved groove, and in order to ensure the stability of the auxiliary support 3 in the operation process, an operator can step one end of a transverse plate with feet; adjusting the relative position between the adjusting sheet and the fixing rod 5, so that the end part of the adjusting sheet horizontally abuts against the bent part of the vertical protruding rib 02 to form a supporting point (see the figure C of the figure 6); then, the steel pipe 2 is sleeved on the vertical ribs 02, the edge of the steel pipe 2 is enabled to be more than 2cm away from the plate surface of the prefabricated part 01, an operator pulls the steel pipe 2 off the hand to enable the vertical ribs 02 to abut against and be adjusted, and bends the vertical ribs 02 towards one side of the adjusting plate to straighten the upper portions of the vertical ribs 02 (see a diagram D in the attached drawing 6).

Example 2

Referring to the illustrations of fig. 7 and 8, the present embodiment 2 differs from embodiment 1 in the structure of the correction assisting apparatus for vertically ribbing the prefabricated part 01 in embodiment 1:

1. the groove positioning device in the embodiment is an elastic piece, the elastic piece is in a cone-like shape or a cylinder-like shape and is formed by cutting a pearl wool foam board, the diameter of the elastic piece is 6cm, the height of the elastic piece is 6-8cm, and a vertical hole for a vertical rib to penetrate through is formed in the elastic piece. Set up like this, pass the vertical hole of elastic component with vertical play muscle when pre-buried, fix elasticity in the assigned position of vertical play muscle, then pour concrete and maintenance shaping. When the prefabricated member 01 is constructed on the construction site, the elastic member can be detached by the detaching member 4 or other tools, the detaching speed is high, the cost is low, and the surface of the prefabricated member 01 cannot be damaged.

2. The correction assistance device in this embodiment further includes an auxiliary positioning member 15, and an edge of the auxiliary positioning member 15 is provided with at least one cutaway groove 14. Referring to the schematic diagram of fig. 7, the auxiliary positioning member 15 is a steel plate, two ends of the steel plate are bent to form support legs, 2 notch grooves 14 are formed in the edge of the steel plate, and the width between the 2 notch grooves 14 is a designed value of the width between the 2 vertical ribs of the prefabricated part 01. Can get through auxiliary positioning piece 15 like this and whether take place the skew 2 distances of going out between the muscle, then calculate the distance of waiting to rectify the target position of vertical play muscle apart from prefabricated component 01's edge again, get and mark the target position, with breach groove 14 alignment target position, will wait that the vertical play muscle of rectifying is buckled breach groove 14 and just can be realized going out the adjustment of muscle to vertical.

In this embodiment, the height of the auxiliary positioning member 15 is less than or equal to the distance between the upper prefabricated member and the lower prefabricated member. Because the vertical ribs can only be bent within the range of the distance between the upper prefabricated part and the lower prefabricated part, the height of the auxiliary positioning piece 15 cannot be higher than the distance of 2cm between the upper prefabricated part and the lower prefabricated part.

The method for correcting the vertical rib output of the prefabricated part 01 in the embodiment is different from that in the embodiment 1, in step S2, after calculating and measuring a target position of the vertical rib output to be adjusted, the auxiliary positioning piece 15 with the notch groove 14 arranged at the edge is placed on the surface of the prefabricated part 01, so that the target position of the vertical rib output coincides with the notch groove 14 of the auxiliary positioning piece 15, then the steel pipe 2 is adopted to be sleeved on the periphery of the vertical rib output and the vertical rib output is bent for the first time, and the position where the vertical rib output is flush with the surface of the prefabricated part 01 is bent into the notch groove 14. Due to the arrangement, when the steel wire is bent for the first time, the vertical steel wire outlet can reach the target position, and then the steel wire is bent for the second time only by straightening the upper part of the vertical steel wire outlet. In the same building project, the positions and diameters of the adjacent 2 vertical ribs are fixed, and the distance between the 2 notch grooves 14 on the auxiliary positioning piece 15 can be set as the distance between the two adjacent vertical ribs. When the vertical bar outlet is adjusted, the vertical bar outlet can be conveniently adjusted by only measuring the value of the vertical bar outlet from the edge of the prefabricated part 01 in one direction and matching with the auxiliary positioning piece 15.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a prefabricated component vertical goes out correction auxiliary assembly of muscle which characterized in that, includes recess positioning device and adjusting device, recess positioning device is used for the vertical play muscle on the prefabricated component surface stretching out position department reserve the recess, adjusting device includes auxiliary support piece, auxiliary support piece is used for providing the support impetus for vertical play muscle's buckling, auxiliary support piece includes base and stepless adjustment piece, the upper surface of base is provided with the dead lever, stepless adjustment piece rotationally overlaps and establishes on the dead lever, will through the mounting stepless adjustment piece is fixed in the dead lever.

2. The prefabricated part vertical bar outlet correction auxiliary equipment according to claim 1, wherein the groove positioning equipment comprises an embedded part, the embedded part comprises a hollow steel bar sleeve and a circular truncated cone, the top end of the circular truncated cone is connected with the bottom end of the steel bar sleeve, and the bottom end of the circular truncated cone is provided with a through hole for the vertical bar outlet to pass through.

3. The prefabricated part vertical rib-discharging correction auxiliary device according to claim 1, wherein the groove positioning device comprises an elastic piece, the elastic piece is shaped like a cone or a cylinder, and a vertical hole for the vertical rib-discharging to pass through is formed in the elastic piece.

4. The auxiliary device for correcting the vertical rib protrusion of the prefabricated part according to the claim 2 or 3, wherein the groove positioning device further comprises a dismounting part, the dismounting part comprises a clamping part and a pull rod, the clamping part is provided with a clamping groove, and the pull rod is fixed on one side of the clamping part.

5. The auxiliary device for correcting the vertical rib protrusion of the prefabricated part according to claim 1, wherein the stepless adjustment sheet is of a spiral plate-like structure, the fixing rod is in threaded connection with the stepless adjustment sheet, and the fixing piece is a nut which is arranged on the upper surface of the stepless adjustment sheet and in threaded connection with the fixing rod.

6. The prefabricated component vertical rib-forming correction auxiliary equipment is characterized in that the base comprises a vertical plate and a transverse plate which are vertically and fixedly connected with each other, and the fixing rod and the fixing piece are used for arranging the stepless adjusting plate on the upper surface of the transverse plate.

7. The prefabricated part vertical rib forming correction auxiliary equipment is characterized in that the sum of the thicknesses of the transverse plate and the stepless adjusting sheet is smaller than or equal to the distance between an upper prefabricated part and a lower prefabricated part.

8. The prefabricated component vertical rib-protruding correction auxiliary equipment according to claim 1, further comprising an auxiliary positioning piece, wherein an edge of the auxiliary positioning piece is provided with a notch groove.

9. The prefabricated component vertical rib outlet correction auxiliary equipment according to claim 1, wherein the adjusting equipment further comprises an adjusting piece, and the adjusting piece is used for being sleeved on the vertical rib outlet to bend the vertical rib outlet.

10. The prefabricated part vertical rib forming correction auxiliary equipment according to claim 1, wherein the ratio of the radius of the reserved groove to the sum of the height of the reserved groove and the distance between the upper prefabricated part and the lower prefabricated part is less than or equal to 1: 6.

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