Detailed Description
The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.
As shown in fig. 1 to 5, an embodiment of the present invention provides an attaching support for an attached type lifting scaffold, which is used for connecting a frame structure of the attached type lifting scaffold with a wall 100 of a building, and the attached type lifting scaffold is fixed to the wall 100 of the building.
Referring to fig. 1, the attachment support for the attached lifting scaffold comprises an attachment support 7, a support beam 1, a support base 2, a diagonal support rod 3, a fastener 4, a locking member 5 and a reinforcing rod 6, wherein one end of the support beam 1 and the support base 2 are fixedly connected with the wall body 100 respectively, the support beam 1 and the support base 2 are arranged at intervals along the vertical direction, the attachment support 7 is arranged at one end of the support beam 1 far away from the wall body 100 and is matched with a frame body structure of the attached lifting support, one of opposite ends of the diagonal support rod 3 is hinged with the support base 2, the other end of the diagonal support rod is hinged with one end of the support beam 1 far away from the wall body 100, at the moment, the diagonal support rod 3 and the wall body 100 enclose a stable triangle to support the attachment support 7, the fastener 4 is sleeved on the diagonal support rod 3 and can slide along the axial direction of the diagonal support rod 3, the locking member 5 is arranged on the fastener 4, the locking member 5 is used for driving the support beam 4 to clamp the support beam 3 to enable the diagonal support rod 3 to be in a position of the diagonal support rod 3 to be matched with a frame body structure of the attached lifting support rod, the diagonal support rod 3 is hinged with one end of the support rod 1 far away from the wall body 100, the other end of the diagonal support rod 1 is hinged with the other end of the support rod 6, the diagonal support rod is hinged with the other end of the diagonal support rod 1 is kept close to the other end of the diagonal support rod 100, the diagonal support is fixed with the other end is opposite end of the diagonal support 1, and the support is kept close to the support is opposite to the support 6, and the support is hinged with the support is kept opposite end of the support 6, and has a stable opposite end is kept opposite stable support is close to the support is opposite to the support is attached support 2.
As shown in fig. 2, in this embodiment, the diagonal brace 3 is telescopic, so that the distance between the support beam 1 and the support base 2 can be adjusted according to the size of the actual installation position, the attachment support for the attached lifting scaffold can be installed in the space between two vertically adjacent cantilever members 101, such as a bay window or a balcony, and the wall attachment support 7 and the wall 100 are kept at a certain distance, so that the wall attachment support 7 is matched with the frame structure of the attached lifting scaffold.
Specifically, the diagonal brace 3 includes a first support bar 31, a first screw rod 32, an adjusting rod 33, a second screw rod 34 and a second support bar 35 that are sequentially connected, one of two opposite ends of the first screw rod 32 is in threaded connection with the first support bar 31, the other end is fixedly connected with the adjusting rod 33, one of two opposite ends of the second screw rod 34 is in threaded connection with the second support bar 35, the other end is fixedly connected with the adjusting rod 33, and then the first screw rod 32 and the second screw rod 34 can be driven to synchronously rotate by operating the adjusting rod 33, and the rotation direction of the threads on the first screw rod 32 is opposite to the rotation direction of the threads on the second screw rod 34, so that in the process of synchronously rotating the first screw rod 32 and the second screw rod 34, the first screw rod 32 and the second screw rod 34 retract into the first support bar 31 and the second support bar 35 respectively, at this time, or the first screw rod 32 and the second screw rod 34 extend out of the first support bar 31 and the second support bar 35 respectively, and the diagonal brace 3 can be rotated clockwise or the diagonal brace 3 can be adjusted to be rotated counterclockwise by operating the diagonal brace 3.
As shown in fig. 2, the first supporting rod 31 is provided with a first threaded hole matched with the first screw rod 32, the depth of the first threaded hole is greater than the length of the portion of the first screw rod 32 exposed to the adjusting rod 33, and then the adjusting rod 33 is rotated until the length of the diagonal supporting rod 3 is minimum when the adjusting rod 33 abuts against the first supporting rod 31, the supporting rod is provided with a second threaded hole matched with the second screw rod 34, the depth of the second threaded hole is greater than the length of the second screw rod 34 exposed to the portion of the adjusting rod 33, the length of the second screw rod 34 exposed to the adjusting rod 33 is equal to the length of the first threaded rod exposed to the adjusting rod 33, when the length of the diagonal supporting rod 3 is adjusted to the minimum, the opposite ends of the adjusting rod 33 abut against the first supporting rod 31 and the second supporting rod 35 respectively, and the minimum length of the diagonal supporting rod 3 is greater than the length of the supporting beam 1.
In detail, in order to make the diagonal brace 3 smoothly rotate relative to the support base 2 and the support beam 1, a first sleeve 36 is disposed at an end of the first support rod 31 away from the first screw rod 32, the first sleeve 36 is fixedly connected with the first support rod 31, a first hinge base 21 is disposed on the support base 2 and the first sleeve 36 is rotatably connected with the first hinge base 21, a second sleeve 37 is disposed at an end of the second support rod 35 away from the second screw rod 34, the second sleeve 37 is fixedly connected with the second support rod 35, a second hinge base 11 is disposed on the support beam 1 and the second sleeve 37 is rotatably connected with the second hinge base 11, so as to ensure stable and reliable connection between the diagonal brace 3 and the support base 2 and the support beam 1.
Please combine fig. 3 and fig. 4, the fastener 4 is ring-shaped with a notch, and two opposite ends of the fastener 4 are respectively provided with a first bending portion 41 and a second bending portion 42, the first bending portion 41 is parallel to the second bending portion 42, a distance between the first bending portion 41 and the second bending portion 42 is equal to a width of the notch, the locking member 5 is disposed on the first bending portion 41, and the locking member 5 is operated to enable the first bending portion 41 and the second bending portion 42 to approach each other. When the first bending portion 41 and the second bending portion 42 are driven by the locking member 5 to approach each other, the fastener 4 is tightened and held tightly on the diagonal brace 3, at this time, the fastener 4 is fixed on the diagonal brace 3, the first bending portion 41 and the second bending portion 42 are reset under the action of self-elastic force after the locking member 5 is operated, at this time, a gap is formed between the fastener 4 and the diagonal brace 3, so that the fastener 4 can move on the diagonal brace 3, and the reinforcing rod 6 is driven to rotate synchronously in the process of rotating the diagonal brace 3, so that the attaching support for the attached lifting scaffold is adjusted to be matched with the mounting position.
Referring to fig. 3 and 4, the locking member 5 includes a pin 51, and a handle 52 and a pressing member 53 respectively disposed at two ends of the pin 51, wherein the pin 51 sequentially penetrates through the first bending portion 41 and the second bending portion 42, the handle 52 is rotatably connected with the pin 51, the handle 52 is provided with a protruding portion 54 that abuts against the first bending portion 41, and the pressing member 53 abuts against one surface of the second bending portion 42 away from the first bending portion 41. When the locking piece 5 is operated to lock the position of the fastener 4, the handle 52 is rotated to enable the protruding portion 54 to abut against the first bending portion 41, at this time, the pin shaft 51 is driven by the handle 52 to move along the axial direction of the first bending portion 41, and the pressing piece 53 is driven to move to enable the pressing piece 53 to push the second bending portion 42 to be close to the first bending portion 41, after the handle 52 is rotated in place, the protruding portion 54 and the pressing piece 53 clamp the first bending portion 41 and the second bending portion 42 in the middle, and at this time, the fastener 4 is kept tightly held on the diagonal support bar 3; when the locking member 5 is operated to release the locking, the handle 52 is rotated to enable the protruding portion 54 to be away from the first bending portion 41, at this time, the pin shaft 51 can freely move along the axial direction, so that the pressing member 53 can move in a direction away from the second bending portion 42, at this time, the first bending portion 41 and the second bending portion 42 are reset under the action of the self elastic force of the fastening member 4, and a gap is formed between the fastening member 4 and the diagonal brace 3, so that the fastening member 4 can move relative to the diagonal brace 3.
Specifically, the locking member 5 further includes a spring piece 8 sleeved on the pin shaft 51, the spring piece 8 is located between the handle 52 and the first bending portion 41, the spring piece 8 is attached to the first bending portion 41 and the spring piece 8 has a convex hull 81 protruding away from the direction of the first bending portion 41, the convex hull 81 is abutted to the handle 52, when the handle 52 rotates to a locking state, the convex hull 81 is directly abutted to the convex hull 54, at this time, the convex hull 81 is pressed and deformed, so that the handle 52 and the first bending portion 41 are prevented from being directly contacted to cause damage to the handle 52 or the fastener 4, and after the handle 52 rotates to an unlocking state, the convex hull 81 is abutted to the handle 52 to play a pre-tightening role, so that in the process of adjusting the diagonal brace 3, the fastener 4 slides on the diagonal brace 3 to affect normal adjustment operation.
Preferably, a groove 43 for accommodating the pressing member 53 is provided on a surface of the second bending portion 42 away from the first bending portion 41, and the pressing member 53 is accommodated in the groove 43 when the locking member 5 is in the locked state, so as to protect the locking member 5 from unexpected actions caused by the influence of external force, so that the locking member 5 is more reliable.
As shown in fig. 2, in order to enable the reinforcing rod 6 to smoothly rotate relative to the supporting beam 1 and the fastening member 4, a third sleeve 61 and a fourth sleeve 62 are respectively disposed at opposite ends of the reinforcing rod 6, the third sleeve 61 and the fourth sleeve 62 are respectively fixedly connected with the reinforcing rod 6, the supporting beam 1 is provided with a third hinge seat 12 rotatably connected with the third sleeve 61, and the fastening member 4 is provided with a fourth hinge seat 44 rotatably connected with the fourth sleeve 62, so that the connection between the reinforcing rod 6 and the supporting beam 1 and the fastening member 4 is stable, and the stability of the integral structure of the attaching support for the attached lifting scaffold is improved.
As shown in fig. 2, in the present embodiment, the fastening member 4 is held on the adjusting lever 33 after the attachment support for the attached lifting scaffold is mounted, and the position of the adjusting lever 33 is fixed by the fastening member 4 to prevent the adjusting lever 33 from rotating unexpectedly, so that the reinforcing rod 6 is telescopically arranged to enable the fastening member 4 to be held on the adjusting lever 33, and the telescopic structure of the reinforcing rod 6 is identical to the telescopic structure of the diagonal brace 3.
Referring to fig. 1 and 5, the installation process of the attaching support for the attached lifting scaffold provided in this embodiment is as follows: the method comprises the steps of reserving mounting holes on a wall body 100 of a building, fixing the end part of a supporting beam 1 on the wall body 100 by using a connecting piece 9, adjusting a handle 52 to enable a locking piece 5 to be in an unlocking state after the supporting beam 1 is fixed, rotating a diagonal bracing 3, adjusting the diagonal bracing 3 to a proper length to enable holes on a supporting seat 2 to be aligned with the reserved mounting holes on the wall body 100, fixing the supporting seat 2 to enable the supporting seat 2 to be fixedly connected with the wall body 100 by using the connecting piece 9, rotating a reinforcing rod 6, adjusting the reinforcing rod 6 to a proper length to enable a fastener 4 to be moved to an adjusting rod 33, finally rotating a handle to enable the locking piece 5 to be adjusted to be in a locking state, and installing the attached lifting scaffold by using an attached lifting scaffold to be fixed on the wall body 100 in sequence, and installing the attached lifting scaffold to the wall body 100 with a complex appearance.
Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.