CN218406332U - Civil engineering is with scaffold frame that has anti-skidding function - Google Patents

Abstract

The utility model discloses a civil engineering is with scaffold frame that has anti-skidding function, include: the device comprises a stand column, a first half split ring, a cross bar and a pedal; the front part of the upright post is connected with a first half split ring, a cross rod is connected in the first half split ring, the back part of the upright post is connected with a connecting rod, and one side of the second half split ring is provided with a pedal. Through installing half third split ring on the stand, and remove half third split ring downwards, the drive inserts the borer and inserts ground, then rotatory locking bolt, lock half third split ring, and then can increase the support area, prevent to slide, through inserting the terminal inserted bar on stand top in the terminal butt joint section of thick bamboo of another group stand, and make T type pole pass behind the butt joint frame under the effect of torsional spring, reset by oneself, can install the relatively firm butt joint of two sets of stands, through rotatory two-way screw rod, drive two sets of extension boards and outwards move simultaneously, and then can prolong the length of footboard, adapt to the scaffold frame of different length.

Description

Civil engineering is with scaffold frame that has anti-skidding function

Technical Field

The utility model relates to a scaffold frame technical field specifically is a civil engineering is with scaffold frame that has anti-skidding dynamic function.

Background

The scaffold is a working platform which is erected for ensuring the smooth operation of each construction process, is a common tool in civil engineering, and has certain defects when used, such as the defects of the existing scaffold;

because the bottom is supported only by the contact of the stand columns and the ground, the supporting area is small, the stand columns are easy to slide, and when the scaffold is heightened, the scaffold is directly inserted into the other set of stand columns only through one set of stand columns and then assembled, the assembled foundation is not firm, and the scaffold is easy to shake;

improvements are needed to address the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a civil engineering is with scaffold frame that has anti-skidding function to the bottom on solving the existing market that above-mentioned background art provided only relies on stand and ground contact to support, and the supporting area is less, slides easily, and scaffold frame when increasing, only through a set of stand disect insertion in another set of stand, then assembles, and the equipment basis is insecure, appears the problem of rocking easily.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a civil engineering is with scaffold frame that has anti-skidding function, includes: the device comprises a stand column, a first half split ring, a cross bar and a pedal;

the upright post is characterized in that the front part of the upright post is connected with a first half split ring, the upright post is used as a connection foundation, a cross rod is connected in the first half split ring, the back part of the upright post is connected with a connecting rod, the connecting rod is connected with a second half split ring, and a pedal is arranged on one side of the second half split ring.

Preferably, the pillar includes: the connecting device comprises an insertion rod, a sliding plate, a butt joint frame, a butt joint barrel, a sliding rail, a connecting seat, a T-shaped rod and a torsion spring, wherein the insertion rod is connected to the top end of the upright post, the sliding plate is connected to the outer peripheral surface of the insertion rod, and the butt joint frame is connected to the outer peripheral surface of the upright post.

Preferably, the tail end of the upright post is connected with a butt joint barrel, the inner peripheral surface of the butt joint barrel is connected with a slide rail, the outer peripheral surface of the butt joint barrel is connected with a connecting seat, a T-shaped rod is connected in the connecting seat in a rotating mode, the T-shaped rod is connected with a torsion spring, and the top end of the torsion spring is connected below the connecting seat.

Preferably, the length of the tail end of the T-shaped rod is greater than the length of the interior of the butt-joint frame, and the length of the tail end of the T-shaped rod is less than the width of the interior of the butt-joint frame.

Preferably, the pedal includes: lead to groove, guide rail, deflector, extension board, two-way screw rod, bearing frame, driven bevel gear, drive bevel gear, through axle, it has seted up logical groove to state the footboard lower surface, be connected with the guide rail on leading to the inslot lateral wall, sliding connection has the deflector in the guide rail, deflector one side is connected with the extension board, extension board internal thread connection has two-way screw rod, two-way screw rod is connected in the bearing frame, the bearing frame is connected in leading to inslot portion top.

Preferably, the bidirectional screw is connected with a driven bevel gear in an embedded manner, one side of the driven bevel gear is connected with a driving bevel gear in a meshed manner, the back of the driving bevel gear is connected with a through shaft, and one end of the through shaft is connected in the through groove in a penetrating manner.

Preferably, the pedal top is connected with the box, the box is connected with the sub-end of detaining in the block, the sub-is detained and is connected in the recess, the recess is seted up in the slipmat bottom, the slipmat is connected in the pedal top, the slipmat top is connected with the lug.

Preferably, the outer peripheral surface of the upright post is connected with a third half split ring, one side of the third half split ring is connected with a locking bolt, and an inserting drill rod is fixedly connected below the third half split ring.

Compared with the prior art, the beneficial effects of the utility model are that: through installing half split ring of third on the stand, and remove half split ring of third downwards, the drive inserts the borer and inserts ground, then rotatory locking bolt, half split ring of locking third, and then can increase the support area, prevent to slide, insert in the terminal butt joint section of thick bamboo of another group stand through the terminal inserted bar with the stand top, and make T type pole pass after the butt joint frame under the effect of torsional spring, reset by oneself, can install the more firm butt joint of two sets of stands, through rotatory two-way screw rod, drive two sets of extension boards outwards remove simultaneously, and then can prolong the length of footboard, adapt to the scaffold frame of different length, concrete content is as follows:

1. after the assembly is finished, the third half split ring is clamped into the upright post, the third half split ring is moved downwards until the inserted drill rod is inserted into the ground, then the locking bolt is rotated to fix the position of the third half split ring, so that the connecting force and the supporting area between the third half split ring and the ground can be increased, and the sliding is prevented;

2. when the scaffold needs to be increased continuously, the butt-joint barrel below the other group of stand columns is sleeved outside the inserted bar, in the sleeving process, the sliding plate slides into the sliding rail, so that the butt-joint barrel cannot shake on the inserted bar easily, when the sliding plate does not slide into the sliding rail completely, the T-shaped rod outside the butt-joint barrel is rotated manually, when the butt-joint barrel below one group of stand columns is sleeved outside the inserted bar completely, the end part of the T-shaped rod just passes through the butt-joint frame, the T-shaped rod is loosened, the T-shaped rod automatically resets under the action of the torsion spring, and the other group of stand columns are further arranged above the stand columns firmly, so that the stand columns are in butt joint with the stand columns firmly and are not easy to shake;

3. the axle is run through in manual rotation, runs through the axle and drives two-way screw rod rotatory, and when two-way screw rod clockwise rotation, two sets of extension boards outwards remove simultaneously, and the length of increase footboard when two-way screw rod anticlockwise rotation, two sets of extension boards inwards remove simultaneously, reduce the length of footboard, make the footboard can adapt to the scaffold frame of different specifications, and then convenient to use.

Drawings

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the through groove structure of the present invention;

FIG. 4 is an enlarged view of the part A structure of the present invention;

fig. 5 is an enlarged view of the structure of part B of the present invention.

In the figure: 1. a column; 101. a rod is inserted; 102. a slide plate; 103. a docking frame; 104. a docking barrel; 105. a slide rail; 106. a connecting seat; 107. a T-shaped rod; 108. a torsion spring; 2. a first half split ring; 3. a cross bar; 4. a connecting rod; 5. a second semi-split ring; 6. a pedal; 601. a through groove; 602. a guide rail; 603. a guide plate; 604. a stretching plate; 605. a bidirectional screw; 606. a bearing seat; 607. a driven bevel gear; 608. a drive bevel gear; 609. penetrating the shaft; 7. a female buckle; 8. a sub-buckle; 9. a groove; 10. a non-slip mat; 11. a bump; 12. a third half split ring; 13. locking the bolt; 14. and (5) inserting a drill rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a civil engineering is with scaffold frame that has anti-skidding function, includes: the device comprises a vertical column 1, a first half split ring 2, a cross bar 3 and a pedal 6;

the front part of the upright column 1 is connected with a first half split ring 2, the upright column 1 is connected with a cross rod 3 in the first half split ring 2 as a connection foundation, the back part of the upright column 1 is connected with a connecting rod 4, the connecting rod 4 is connected with a second half split ring 5, and one side of the second half split ring 5 is provided with a pedal 6.

The column 1 includes: the vertical column comprises an inserted rod 101, a sliding plate 102, a butt joint frame 103, a butt joint barrel 104, a sliding rail 105, a connecting seat 106, a T-shaped rod 107 and a torsion spring 108, wherein the inserted rod 101 is connected to the top end of the vertical column 1, the sliding plate 102 is connected to the outer peripheral surface of the inserted rod 101, and the butt joint frame 103 is connected to the outer peripheral surface of the vertical column 1. The tail end of the upright post 1 is connected with a butt joint barrel 104, the inner circumferential surface of the butt joint barrel 104 is connected with a sliding rail 105, the outer circumferential surface of the butt joint barrel 104 is connected with a connecting seat 106, a T-shaped rod 107 is rotationally connected with the connecting seat 106, the T-shaped rod 107 is connected with a torsion spring 108, and the top end of the torsion spring 108 is connected below the connecting seat 106, so that the T-shaped rod 107 can reset automatically under the action of the torsion spring 108 after rotating. The length of the tail end of the T-shaped rod 107 is greater than the length of the inside of the butt joint frame 103, and the length of the tail end of the T-shaped rod 107 is less than the width of the inside of the butt joint frame 103, so that the T-shaped rod 107 can pass through the butt joint frame 103 after rotating and cannot pass out of the butt joint frame 103 again after resetting, the tail end inserting rod 101 at the top end of the upright post 1 is inserted into the butt joint barrel 104 at the tail end of the other group of upright posts 1, the T-shaped rod 107 passes through the butt joint frame 103 and then automatically resets under the action of the torsion spring 108, and therefore the two groups of upright posts 1 can be firmly butt-jointed and installed.

The pedal 6 includes: the pedal comprises a through groove 601, a guide rail 602, a guide plate 603, an extension plate 604, a bidirectional screw 605, a bearing seat 606, a driven bevel gear 607, a drive bevel gear 608 and a through shaft 609, wherein the through groove 601 is formed in the lower surface of the pedal 6, the guide rail 602 is connected to the inner side wall of the through groove 601, the guide plate 603 is connected in the guide rail 602 in a sliding mode, the extension plate 604 is connected to one side of the guide plate 603, the bidirectional screw 605 is connected to the extension plate 604 in a threaded mode, the bidirectional screw 605 is connected to the bearing seat 606, and the bearing seat 606 is connected to the upper portion inside the through groove 601. The embedded setting is connected with driven bevel gear 607 on two-way screw 605, driven bevel gear 607 one side meshing is connected with drive bevel gear 608, drive bevel gear 608 back is connected with through-shaft 609, through-shaft 609 one end through connection is in logical groove 601, through rotatory outside through-shaft 609, can drive two-way screw 605 rotatory, through rotatory two-way screw 605, drive two sets of extension boards 604 outwards removal simultaneously, and then can prolong the length of footboard 6, adapt to the scaffold frame of different length.

The top of footboard 6 is connected with box 7, and the block is connected with the son in the box 7 and detains 8 one end, and the son is detained 8 and is connected in recess 9, and recess 9 is seted up in slipmat 10 bottom, and slipmat 10 is connected in the top of footboard 6, and slipmat 10 top is connected with lug 11, detains 8 through the son and 7 blocks of box, installs slipmat 10 on footboard 6, and the frictional force between increase and the workman foot prevents to slide. The outer peripheral surface of the upright post 1 is connected with a third half split ring 12, one side of the third half split ring 12 is connected with a locking bolt 13, an inserting drill rod 14 is fixedly connected below the third half split ring 12, the third half split ring 12 is installed on the upright post 1, the third half split ring 12 is moved downwards to drive the inserting drill rod 14 to be inserted into the ground, then the locking bolt 13 is rotated to lock the third half split ring 12, and further the supporting area can be increased and sliding can be prevented.

In summary, the following steps: as shown in fig. 1 to 5, in using the scaffold having an anti-slip function for civil engineering, the present apparatus is simply understood by first erecting the vertical posts 1, then connecting the cross bars 3 in the first half split rings 2 and locking them, then adjusting the position of the pedals 6 according to the interval between the vertical posts 1, manually rotating the penetration shaft 609, the penetration shaft 609 rotates the driving bevel gear 608, the driving bevel gear 608 rotates the driven bevel gear 607, the driven bevel gear 607 rotates the two-way screw 605, since the two-way screw 605 is screwed with the two sets of extension plates 604, and the two sets of extension plates 604 are slidably connected with the guide rail 602 through the guide plates 603 on both sides, when the two-way screw 605 rotates clockwise, the two sets of extension plates 604 move outward at the same time to increase the length of the pedals 6, when the two-way screw 605 rotates counterclockwise, the two sets of extension plates 604 move inward at the same time, the length of the pedal 6 is reduced, so that the pedal 6 can adapt to scaffolds with different specifications and is convenient to use, secondly, after the length of the pedal 6 is adjusted, the pedal is clamped on the connecting rod 4 through the second half-split rings 5 at two ends and is further installed on the scaffold, when the scaffold needs to be increased continuously, the butt-joint barrel 104 below the other group of upright posts 1 is sleeved outside the inserted link 101, in the sleeving process, the sliding plate 102 slides into the sliding rail 105, so that the butt-joint barrel 104 cannot easily shake on the inserted link 101, when the sliding plate 102 does not completely slide into the sliding rail 105, the T-shaped rod 107 outside the butt-joint barrel 104 is manually rotated, the end part of the T-shaped rod 107 can penetrate through the butt-joint frame 103, when the butt-joint barrel 104 below the group of upright posts 1 is completely sleeved outside the inserted link 101, the end part of the T-shaped rod 107 just penetrates through the butt-joint frame 103, the T-shaped rod 107 is loosened under the action of the torsion spring 108, self-resetting, further more firmly installing another group of columns 1 above the columns 1, and installing the rest of columns 1 in a butt joint manner in the same way, thereby facilitating the heightening of the scaffold, making the butt joint between the columns 1 and the columns 1 firmer and less prone to shaking, finally, after the assembly is completed, clamping the third half-split ring 12 into the columns 1, and moving the third half-split ring 12 downwards until the inserted drill 14 is inserted into the ground, then, rotating the locking bolt 13 to fix the position of the third half-split ring 12, thereby being capable of increasing the connecting force and the supporting area with the ground, thereby preventing sliding, then, covering the non-slip mat 10 above the pedal 6, and pressing the non-slip mat 10 to clamp the female buckle 7 and the male buckle 8, further installing the non-slip mat 10 on the pedal 6, and similarly, installing the rest of the non-slip mats 10 on the two groups of extension plates, increasing the friction force with the feet of workers through the non-slip mat 10 and the convex blocks 11, thereby preventing sliding falling down, which is not described in detail in this specification belongs to the prior art known by the professional skilled in the art 604.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides a civil engineering is with scaffold frame that has anti-skidding function, includes: the device comprises a vertical column (1), a first half split ring (2), a cross bar (3) and a pedal (6), and is characterized in that;

the front part of the upright post (1) is connected with a first half split ring (2), a cross rod (3) is connected in the first half split ring (2), the back part of the upright post (1) is connected with a connecting rod (4), the connecting rod (4) is connected with a second half split ring (5), and one side of the second half split ring (5) is provided with a pedal (6).

2. The scaffold with the anti-sliding function for civil engineering according to claim 1, characterized in that: the upright (1) comprises: inserted bar (101), slide (102), butt joint frame (103), butt joint section of thick bamboo (104), slide rail (105), connecting seat (106), T type pole (107), torsional spring (108), stand (1) top is connected with inserted bar (101), be connected with slide (102) on the inserted bar (101) outer peripheral face, be connected with butt joint frame (103) on stand (1) outer peripheral face.

3. The scaffold with the anti-sliding function for civil engineering according to claim 2, characterized in that: the end of the upright post (1) is connected with a butt joint barrel (104), the inner circumferential surface of the butt joint barrel (104) is connected with a sliding rail (105), the outer circumferential surface of the butt joint barrel (104) is connected with a connecting seat (106), a T-shaped rod (107) is rotationally connected with the connecting seat (106), a torsion spring (108) is connected onto the T-shaped rod (107), and the top end of the torsion spring (108) is connected below the connecting seat (106).

4. The scaffold with the anti-sliding function for civil engineering according to claim 3, characterized in that: the length of the tail end of the T-shaped rod (107) is larger than the length of the interior of the butt joint frame (103), and the length of the tail end of the T-shaped rod (107) is smaller than the width of the interior of the butt joint frame (103).

5. The scaffold with the anti-sliding function for civil engineering according to claim 1, characterized in that: the pedal (6) comprises: lead to groove (601), guide rail (602), deflector (603), extension board (604), two-way screw rod (605), bearing frame (606), driven bevel gear (607), drive bevel gear (608), through axle (609), state footboard (6) lower surface and seted up logical groove (601), be connected with guide rail (602) on leading to groove (601) inside wall, sliding connection has deflector (603) in guide rail (602), deflector (603) one side is connected with extension board (604), extension board (604) female connection has two-way screw rod (605), two-way screw rod (605) are connected in bearing frame (606), bearing frame (606) are connected in leading to the inside top of groove (601).

6. The scaffold with the anti-sliding function for civil engineering according to claim 5, characterized in that: the bidirectional screw (605) is embedded with a driven bevel gear (607), one side of the driven bevel gear (607) is engaged with a driving bevel gear (608), the back of the driving bevel gear (608) is connected with a through shaft (609), and one end of the through shaft (609) is connected in the through groove (601) in a penetrating manner.

7. The scaffold with the anti-sliding function for civil engineering according to claim 1, characterized in that: footboard (6) top is connected with box (7), snap-fit connection has the son to detain (8) one end in box (7), the son is detained (8) and is connected in recess (9), recess (9) are seted up in slipmat (10) bottom, slipmat (10) are connected in footboard (6) top, slipmat (10) top is connected with lug (11).

8. The scaffold with the anti-sliding function for civil engineering according to claim 1, characterized in that: the outer peripheral surface of the upright post (1) is connected with a third half split ring (12), one side of the third half split ring (12) is connected with a locking bolt (13), and an inserting drill rod (14) is fixedly connected below the third half split ring (12).

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