CN208056672U - A kind of high-altitude application safety rope positioning device for building - Google Patents

Abstract

The utility model discloses a kind of high-altitude application safety rope positioning devices for building, it include the positioning wedged block set gradually under upper, upper boom, position adjusts jacking mechanism, lower beam and bottom plate, the positioning wedged block is fixed on upper boom, the lower beam is fixed on bottom plate, the upper boom and lower beam coaxial arrangement, the U-shaped opening for being caught in beam is provided at the top of the positioning wedged block, the bottom plate is placed on ground, safety rope is bound on upper boom or lower beam, the position adjusts the position to axial that jacking mechanism is used to adjust upper boom and lower beam, and positioning wedged block is held out against on top beam, bottom plate is held out against on bottom surface.The high-altitude application safety rope positioning device for building of the utility model can be positioned indoors by the top beam of protrusion, be tied to for safety rope and positioned thereon, reduce the security risk of construction worker's high-altitude application.

Description

A kind of high-altitude application safety rope positioning device for building

Technical field

The utility model belongs to building field, is related to a kind of high-altitude application safety rope positioning device for building.

Background technology

When building house, it is often necessary to which working at height, such as installation curtain wall, brush exterior wall etc., these working at height have Certain danger.Currently, when carrying out these working at height, construction worker usually operates on high-altitude operation platform frame, this Kind high-altitude operation platform frame is suspended in by fixed pulley outside building, and whole operation platform is easy to shake, and for many high Layer building, after engineering enters the work such as later stage curtain wall installation, internal column has usually combined together with metope, causes interior Portion is not for the column of safety rope binding, and also ceiling combines together beam, and beam only has part protrusion ceiling, and inside is caused also not have There are the beam bound for safety rope, external protection reinforced frame to remove, and whole building has been enter into the construction later stage, it cannot be again Concrete reinforcement etc. is buried on building for binding safety rope, construction worker is equivalent to can only be unshielded flat in high-altitude application It is operated on rack, security risk is larger.

Invention content

For the deficiency in the presence of the prior art, the main purpose of the utility model is to provide high-altitude applications for building Safety rope positioning device, to reduce the security risk of construction worker's high-altitude application.

The high-altitude application safety rope positioning device for building of the utility model adopts the following technical scheme that：

A kind of high-altitude application safety rope positioning device for building, include the positioning wedged block set gradually under upper, upper boom, Position adjusts jacking mechanism, lower beam and bottom plate, the positioning wedged block and is fixed on upper boom, and the lower beam is fixed on bottom plate, institute Upper boom and lower beam coaxial arrangement are stated, the U-shaped opening for being caught in beam is provided at the top of the positioning wedged block, the bottom plate is placed with Ground, safety rope are bound on upper boom or lower beam, and the position adjusts the relative axle that jacking mechanism is used to adjust upper boom and lower beam It is held out against on top beam to position, and by positioning wedged block, bottom plate is held out against on bottom surface.

Further, it is oil cylinder that the position, which adjusts jacking mechanism,.

Further, the position adjust jacking mechanism include be arranged upper boom bottom bulge loop and be arranged at the top of lower beam Annular recess is evenly distributed in the first slot segmentation that the bulge loop is evenly divided into several circular arc protrusions on the bulge loop, described The second slot segmentation that these annular recess are evenly divided into several arc grooves, the circular arc protrusion are evenly distributed on lower beam It is slidably disposed in the second slot segmentation so that the position to axial of upper boom and lower beam is adjustable, the circular arc protrusion is through second Slot segmentation is transferred to the positioning to axial that upper boom and lower beam are realized in arc groove.

Further, the positioning wedged block is removably arranged on upper boom.

Further, first flange disk it has been wholely set at the top of the upper boom, the positioning wedged block bottom has been wholely set the Two ring flanges are removably connected between the first flange disk and second flange disk by bolt.

Further, it is provided with taper pin between the first flange disk and second flange disk.

The beneficial effects of the utility model：

The high-altitude application safety rope positioning device for building of the utility model can be located in room by the top beam of protrusion It is interior, it is tied to for safety rope and is positioned thereon, reduce the security risk of construction worker's high-altitude application.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the utility model scheme of installation,

Fig. 3 is the cross section view of Fig. 1

Fig. 4 is the structural schematic diagram of upper boom bottom；

Fig. 5 is the structural schematic diagram at the top of lower beam；

Fig. 6 is the partial enlarged view of Fig. 2.

Reference numeral in Figure of description includes：Ground A, top beam B, positioning wedged block 1, upper boom 2, position, which are adjusted, holds out against machine Structure 3, lower beam 4, bottom plate 5, wedge block 6, second flange disk 11, bulge loop 21, first flange disk 22, annular recess 41, circular arc protrusion 211, the first slot segmentation 212, arc groove 411, the second slot segmentation 412.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

The high-altitude application safety rope positioning device for building of the present embodiment is set successively referring to Fig. 1, Fig. 2, including under upper Positioning wedged block 1, upper boom 2, position adjusting jacking mechanism 3, lower beam 4 and bottom plate 5, the positioning wedged block 1 set are fixed on upper boom 2 On, the lower beam 4 is fixed on bottom plate 5, and the upper boom 2 and lower beam 4 are coaxially disposed, and 1 top setting of the positioning wedged block is useful In the U-shaped opening for being caught in beam, the bottom plate 5 is placed in ground A, and safety rope is bound on upper boom 2 or lower beam 4, the position tune Section jacking mechanism 3 is used to adjust the position to axial of upper boom 2 and lower beam 4, and positioning wedged block 1 is held out against on top beam B, the bottom of by Plate 5 is held out against on bottom surface.

Specifically, in the present embodiment, referring to Fig. 3, Fig. 4, Fig. 5, it includes being arranged in upper boom that the position, which adjusts jacking mechanism 3, The bulge loop 21 of 2 bottoms and the annular recess 41 at the top of lower beam 4 is set, is evenly distributed on the bulge loop 21 bulge loop 21 is equal Even the first slot segmentation 212 for being divided into several circular arc protrusions 211 is evenly distributed in these annular recess 41 on the lower beam 4 It is evenly divided into the second slot segmentation 412 of several arc grooves 411, the circular arc protrusion 211 is slidably disposed in second point It cuts in slot 412 so that the position to axial of upper boom 2 and lower beam 4 is adjustable, the circular arc protrusion 211 is through 412 turns of the second slot segmentation Enter to realize the positioning to axial of upper boom 2 and lower beam 4 in arc groove 411.In specific implementation process, which adjusts and holds out against Oil cylinder or other structures also can be used in mechanism 3.

When installation, circular arc protrusion 211 is first set to be located in the second slot segmentation 412, lower beam 4 falls to lowest order in Gravitative Loads It sets, entire positioning device is placed in immediately below top beam B, then hold up upper boom 2 so that top beam B is caught in the U-shaped of positioning wedged block 1 and opens In mouthful, and positioning wedged block 1 is held out against on top beam B, then rotates lower beam 4 so that in 211 card of circular arc protrusion such as annular recess 41, So that the relative position of upper boom 2 and lower beam 4 is fixed, upper boom 2 and lower beam 4 are finally unclamped.After unclamping upper boom 2 and lower beam 4, top beam B Bottom surface and the bottom surface of U-shaped opening between will produce the gap of very little, but due to gap very little, when entire positioning device is in safety It is maintained to not depart from top beam B in the case of rope load, effectively be positioned.

The high-altitude application safety rope positioning device for building of the utility model can be located in room by the top beam of protrusion It is interior, it is tied to for safety rope and is positioned thereon, reduce the security risk of construction worker's high-altitude application.

In the embodiment optimized at one, referring to Fig. 6,5 bottom surface of the bottom plate is equipped at least three wedge blocks 6, these Circumference uniform distribution centered on 6 wing lower beam 4 of wedge block, three wedge blocks 6 are wedged between bottom plate 5 and ground A, and U-shaped open can be eliminated Gap between the mouth bottom surface bottom surfaces top beam B.

In the embodiment optimized at one, the positioning wedged block 1 is removably arranged on upper boom 2.Top beam B can be had more Various sizes of positioning wedged block 1 is selected with the difference of ground A distances, makes the room it is suitable for different floor heights or different beam sizes Room, the scope of application are wider.Specifically, referring to Fig. 1, Fig. 2,2 top of the upper boom has been wholely set first flange disk 22, described fixed Position 1 bottom of fixture block has been wholely set second flange disk 11, passes through bolt between the first flange disk 22 and second flange disk 11 Dismountable connection.When dismounting the positioning wedged block 1, only it need to pass through assembling-disassembling bolt.Preferably, 22 He of first flange disk It is provided with taper pin between second flange disk 11, enables to the connection between first flange and second flange more reliable, is not easy to send out It is raw to shake.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that： Can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and objective, modification, replaced And modification, the scope of the utility model are limited by claim and its equivalent.

Claims (7)

1. a kind of high-altitude application safety rope positioning device for building, it is characterised in that：It include the positioning set gradually under upper Fixture block, upper boom, position adjust jacking mechanism, lower beam and bottom plate, the positioning wedged block and are fixed on upper boom, and the lower beam is fixed on On bottom plate, the upper boom and lower beam coaxial arrangement, the positioning wedged block top are provided with the U-shaped opening for being caught in beam, described Bottom plate is placed on ground, and safety rope is bound on upper boom or lower beam, and the position adjusts jacking mechanism for adjusting upper boom under The position to axial of bar, and positioning wedged block is held out against on top beam, bottom plate is held out against on bottom surface.

2. high-altitude application safety rope positioning device for building according to claim 1, it is characterised in that：The position is adjusted Jacking mechanism is oil cylinder.

3. high-altitude application safety rope positioning device for building according to claim 1, it is characterised in that：The position is adjusted Jacking mechanism includes bulge loop and the annular recess that is arranged at the top of lower beam being arranged in upper boom bottom, circumference uniform distribution on the bulge loop There is the first slot segmentation that the bulge loop is evenly divided into several circular arc protrusions, is evenly distributed on the lower beam these ring-types is recessed Slot is evenly divided into the second slot segmentation of several arc grooves, and the circular arc protrusion, which is slidably disposed in the second slot segmentation, to be made The position to axial for obtaining upper boom and lower beam is adjustable, and the circular arc protrusion, which is transferred to through the second slot segmentation in arc groove, realizes upper boom With the positioning to axial of lower beam.

4. high-altitude application safety rope positioning device for building according to claim 1, it is characterised in that：The positioning wedged block It is dismountable to be arranged on upper boom.

5. high-altitude application safety rope positioning device for building according to claim 4, it is characterised in that：At the top of the upper boom It is wholely set first flange disk, the positioning wedged block bottom has been wholely set second flange disk, the first flange disk and It is removably connected by bolt between two ring flanges.

6. high-altitude application safety rope positioning device for building according to claim 5, it is characterised in that：The first flange It is provided with taper pin between disk and second flange disk.

7. high-altitude application safety rope positioning device for building according to claim 3, it is characterised in that：The bottom plate bottom surface Wedge block there are four being arranged.