CN218029083U - Can have enough to meet need assembled structure conversion layer reinforcing bar fixing device - Google Patents

Abstract

The application discloses can have enough to meet need assembled structure conversion layer reinforcing bar fixing device relates to conversion layer reinforcing bar positioner field, and it includes location slide and a plurality of sleeve that slide and connect in on the slide of location, the sleeve is including being used for the section of thick bamboo that the reinforcing bar inserts and being used for with the slide board that the slide of location slide connection, the slide board rigid coupling in the terminal surface of section of thick bamboo just the slide board protrusion is in the lateral wall of section of thick bamboo; still be provided with on the location slide and be used for making the board that slides is followed the length and the width direction of location slide structure, and be used for with the sleeve locking in locking structure on the location slide. This application has the effect of improving the problem of being convenient for be difficult to have enough to meet the need the use to the location steel sheet of on-the-spot joint bar.

Description

Can have enough to meet need assembled structure conversion layer reinforcing bar fixing device

Technical Field

The application relates to a conversion layer reinforcing bar positioner field especially relates to a can have enough to meet need assembled structure conversion layer reinforcing bar fixing device.

Background

The upper portion on certain layer of building is different because of the function that the plane used with the lower part, can make floor upper portion and floor lower part adopt different structure types to carry out the structure through this floor and convert, this floor is the conversion layer of building promptly.

When the transfer floor is constructed, the steel bars need to be inserted first, and then concrete is poured for forming; during concrete construction, after the reinforcing steel bar is positioned by the positioning steel plate with the positioning holes, the reinforcing steel bar is inserted into the positioning holes, and then the reinforcing steel bar is welded on the positioning steel plate, so that the positioning steel plate plays a further limiting role in the reinforcing steel bar, and further the influence on construction quality caused by the displacement of the reinforcing steel bar in the subsequent concrete pouring process is avoided.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the specifications and the intervals of different positions of the steel bars of the conversion layer are different, if a conventional porous positioning steel plate is used, a lot of efforts of construction personnel are required to check a drawing during field construction so as to determine the positions of the inserted bars; if the positioning steel plate prefabricated according to the position of the steel bar in the drawing is used, the steel plate can be used only once in a turnover manner although the steel bar inserting of site construction personnel is facilitated, and the serious waste of materials is caused.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the location steel sheet of being convenient for to on-the-spot dowel bar is difficult to have enough to meet the need the use, this application provides a can have enough to meet the need assembled structure conversion layer reinforcing bar fixing device.

The application provides a can have enough to meet need assembled structure conversion layer reinforcing bar fixing device adopts following technical scheme:

a steel bar fixing device of a turnover assembly type structure conversion layer comprises a positioning sliding seat and a plurality of sleeves connected to the positioning sliding seat in a sliding mode, wherein each sleeve comprises a cylindrical part used for inserting a steel bar and a sliding plate used for connecting the positioning sliding seat in a sliding mode, the sliding plate is fixedly connected to the end face of the cylindrical part, and the sliding plate protrudes out of the side wall of the cylindrical part;

still be provided with on the location slide and be used for making the slide board is followed the length and the width direction of location slide the slide structure, and be used for with the sleeve locking in locking structure on the location slide.

By adopting the technical scheme, after the reinforcing steel bar is inserted into the sleeve, the cylindrical part of the sleeve has a cylinder wall with a certain height so as to limit the reinforcing steel bar to a certain degree, and the displacement of the reinforcing steel bar during subsequent concrete pouring is avoided; the sleeves slide along the length direction and the width direction of the positioning sliding seat through the slide way structure, the positions of the sleeves are adjusted in advance according to the requirements of construction drawings, the positions of the sleeves are fixed through the locking structure, and the positions of the steel bars can be directly determined through the sleeves on the positioning sliding seat during field installation; after concrete pouring is finished, the positioning sliding seat is taken down, the position of the sleeve is adjusted according to construction drawings during subsequent use, and then the sleeve can be used for positioning reinforcing steel bars, so that the positioning steel plates can be recycled for multiple times.

Optionally, a fastening bolt is threaded through the arc-surface side wall of the cylindrical portion.

By adopting the technical scheme, after the steel bar is inserted into the sleeve, the fastening bolt is screwed towards the steel bar, so that the steel bar can be fixed on the sleeve, the steel bar is further positioned, the steel bar is prevented from deviating as much as possible during concrete pouring, and the sleeve and the positioning sliding seat are convenient to disassemble; meanwhile, even if the diameters of the steel bars inserted into the sleeve are different, the fastening bolt can well fix the steel bars and the sleeve, so that the sleeve is suitable for positioning and fixing the steel bars with different specifications; replace fixed reinforcing bar and sleeve of traditional welded mode through fastening bolt, reinforcing bar impaired when also can avoid the welding.

Optionally, the positioning sliding seat is a hollow rectangular frame, and the slide rail structure includes a plurality of strip plate groups slidably connected to the positioning sliding seat along the width direction of the positioning sliding seat in the hollow portion of the positioning sliding seat;

the strip plate group comprises two sliding strips which are arranged oppositely at intervals along the thickness direction of the positioning sliding seat, the interval between the sliding strips is matched with the sliding plate in a sliding manner, and the positioning sliding seat is further provided with a locking assembly which is used for locking the sliding strips in the positioning sliding seat.

By adopting the technical scheme, the two strip plate groups are arranged at intervals in the width direction of the positioning sliding seat, the cylindrical part of the sleeve is positioned at the interval of the two strip plate groups, the sliding plate of the sleeve extends into the interval of the two sliding strips of the same strip plate group, and the two sliding strips which are vertically arranged oppositely can form a slide way for the sliding plate to slide on the positioning sliding seat along the length direction of the positioning sliding seat, so that the position of the sleeve along the length direction of the positioning sliding seat can be adjusted; furthermore, the transverse strip plate group slides along the width direction of the positioning sliding seat, and the position of the strip plate group along the width direction of the positioning sliding seat is adjusted, namely the position of the adjusting sleeve along the width direction of the positioning sliding seat can be correspondingly adjusted.

Optionally, the locking assembly includes a locking bolt and a locking nut screwed to the locking bolt; the locking bolt passes through the positioning sliding seat and the two sliding strips located in the same strip plate group together.

Through adopting above-mentioned technical scheme, after passing location slide and draw runner jointly with the locking bolt, twist lock nut and can make location slide and two draw runners support each other tightly, and then be fixed in the slide with the draw runner on fixing a position the slide, two draw runners support each other tightly the back simultaneously, also are fixed in the fixed position of draw runner with telescopic slide plate, have restricted telescopic random slip.

Optionally, the positioning sliding seat includes a frame portion and an end plate, the end plate is detachably connected to the frame portion, and a socket for the sliding strip to slide into is further provided on a side wall in the thickness direction of the positioning sliding seat.

Through adopting above-mentioned technical scheme, when needing to change sleeve quantity, pull down the end plate of location slide one end earlier, make the sleeve arrange and make telescopic sliding plate be located between the end plate and the framework of location slide along the length direction of location slide, insert two draw slips from socket department again, two draw slips are in vertical relative setting and with the one end centre gripping of sliding plate length direction, then pass the frame body portion of location slide with the locking bolt in proper order, the draw slip that is located the top, the sliding plate, be located behind the sliding plate of below and the end plate of location slide, lock nut screws, order about the end plate of location slide, two draw slips, the frame body portion of sliding plate and location slide supports tightly each other, can be with the draw slip, sleeve and location slide reciprocal anchorage, form the fixing device who can be used to the reinforcing bar dowel.

Optionally, the socket has two on the two opposite sides of the positioning slide, and the positioning slide is further provided with a splicing structure for splicing the two adjacent positioning slides along the length direction of the positioning slide.

Through adopting above-mentioned technical scheme, use mosaic structure with two location slides after splicing each other, can increase the sleeve along the scope that location slide length direction slided, adjust telescopic position and quantity more nimble to the design of the multiple different reinforcing bar position of adaptation.

Optionally, the location slide is provided with two, two still be provided with between the location slide and be used for with two the telescopic link that the slide is connected is fixed a position.

Through adopting above-mentioned technical scheme, during conversion layer reinforcing bar actual construction, the location slide sets up in one side template length direction's both ends usually to fix a position and fix the reinforcing bar here, consequently connect the location slide at template both ends through the telescopic link, can promote the stability of two location slides to a certain extent, the telescopic link also can regard as the vertical reinforcing bar between two fixed location slides of basis simultaneously.

Optionally, the telescopic rod comprises a fixed rod, a movable rod and a locking screw, the movable rod is connected to the fixed rod in an axial sliding mode along the fixed rod, and the locking screw penetrates through the fixed rod and then is in threaded connection with the movable rod.

Through adopting above-mentioned technical scheme, according to the actual conditions adjustment movable rod length that stretches out the dead lever of job site, adjust the back of accomplishing and lock the movable rod on the dead lever through locking screw, can make the telescopic link fix at the length of adjusting.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the reinforcing steel bars are inserted into the sleeves, the reinforcing steel bars can be limited to a certain degree by the cylinder walls with certain heights of the cylinder parts of the sleeves, so that the reinforcing steel bars are prevented from being displaced during subsequent concrete pouring; the sleeves slide along the length direction and the width direction of the positioning sliding seat through the slide way structure, the positions of the sleeves are adjusted in advance according to the requirements of construction drawings, the positions of the sleeves are fixed through the locking structure, and the positions of the steel bars can be directly determined through the sleeves on the positioning sliding seat during field installation; after concrete pouring is finished, the positioning sliding seat is taken down, and the position of the sleeve is adjusted according to a construction drawing during subsequent use, so that the sleeve can be used for positioning the reinforcing steel bars, and the positioning steel plates can be recycled for multiple times;

2. after the steel bar is inserted into the sleeve, the fastening bolt is screwed towards the steel bar, so that the steel bar can be fixed on the sleeve, the steel bar is further positioned, the steel bar is prevented from deviating as much as possible during concrete pouring, and the sleeve and the positioning sliding seat are convenient to disassemble; meanwhile, even if the diameters of the steel bars inserted into the sleeve are different, the fastening bolt can well fix the steel bars and the sleeve, so that the sleeve is suitable for positioning and fixing the steel bars with different specifications; the fastening bolt replaces the traditional welding mode to fix the steel bar and the sleeve, so that the steel bar can be prevented from being damaged during welding;

3. the two strip plate groups are arranged at intervals in the width direction of the positioning sliding seat, the cylindrical part of the sleeve is positioned at the interval of the two strip plate groups, the sliding plate of the sleeve extends into the interval of the two sliding strips of the same strip plate group, and the two sliding strips which are vertically arranged oppositely can form a slide way for the sliding plate to slide on the positioning sliding seat along the length direction of the positioning sliding seat, so that the position of the sleeve along the length direction of the positioning sliding seat is adjusted; furthermore, the transverse strip plate group slides along the width direction of the positioning sliding seat, and the position of the strip plate group along the width direction of the positioning sliding seat is adjusted, namely the position of the adjusting sleeve along the width direction of the positioning sliding seat can be correspondingly adjusted.

Drawings

Fig. 1 is a schematic structural view mainly used for showing a positioning slide and a telescopic rod in the present application.

Fig. 2 is a schematic structural diagram mainly used for showing a positioning slide in the embodiment of the present application.

Reference numerals: 1. positioning a sliding seat; 11. a frame body portion; 12. an end plate; 2. a sleeve; 21. a cylindrical portion; 22. a slide plate; 3. a slideway structure; 31. a slide bar; 32. a locking assembly; 321. locking the bolt; 322. locking the nut; 33. a socket; 34. a longitudinal slideway; 41. a bump; 42. a groove; 5. a telescopic rod; 51. fixing the rod; 52. a movable rod; 53. locking screws; 54. positioning holes; 55. and a through hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses can have enough to meet need assembled structure conversion layer reinforcing bar fixing device. Referring to fig. 1, the turnover assembly type structure conversion layer steel bar fixing device comprises a positioning sliding seat 1 and a plurality of sleeves 2 connected to the positioning sliding seat 1 in a sliding mode, wherein a slide rail structure 3 used for enabling the sleeves 2 to slide along the length direction and the width direction of the positioning sliding seat 1 and a locking structure used for locking the sleeves 2 on the positioning sliding seat 1 are arranged on the positioning sliding seat 1.

Before site construction, after the positions of the plurality of sleeves 2 on the positioning slide base 1 are adjusted according to a drawing and are fixed through a locking structure, the positioning slide base 1 can be directly used for positioning the reinforcing steel bars during site construction; after the positioning sliding seat 1 is detached, the number and the position of the sleeves 2 are adjusted according to a new construction drawing before next construction, so that the positioning sliding seat 1 can be used for positioning the steel bars constructed at the time, and the repeated turnover use of the steel bar fixing device is realized.

Specifically, referring to fig. 1 and fig. 2 in combination, the sleeve 2 includes a cylindrical portion 21 and a sliding plate 22 welded to an end surface of the cylindrical portion 21, in this embodiment, the sliding plate 22 is a rectangular plate, and the length of the sliding plate 22 is greater than the diameter of the cylindrical portion 21, and the width of the sliding plate is the same as the diameter of the cylindrical portion 21; the slide plate 22 has an opening communicating with the hollow portion of the cylindrical portion 21.

During the bar inserting, after the sleeve 2 is preset at the inserting position, the steel bar extends into the sleeve 2 from one end of the cylindrical part 21 far away from the sliding plate 22 and penetrates out from the opening of the sliding plate 22, so that the steel bar can be positioned at the sleeve 2, and the displacement degree of the steel bar during concrete pouring is limited through the cylindrical part 21.

Meanwhile, fastening bolts (not shown in the figure) are arranged on the threads of the side wall of the cambered surface of the cylindrical part 21 in a penetrating manner, small head ends of the fastening bolts extend into the cylindrical part 21 and then abut against the outer side wall of the steel bar, and after the vertical steel bar penetrating through the sleeve 2 is bound and fixed with other transverse steel bars, the sleeve 2 can be fixed on the steel bar.

In another feasible embodiment, two fastening bolts can be arranged at two opposite positions of the side wall of the cylindrical portion 21, the two fastening bolts penetrate through the sleeve 2 in a threaded manner and then abut against the reinforcing steel bars at the two opposite positions, the reinforcing steel bars are clamped, the reinforcing steel bars and the sleeve 2 can be better fixed, and the sliding of the reinforcing steel bars during concrete pouring is avoided.

Before the site operation, according to the design drawing in advance, will correspond the sleeve 2 of quantity and be fixed in location slide 1 in the design position on, can make location slide 1 be used for the grafting location of job site, need not constructor again to expend energy and denucleate to the drawing.

Referring to fig. 2, the positioning sliding base 1 is a hollow rectangular frame, in the embodiment of the present application, six sleeves 2 are connected to one positioning sliding base 1, wherein every three sleeves 2 arranged at intervals along the length direction of the positioning sliding base 1 are a group, and two groups of sleeves 2 are arranged at intervals along the width direction of the positioning sliding base 1.

Adjust the distance between two sets of sleeves 2 through slide structure 3, can change the horizontal interval of reinforcing bar, adjust the interval between the same three sleeve 2 of a set of through slide structure 3, can change the vertical interval of reinforcing bar, and then adjust the position of sleeve 2 in a flexible way, make it be applicable to different design conditions, and then make location slide 1 can have enough to meet the need the use.

Specifically, the slide structure 3 includes four groups of battens group that slide in the well kenozooecium of location slide 1 along the 1 width direction interval of location slide, and the battens group is including two draw runner 31 along the 1 thickness direction interval of location slide and relative setting, and a set of draw runner 31 of relative setting slides along the width direction of location slide 1 jointly and slides and connect in location slide 1, and still is provided with on the slide 1 of location and is used for the common locking subassembly 32 on the slide 1 of location of a set of draw runner 31 of relative setting.

Referring to fig. 2, in the embodiment of the present application, locking assemblies 32 are disposed at both ends of a length direction of a slide bar 31, for convenience of description, the locking assembly 32 at one end of the slide bar 31 is used for description, the locking assembly 32 includes a locking bolt 321 and a locking nut 322 in threaded adaptation with the locking bolt 321, the upper end surface and the lower end surface of the positioning slide base 1 penetrate through long grooves provided with small end insertion adaptation with the locking bolt 321 at two opposite positions, the locking bolt 321 penetrates through two slide bars 31 in sequence from the long groove of the upper end surface of the positioning slide base 1 and then penetrates out from the long groove of the lower end surface of the positioning slide base 1, and after the locking nut 322 is screwed to enable the locking nut to abut against the positioning slide base 1, the two slide bars 31 in the same group can be locked on the positioning slide base 1.

Meanwhile, the interval of the two sliding strips 31 is matched with the sliding plate 22 of the sleeve 2 in a sliding manner, two ends of the sliding plate 22 in the length direction respectively slide on the positioning sliding base 1 along the length direction of the positioning sliding base 1 through two adjacent strip plate groups, and a longitudinal slide 34 for sliding the sleeve 2 is formed between the two adjacent strip plate groups. In the embodiment of the present application, four groups of strip plates are formed with two longitudinal slides 34, and one sleeve 2 slides on one longitudinal slide 34.

Therefore, the batten sets are driven to slide along the width direction of the positioning sliding seat 1, and after the batten sets are fixed through the matching of the locking bolts 321 and the locking nuts 322, the distance between the two longitudinal slideways 34 can be changed, and then the transverse distance between the two sets of sleeves 2 is adjusted.

The three sleeves 2 sliding on the same longitudinal slide rail 34 are driven to slide along the length direction of the positioning slide base 1, and after the sleeves are locked on the positioning slide base 1 through the locking structure, the distance between every two three sleeves 2 can be changed, and further the longitudinal distance between the sleeves 2 is adjusted.

In the embodiment of the present application, after the sliding plate 22 of the sleeve 2 slides between the two sliding strips 31, the thickness of the two sliding strips 31 and the sliding plate 22 and the height of the hollow portion of the positioning sliding base 1 are just adapted, so that when the three sleeves 2 located in the same longitudinal sliding way 34 are adjusted according to the drawing, the locking nuts 322 on the two strip plate groups forming the longitudinal sliding way 34 are screwed, so as to drive the upper and lower end surfaces of the positioning sliding base 1, the two sliding strips 31 and the sliding plate 22 to abut against each other, thereby limiting the movement of the sleeves 2 on the sliding strips 31, and locking the sleeves 2 and the sliding strips 31 on the positioning sliding base 1 together, and therefore, the locking structures in the embodiment of the present application are also the locking nuts 322 and the locking bolts 321.

In other possible embodiments, the locking structure may also include a screw, a bolt, and the like, a strip-shaped through slot is left on the slide bar 31 for the screw or the bolt to pass through, and the sleeve 2 can be directly locked on the slide bar 31 by screwing the screw or the bolt to pass through the slide bar 31 and the slide plate 22 located above in sequence and then screwing the screw or the bolt to the slide bar 31 located below.

Furthermore, in different construction occasions, the number of the steel bars needing to be positioned by the positioning sliding base 1 is different, that is, the number of the sleeves 2 needed on the positioning sliding base 1 is also different, so, referring to fig. 2, the frame part 11 and the end plate 12 of the positioning sliding base 1 are provided, the frame part 11 is buckled with the end plate 12, the frame part 11 and the end plate 12 are buckled to form a hollow part of the positioning sliding base 1, and the frame part 11 and the end plate 12 can be connected after being locked by the matching of the locking bolt 321 and the locking nut 322, so that the complete positioning sliding base 1 is formed.

Simultaneously, the both ends of location slide 1 length direction all are offered and are used for the male socket 33 of draw runner 31, and socket 33 sets up with the well kenozooecium intercommunication of location slide 1, and the socket 33 height is the same with the height of the well kenozooecium of location slide 1.

On the basis, after the locking bolt 321 and the locking nut 322 at the socket 33 are taken down, the frame part 11, the end plate 12, the slide bar 31 and the sleeve 2 of the sliding seat 1 can be completely separated and positioned, and the number of the sleeve 2 and the slide bar 31 can be adjusted; when the number of the sleeves 2 is adjusted, the end plate 12 is placed first, then the sleeves 2 are arranged on the end plate 12, the frame part 11 is fastened to the end plate 12, then the sliding strips 31 are inserted from the insertion openings 33, the two sliding strips 31 located at the corresponding vertical positions clamp the sliding plate 22, and finally the frame part 11, the sliding strips 31, the sliding plate 22 and the end plate 12 are locked through the matching of the locking bolts 321 and the locking nuts 322, so that the frame part 11, the sliding strips 31, the sliding plate 22 and the end plate 12 can be spliced to form the complete steel bar fixing device.

The locking nut 322 is slightly loosened, so that the slide bar 31 can slide along the width direction of the positioning slide seat 1, the sleeve 2 can slide along the length direction of the positioning slide seat 1, the position of the sleeve 2 can be adjusted, and the sleeve 2 can be fixed at the adjusted position by screwing the locking nut 322 after the adjustment is completed.

Because the length of the positioning sliding base 1 is limited, the number of the sleeves 2 sliding on one positioning sliding base 1 along the length direction is also limited, and in order to further increase the number of the reinforcing steel bars capable of being fixed by the positioning sliding base 1, referring to fig. 1 and 2, the positioning sliding base 1 is further provided with a splicing structure for splicing adjacent positioning sliding bases 1 along the length direction.

Specifically, the frame portion 11 of the positioning sliding seat 1 has a square protruding block 41 fixed to one end wall in the length direction thereof, and the other end wall is provided with a groove 42 adapted to be inserted into the protruding block 41, in this embodiment of the present application, two protruding blocks 41 are provided and located at two ends of the end wall in the length direction of the positioning sliding seat 1 respectively, and the outer side wall of the protruding block 41 is ground to be a rough surface, and the protruding block 41 on one positioning sliding seat 1 is inserted into the groove 42 on the other positioning sliding seat 1, so that the two positioning sliding seats 1 can be simply spliced.

In other possible embodiments, magnetic members may be embedded in the bottom walls of the protrusion 41 and the groove 42 to improve the stability of the connection between the two positioning sliders 1.

Furthermore, in the actual construction of the conversion layer, the conventional positioning steel plates are laid along the length direction of the template, the jacks on the positioning steel plates are arranged at the two ends of the positioning steel plates and used for inserting and fixing the steel bars at the two ends, the middle sections of the positioning steel plates are provided with a plurality of rectangular long grooves at intervals and penetrate through the middle sections of the positioning steel plates, and the groove walls of the rectangular long grooves can be used for fixing other vertical steel bars.

In the embodiment of the present application, referring back to fig. 1, two positioning sliding bases 1 are disposed at two ends of the length direction of the template, and an expansion link 5 for connecting the two positioning sliding bases 1 is disposed between the two positioning sliding bases 1.

Specifically, the telescopic rod 5 comprises a fixing rod 51 arranged in a hollow manner, a movable rod 52 sliding in the hollow portion of the fixing rod 51 and a locking screw 53, a through hole 55 is formed in the side wall of the fixing rod 51, positioning holes 54 are formed in the side wall of the movable rod 52 at intervals, and after the movable rod 52 slides to the through hole 55 and is communicated with the positioning holes 54, the locking screw 53 is screwed in to keep the telescopic rod 5 at a fixed length.

Connect the both sides that two frame body portions 11 on two location slides 1 are close to each other respectively with the mode of spot welding at the both ends of telescopic link 5, make two location slides 1 become complete reinforcing bar fixing device with telescopic link 5, adjust the telescopic link 5 length back according to the job site actual conditions, can make two sleeves 2 on the location slide 1 be used for the grafting of template both ends position reinforcing bar fixed, it is fixed that messenger's telescopic link 5 is used for other vertical reinforcing bars, use the scene nimble and can have enough to meet the need the use many times, construction cost is reduced.

The implementation principle that can have enough to meet need assembled structure conversion layer reinforcing bar fixing device is: a slide way for longitudinal sliding of the sleeve 2 is formed by matching the slide bar 31, the locking bolt 321 and the locking nut 322, the transverse sliding of the slide bar 31 is realized by the hollow positioning sliding seat 1, the sleeve 2 is locked on the positioning sliding seat 1 by matching the locking bolt 321 and the locking nut 322, and finally, the adjustment of the transverse and longitudinal distances among the plurality of sleeves 2 is jointly realized, so that the positioning sliding seat 1 can be conveniently spliced, positioned and fixed on a construction site, the positioning sliding seat 1 can be used for different steel bar design positions, and the positioning sliding seat 1 can be repeatedly used; the change of 1 inner skleeve 2 quantity in location slide is realized through the location slide 1 of removable setting to cooperation through locking bolt 321 and locking nut 322 is fixed the draw runner 31, location slide 1 that sleeve 2 is jointly, the simple operation, and the further suitability of the location slide 1 that increases.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a can have enough to meet need assembled structure conversion layer reinforcing bar fixing device which characterized in that: the steel bar positioning device comprises a positioning sliding seat (1) and a plurality of sleeves (2) connected to the positioning sliding seat (1) in a sliding mode, wherein each sleeve (2) comprises a cylindrical part (21) used for inserting steel bars and a sliding plate (22) connected with the positioning sliding seat (1) in a sliding mode, the sliding plate (22) is fixedly connected to the end face of the cylindrical part (21), and the sliding plate (22) protrudes out of the side wall of the cylindrical part (21);

still be provided with on location slide (1) and be used for making slide plate (22) are followed the length of location slide (1) and slide structure (3) that the width direction slided, and be used for with sleeve (2) locking in locking structure on the location slide (1).

2. The turnover assembly type structure conversion layer steel bar fixing device is characterized in that: fastening bolts are threaded through the cambered side wall of the cylindrical part (21).

3. The turnover assembly type structure conversion layer steel bar fixing device of claim 2, wherein: the positioning sliding seat (1) is a hollow rectangular frame body, and the slideway structure (3) comprises a plurality of groups of strip plate groups which are connected with the positioning sliding seat (1) in a sliding manner in the hollow part of the positioning sliding seat (1) along the width direction of the positioning sliding seat (1);

the strip plate group comprises two sliding strips (31) which are arranged oppositely at intervals along the thickness direction of the positioning sliding seat (1), the interval between the sliding strips (31) is matched with the sliding plate (22) in a sliding manner, and a locking assembly (32) used for locking the sliding strips (31) in the positioning sliding seat (1) is further arranged on the positioning sliding seat (1).

4. The turnover assembly type structure conversion layer steel bar fixing device of claim 3, wherein: the locking assembly (32) comprises a locking bolt (321) and a locking nut (322) which is connected to the locking bolt (321) in a threaded mode; the locking bolt (321) jointly penetrates through the positioning sliding seat (1) and the two sliding strips (31) located in the same strip plate group.

5. The turnover assembly type structure conversion layer steel bar fixing device is characterized in that: the positioning sliding seat (1) comprises a frame body portion (11) and an end plate (12), wherein the end plate (12) is detachably connected to the frame body portion (11), and a socket (33) used for sliding the sliding strip (31) into is further formed in the side wall of the positioning sliding seat (1) in the thickness direction.

6. The turnover assembly type structure conversion layer steel bar fixing device of claim 5, wherein: socket (33) in two opposites sides of location slide (1) have been seted up two, still be provided with on location slide (1) and be used for adjacent two location slide (1) is along the mosaic structure of its length direction concatenation.

7. The turnover assembly type structure conversion layer steel bar fixing device according to any one of claims 1 to 6, wherein: the positioning sliding seat is characterized in that two or two positioning sliding seats (1) are arranged between the positioning sliding seats (1), and telescopic rods (5) used for connecting the two positioning sliding seats (1) are further arranged between the positioning sliding seats (1).

8. The turnover assembly type structure conversion layer steel bar fixing device of claim 7, wherein: the telescopic rod (5) comprises a fixed rod (51), a movable rod (52) and a locking screw (53), wherein the movable rod (52) is connected to the fixed rod (51) in a sliding mode along the axial direction of the fixed rod (51), and the locking screw (53) penetrates through the fixed rod (51) and then is in threaded connection with the movable rod (52).

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