CN217776061U - Welding device for reinforcing hoop of steel reinforcement cage - Google Patents

Abstract

The utility model discloses a welding device for a reinforcing hoop of a reinforcement cage, which comprises a sliding wheel (1), a unit base, a ring frame (5), a positioning piece (6), a channel (8) and a supporting component; a plurality of unit bases are spliced to form a base main body, and a pair of channels (8) are symmetrically arranged on the base main body; the ring frame is connected to the upper part of the supporting component, two ends of the bottom of the supporting component are respectively provided with a sliding wheel, and the sliding wheels can be embedded in the channel in a sliding manner, so that the ring frame can be arranged above the base main body in a sliding manner; the ring frame is of an annular structure, so that the stiffening hoops can be sleeved on the ring frame in a matching way; the plurality of positioning pieces are circumferentially arranged on the outer wall of the ring frame at intervals, so that the longitudinal ribs can be arranged on the ring frame in parallel to the axial direction of the stiffening hoops through the positioning pieces. The utility model discloses can fix a position and indulge muscle and the hoop of putting more energy into to provide reliable and stable support, be favorable to improving the welding installation quality and the efficiency of the muscle of indulging of steel reinforcement cage and the hoop of putting more energy into.

Description

Welding device for reinforcing hoop of steel reinforcement cage

Technical Field

The utility model relates to a reinforcing bar welding auxiliary assembly especially relates to a welding set that is used for steel reinforcement cage hoop of putting more energy into.

Background

At present, in the building engineering, the construction of underground structures is more and more, and deep foundation pit supporting piles and pile foundations are correspondingly more and more. The reinforcement cage is the main load-bearing structure in the pile body, and therefore, the reinforcement cage demand is more and more. The steel reinforcement cage comprises steel reinforcement welding such as indulging muscle, the hoop of putting more energy into, and each is indulged muscle of each on the steel reinforcement cage needs equidistant parallel arrangement, indulges the bearing requirement that the interval of arranging of muscle needs to satisfy the steel reinforcement cage, will put more energy into the hoop welding again and indulge the muscle on each, form framework of steel reinforcement. Because the longitudinal bars are large in quantity and long in length, the positioning accuracy is poor when the longitudinal bars are arranged, and the welding quality of the steel bar framework is poor; meanwhile, the stiffening hoops and the longitudinal bars are difficult to weld, the welding efficiency is low, and the use requirement of the reinforcement cage cannot be met.

Disclosure of Invention

An object of the utility model is to provide a welding set for steel reinforcement cage hoop of putting more energy into can fix a position and indulge the muscle and put more energy into the hoop to provide reliable and stable support, be favorable to improving steel reinforcement cage indulge the muscle and put more energy into the welding installation quality and the efficiency of hoop.

The utility model discloses a realize like this:

a welding device for a reinforcing hoop of a reinforcement cage comprises a sliding wheel, a unit base, a ring frame, a positioning piece, a channel and a supporting component; a plurality of unit bases are spliced to form a base main body, and a pair of channels are symmetrically arranged on the base main body; the ring frame is connected to the upper part of the supporting component, two ends of the bottom of the supporting component are respectively provided with a sliding wheel, and the sliding wheels can be embedded in the channel in a sliding manner, so that the ring frame can be arranged above the base main body in a sliding manner; the ring frame is of an annular structure, so that the stiffening hoops can be sleeved on the ring frame in a matching way; the plurality of positioning pieces are circumferentially arranged on the outer wall of the ring frame at intervals, so that the longitudinal ribs can be arranged on the ring frame in parallel to the axial direction of the stiffening hoops through the positioning pieces.

Each unit base comprises a cross beam, a longitudinal beam and an upright post; the upright post is vertically connected between two longitudinal beams which are adjacent up and down, and the cross beam is transversely connected between two longitudinal beams which are adjacent left and right to form a multi-layer supporting structure; the longitudinal beams of the two unit bases are spliced through the connecting piece.

The unit base further comprises an inclined strut, and the inclined strut is obliquely connected among the cross beam, the longitudinal beam and the upright column.

The supporting component comprises a socket piece and a supporting rod; connecting holes are formed in the two sides of the ring frame, one ends of the supporting rods are obliquely arranged in the ring frame in a penetrating mode through the connecting holes and locked, and the other ends of the supporting rods extend to the two sides below the ring frame respectively and are correspondingly connected with the sliding wheels through the sleeving pieces.

The connecting holes are positioned on two sides of the top and two sides of the bottom of the ring frame, one end of one stay bar is fixedly connected to the connecting hole on one side of the top of the ring frame through a nut, and the middle part of one stay bar is fixedly connected to the connecting hole on the other side of the bottom of the ring frame through a nut; one end of the other support rod is fixedly connected to the connecting hole in the other side of the top of the ring frame through a nut, and the middle of the other support rod is fixedly connected to the connecting hole in one side of the bottom of the ring frame through a nut.

The pair of support rods are respectively inserted in the front and the rear of the ring frame, and the projection intersection points of the pair of support rods on the vertical plane are superposed with the projection points of the centroid of the ring frame on the vertical plane.

The arrangement space of the positioning pieces is consistent with that of the longitudinal ribs, or the arrangement space of the longitudinal ribs is integral multiple of that of the positioning pieces.

The positioning piece at the lower part of the ring frame is in a hook-shaped structure, and the positioning piece at the upper part of the ring frame is in a groove-shaped structure.

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model discloses owing to be equipped with ring frame and setting element, can be through putting up the hoop of putting more energy into with the hoop shape of putting more energy into and size assorted ring location and put more energy into to indulge the muscle through the setting element location, thereby be convenient for put more energy into the hoop and indulge the connection and the welding of muscle, can effectively improve the welding precision of indulging muscle and putting more energy into the hoop, avoid indulging the interval error that the muscle was laid, guaranteed steel reinforcement cage's processingquality and efficiency.

2. The utility model is provided with the supporting component, the channel and the sliding wheel, and the ring frame can be stably supported above the base body through the supporting component, thereby facilitating the positioning, connection and welding fixation of the reinforcement cage above the base body, and the operation is more convenient; simultaneously, can slide along the channel through the movable pulley to satisfy the support requirement of a plurality of ring frames to the different positions of steel reinforcement cage, can provide stable support to the both ends of steel reinforcement cage, and slide along with stiffening hoop's mounted position, guaranteed stability, security, convenience and the accuracy nature of stiffening hoop installation.

3. The utility model discloses simple structure easily draws materials and makes, can be according to the steel reinforcement cage of unidimensional and shape, and easy dismounting, is convenient for accomodate and transport, and is with low costs.

Drawings

FIG. 1 is a front view of the welding device for a reinforcement cage stiffening hoop of the present invention;

FIG. 2 is a top view of a base body in the welding apparatus for a reinforcement cage stiffening hoop of the present invention;

FIG. 3 is a side view of the base body of the welding device for a reinforcement cage stiffening hoop of the present invention;

FIG. 4 is a front view of a base body of the welding device for a reinforcement cage stiffening hoop of the present invention;

FIG. 5 is a front view of the ring frame of the welding device for a reinforcement cage stiffening hoop of the present invention;

FIG. 6 is a side view of the ring frame of the welding device for a reinforcement cage stiffening hoop of the present invention;

FIG. 7 is a side view of the connection between the stay bar and the pulley through the sleeve member in the welding device for the reinforcement cage of the present invention;

figure 8 is a plan view of the stay bar through the connection of the socket piece and the pulley in the welding device for the reinforcement cage stiffening hoop.

In the figure, 1, a sliding wheel; 2. a socket; 3. a stay bar; 4. a nut; 5. a ring frame; 6. a positioning member; 7. connecting holes; 8. a channel; 9. a cross beam; 10. a stringer; 11. a column; 12. bracing; 13. a connecting member.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 to 4, a welding device for a reinforcement cage stiffening hoop comprises a sliding wheel 1, a unit base, a ring frame 5, a positioning piece 6, a channel 8 and a support assembly; the plurality of unit bases are spliced through connecting pieces 13 to form a base main body, and the pair of channels 8 are symmetrically arranged on the base main body; the ring frame 5 is connected to the upper part of the supporting component, two ends of the bottom of the supporting component are respectively provided with a sliding wheel 1, and the sliding wheels 1 can be embedded in the channel 8 in a sliding manner, so that the ring frame 5 can be arranged above the base main body in a sliding manner; the ring frame 5 is of an annular structure, so that the stiffening hoops can be sleeved on the ring frame 5 in a matching way; a plurality of positioning pieces 6 are circumferentially arranged on the outer wall of the ring frame 5 at intervals, so that the longitudinal ribs can be arranged on the ring frame 5 in parallel to the axial direction of the stiffening hoops through the positioning pieces 6.

The length and width of the base body are not less than the length and width (or diameter) of the reinforcement cage, so that the base body 1 can form stable support under the reinforcement cage. The ring frame 5 with the shape and size matched with the stiffening hoop is arranged on the base main body through the supporting component, so that the longitudinal rib is positioned through the positioning piece 6, the positioning arrangement of the stiffening hoop is also facilitated, the stiffening hoop and the longitudinal rib are conveniently laid and welded, and a reinforcement cage is formed. The support of the ring frame 5 to different positions of the reinforcement cage can be adjusted by utilizing the sliding of the sliding wheel 1 along the channel 8, and the arrangement of the stiffening hoops at different positions is also facilitated.

Referring to fig. 1 to 4, each of the cell bases includes a cross beam 9, a longitudinal beam 10 and a vertical column 11; the upright post 11 is vertically connected between two vertical beams 10 which are adjacent up and down, and the cross beam 9 is transversely connected between two vertical beams 10 which are adjacent left and right to form a multi-layer supporting structure; the longitudinal beams 10 of the two cell bases are spliced by a connecting piece 13.

Through horizontal, vertical and vertical beam column setting, guaranteed unit base's structural stability and bearing capacity, set up the bolt hole on longeron 10, be convenient for connect adjacent unit base through connecting piece 13 such as bolt to the unit base of being convenient for splices into the base main part of suitable size, easy dismounting, swift, also is convenient for transport and accomodate.

Referring to fig. 1, fig. 3 and fig. 4, the unit base further includes an inclined strut 12, the inclined strut 12 is obliquely connected between the cross beam 9, the longitudinal beam 10 and the upright post 11, the inclined strut 12 is used for improving the bearing performance of the unit base, and the number, size and arrangement position of the inclined strut 12 can be adjusted according to the weight of the reinforcement cage.

Referring to fig. 1, 5 to 8, the supporting component includes a socket 2 and a brace 3; both sides of the ring frame 5 are respectively provided with a connecting hole 7, one end of each supporting rod 3 is obliquely arranged in the ring frame 5 in a penetrating manner through the connecting hole 7 and is locked, and the other end of each supporting rod 3 extends to both sides below the ring frame 5 and is correspondingly connected with the corresponding sliding wheel 1 through the sleeve-joint piece 2. Support ring frame 5 from both sides through a pair of vaulting pole 3, guarantee the erectting of ring frame 5 in base body top to guaranteed that 5 below of ring frame has sufficient space to supply to indulge the installation welding of muscle and stiffening hoop. The stay bar 3 can be screwed with the socket piece 2 by adopting threads and is used for adjusting the supporting height of the stay bar 3 so as to meet the erection requirements of the ring frames 5 with different sizes above the base body.

Referring to fig. 6, the connecting holes 7 are located at two sides of the top and two sides of the bottom of the ring frame 5, one end of one of the support rods 3 is fixedly connected to the connecting hole 7 at one side of the top of the ring frame 5 through a nut 4, and the middle of one of the support rods 3 is fixedly connected to the connecting hole 7 at the other side of the bottom of the ring frame 5 through the nut 4; one end of the other stay bar 3 is fixedly connected to the connecting hole 7 on the other side of the top of the ring frame 5 through a nut 4, and the middle part of the other stay bar 3 is fixedly connected to the connecting hole 7 on one side of the bottom of the ring frame 5 through the nut 4. The support stability of the ring frame 5 can be improved by the crossing arrangement of the pair of stay bars 3.

Referring to fig. 6, the pair of stay bars 3 are respectively inserted into the front and the rear of the ring frame 5, and the projection intersection point of the pair of stay bars 3 on the vertical plane coincides with the projection point of the centroid of the ring frame 5 on the vertical plane. The pair of support rods 3 are arranged in a crossed and symmetrical mode, so that the stress uniformity of the ring frame 5 can be improved while the ring frame 5 is ensured to be stably supported, and the balance stability in the welding process of the reinforcement cage is ensured.

The arrangement space of the positioning piece 6 is consistent with the arrangement space of the longitudinal ribs, or the arrangement space of the longitudinal ribs is integral multiple of the arrangement space of the positioning piece 6, so that the longitudinal ribs can be accurately positioned conveniently, and the positioning piece can be suitable for longitudinal rib arrangement with different spaces.

Referring to fig. 1 and 5, the positioning element 6 located at the lower portion of the ring frame 5 is in a hook-shaped structure, the positioning element 6 located at the upper portion of the ring frame 5 is in a groove-shaped structure, and the positioning element 6 in the hook-shaped structure and the groove-shaped structure can ensure reliable lifting of the longitudinal rib and prevent the longitudinal rib from falling off from the ring frame 5.

Referring to fig. 1 to 8, the using method and the working principle of the present invention are:

the method is characterized in that square steel is cut into the cross beam 9, the longitudinal beam 10, the upright post 11 and the inclined strut 12, the cross beam 9, the longitudinal beam 10 and the upright post 11 are welded into a unit base with a multi-layer three-dimensional structure according to the bearing requirement, and the inclined strut 12 is welded on the side face of the unit base and used for reinforcing the unit base. According to the size of the reinforcement cage, a proper number of unit bases are spliced through the connecting pieces 13 to form a base main body. The connecting member 13 may be a high-strength bolt.

A pair of vaulting pole 3 wears to establish in ring frame 5 through four connecting holes 7, and the one end and the middle part mantle fiber of a pair of vaulting pole 3 are convenient for lock vaulting pole 3 and ring frame 5 through two nuts 4, and vaulting pole 3, nut 4 and ring frame 5 can be at mill machine-shaping, form the external member of matching the hoop size of putting more energy into. The other ends of the pair of support rods 3 are sleeved with the connecting rod 14 through the sleeve-joint part 2, the sleeve-joint part 2 can adopt a screw barrel, the support rods 3 can adopt screw rods, the setting height of the other ends of the support rods 3 can be adjusted through screw thread rotation, and therefore sufficient operation space is guaranteed between the ring frame 5 and the base main body. The sliding wheels 1 at two sides below the ring frame 5 are respectively arranged in a pair of channels 8. The ring frame 5 can be made by bending a steel plate and can form a circular ring or a rectangular ring structure so as to adapt to stiffening hoops with different shapes and sizes.

According to the method, at least three ring frames 5 are arranged on the base main body through the supporting assembly, the positioning pieces 6 at the same positions on the three ring frames 5 are positioned on the same straight line, so that the two ends of the longitudinal ribs of the reinforcement cage and the positions where the stiffening hoops are installed are reliably supported, and the number of the ring frames 5 can be increased or decreased according to the length of the longitudinal ribs. According to the requirement of the arrangement interval of the longitudinal ribs, the longitudinal ribs are circumferentially arranged around the ring frame 5 through the positioning pieces 6, the stiffening hoops are sleeved on the ring frame 5 and the longitudinal ribs, and the joints of the longitudinal ribs and the stiffening hoops are welded and fixed.

And (3) sliding the ring frame 5 along the channel 8 through the sliding wheel 1 according to the arrangement position of the stiffening hoop, moving the ring frame 5 to a specified position, and repeating the steps to weld and fix the stiffening hoop.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a welding set that is used for steel reinforcement cage to put more energy into hoop which characterized by: comprises a sliding wheel (1), a unit base, a ring frame (5), a positioning piece (6), a channel (8) and a supporting component; a plurality of unit bases are spliced to form a base main body, and a pair of channels (8) are symmetrically arranged on the base main body; the ring frame (5) is connected to the upper part of the supporting component, two ends of the bottom of the supporting component are respectively provided with a sliding wheel (1), and the sliding wheels (1) can be embedded in the channel (8) in a sliding manner, so that the ring frame (5) can be arranged above the base main body in a sliding manner; the ring frame (5) is of an annular structure, so that the stiffening hoops can be sleeved on the ring frame (5) in a matching way; a plurality of positioning pieces (6) are circumferentially arranged on the outer wall of the ring frame (5) at intervals, so that the longitudinal ribs can be arranged on the ring frame (5) in parallel to the axial direction of the stiffening hoops through the positioning pieces (6).

2. A welding apparatus for a reinforcement cage stiffener hoop as defined in claim 1, wherein: each unit base comprises a cross beam (9), a longitudinal beam (10) and a vertical column (11); the upright posts (11) are vertically connected between two longitudinal beams (10) which are adjacent up and down, and the cross beam (9) is transversely connected between two longitudinal beams (10) which are adjacent left and right to form a multi-layer supporting structure; the longitudinal beams (10) of the two unit bases are spliced through a connecting piece (13).

3. A welding apparatus for a reinforcement cage stiffening hoop as defined in claim 2, wherein: the unit base further comprises an inclined strut (12), and the inclined strut (12) is obliquely connected among the cross beam (9), the longitudinal beam (10) and the upright post (11).

4. A welding apparatus for a reinforcement cage stiffening hoop as defined in claim 1, wherein: the supporting component comprises a socket piece (2) and a supporting rod (3); connecting holes (7) are formed in the two sides of the ring frame (5), one ends of the pair of supporting rods (3) penetrate through the ring frame (5) in an inclined mode through the connecting holes (7) and are locked, and the other ends of the pair of supporting rods (3) extend to the two sides below the ring frame (5) respectively and are connected with the pair of sliding wheels (1) correspondingly through the sleeving pieces (2).

5. A welding apparatus for a reinforcement cage stiffening hoop as defined in claim 4, wherein: the connecting holes (7) are positioned on two sides of the top and two sides of the bottom of the ring frame (5), one end of one support rod (3) is fixedly connected to the connecting hole (7) on one side of the top of the ring frame (5) through a nut (4), and the middle part of one support rod (3) is fixedly connected to the connecting hole (7) on the other side of the bottom of the ring frame (5) through the nut (4); one end of the other stay bar (3) is fixedly connected to the connecting hole (7) on the other side of the top of the ring frame (5) through a nut (4), and the middle part of the other stay bar (3) is fixedly connected to the connecting hole (7) on one side of the bottom of the ring frame (5) through the nut (4).

6. A welding apparatus for a reinforcement cage stiffener hoop according to claim 4 or 5, wherein: the pair of supporting rods (3) are respectively inserted in the front and the rear of the ring frame (5), and the projection intersection point of the pair of supporting rods (3) on the vertical plane is superposed with the projection point of the centroid of the ring frame (5) on the vertical plane.

7. A welding apparatus for a reinforcement cage stiffening hoop as defined in claim 1, wherein: the arrangement space of the positioning pieces (6) is consistent with the arrangement space of the longitudinal ribs, or the arrangement space of the longitudinal ribs is integral multiple of the arrangement space of the positioning pieces (6).

8. A welding apparatus for a reinforcement cage stiffener hoop as defined in claim 1, wherein: the positioning piece (6) positioned at the lower part of the ring frame (5) is of a hook-shaped structure, and the positioning piece (6) positioned at the upper part of the ring frame (5) is of a groove-shaped structure.

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