CN114991455B - Climbing mechanism for suspended telescopic building scaffold - Google Patents

Abstract

The invention relates to the technical field of building construction, in particular to a climbing mechanism for a suspended telescopic building scaffold. It includes the climbing device, and the climbing device includes at least: the inner side body comprises a pair of inner side plates, a plurality of first shafts are arranged on the surfaces of the inner side plates, the first shafts are rotationally connected with a hanging body, the hanging body comprises an outer hanging plate, an inner plate is inserted and matched in the outer hanging plate, one end of the inner plate, which is positioned in the outer hanging plate, is connected with an outer connecting plate, the outer connecting plate penetrates through the surface of the outer hanging plate, one end of the surface of the outer hanging plate is rotationally connected with a first screw rod, the first screw rod is in threaded connection with the outer connecting plate, one end, far away from the outer hanging plate, of the inner plate is connected with a pair of fixing plates, and the fixing plates are square plates with arc-shaped grooves formed in the surfaces; the outer side body comprises an outer side plate, a through groove is formed in the outer side plate, a climbing body is arranged in the through groove and comprises a pair of end sleeves, and the end sleeves are in plug-in connection with a climbing ladder. The invention mainly provides a climbing mechanism for a suspended telescopic building scaffold.

Description

Climbing mechanism for suspended telescopic building scaffold

Technical Field

The invention relates to the technical field of building construction, in particular to a climbing mechanism for a suspended telescopic building scaffold.

Background

The construction refers to production activities performed for building products by using related materials and equipment in a certain space and time, wherein the scaffold is a working platform erected for ensuring that each construction process is performed smoothly, so that workers can carry related tools conveniently and quickly when constructing at high altitude, and the scaffold can be used as an operation frame.

In order to facilitate rapid movement of constructors, the scaffold is generally provided with a climbing frame, however, the existing climbing frame cannot stretch out and draw back due to the fixed structure of the scaffold, so that the transportation of the scaffold is inconvenient, the existing climbing frame is simple in structure, and the constructors can only fix tools on the surface of a body when carrying tools, so that the climbing difficulty is increased, and therefore, a climbing mechanism for the suspended telescopic building scaffold is required.

Disclosure of Invention

The invention aims to provide a climbing mechanism for a suspended telescopic building scaffold, which aims to solve the problems in the background technology.

To achieve the above object, the present invention provides a climbing mechanism for a suspended retractable building scaffold, comprising a climbing device, the climbing device comprising at least:

the inner side body comprises a pair of inner side plates, a plurality of first shafts are arranged on the surfaces of the inner side plates, a hanging body is connected with the first shafts in a rotating mode, the hanging body comprises a cladding plate with one end connected with the first shafts in a rotating mode, an inner plate is inserted and matched into the cladding plate, the inner plate is positioned in the cladding plate, one end of the inner plate is connected with an outer yoke plate, the outer yoke plate penetrates through the surfaces of the cladding plate, one end of the surface of the cladding plate is connected with a first screw in a rotating mode, the first screw is in threaded connection with the outer yoke plate, one end, far away from the cladding plate, of the inner plate is connected with a pair of fixing plates, and the fixing plates are square plates with arc-shaped grooves formed in the surfaces;

the climbing device comprises an outer side body, wherein the outer side body comprises a pair of outer side plates connected with the surfaces of inner side plates, a plurality of through grooves penetrating through the surfaces of the outer side plates are formed in the left side and the right side of the outer side plates, climbing bodies are arranged in the through grooves, each climbing body comprises a pair of end sleeves, the end sleeves are matched with the through grooves in a clamping mode, and climbing ladders are inserted into the end sleeves in an inserting mode.

As a further improvement of the technical scheme, a plurality of first plates are arranged on the surface of one side of the inner side body, the surface of the inner side body is located in a plurality of first grooves formed in the first plates, a plurality of telescopic bodies are arranged between the inner side plates, each telescopic body comprises a telescopic plate which is connected with the first plates in a rotating mode at one end, a sliding block is connected with the other end of each telescopic plate in a rotating mode, the sliding block is in sliding connection with the first grooves, a middle shaft is arranged in the middle of each telescopic plate, a middle groove is formed in the middle of each telescopic plate, and the middle shaft is connected with the middle groove in a rotating mode.

As a further improvement of the technical scheme, the bottom of the fixing plate is rotationally connected with the through plate, the through plate is positioned in the inner plate, one end, far away from the cladding plate, of the inner plate is connected with the top edge plate, the top edge plate is rotationally connected with the second screw rod, the second screw rod penetrates through the through plate, and the second screw rod is in threaded connection with the through plate.

As a further improvement of the technical scheme, one side of the fixed plate is connected with an external shaft, one side of the fixed plate is provided with a hanging body, the hanging body comprises a hanging plate, a plate opening penetrating through the surface of the hanging plate is formed in one end of the bottom of the hanging plate, the external shaft penetrates through the plate opening, a hanging hook is matched with the top of the hanging plate in an inserting mode, a screw rod No. three is connected with the bottom of the hanging hook in a threaded mode, the screw rod No. three penetrates through the hanging plate, and the screw rod No. three is connected with the hanging plate in a rotating mode.

As a further improvement of the technical scheme, a pair of number springs is arranged at the bottom of the end sleeve, the number one springs are connected with the bottom of the through groove, a bolt is arranged on the bottom surface of the through groove, the bolt penetrates through the bottom of the end sleeve, and the top of the bolt is in plug-in fit with the climbing ladder.

As a further improvement of the technical scheme, the outer side plate is far away from the surface of one side of the inner side plate, a sliding groove is formed in one side of the outer side plate, the conveying body comprises a conveying plate, a fourth screw rod is arranged in the conveying plate, the fourth screw rod penetrates through the conveying plate, a clamping block is connected with one end of the fourth screw rod in a threaded mode, the clamping block is slidably connected with the sliding groove, a plurality of slots are formed in the outer side plate, a connecting rope is connected with the bottom of the end sleeve, a plug rod is connected with the connecting rope, the plug rod is located in the slots, one end of the plug rod is in plug connection with the conveying plate, a second spring is arranged on the surface of the plug rod, and the second spring is connected with the slots in a connecting mode.

As a further improvement of the technical scheme, two plates are symmetrically arranged on the front side and the rear side of the upper surface of the conveying plate, three plates are symmetrically arranged on the left side and the right side of the upper surface of the conveying plate, a shielding body is arranged at the top of the conveying plate, the shielding body comprises a fourth plate rotationally connected with the second plate and a fifth plate rotationally connected with the third plate, bayonets are formed in the two ends of the top of the fourth plate and the two ends of the top of the fifth plate, fixing blocks are arranged at the top of the fourth plate, and the bottoms of the fixing blocks are in plug-in connection with the bayonets.

As a further improvement of the technical scheme, a first yarn net is arranged in the middle of the conveying plate, a first rod is inserted and matched at the bottom of the conveying plate, a second yarn net is arranged in the middle of the fourth plate, and a second rod is inserted and matched at the bottom of the fourth plate.

As the further improvement of this technical scheme, lateral plate one side is equipped with the protection body, the protection body include a plurality of with lateral plate surface connection's skeleton, two the skeleton is kept away from lateral plate one end grafting cooperation has No. three poles, the skeleton is kept away from lateral plate one end internal surface is equipped with the extension board, extension board one end is connected with the guard plate, two be connected with No. three gauze between the guard plate.

As a further improvement of the technical scheme, one end of the support plate is rotationally connected with the bottom of the protection plate, the protection plate is far away from the surface of one end of the outer side plate, a support groove is formed in the side surface of the support plate, a sliding sleeve is slidably connected in the support groove, one end of the bottom of the support is rotationally connected with the sliding sleeve, a third spring is connected with the surface of the sliding sleeve, and the third spring is connected with the inside of the support groove.

Compared with the prior art, the invention has the beneficial effects that:

1. in this climbing mechanism for scalable building scaffold of suspension type, through being equipped with the flexible body for use the axis to rotate in opposite directions through two expansion plates, drive the slider and slide in a groove, make two medial plates be close to each other or keep away from, thereby the flexible expansion of device of being convenient for.

2. In this climbing mechanism for scalable building scaffold of suspension type, drive through the screw rod No. two and lead to the inboard removal of board for interval between two fixed plates changes, and through the mode of rotating the connection, make the angle of fixed plate can be adjusted, thereby be convenient for fixed to the centre gripping of scaffold standpipe, through being equipped with the suspension body, make at external axle surface rotation suspension plate, rotate No. three screw rods, make the suspension hook remove and catch on the horizontal tube of scaffold, thereby avoid the device to follow the standpipe gliding of scaffold.

3. This climbing mechanism for suspended type scalable construction scaffold is through being equipped with the protection body for constructor climbs backward when unexpected drop, makes No. three gauze and No. two shafts hold constructor's back, and when constructor contacted guard plate and No. three gauze, the guard plate drives the support and rotates, drives the sliding sleeve and overcomes the elasticity of No. three springs and remove in the branch groove when the support rotates, makes the angle of No. three gauze change, thereby is convenient for constructor's leaning on, ensures the protection effect to constructor.

Drawings

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

FIG. 2 is a schematic view of the inner body structure of the present invention;

FIG. 3 is a schematic view of a suspension structure according to the present invention;

FIG. 4 is a schematic cross-sectional view of a hanger according to the present invention;

FIG. 5 is a schematic view of the telescopic body structure of the present invention;

FIG. 6 is a schematic view of the outer side structure of the present invention;

FIG. 7 is a schematic view of the cross-sectional structure of the outer body of the present invention;

FIG. 8 is a schematic view of the climbing body structure of the present invention;

FIG. 9 is a schematic view of a carrier structure according to the present invention;

FIG. 10 is a schematic view of a shelter structure according to the present invention;

FIG. 11 is a schematic view of a structure of a guard portion according to the present invention;

FIG. 12 is a schematic view of two structures of the guard portion of the present invention.

The meaning of each reference sign in the figure is:

1. a climbing device;

11. an inner body; 111. an inner side plate; 112. a first shaft; 113. a first plate; 114. a first groove;

12. an outer body; 121. an outer panel; 122. a through groove; 123. a plug pin; 124. a chute; 125. a slot;

13. a hanging body; 131. a cladding plate; 132. an inner plate; 133. a fixing plate; 134. an outer yoke plate; 135. a first screw; 136. a top edge plate; 137. a second screw; 138. a through plate; 139. an external shaft;

14. a hanging body; 141. a hanging plate; 142. a plate opening; 143. hanging hooks; 144. a third screw;

15. a telescopic body; 151. a telescoping plate; 152. a slide block; 153. a center shaft; 154. a middle groove;

16. climbing a body; 161. an end sleeve; 162. climbing ladder; 163. a first spring; 164. a connecting rope; 165. a rod; 166. a second spring;

17. a transport body; 171. a transport plate; 172. a screw rod IV; 173. a clamping block; 174. a second plate; 175. a third plate; 176. a first rod; 177. a first gauze;

18. a shielding body; 181. a fourth plate; 182. a fifth plate; 183. a bayonet; 184. a fixed block; 185. a second rod; 186. a second gauze;

2. a protective body;

21. a skeleton; 211. a third rod; 212. a support plate; 213. a groove is formed;

22. a protection plate; 221. a third gauze; 222. a second shaft; 223. a bracket; 224. a sliding sleeve; 225. and a third spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-8, an object of the present embodiment is to provide a climbing mechanism for a suspended retractable scaffold, which includes a climbing device 1, wherein the climbing device 1 at least includes:

the inner side body 11, the inner side body 11 includes a pair of inner side plates 111, the inner side plates 111 are L-shaped structural plates, a plurality of first shafts 112 are arranged on the surface of the inner side plates 111, the first shafts 112 are T-shaped cylinders, the first shafts 112 are rotatably connected with a hanging body 13, the hanging body 13 includes a cladding plate 131 with one end rotatably connected with the first shafts 112, the cladding plate 131 is a square plate with a square groove at one end, the cladding plate 131 is internally inserted and matched with an inner plate 132, one end of the inner plate 132 positioned in the cladding plate 131 is connected with an outer yoke plate 134, the outer yoke plate 134 is a circular plate with a circular through hole, the outer yoke plate 134 penetrates through the surface of the cladding plate 131, one end of the surface of the cladding plate 131 is rotatably connected with a first screw rod 135, one end of the inner plate 132 far away from the cladding plate 131 is connected with a pair of fixing plates 133, and the fixing plates 133 are square plates with arc grooves at the surfaces, and the fixing plates 133 are contacted with the surfaces of stand pipes of the scaffold by pressing and fixing, so that the fixing of the scaffold and scaffold can be ensured;

the outer side body 12, the outer side body 12 includes a pair of outer side plates 121 that are connected with the inner side plate 111 surface, outer side plates 121 are square plates, a plurality of logical groove 122 that runs through its surface are offered to outer side plates 121 left and right sides, logical groove 122 is "H" square wearing mouth, be equipped with climbing body 16 in logical groove 122, climbing body 16 includes a pair of pot head 161, pot head 161 is for having offered the "H" square structure that runs through square wearing mouth, pot head 161 cooperates with logical groove 122 joint, pot head 161 interpolation cooperation has climbing ladder 162, through trample in climbing ladder 162's surface, thereby the step by step climbing of constructor of being convenient for.

In this embodiment, when the device is specifically used, the two inner side plates 111 are mutually separated, so that the two expansion plates 151 rotate around the central shaft 153 as the shaft, and drive the sliding block 152 to slide along the first groove 114 until the sliding block 152 slides to one end of the first groove 114, at this time, the two inner side plates 111 are fully unfolded, the climbing ladder 162 moves in the end sleeve 161 until two ends of the climbing ladder are located in the end sleeve 161, the outer hanging plate 131 rotates around the first shaft 112 as the shaft, and rotates the first screw 135 in threaded connection with the outer connecting plate 134, so that the first screw 135 drives the inner plate 132 to move along the outer hanging plate 131, and rotates the second screw 137 in threaded connection with the through plate 138, so that the second screw 137 drives the two fixing plates 133 to approach each other, and rotates the fixing plates 133 to clamp and fix the scaffold standpipe, the hanging plate 141 is rotated on the surface of the outer connecting shaft 139, the third screw 144 in threaded connection with the hanging hook 143 is rotated along the hanging plate 141, the climbing ladder 162 is moved and hooked on the scaffold cross tube, and when a constructor climbs, the climbing ladder 162 is climbed, and the climbing ladder 163 is driven by the third screw 144 to press the spring 163 along the end sleeve 123 and the climbing ladder 161 is pushed down along the two ends of the climbing sleeve 123 until the climbing ladder is inserted into the fixing sleeve 162, so that the climbing ladder is convenient to overcome by the two ends of the climbing sleeve 161 and the top and is inserted by the fixing the climbing sleeve 162.

Further, in order to facilitate the expansion of the device, a plurality of first plates 113 are arranged on the surface of one side, far away from the first shaft 112, of the inner side 11, a square plate with a circular through hole is arranged on the first plates 113, a first groove 114 is arranged between the plurality of first plates 113 on the surface of the inner side 11, the first groove 114 is a groove with a T-shaped structure, a plurality of expansion bodies 15 are arranged between the inner side plates 111, each expansion body 15 comprises an expansion plate 151 with one end rotationally connected with the first plates 113, each expansion plate 151 is a C-shaped structure, the other end of each expansion plate 151 is rotationally connected with a sliding block 152, each sliding block 152 is of a T-shaped structure, each sliding block 152 is in sliding connection with the first groove 114, a middle shaft 153 is arranged in the middle of one expansion plate 151, each middle shaft 153 is of a T-shaped cylinder, each middle groove 154 is in a T-shaped circular through hole, each middle shaft 153 is rotationally connected with each middle groove 154, and the two expansion plates 151 are rotated by taking the middle shafts 153 as shafts, so that the two expansion plates 151 slide in the first grooves 114 in opposite directions, the two expansion plates 111 are made to be close to each other or are far away from each other, and expansion devices are convenient to expand.

Further, in order to ensure the fixation with the scaffold standpipe, the square plate of square body groove has been seted up for keeping away from cladding 131 one end to inside board 132, fixed plate 133 bottom rotates and is connected with logical board 138, lead to the board 138 and be the square plate, lead to the board 138 and be located inside board 132, inside board 132 is kept away from cladding 131 one end and is connected with top along board 136, top along board 136 is the square plate of seting up circular wearing mouth, top along board 136 rotates and is connected with No. two screw rods 137, no. two screw rods 137 pass logical board 138, no. two screw rods 137 and logical board 138 threaded connection, through adopting threaded connection and rotation to connect the mode for drive logical board 138 through rotating No. two screw rods 137 and remove in inside board 132, make the interval between two fixed plates 133 change, and through the mode of rotation connection, make the angle of fixed plate 133 can be adjusted, thereby be convenient for the centre gripping to the scaffold standpipe.

Still further, in order to avoid the device to slide down along the scaffold standpipe, the external shaft 139 is connected with one side of the fixed plate 133, the external shaft 139 is a 'T' -shaped cylinder, one side of the fixed plate 133 is provided with the hanging body 14, the hanging body 14 comprises a hanging plate 141, the hanging plate 141 is an 'L' -shaped structure plate, a plate opening 142 penetrating through the surface of the hanging plate 141 is formed in one end of the bottom of the hanging plate 141, the plate opening 142 is a round through opening, the external shaft 139 penetrates through the plate opening 142, a hanging hook 143 is inserted and matched at the top of the hanging plate 141, the hanging hook 143 is a square plate with a three-quarter ring body at the top, a screw rod 144 is connected at the bottom of the hanging hook 143 in a threaded manner, the screw rod 144 penetrates through the hanging plate 141, the screw rod 144 is rotationally connected with the hanging plate 141, and the hanging body 14 is arranged, so that the hanging plate 141 is rotated on the surface of the external shaft 139, the screw rod 144 is rotated, and the hanging hook 143 moves and hooks a transverse tube of the scaffold, so that the device is prevented from sliding down along the scaffold standpipe.

Still further, in order to avoid the removal of climbing ladder 162 during climbing, the pot head 161 bottom is equipped with a pair of number spring 163, a spring 163 bottom and logical inslot 122 internal connection, the interior bottom surface of logical groove 122 is equipped with bolt 123, bolt 123 passes pot head 161 bottom, climbing ladder 162 is the cube that both ends are equipped with a plurality of circular mouths, bolt 123 top and climbing ladder 162 grafting cooperation, through adopting grafting cooperation mode, make climbing ladder 162 stepped on when constructor climbing make climbing ladder 162 drive the elasticity of pot head 161 overcome a spring 163, move down in logical groove 122, make bolt 123 top pass climbing ladder 162 and insert in climbing ladder 162, make climbing ladder 162 fixed, thereby avoid the removal of climbing ladder 162 during climbing.

Example 2

Referring to fig. 9 to 10, in order to facilitate the transportation of tools while the constructor climbs, this embodiment makes the following modifications on the basis of embodiment 1:

wherein, in order to be convenient for to the transport of instrument, the spout 124 has been seted up to interior curb plate 111 one side surface in the lateral plate 121, spout 124 is "H" type structure recess, lateral plate 121 one side is equipped with transport body 17, transport body 17 includes transport plate 171, transport plate 171 is the square board of circular wearing mouth has been seted up for the surface symmetry, be equipped with No. four screw rods 172 in the transport plate 171, no. four screw rods 172 pass transport plate 171, no. four screw rods 172 one end threaded connection has fixture block 173, fixture block 173 is "H" type structure, fixture block 173 and spout 124 sliding connection, a plurality of slots 125 have been seted up in the lateral plate 121, slot 125 is "L" type structure recess, the pot head 161 bottom is connected with connecting rope 164, connecting rope 164 is connected with inserted link 165, inserted link 165 is located slot 125, inserted link 165 one end and transport plate 171 grafting cooperation, inserted link 165 surface is equipped with No. two springs 166, no. two springs 166 and slot 125 internal connection, through being equipped with No. 17, make transport plate 171 move along spout 124 through the safety rope when constructor climbs, and when the construction personnel climbs, and when transport step 162, end cover 161 makes the function of inserting link 166 and make the lower spring 171 and can make the fixed physical effort in the construction personnel.

Further, in order to avoid losing of the tool during transportation, the front and rear sides of the upper surface of the transporting plate 171 are symmetrically provided with the second plate 174, the left and right sides of the upper surface of the transporting plate 171 are symmetrically provided with the third plate 175, the second plate 174 and the third plate 175 are square plates with round penetrating openings formed in the top ends, the top of the transporting plate 171 is provided with the shielding body 18, the shielding body 18 comprises the fourth plate 181 rotationally connected with the second plate 174 and the fifth plate 182 rotationally connected with the third plate 175, the bottoms of the fourth plate 181 and the fifth plate 182 are square plates with cylindrical protrusions, the two ends of the top of the fourth plate 181 and the fifth plate 182 are respectively provided with the bayonets 183, the bayonets 183 are round penetrating openings, the top of the fourth plate 181 is provided with the fixing blocks 184, the bottoms of the fixing blocks 184 are L-shaped structural plates with cylindrical protrusions, and the bottom of the fixing blocks 184 are in plug-in fit with the bayonets 183.

Further, in order to facilitate the storage and unfolding of the device, a first yarn net 177 is arranged in the middle of the conveying plate 171, a second yarn net 176 is arranged at the bottom of the conveying plate 171 in a plugging fit mode, a second yarn net 186 is arranged in the middle of the fourth plate 181, a second yarn net 185 is arranged at the bottom of the fourth plate 181 in a plugging fit mode, the conveying plate 171 and the fourth plate 181 can be mutually close to or far away from each other by moving along the first yarn net 176 and the second yarn net 185, and the storage and unfolding of the device are facilitated, and the storage and the unfolding of the tool are facilitated by the first yarn net 177 and the second yarn net 186.

Example 3

Referring to fig. 11 to 12, in order to ensure life safety of constructors in consideration of the fact that the constructors are easily dropped due to physical weakness when climbing, this embodiment makes the following modifications on the basis of embodiment 1:

wherein, in order to avoid unexpected when constructor scrambles to fall, outer panel 121 one side is equipped with protection body 2, protection body 2 includes a plurality of skeletons 21 of being connected with outer panel 121 surface, skeleton 21 is a pair of "C" type structural slab, two skeletons 21 keep away from outer panel 121 one end grafting cooperation and have No. three bars 211, skeleton 21 is kept away from outer panel 121 one end internal surface and is equipped with extension board 212, extension board 212 is the square board, extension board 212 one end is connected with guard plate 22, be connected with No. three gauze 221 between two guard plates 22, through being equipped with protection body 2, make constructor scramble backward empting when unexpected falls, make No. three gauze 221 and No. two axles 222 hold constructor's back, thereby protect constructor's life safety.

Further, in order to ensure the protection effect on constructors, one end of the support plate 212 is rotationally connected with the bottom of the protection plate 22, the surface of one end of the protection plate 22 far away from the outer side plate 121 is rotationally connected with a support 223, the support 223 is in a Z-shaped structure, a support groove 213 is formed in the side surface of the support plate 212, the support groove 213 is a square groove, a sliding sleeve 224 is slidably connected in the support groove 213, the sliding sleeve 224 is a square plate with a circular penetrating opening, one end of the bottom of the support 223 is rotationally connected with the sliding sleeve 224, a third spring 225 is connected with the inside of the support groove 213, and by adopting a rotationally connected mode, when constructors contact the protection plate 22 and the third gauze 221, the protection plate 22 drives the support 223 to rotate, and the sliding sleeve 224 is driven to move in the support groove 213 against the elasticity of the third spring 225 when the support 223 rotates, so that the angle of the third gauze 221 changes, and the protection effect on constructors is ensured.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a scalable building scaffold of suspension type climbing mechanism for frame which characterized in that: including climbing device (1), climbing device (1) includes at least:

the inner side body (11), the inner side body (11) comprises a pair of inner side plates (111), a plurality of first shafts (112) are arranged on the surface of the inner side plates (111), the first shafts (112) are rotationally connected with hanging bodies (13), each hanging body (13) comprises a cladding plate (131) with one end rotationally connected with the first shaft (112), an inner plate (132) is inserted and matched in each cladding plate (131), each inner plate (132) is positioned at one inner end of each cladding plate (131) and is connected with an outer cladding plate (134), each outer cladding plate (134) penetrates through the surface of each cladding plate (131), one end of the surface of each cladding plate (131) is rotationally connected with a first screw (135), each first screw (135) is in threaded connection with each outer cladding plate (134), one end of each inner plate (132) is far away from each cladding plate (131) and is connected with a pair of fixing plates (133), and each fixing plate (133) is a square plate with an arc-shaped groove on the surface;

the climbing device comprises an outer side body (12), wherein the outer side body (12) comprises a pair of outer side plates (121) connected with the surfaces of the inner side plates (111), a plurality of through grooves (122) penetrating through the surfaces of the outer side plates (121) are formed in the left side and the right side of the outer side plates, climbing bodies (16) are arranged in the through grooves (122), each climbing body (16) comprises a pair of end sleeves (161), the end sleeves (161) are in clamping fit with the corresponding through grooves (122), and climbing ladders (162) are inserted and matched in the end sleeves (161);

the inner side body (11) is far away from the surface of one side of the first shaft (112) and is provided with a plurality of first plates (113), the surface of the inner side body (11) is provided with a plurality of first grooves (114) between the first plates (113), a plurality of telescopic bodies (15) are arranged between the inner side plates (111), each telescopic body (15) comprises a telescopic plate (151) with one end rotationally connected with the first plates (113), the other end of each telescopic plate (151) is rotationally connected with a sliding block (152), each sliding block (152) is in sliding connection with one first groove (114), one middle part of each telescopic plate (151) is provided with a middle shaft (153), the other middle part of each telescopic plate (151) is provided with a middle groove (154), and the middle shaft (153) is rotationally connected with the middle groove (154).

The bottom of the fixing plate (133) is rotationally connected with a through plate (138), the through plate (138) is positioned in the inner plate (132), one end, far away from the outer hanging plate (131), of the inner plate (132) is connected with a top edge plate (136), the top edge plate (136) is rotationally connected with a second screw rod (137), the second screw rod (137) penetrates through the through plate (138), and the second screw rod (137) is in threaded connection with the through plate (138);

an external shaft (139) is connected to one side of the fixed plate (133), a hanging body (14) is arranged on one side of the fixed plate (133), the hanging body (14) comprises a hanging plate (141), a plate opening (142) penetrating through the surface of the hanging plate (141) is formed in one end of the bottom of the hanging plate (141), the external shaft (139) penetrates through the plate opening (142), a hanging hook (143) is inserted and matched at the top of the hanging plate (141), a third screw (144) is connected to the bottom of the hanging hook (143) in a threaded mode, the third screw (144) penetrates through the hanging plate (141), and the third screw (144) is in rotary connection with the hanging plate (141);

the novel climbing ladder is characterized in that a one-to-one spring (163) is arranged at the bottom of the end sleeve (161), the bottom of the one-to-one spring (163) is connected with the through groove (122), a bolt (123) is arranged on the inner bottom surface of the through groove (122), the bolt (123) penetrates through the bottom of the end sleeve (161), and the top of the bolt (123) is in plug-in fit with the climbing ladder (162).

2. The climbing mechanism for a suspended telescopic building scaffold according to claim 1, wherein: the utility model provides a spout (124) has been seted up to lateral plate (121) keep away from interior curb plate (111) one side surface, lateral plate (121) one side is equipped with carries body (17), it includes transport board (171) to carry body (17), be equipped with No. four screw rods (172) in transporting board (171), no. four screw rods (172) pass transport board (171), no. four screw rods (172) one end threaded connection has fixture block (173), fixture block (173) with spout (124) sliding connection, a plurality of slots (125) have been seted up in lateral plate (121), pot head (161) bottom is connected with connecting rope (164), connecting rope (164) are connected with inserted bar (165), inserted bar (165) are located slot (125), inserted bar (165) one end with transport board (171) grafting cooperation, inserted bar (165) surface is equipped with No. two springs (166), no. two springs (166) with slot (125) internal connection.

3. The climbing mechanism for a suspended telescopic building scaffold according to claim 2, wherein: the utility model discloses a board, transport board (171) upper surface front and back bilateral symmetry is equipped with No. two boards (174), transport board (171) upper surface left and right sides symmetry is equipped with No. three boards (175), transport board (171) top is equipped with shielding body (18), shielding body (18) include with No. four boards (181) of being connected with No. two boards (174) rotation and with No. five boards (182) of being connected with No. three boards (175) rotation, no. four boards (181) with bayonet sockets (183) have all been seted up at No. five boards (182) top both ends, no. four boards (181) top is equipped with fixed block (184), fixed block (184) bottom with bayonet socket (183) grafting cooperation.

4. A climbing mechanism for a suspended telescopic building scaffold according to claim 3, wherein: the middle part of the conveying plate (171) is provided with a yarn net (177), a rod (176) is inserted and matched at the bottom of the conveying plate (171), a yarn net (186) is arranged at the middle part of the plate (181), and a rod (185) is inserted and matched at the bottom of the plate (181).

5. The climbing mechanism for a suspended telescopic building scaffold according to claim 1, wherein: the utility model discloses a protection device for a motor vehicle, including outer panel (121), protection body (2) are equipped with to outer panel (121) one side, protection body (2) include a plurality of with skeleton (21) of outer panel (121) surface connection, two skeleton (21) are kept away from outer panel (121) one end grafting cooperation has No. three pole (211), skeleton (21) are kept away from outer panel (121) one end internal surface is equipped with extension board (212), extension board (212) one end is connected with guard plate (22), two be connected with No. three gauze (221) between guard plate (22).

6. The climbing mechanism for a suspended telescopic building scaffold according to claim 5, wherein: support board (212) one end with guard plate (22) bottom rotates to be connected, guard plate (22) are kept away from outer panel (121) one end surface rotates to be connected with support (223), branch groove (213) have been seted up to support board (212) side surface, be connected with sliding sleeve (224) in the sliding of branch groove (213), support (223) bottom one end with sliding sleeve (224) rotate to be connected, sliding sleeve (224) surface connection has No. three spring (225), no. three spring (225) with branch groove (213) internal connection.