CN213979845U - Connecting structure for climbing frame scissors rod - Google Patents

Abstract

The utility model relates to a connecting structure of a climbing frame scissor rod, belonging to the field of construction machinery, comprising a plurality of pedals, a plurality of supporting keels and a plurality of fixed connecting pieces; it is a plurality of the footboard and a plurality of support fossil fragments are violently indulged the cross formation a plurality of tie points, fixed connection includes first connecting piece, second connecting piece and third connecting piece, first connecting piece corresponds with the tie point of distributing in footboard sharp position department, the second connecting piece corresponds with the tie point of distributing in footboard external corner position department, the third connecting piece corresponds with the tie point of distributing in footboard internal corner position department. A climb a scissors pole connection structure, can adapt to the scissors pole and be fixed in the optional position of climbing on the frame.

Description

Connecting structure for climbing frame scissors rod

Technical Field

The utility model relates to a climb a accessory, especially relate to a climb a scissors pole connection structure, it belongs to mechanical field for the building.

Background

The building climbing frame is a novel scaffold, and is compared with the traditional scaffold, and it can be promoted along building outer wall climbing, has saved the step of overturning the shelf repeatedly, can rely on hydraulic system, electric power system etc. to climb. The support component of the climbing frame mainly comprises a keel and a pedal, wherein the pedal and the keel are crossed transversely and longitudinally to form a rectangular grid shape. In order to improve the strength of the climbing frame, a scissor rod is introduced. In order to facilitate the installation of the scissor bar, a special connecting piece needs to be designed for the scissor bar.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome the defects existing in the prior art, the utility model provides a climbing frame scissor rod connecting structure to facilitate the installation of scissor rod.

The technical scheme is as follows: in order to achieve the purpose, the utility model discloses a connecting structure of a climbing frame scissor rod, which comprises a plurality of pedals, a plurality of supporting keels and a plurality of scissor rods; the pedals are horizontally arranged, and a plurality of pedals are distributed at intervals in an up-down parallel manner; the supporting keels are vertically arranged, and a plurality of supporting keels are distributed in parallel at intervals from left to right and are connected with the pedal; the supporting keels and the pedals are crossed transversely and longitudinally to form a plurality of connecting points, and two ends of the scissor bar respectively correspond to the connecting points which are diagonal; the pedal type scissors are characterized by further comprising a plurality of fixed connecting pieces connected with the support keels, the fixed connecting pieces and the pedals are respectively arranged on two sides of the support keels, and two ends of the scissors rod are respectively connected with the fixed connecting pieces; the fixed connecting piece comprises a first connecting piece, a second connecting piece and a third connecting piece, the first connecting piece corresponds to connecting points distributed at the linear positions of the pedal, the second connecting piece corresponds to connecting points distributed at the external corner positions of the pedal, and the third connecting piece corresponds to connecting points distributed at the internal corner positions of the pedal.

Furthermore, the first connecting piece is plate-shaped, and is provided with a first connecting hole and at least one bulge; the first connecting holes and the bulges are distributed in a linear array; the support fossil fragments are provided with a plurality of fixed orificess, first connecting hole corresponds with one of them fixed orifices, the arch extends in the fixed orifices.

Further, the second connecting piece is in a serpentine shape with six connecting planes in total, and any two adjacent connecting planes are perpendicular to each other.

Further, a first rib plate is fixedly connected between any two adjacent connecting planes in the second connecting piece.

Furthermore, the third connecting piece is of a rectangular cavity structure with six connecting planes in total, and the two connecting planes at the head end and the tail end are arranged outside the cavity.

Further, a second rib plate is connected inside the rectangular cavity.

Further, a third rib plate is arranged between the connecting plane at the head end and the adjacent connecting plane and between the connecting plane at the tail end and the adjacent connecting plane.

Has the advantages that: the utility model discloses a climb a scissors pole connection structure, the fixed connector of different grade type has been installed on supporting keel, can satisfy the fixed of scissors pole each position on supporting keel, and the installation is dismantled conveniently.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of a first connecting member junction a according to the present invention;

fig. 3 is a schematic structural diagram of the first connecting member according to the present invention;

fig. 4 is a schematic structural view of a second connecting member joint B according to the present invention;

fig. 5 is a schematic structural view of the second connecting member of the present invention;

fig. 6 is a top view of the second connector of the present invention;

fig. 7 is a schematic structural view of a third connecting member joint C according to the present invention;

fig. 8 is a schematic structural diagram of the third connecting member of the present invention.

In the figure, 1, a pedal; 2. a support keel; 3. cutting a cutter rod; 4. a first connecting member; 5. a second connecting member; 6. a third connecting member; 7. a first connection hole; 8. a protrusion; 9. a fixing hole; 10. a first rib plate; 11. a second rib plate; 12. a third rib plate; 13. a second connection hole; 14. a third connection hole; 15. a fourth connection hole; 16. a fifth connecting hole; 17. and a sixth connecting hole.

Detailed Description

The principles and features of the present invention are described below with reference to fig. 1-8, which are provided for illustration only and are not intended to limit the scope of the present invention.

A connecting structure of a climbing frame scissor rod comprises a plurality of pedals 1, a plurality of supporting keels 2, a plurality of scissor rods 3 and a fixed connecting piece.

The pedals 1 are horizontally arranged, and a plurality of the pedals 1 are distributed at intervals in an up-and-down parallel mode. The support keel 2 is vertically arranged and a plurality of the support keels 2 are distributed at intervals in parallel left and right and are connected with the pedal 1. The supporting keels 2 and the pedals 1 are crossed transversely and longitudinally to form a plurality of connection points, the scissor rods 3 are arranged in an inclined mode, and two ends of the scissor rods correspond to the connection points which are opposite angles respectively. The scissor bar 3 is connected to the support keel 2 through a fixed connecting piece. The fixed connecting piece and the pedal 1 are respectively arranged at two sides of the supporting keel 2, and two ends of the scissor bar 3 are respectively connected with the fixed connecting piece.

The number of the fixed connecting pieces is three, namely a first connecting piece 4, a second connecting piece 5 and a third connecting piece 6, and the three fixed connecting pieces correspond to different installation positions respectively. The first connecting piece 4 corresponds to a connecting point distributed at a straight line position of the pedal 1, the second connecting piece 5 corresponds to a connecting point distributed at an external corner position of the pedal 1, and the third connecting piece 6 corresponds to a connecting point distributed at an internal corner position of the pedal 1.

The first connecting member 4 is in the form of a rectangular plate, and the first connecting member 4 is provided with a first connecting hole 7, two protrusions 8, and four second connecting holes 13. First connecting hole 7 is as for the central point of first connecting piece 4 and puts, two the both sides of first connecting hole 7 are put to arch 8 branch, just arch 8 and first connecting hole 7 are the straight line and distribute. The four second connecting holes 13 are distributed at four corners of the first connecting piece 4 and are used for being fixed with the scissors rods 3 in a threaded mode. Make and be provided with a plurality of fixed orificess 9 on the fossil fragments 2, first connecting hole 7 and fixed orifices 9 are to it and through the screw fixation, and two archs 8 play and prevent first connecting piece 4 pivoted effect in extending fixed orifices 9.

The second connecting piece 5 is formed by continuously bending, the second connecting piece 5 has six planes, the six planes are connected end to form a snake shape, and any two adjacent planes are perpendicular to each other. The six continuous planes are named as a first plane, a second plane, a third plane, a fourth plane, a fifth plane and a sixth plane respectively, third connecting holes 14 are formed in the third plane and the fourth plane respectively, and fourth connecting holes 15 are formed in the first plane and the sixth plane respectively. The third connecting hole 14 is aligned with the fixing hole 9 on the support keel 2 and is connected through a screw; the fourth connecting hole 15 is used for being fixed with the scissors rod 3 in a threaded mode. In order to improve the strength of the second connecting piece 5, a first rib plate 10 is additionally arranged between any two adjacent planes of the second connecting piece 5.

The third connecting piece 6 is also formed by continuous bending, the third connecting piece 6 has six planes, and any two adjacent planes are mutually vertical. The method comprises the following steps of respectively naming six continuous planes as a first plane, a second plane, a third plane, a fourth plane, a fifth plane and a sixth plane, wherein the second plane, the third plane, the fourth plane and the fifth plane enclose to form a rectangular cavity, and the first plane and the sixth plane are in an 'eight' shape. Fifth connection holes 16 are respectively formed on the third plane and the fourth plane, and sixth connection holes 17 are respectively formed on the first plane and the sixth plane. The fifth connecting hole 16 is aligned with the fixing hole 9 on the support keel 2 and is connected with the fixing hole through a screw; the sixth connecting hole 17 is used for being fixed with the scissors rod 3 in a threaded mode. In order to improve the strength of the third connecting piece 6, a second rib plate 11 is arranged in a rectangular cavity formed by the second plane, the third plane, the fourth plane and the fifth plane in a surrounding mode; and third webs 12 are provided between the sixth and fifth planes thereof and between the first and second planes.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. A connecting structure of a climbing frame scissor rod comprises a plurality of pedals (1), a plurality of supporting keels (2) and a plurality of scissor rods (3); the pedals (1) are horizontally arranged, and a plurality of pedals (1) are distributed in parallel at intervals from top to bottom; the supporting keels (2) are vertically arranged, and a plurality of supporting keels (2) are distributed in parallel at intervals from left to right and are connected with the pedal (1); the supporting keels (2) and the pedals (1) are crossed transversely and longitudinally to form a plurality of connecting points, and two ends of the scissor bar (3) correspond to the connecting points which are diagonal respectively; the method is characterized in that: the pair of scissors also comprises a plurality of fixed connecting pieces connected with the supporting keels (2), the fixed connecting pieces and the pedals (1) are respectively arranged at the inner side and the outer side of the supporting keels (2), and two ends of the scissors rod (3) are respectively connected with the fixed connecting pieces; the fixed connection piece includes first connecting piece (4), second connecting piece (5) and third connecting piece (6), first connecting piece (4) correspond with the tie point of distributing in footboard (1) straight line position department, second connecting piece (5) correspond with the tie point of distributing in footboard (1) external corner position department, third connecting piece (6) correspond with the tie point of distributing in footboard (1) reentrant corner position department.

2. The tool bar connecting structure of a creeper scissors according to claim 1, wherein: the first connecting piece (4) is plate-shaped, and a first connecting hole (7) and at least one bulge (8) are arranged on the first connecting piece (4); the first connecting holes (7) and the bulges (8) are distributed in a linear array; support fossil fragments (2) and be provided with a plurality of fixed orificess (9), first connecting hole (7) correspond with one of them fixed orifices (9), arch (8) extend in fixed orifices (9).

3. The tool bar connecting structure of a creeper scissors according to claim 1, wherein: the second connecting piece (5) is in a snake shape with six connecting planes in total, and any two adjacent connecting planes are vertical to each other.

4. The tool bar connecting structure of a creeper scissors according to claim 3, wherein: a first rib plate (10) is fixedly connected between any two adjacent connecting planes in the second connecting piece (5).

5. The tool bar connecting structure of a creeper scissors according to claim 1, wherein: the third connecting piece (6) is of a rectangular cavity structure with six connecting planes in total, and the two connecting planes at the head end and the tail end are arranged outside the cavity.

6. The tool bar connecting structure of a creeper scissors according to claim 5, wherein: and a second rib plate (11) is connected inside the rectangular cavity.

7. The tool bar connecting structure of a creeper scissors according to claim 5, wherein: third rib plates (12) are arranged between the connecting plane at the head end and the adjacent connecting plane and between the connecting plane at the tail end and the adjacent connecting plane.

Images