CN104420641A - Extensible lifting construction platform - Google Patents

Abstract

The invention discloses an extensible lifting construction platform which comprises at least one frame body. Each frame body comprises a scaffold board, a protecting screen frame and at least two parallel vertical rods, each scaffold board is detachably connected with the corresponding vertical rods, and each protecting screen frame is fixed on the outer sides of the corresponding vertical rods. The extensible lifting construction platform is characterized in that a first extensible scaffold board is arranged in at least one side of each scaffold board, and each protecting screen frame comprises a first extensible protecting screen frame arranged in the corresponding protecting screen frame and positioned on a same side with the corresponding first extensible scaffold board. Aiming at the problem that a whole construction frame body externally surrounding an external wall cannot change along with the external wall after assembling of an existing construction platform is completed, the extensible lifting construction platform which is automatically extensible in the process of ascending and descending, needless of manual operation and adaptable to changing of a main structure of a building is provided.

Description

A kind of telescopic elevating construction platform

Technical field

The present invention relates to a kind of elevating construction platform, particularly relate to a kind of telescopic elevating construction platform.

Background technology

At the realm of building construction, widely used all kinds scaffold floor, generally also exist and use the problems such as material is many, the time of setting up is long, operating platform height is not easy to constructing operation, safe construction hidden danger is many, especially in high level, Super High engineering, problem is more outstanding.At present, in high-building construction, generally adopt elevating construction platform, so that each floor moving and be transported in construction goes by some materials.Elevating construction platform is a kind of large-scale from ascending/decending aerial work platform, it only needs to set up a platform, along the guide rail be attached on building by lifting gear realize lifting, platform operates steadily, staff can according to need of work operation platform along lifting rail to desirable height.But, be subject to the impact of major structure of construction, in high-building construction, in operation platform lifting process, need the width of the whole scaffold floor of manual adjustments.In prior art, after operation platform has been assembled, because the size of the integral construction scaffold floor around exterior wall is determined, it can not change with the change of exterior wall, this just needs constructor to regulate scaffold floor size, on the other hand, under the condition ensureing identical construction speed, have to use a large amount of human resources, increase the labour intensity of single constructor.In addition, not only process is complicated but also difficulty is larger in the adjustment of this support body.

Summary of the invention

The technical problem to be solved in the present invention is, after having assembled for existing operation platform, its construction support body enclosing rich exterior wall can not change with the change of exterior wall, a kind of construction support body automatic telescopic enclosing rich exterior wall in lifting platform process is provided, do not need manual hand manipulation, well can adapt to the telescopic lifting operation platform of major structure of construction change.

The technical solution adopted for the present invention to solve the technical problems is: a kind of telescopic elevating construction platform, comprise at least one support body, described support body comprises scaffold floor, protects the screen frame vertical rod parallel with at least two, described scaffold floor is removably connected with described vertical rod, and described protection screen frame is fixed on outside described vertical rod; It is characterized in that: described scaffold floor is at least provided with telescopic first telescopic leg palm in side, described protection screen frame also comprises and is arranged in described protection screen frame and flexiblely protects screen frame with first of described first telescopic leg palm homonymy.

In described telescopic elevating construction platform, described scaffold floor arranges the second telescopic leg palm relative to the opposite side telescopically of described first telescopic leg palm, and the described protection screen frame at described second telescopic leg palm opposite position place is provided with second and flexible protects screen frame;

Be provided with in described scaffold floor for described first telescopic leg palm and the second telescopic leg palm in opposite directions or the first chute of movement dorsad, be provided with in described protection screen frame and make the described first flexible protection screen frame and second flexiblely protect screen frame in opposite directions or the second chute of movement dorsad;

Described operation platform also comprises the diagonal member be fixedly connected with vertical rod with described scaffold floor respectively.

In described telescopic elevating construction platform, the connection on support body described in adjacent two between conplane described scaffold floor is that single-degree-of-freedom connects and/or multiple degrees of freedom connects.

In described telescopic elevating construction platform, the described first telescopic leg palm point be located in two adjacent described scaffold floors is connected by bearing pin, pin or buckle with the second telescopic leg palm, described connection is that described single-degree-of-freedom connects, and makes can relatively rotate between described two scaffold floors.

In described telescopic elevating construction platform, support body described in adjacent two also comprises junction plate between conplane described scaffold floor, described junction plate is connected point being located at described first telescopic leg palm adjacent in two described scaffold floors by bearing pin, pin, bolt or buckle with the second telescopic leg palm respectively, described connection is that single-degree-of-freedom connects or multiple degrees of freedom connects, and making can relative movement or rotation at grade between scaffold floor described in each.

In described telescopic elevating construction platform, support body described in adjacent two also comprises connection screen frame between conplane described protection screen frame, and the two ends of described connection screen frame are connected on two adjacent the described first flexible protection screen frames and the second flexible protection screen frame respectively.

In described telescopic elevating construction platform, described junction plate is provided with 2 connecting holes, and two described connecting holes are connected respectively and described first telescopic leg palm adjacent in two described scaffold floors and described second telescopic leg palm form described multiple degrees of freedom are connected to point to be located at.

In described telescopic elevating construction platform, described junction plate is provided with 3 connecting holes, described junction plate side is provided with two described connecting holes, described junction plate opposite side is provided with a described connecting hole, two connecting holes being wherein arranged in homonymy in three described connecting holes are connected to and point are located on the adjacent described first telescopic leg palm of two described scaffold floors or described second telescopic leg palm, and described opposite side connecting hole is connected to and adjacent described second telescopic leg palm or described first telescopic leg palm form described single-degree-of-freedom connects.

In described telescopic elevating construction platform, in described scaffold floor and described protection screen frame, be respectively arranged with stopping means.

In described telescopic elevating construction platform, described scaffold floor comprises multiple, and multiple described scaffold floor is arranged in parallel in described vertical rod along described protection screen frame interval, and scaffold floor described in each is provided with rotation turnover panel away from the side of described protection screen frame.

Implement self-action Universal telescoping elevating construction platform of the present invention, there is following beneficial effect: the telescopic elevating construction platform of the present invention, in lifting platform process, interconnective first support body can relative movement or rotation in same plane, and described first support body can automatic telescopic, adjust the size of whole construction support body, do not need manual hand manipulation, well can adapt to the change of major structure of construction, effectively raise operating efficiency, reduce the labour intensity of required artificial quantity and operating personnel, there is structure simple, good manufacturability, the feature of the quick and use safety of dismounting.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the structural representation of a kind of telescopic elevating construction platform of the present invention;

Fig. 2 is the another kind of structural representation of a kind of telescopic elevating construction platform of the present invention;

Fig. 3 is the lateral view of a kind of telescopic elevating construction platform of the present invention;

Fig. 4 is the A portion structural representation in Fig. 3;

Fig. 5 is the B portion structural representation in Fig. 3;

Fig. 6 is the C portion structural representation in Fig. 3;

Fig. 7 a is the structural representation after being connected by junction plate of a kind of telescopic elevating construction platform of the present invention before adjacent two support bodys slips;

Fig. 7 b is the structural representation after being connected by junction plate of a kind of telescopic elevating construction platform of the present invention after adjacent two support bodys slips;

Fig. 8 is the structural representation of the second embodiment of a kind of telescopic elevating construction platform of the present invention;

Fig. 9 is the structural representation of the 3rd embodiment of a kind of telescopic elevating construction platform of the present invention;

Figure 10 is the structural representation of the 4th embodiment of a kind of telescopic elevating construction platform of the present invention;

In accompanying drawing:

1 support body;

100 scaffold floor 101 first telescopic leg palm 102 second telescopic leg palms;

104 rotate reprint 105 stopping means;

The flexible protection screen frame of 200 protection screen frame 201 first flexible protection screen frame 202 second;

300 vertical rods;

400 diagonal members;

500 junction plates;

600 connect screen frame.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

As shown in Figure 1, the present invention relates to a kind of telescopic elevating construction platform, comprise at least one support body 1, described support body 1 comprises scaffold floor 100, protects screen frame 200 vertical rod 300 parallel with at least two, described scaffold floor 100 is removably connected with described vertical rod 300, and described protection screen frame 200 is fixed on outside described vertical rod 300; Described scaffold floor 100 is at least provided with telescopic first telescopic leg palm 101 in side, and described protection screen frame 200 also comprises and is arranged in described protection screen frame 200 and flexiblely protects screen frame 201 with first of described first telescopic leg palm 101 homonymy.Multiple described scaffold floor 100 is arranged in parallel in described vertical rod 300 along described protection screen frame 200 interval.

As shown in Figure 2, described scaffold floor 100 is provided with the second telescopic leg palm 102 relative to the opposite side telescopically of described first telescopic leg palm 101, and the protection screen frame 200 at described second telescopic leg palm 102 opposite position place (i.e. homonymy) is provided with second and flexible protects screen frame 202.

As shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, be provided with in scaffold floor 100 described in each for described first telescopic leg palm 101 or the second telescopic leg palm 102 in opposite directions or the first chute of movement dorsad (figure does not show, omit), described scaffold floor 100 inner hollow, first chute is arranged on two side positions along length direction in scaffold floor 101, and namely described first chute is parallel to protection screen frame 200; First telescopic leg palm 101 and the second telescopic leg palm 102 are built in the scaffold floor 100 of hollow, can slide along described first chute on scaffold floor 100.Protect described in each screen frame 200 is also provided with for the described first flexible protection screen frame 201 or the second flexible protection screen frame 202 in opposite directions or the second chute of movement dorsad (figure does not show, omit), the described first flexible protection screen frame 201 and the second flexible protection screen frame 202 can slide along protection screen frame 200 in described second chute.As shown in Figure 10, if the first telescopic leg palm 101 of scaffold floor 100 described on support body 1 and first on described protection screen frame 200 flexible protection screen frame 201 is connected in the same activity vertical rod parallel with described vertical rod 300, then described first telescopic leg palm 101 and first flexible protect screen frame 201 can along respective chute synchronous slide under the effect of activity vertical rod.

As shown in Figure 4, described operation platform also comprises the diagonal member 400 be fixedly connected with vertical rod 300 with described scaffold floor 100 respectively, in order to strengthen the resistance to overturning of scaffold, the mode that diagonal member 400 is fixedly connected with vertical rod 300 with described scaffold floor 100 has multiple, such as, adopt the connected modes such as buckle, bearing pin or bolt.Scaffold floor 100 described in each is provided with rotation turnover panel 104 away from the side of protection screen frame 200, described rotation turnover panel 104 can reduce the gap between support body and body of wall when launching, be placed in time folding on scaffold floor 100 and can save space, the connected mode of rotating reprint 104 has multiple, such as chain connection etc.

In addition, the first chute in scaffold floor 100 described in each is provided with stopping means 105, stopping means 105 in described scaffold floor 100 in order to limit described first telescopic leg palm 101 and the sliding stroke of the second telescopic leg palm 102 in the first chute, the stopping means 105 limiting the first telescopic leg palm 101 and the second telescopic leg palm 102 can be one or two etc.Because described scaffold floor 101 is inner hollow, therefore can on the bottom of scaffold floor 100 or side channel-section steel erecting and welding nut, bolt be screwed into described welded nut and pass bottom or side channel-section steel, hold out against described first telescopic leg palm 101 or the second telescopic leg palm 102, prevent the first telescopic leg palm 101 or the second telescopic leg palm 102 to be drawn out, play spacing effect.The second chute in described protection screen frame 200 is also provided with stopping means (figure does not show, omit) in order to limit the described first flexible protection screen frame 201 or the sliding stroke of the second flexible protection screen frame 202 in the second chute, the stopping means of restriction first flexible protection screen frame 201 and the second flexible protection screen frame 202 can be one or two etc., because described protection screen frame 200 is controlled in inside, side is net, can on the side channel-section steel of described second chute erecting and welding nut, bolt be screwed into described welded nut and pass side channel-section steel, hold out against the described first flexible protection screen frame 201 and the second flexible protection screen frame 202, the described first flexible protection screen frame 201 and the second flexible protection screen frame 202 is prevented to be drawn out, play spacing effect.

Further, first support body 100 is also connected with guide rail (figure does not show, omit), be fixedly connected with by connector between described guide rail with the first support body 100, guide rails assembling, being fixed on the attached wall guide holder on metope (figure does not show, omits), (figure does not show at lifting gear, omit) effect under, realize the lifting of guide rail and the first support body 100.The concrete structure of attached wall guide holder, guide rail and lifting gear and assembling are prior aries, do not repeat them here.

In actual use, generally multiple described support body 1 is connected use, connecting by support body 1 described in adjacent two being positioned at conplane described scaffold floor 100, the described protection screen frame 200 on support body 1 described in adjacent two being connected simultaneously.Make described elevating construction platform in lifting process, scaffold floor 100 described in interconnective adjacent two and can relative movement or rotation between protection screen frame 200, and the first telescopic leg palm 101 in scaffold floor 100 described in interconnective adjacent two or the second telescopic leg palm 102 can slide with in the first chute that it is corresponding, the in adjacent described protection screen frame 200 first flexible protection screen frame 201 or the second flexible protection screen frame 202 can slide in the second chute of its correspondence.As shown in Fig. 7 a, Fig. 7 b, Fig. 7 a is the first telescopic leg palm 101, second telescopic leg palm 102, first flexible protection screen frame 201 and the second flexible schematic diagram protected before screen frame 202 slides in its corresponding chute on interconnective multiple described support body 1.Fig. 7 b is the schematic diagram after the first telescopic leg palm 101, second telescopic leg palm 102, first flexible protection screen frame 201 on interconnective multiple described support body 1 and the second flexible protection screen frame 202 slide in its corresponding chute.

Therefore, in lifting process, on two support bodys 1, the size of interconnective scaffold floor 100 and protection screen frame 200 and angle each other can change along with the change of major structure of construction, and support body 1 is coated on external wall better.Such as: in lifting process, the peripheral diameter of building body becomes large gradually, length then around the support body 1 of exterior wall also should become large gradually, at this moment interconnective first telescopic leg palm 101 and the second telescopic leg palm 102 outwards slide in its each self-corresponding first slideway, interconnective first flexible protection screen frame 201 and the second flexible protection screen frame 202 outwards slide at its each self-corresponding second slideway, the corresponding change gradually of angle between interconnective two support bodys 1 is large, and interconnective support body 1 is well fitted on exterior wall.

Connection described in adjacent two between scaffold floor 100 is divided into single-degree-of-freedom to connect and multiple degrees of freedom connects: in same plane relative movement, but can be able to not relatively rotate between two scaffold floors 100 that single-degree-of-freedom connects; And multiple degrees of freedom connects, making can relative movement or rotation at grade between two scaffold floors 100 of connection.

Single-degree-of-freedom is connected with two kinds of modes: a kind of is directly be connected point being located at described first telescopic leg palm 101 adjacent in two described scaffold floors 100 by bearing pin, pin or buckle with the second telescopic leg palm 102; Another kind uses junction plate 500 to be connected point being located at described first telescopic leg palm 101 adjacent in two described scaffold floors 100 with the second telescopic leg palm 102 respectively, and connected mode can adopt bearing pin, pin, bolt or buckle connection etc.

Described junction plate 500 is provided with 3 connecting holes (as described in Figure 8), described junction plate 500 side is provided with two described connecting hole b and c, opposite side is provided with a described connecting hole a, two connecting hole b and c being wherein arranged in homonymy in three described connecting holes are connected to and point are located on the adjacent described first telescopic leg palm 101 of two described scaffold floors 100 or the second telescopic leg palm 102, and described opposite side connecting hole a is connected on adjacent described second telescopic leg palm 102 or the first telescopic leg palm 101.

Multiple degrees of freedom connects, namely junction plate 500 is used to be connected point being located at described first telescopic leg palm 101 adjacent in two described scaffold floors 100 with the second telescopic leg palm 102, described junction plate 500 is provided with 2 connecting holes (as Fig. 7 a, described in Fig. 7 b), two described connecting holes are connected respectively and are located at described first telescopic leg palm 101 and the second telescopic leg palm 102 adjacent in two described scaffold floors 100 to dividing.

Fig. 7 a, Fig. 7 b shows the structural representation of the first embodiment of the present invention, adjacent multiple described support body 1 carries out multiple degrees of freedom connection by junction plate 500 between conplane described scaffold floor 100, namely described junction plate 500 is provided with 2 connecting holes, and two described connecting holes are connected respectively and are located on described first telescopic leg palm 101 adjacent in two described scaffold floors 100 and the second telescopic leg palm 102 to dividing.Connection between the described scaffold floor 100 that on multiple described support body 1, floor height is identical, the first telescopic leg palm 101 by scaffold floor described in the left side 100 is connected with the second telescopic leg palm 102 of the described scaffold floor 100 in centre, is connected by the second telescopic leg palm 102 of the described scaffold floor 100 in the first telescopic leg palm 101 and the right of described for centre scaffold floor 100.

Also comprise between adjacent described two protection screen frames 200 and connect screen frame 600, the two ends of described connection screen frame 600 are connected respectively on two adjacent described first flexible protection screen frames 201 and the second flexible protection screen frame 202 by hinged form.Adjacent described two protection screen frames 200 connect, and protects screen frame 202 and are connected by the first flexible protection screen frame 201 described in the left side and centre described second are flexible, are stretched and protect screen frame 202 and be connected in described for centre first flexible screen frame 201 and the right described second protected.

Fig. 8 shows the structural representation of the second embodiment of the present invention, and adjacent multiple described support body 1 carries out single-degree-of-freedom connection by junction plate 500 between conplane described scaffold floor 100.Described junction plate 500 is provided with 3 connecting holes, described junction plate 500 side is provided with two described connecting hole b and c, opposite side is provided with a described connecting hole a, two connecting hole b and c being wherein arranged in homonymy in three described connecting holes are connected to and point are located on the adjacent described first telescopic leg palm 101 of two described scaffold floors 100 or the second telescopic leg palm 102, and described opposite side connecting hole a is connected on adjacent described second telescopic leg palm 102 or the first telescopic leg palm 101.All the other structures, with embodiment one, do not repeat them here.

Visible, described single-degree-of-freedom connects and is connected can mutually transforms with multiple degrees of freedom, is all connected by three connecting holes on junction plate 2 when using single-degree-of-freedom to connect, and only need connect a and b two connecting holes when using multiple degrees of freedom to connect.

Fig. 9 shows the structural representation of the third embodiment of the present invention, and adjacent multiple described support body 1 is directly connected by bearing pin, pin or buckle between conplane described scaffold floor 100, forms described single-degree-of-freedom and connects.All the other structures, with embodiment one, do not repeat them here.

Figure 10 shows the structural representation of the fourth embodiment of the present invention, and described first telescopic leg palm 101 and the first flexible protection screen frame 201 are along respective corresponding chute synchronous slide.On the first telescopic leg palm 101 on described scaffold floor 100 and described protection screen frame 200 first flexible protection screen frame 201 is connected in same activity vertical rod, the described activity vertical rod vertical rod 300 parallel with two is parallel, described first telescopic leg palm 101 and the first flexible protection screen frame 201 can along respective chute synchronous slides under the effect of activity vertical rod, now in same plane, linearly can only do stretching motion between interconnective two support bodys 1, can not rotate between interconnective two support bodys 1.

Although the present invention is described by specific embodiment, it will be appreciated by those skilled in the art that, without departing from the present invention, various conversion can also be carried out and be equal to substituting to the present invention.In addition, for particular condition or material, various amendment can be made to the present invention, and not depart from the scope of the present invention.Therefore, the present invention is not limited to disclosed specific embodiment, and should comprise the whole embodiments fallen within the scope of the claims in the present invention.

Claims (10)

1. a telescopic elevating construction platform, comprise at least one support body (1), described support body (1) comprises scaffold floor (100), the vertical rod (300) that protection screen frame (200) is parallel with at least two, described scaffold floor (100) is removably connected with described vertical rod (300), described protection screen frame (200) is fixed on described vertical rod (300) outside, it is characterized in that, described scaffold floor (100) is at least provided with telescopic first telescopic leg palm (101) in side, described protection screen frame (200) also comprises being arranged in described protection screen frame (200) and stretching with first of described first telescopic leg palm (101) homonymy protects screen frame (201).

2. elevating construction platform according to claim 1, it is characterized in that, described scaffold floor (100) arranges the second telescopic leg palm (102) relative to the opposite side telescopically of described first telescopic leg palm (101), and the described protection screen frame (200) at described second telescopic leg palm (102) opposite position place is provided with second and flexible protects screen frame (202);

Be provided with in described scaffold floor (100) for described first telescopic leg palm (101) and the second telescopic leg palm (102) in opposite directions or the first chute of movement dorsad, be provided with in described protection screen frame (200) and the described first flexible protection screen frame (201) and second stretched protect screen frame (202) in opposite directions or the second chute of movement dorsad;

Described operation platform also comprises the diagonal member (400) be fixedly connected with vertical rod (300) with described scaffold floor (100) respectively.

3. elevating construction platform according to claim 2, is characterized in that, connection support body (1) described in adjacent two is positioned between conplane described scaffold floor (100) is that single-degree-of-freedom connects and/or multiple degrees of freedom connects.

4. elevating construction platform according to claim 3, it is characterized in that, the described first telescopic leg palm (101) point be located in two adjacent described scaffold floors (100) is connected by bearing pin, pin or buckle with the second telescopic leg palm (102), described connection is that described single-degree-of-freedom connects, and makes can relatively rotate between described two scaffold floors (100).

5. elevating construction platform according to claim 3, it is characterized in that, support body (1) described in adjacent two is positioned between conplane described scaffold floor (100) and also comprises junction plate (500), described junction plate (500) is located at described first telescopic leg palm (101) adjacent in two described scaffold floors (100) by dividing respectively and the second telescopic leg palm (102) passes through bearing pin, pin, bolt or buckle connect, described connection is that single-degree-of-freedom connects or multiple degrees of freedom connects, making can relative movement or rotation at grade between scaffold floor described in each (100).

6. the elevating construction platform according to claim 4 or 5, it is characterized in that, support body (1) described in adjacent two is positioned at also to comprise between conplane described protection screen frame (200) and connects screen frame (600), the two ends of described connection screen frame (600) are connected to two adjacent the described first flexible protection screen frame (201) and second respectively and flexiblely protect on screen frame (202).

7. elevating construction platform according to claim 5, it is characterized in that, described junction plate (500) is provided with 2 connecting holes, and two described connecting holes are connected respectively to point being located at described first telescopic leg palm (101) adjacent in two described scaffold floors (100) and the described multiple degrees of freedom of the upper formation of described second telescopic leg palm (102) is connected.

8. elevating construction platform according to claim 5, it is characterized in that, described junction plate (500) is provided with 3 connecting holes, described junction plate (500) side is provided with two described connecting holes, described junction plate (500) opposite side is provided with a described connecting hole, two connecting holes being wherein arranged in homonymy in three described connecting holes are connected to and point are located on the adjacent described first telescopic leg palm (101) of two described scaffold floors (100) or described second telescopic leg palm (102), described opposite side connecting hole is connected to adjacent described second telescopic leg palm (102) or the described single-degree-of-freedom of the upper formation of described first telescopic leg palm (101) connects.

9. elevating construction platform according to claim 1 and 2, is characterized in that, is respectively arranged with stopping means in described scaffold floor (100) and described protection screen frame (200).

10. elevating construction platform according to claim 1, it is characterized in that, described scaffold floor (100) comprises multiple, multiple described scaffold floor (100) is arranged in parallel in described vertical rod (300) along described protection screen frame (200) interval, and scaffold floor described in each (100) is provided with away from the side of described protection screen frame (200) and rotates turnover panel (104).