CN115045507B - Well support circulation formula concrete spreader that climbs - Google Patents

Abstract

The invention discloses a well support circulating climbing type concrete distributor which comprises a support circulating type supporting climbing frame, a dynamic protection platform and a tower distributor, wherein the tower distributor is fixedly arranged on the upper wall of the support circulating type supporting climbing frame, and the dynamic protection platform is slidably sleeved on the outer side wall of the tower distributor. The invention belongs to the technical field of building equipment, and particularly provides a well support circulating climbing type concrete spreader, wherein a support which alternately climbs in a dynamic circulating mode is attached to a poured floor structure to provide supporting force and climbing power for equipment, so that the equipment can climb layer by means of the support which automatically and circularly climbs, the labor and material input in the climbing process of the equipment is obviously reduced, meanwhile, the equipment and a building structure are in a clamping and clamping state, the support does not need to be embedded in the side wall of an elevator well or drilled, the construction efficiency is effectively improved, the influence of the equipment on the quality of the building structure is reduced, and the risk of water leakage of the elevator well is obviously reduced.

Description

Well support circulation formula concrete spreader that climbs

Technical Field

The invention belongs to the technical field of building equipment, and particularly relates to a well support circulating climbing type concrete spreader.

Background

High-rise building is in the construction process, need adopt the cloth machine to carry out concrete placement, at present, high-rise building adopts the tower crane to carry out the cloth machine from ground handling to floor and assemble in advance when concrete placement, dismantle the cloth machine and handling to ground after concrete placement is accomplished again, the dismouting process is comparatively loaded down with trivial details, and the elevator well is the concrete barrel passageway that link up from top to bottom, generally idle and set up protective device and prevent personnel's mistake and go into in high-rise building major structure work progress, at present, prior art has some techniques to be applied to the cloth machine in the elevator well, but the effect is generally not good, prior art has following problem:

(1) The existing common distributing machine is time-consuming and labor-consuming in mounting and dismounting modes, and the construction efficiency is seriously influenced;

(2) The prior common distributing machine is temporarily fixed on a frame body or a floor by adopting a supporting leg fixing mode, the floor where the distributing machine is located is a floor below a floor to be poured, the curing time is generally less than one week, and concrete does not reach the standard strength;

(3) The existing hoistway climbing type distributing machine mostly adopts a pre-buried support or a drilling installation support to position a track and serve as a basis for equipment operation, when the support is installed by adopting a pre-buried method, the pre-buried support below the support is abandoned along with the increase of floors, materials are wasted, elevator installation is influenced, when the support is installed by adopting the drilling method, operation is very inconvenient, water leakage of a hoistway wall body is easily caused, and engineering quality is influenced;

(4) Because the particularity that link up from top to bottom of elevartor shaft needs carry out reliable protection to the elevator well head when concrete placement to guarantee constructor's safety, nevertheless current well climbing formula cloth machine generally does not consider the safety protection of elevator well head, and when carrying out fixed interim protection to the elevator well head, the inside construction space of elevartor shaft will be restricted, the template of demolising after concrete placement accomplishes is difficult to upload to the top floor, and the cloth machine is difficult to climb, and the work progress is still comparatively loaded down with trivial details.

Disclosure of Invention

According to the technical problems, the invention provides a well support circulating climbing type concrete spreader which aims at the technical problems that the existing common spreader is time-consuming to install and disassemble and has large vibration influence on a construction surface template, and the existing well spreader supports need to be pre-buried or drilled and arranged, a support circulating type supporting climbing frame is creatively arranged, supports which alternately climb in a dynamic circulation mode are attached to a poured floor structure to provide supporting force and climbing power for equipment, so that the equipment can climb layer by means of a small number of supports which automatically and circularly climb, the manpower input and the material input in the climbing process of the equipment are obviously reduced, meanwhile, the equipment is in a clamping and clamping state with a building structure when being static, the supports do not need to be pre-buried in advance on the side wall of an elevator well or drilled and installed with the supports, the construction efficiency is effectively improved, the influence of the equipment on the quality of the building structure is reduced, and the risk of water leakage of the elevator well is obviously reduced.

The technical scheme adopted by the invention is as follows: the scheme provides a well support circulating climbing type concrete spreader, which comprises a support circulating type supporting climbing frame, a dynamic protection platform and a tower spreader, wherein the tower spreader is fixedly arranged on the upper wall of the support circulating type supporting climbing frame, the dynamic protection platform is slidably sleeved on the outer side wall of the tower spreader, and the support circulating type supporting climbing frame provides supporting force and climbing power for equipment by using dynamic circulating alternate supports, so that the equipment can climb layer by depending on a small amount of automatically climbing supports, the manpower input and the material input in the equipment climbing process are remarkably reduced, meanwhile, the equipment is in a clamping and clamping state with a building structure when in rest, the supports do not need to be pre-embedded or drilled and installed in advance on the side wall of an elevator well, the construction efficiency is effectively improved, the influence of the equipment on the quality of the building structure is reduced, and the risk of water leakage of the elevator well is remarkably reduced; the support circulation type supporting climbing frame comprises a circulation guiding supporting frame body and a circulation positioning supporting seat, the circulation guiding supporting frame side wall is arranged in a circulation positioning supporting seat array distribution sliding clamping mode, the tower-type material distributing machine comprises a material distributing machine stand column and a material distributing machine body, the material distributing machine stand column is fixed to be arranged on the circulation guiding supporting frame upper wall, the material distributing machine body is rotated to be arranged on the material distributing machine stand column upper wall, the dynamic protection platform comprises a dynamic lifting sleeve frame and a protection plate, the dynamic lifting sleeve frame sliding sleeve is arranged on the outer side wall of the material distributing machine stand column, and the protection plate is fixed to be arranged on the dynamic lifting sleeve frame side wall.

The edge of the adjacent side wall of the circulation guide bearing support body is symmetrically and fixedly provided with guide supporting tracks, the adjacent side wall of the circulation guide bearing support body is fixedly provided with a lifting power rack, the lifting power racks are arranged between the guide supporting tracks, the bottom wall inside the circulation guide bearing support body is fixedly provided with a support transfer motor, the output end of the support transfer motor is coaxially and fixedly provided with a transfer power gear, the edge of the upper wall of the circulation guide bearing support body is fixedly provided with a support reset motor, the output end of the support reset motor is coaxially and fixedly provided with a support reset gear, and the inside of the circulation guide bearing support body is fixedly provided with a first pump pipe in a penetrating manner.

Furthermore, the lower wall of the circular guide supporting frame body is provided with a transfer power sleeve in a penetrating and rotating clamping manner, the upper wall of the transfer power sleeve is fixedly provided with a transfer driven gear, the transfer driven gear is meshed with the transfer power gear, the lower wall of the transfer power sleeve is fixedly provided with a transfer disc, the side walls of the transfer disc are symmetrically and fixedly provided with transfer clamping rails, the side walls of the transfer disc are fixedly provided with transfer racks, the transfer racks are arranged between the transfer clamping rails, the lower edges of the side walls of the transfer clamping rails are respectively and fixedly provided with lower limiting blocks, and the upper wall of each lower limiting block is respectively provided with a lower limiting button; the distance between the transfer clamping rails and the shape of the horizontal section are the same as those of the guide supporting rail, and when the transfer clamping rails are just below the guide supporting rail, the transfer racks are just below the lifting power racks and are temporarily spliced with the lifting power racks.

Furthermore, a reset power sleeve is rotatably sleeved on the upper wall of the circular guide supporting frame body, reset driven gear teeth are fixedly arranged on the side wall of the reset power sleeve in an annular array mode, a support reset gear is meshed with the reset driven gear teeth, reset clamping rails are symmetrically and fixedly arranged on the side wall of the reset power sleeve, reset racks are fixedly arranged on the side wall of the reset power sleeve and are arranged between the reset clamping rails, upper limiting blocks are fixedly arranged on the upper wall of each reset clamping rail respectively, and upper limiting buttons are arranged on the lower walls of the upper limiting blocks respectively; the distance between the reset clamping rails and the shape of the horizontal section are the same as those of the guide supporting rail, and when the reset clamping rails are just above the guide supporting rail, the reset racks are just above the lifting power racks and are temporarily spliced with the lifting power racks.

Furthermore, the circulating positioning support seat comprises a lifting power base and a beam plate clamping base, the lifting power bases are distributed on the side wall of the circulating guide support frame in an array sliding mode, the beam plate clamping bases are respectively and fixedly arranged on the side wall of the lifting power base, a lifting motor is fixedly arranged on the inner side wall of the lifting power base, a lifting power gear is coaxially and fixedly arranged at the output end of the lifting motor, and lifting clamping grooves are symmetrically and fixedly distributed on the side wall of the lifting power base; when the lifting power base is positioned on the side wall of the reset power sleeve, the lifting clamping grooves are respectively arranged on the outer wall of the reset clamping rail in a sliding clamping manner, and are meshed with the reset rack.

Further, the upper wall of the beam plate clamping base is fixedly provided with an upper clamping plate, the lower wall of the beam plate clamping base is fixedly provided with a lower clamping supporting rod, the lower edge of the side wall of the lower clamping supporting rod is rotatably provided with a clamping hydraulic rod, the circumferential side wall of the end of the clamping hydraulic rod base is slidably provided with a locking rod, the side wall of the lower clamping supporting rod penetrates through a locking jack, the locking jack is respectively arranged below and on the side of the clamping hydraulic rod base, the output end of the clamping hydraulic rod is fixedly provided with a clamping plate, and the side wall of the clamping plate and the lower wall of the upper clamping plate are respectively fixedly provided with a rubber resistance increasing sheet.

Furthermore, a protective power rack is fixedly arranged on the side wall of the upright post of the distributing machine, a second pump pipe is fixedly arranged on the inner wall of the upright post of the distributing machine, and the lower end of the second pump pipe is communicated and fixedly connected with the upper end of the first pump pipe.

Furthermore, a protection power motor is fixedly arranged on the side wall of the dynamic lifting sleeve frame, a protection power gear is coaxially and fixedly arranged at the output end of the protection power motor, the protection power gear is meshed with a protection power rack, and a protection supporting rod is fixedly arranged on the lower wall of the dynamic lifting sleeve frame.

Furthermore, the protection plates are respectively fixedly arranged at the upper end and the lower end of the protection supporting rod, the lower walls of the protection plates are respectively provided with a telescopic square tube in a sliding manner, and the side walls of the protection plates are respectively provided with a turning plate in a rotating manner; the shape and size of the protective plate is customized according to the size of the shaft and the installation position of the equipment.

Furthermore, a third pump pipe is fixedly arranged on the upper wall of the distributing machine body, and the upper ends of the third pump pipe and the second pump pipe are communicated and rotatably connected.

The invention with the structure has the following beneficial effects:

(1) The support circulating type supporting climbing frame provides supporting force and climbing power for equipment by using the support which alternately climbs in a dynamic circulating manner, so that the equipment can climb layer by depending on a small number of supports which automatically climb, the manpower input and the material input in the climbing process of the equipment are obviously reduced, meanwhile, the equipment is in a clamping and clamping state with a building structure when being static, the support does not need to be pre-buried in advance on the side wall of an elevator shaft or a support is installed by drilling, the construction efficiency is effectively improved, the influence of the equipment on the quality of the building structure is reduced, and the risk of water leakage of the elevator shaft is obviously reduced;

(2) Two adjacent side walls of the circular guide supporting frame body provide a circular path for the circular positioning supporting seat through arranging the same guide supporting track and the same lifting power rack;

(3) The structural design of the side walls of the transfer power sleeve and the reset power sleeve is the same as that of the side wall of the circular guide support frame, so that a circular path of the circular positioning support seat is closed;

(4) When the circulating positioning support seat providing climbing force for the circulating guide support frame body drives the circulating guide support frame body to climb, the circulating positioning support seat at the lowest part moves to the highest part under the assistance of the transfer power sleeve and the reset power sleeve, and the positioning point of the circulating guide support frame body is continuously ascended by the circulating positioning support seat in a mode of circularly exchanging longitudinal sequence, so that the climbing of the equipment is realized;

(5) The circulating positioning support base supports and locks the equipment through a multi-layer concrete structure below the building construction surface, so that the vibration effect of the equipment in the concrete pouring process is directly transmitted to the poured concrete structure, the influence of the equipment on the construction surface is obviously reduced, and the construction safety is effectively improved;

(6) The upper clamping plate can be erected on the upper wall of the floor at the door opening, so that vertical supporting force is provided for equipment by clamping the beam plate with the base, and the clamping plate can realize stable clamping with the outer side wall of the ring beam through the clamping hydraulic rod, so that the equipment is prevented from tilting;

(7) The circulating positioning support seat enables equipment to be stably arranged in a temporary clamping and locking mode, the possibility of loss of a building structure caused by equipment installation is avoided, material investment is obviously reduced, and construction efficiency is improved;

(8) The dynamic protection platform enables the construction space of the elevator shaft region to be matched with the protection requirement in a lifting mode, and reliable protection is achieved while the convenience of construction is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of a hoistway support circulating climbing type concrete spreader according to the present invention;

FIG. 2 is a schematic structural diagram of a support circulating type support climbing frame provided by the invention;

FIG. 3 is a partial enlarged view of portion B of FIG. 2;

FIG. 4 is an enlarged view of a portion C of FIG. 2;

FIG. 5 is a schematic structural view of a power transfer sleeve according to the present invention;

FIG. 6 is a schematic structural view of a reset power sleeve according to the present invention;

FIG. 7 is a schematic structural view of a circular positioning support seat according to the present invention;

FIG. 8 is a schematic structural diagram of a lifting power base according to the present invention;

FIG. 9 is an enlarged view of a portion A of FIG. 1;

FIG. 10 is a schematic structural diagram of a dynamic protection platform according to the present invention;

fig. 11 is a schematic side view of a climbing process of the support circulating type support climbing frame provided by the invention.

The device comprises a support circulating type supporting climbing frame 1, a support circulating type supporting climbing frame 11, a circulating type guiding supporting frame body 111, a guiding supporting track, 112, a lifting power rack 113, a support transferring motor 1131, a transferring power gear 114, a support resetting motor 1141, a support resetting gear 115, a first pump pipe 116, a transferring power sleeve 1161, a transferring driven gear 1162, a transferring disc 1163, a transferring clamping rail 1164, a transferring rack 1165, a lower limiting block 1166, a lower limiting button 117, a resetting power sleeve 1171, a resetting driven gear 1172, a resetting clamping rail 1173, a resetting rack 1174, an upper limiting block 1175, an upper limiting button 12, a circulating positioning block 121, a lifting power base 1211, a lifting motor 1212, a lifting power gear 1213, a lifting clamping groove 122, a beam plate base 1221, an upper clamping plate 1222, a lower clamping rod 1223, a supporting rod 1223, a clamping hydraulic pressure rod, a locking rod 1225, a locking jack 1226, a clamping hole 1224, a clamping plate 221, a clamping plate 1227, a tower type guiding supporting plate 3, a dynamic rubber pipe supporting plate 312, a protective plate main body, a protective plate supporting plate 211, a protective plate 222, a protective plate 21, a protective plate supporting plate 21, a protective plate 222, a protective plate supporting plate 21, a protective plate supporting plate 222, a protective plate 212, a cloth machine main body, a protective plate 21, a cloth pipe support, a cloth machine main body, a protective plate 21, a cloth pipe support, a protective plate and a protective plate.

In FIG. 11, a, b, c, d and e sequentially show each stage in the climbing process of the support circulating type support climbing frame, and N-2, N-1 and N, N +1 sequentially show the number of floors.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

Example (b):

referring to fig. 1, in the embodiment, the hoistway support circulating climbing type concrete spreader includes a support circulating supporting climbing frame 1, a dynamic protection platform 2 and a tower type spreader 3, the tower type spreader 3 is fixedly disposed on an upper wall of the support circulating supporting climbing frame 1, the dynamic protection platform 2 is slidably sleeved on an outer side wall of the tower type spreader 3, the support circulating supporting climbing frame 1 includes a circulating guide supporting frame body 11 and a circulating positioning supporting base 12, the circulating positioning supporting base 12 is slidably clamped on a side wall of the circulating guide supporting frame body 11 in an array manner, the tower type spreader 3 includes a spreader upright 31 and a spreader body 32, the spreader upright 31 is fixedly disposed on the upper wall of the circulating guide supporting frame body 11, the spreader body 32 is rotatably disposed on an upper wall of the spreader upright 31, the dynamic protection platform 2 includes a dynamic lifting sleeve frame 21 and a protection plate 22, the dynamic lifting sleeve frame 21 is slidably sleeved on an outer side wall of the spreader upright 31, and the protection plate 22 is fixedly disposed on a side wall of the dynamic lifting sleeve frame 21.

Referring to fig. 2 to 4, in the present embodiment, guide support rails 111 are symmetrically and fixedly disposed on adjacent side wall edges of the circulation guide support frame body 11, lifting power racks 112 are fixedly disposed on adjacent side walls of the circulation guide support frame body 11, the lifting power racks 112 are respectively disposed between the guide support rails 111, a support transfer motor 113 is fixedly disposed on a bottom wall inside the circulation guide support frame body 11, a transfer power gear 1131 is coaxially and fixedly disposed at an output end of the support transfer motor 113, a support reset motor 114 is fixedly disposed on an upper wall edge of the circulation guide support frame body 11, a support reset gear 1141 is coaxially and fixedly disposed at an output end of the support reset motor 114, and a first pump pipe 115 is fixedly disposed inside the circulation guide support frame body 11.

Referring to fig. 3 and 5, in the embodiment, the lower wall of the circular guide support frame 11 is rotatably and snap-connected with the transfer power sleeve 116, the upper wall of the transfer power sleeve 116 is fixedly provided with a transfer driven gear 1161, the transfer driven gear 1161 is engaged with the transfer power gear 1131, the lower wall of the transfer power sleeve 116 is fixedly provided with a transfer tray 1162, the side walls of the transfer tray 1162 are symmetrically and fixedly provided with transfer clamp rails 1163, the side walls of the transfer tray 1162 are fixedly provided with transfer racks 1164, the transfer racks 1164 are arranged between the transfer clamp rails 1163, the lower limit blocks 1165 are respectively and fixedly arranged on the lower edges of the side walls of the transfer clamp rails 1163, and the upper walls of the lower limit blocks 1165 are respectively provided with lower limit buttons 1166; the distance between the transfer clamping rails 1163 and the shape of the horizontal section are the same as those of the guide support rail 111, and when the transfer clamping rails 1163 are just below the guide support rail 111, the transfer rack 1164 is just below the lifting power rack 112 and temporarily spliced with the lifting power rack 112.

Referring to fig. 4 and 6, in the embodiment, the upper wall of the circular guide support frame 11 is rotatably sleeved with a reset power sleeve 117, the annular array of the side wall of the reset power sleeve 117 is fixedly provided with reset driven gear teeth 1171, the support reset gear 1141 is engaged with the reset driven gear teeth 1171, the side wall of the reset power sleeve 117 is symmetrically and fixedly provided with reset clamp rails 1172, the side wall of the reset power sleeve 117 is fixedly provided with reset racks 1173, the reset racks 1173 are arranged between the reset clamp rails 1172, the upper walls of the reset clamp rails 1172 are respectively and fixedly provided with upper limit blocks 1174, and the lower walls of the upper limit blocks 1174 are respectively provided with upper limit buttons 1175; the distance between the reset clamping rails 1172 and the shape of the horizontal section are the same as those of the guide support rail 111, and when the reset clamping rails 1172 are just above the guide support rail 111, the reset rack 1173 is just above the lifting power rack 112 and is temporarily spliced with the lifting power rack 112.

Referring to fig. 7 and 8, the circular positioning support 12 of the present embodiment includes a lifting power base 121 and a beam plate engaging base 122, the lifting power bases 121 are arranged in an array and slidably disposed on the side wall of the circular guiding support frame 11, the beam plate engaging bases 122 are respectively fixed on the side wall of the lifting power base 121, a lifting motor 1211 is fixed on the inner side wall of the lifting power base 121, a lifting power gear 1212 is coaxially fixed at the output end of the lifting motor 1211, and lifting slots 1213 are symmetrically arranged on the side wall of the lifting power base 121; when the lifting power base 121 is located on the side wall of the circular guide support frame 11, the lifting slots 1213 are respectively slidably sleeved on the outer wall of the guide support rail 111, the lifting power gear 1212 is engaged with the lifting power rack 112, when the lifting power base 121 is located on the side wall of the transfer power sleeve 116, the lifting slots 1213 are respectively slidably sleeved on the outer wall of the transfer track 1163, the lifting power gear 1212 is engaged with the transfer rack 1164, when the lifting power base 121 is located on the side wall of the reset power sleeve 117, the lifting slots 1213 are respectively slidably sleeved on the outer wall of the reset track 1172, and the lifting power gear 1212 is engaged with the reset rack 1173.

Referring to fig. 7, in the present embodiment, an upper clamping plate 1221 is fixedly disposed on an upper wall of the beam-slab engaging base 122, a lower engaging support rod 1222 is fixedly disposed on a lower wall of the beam-slab engaging base 122, a clamping hydraulic rod 1223 is rotatably disposed on a lower edge of a side wall of the lower engaging support rod 1222, a locking rod 1224 is slidably disposed on a circumferential side wall of a base end of the clamping hydraulic rod 1223, a locking insertion hole 1225 is penetratingly disposed on a side wall of the lower engaging support rod 1222, the locking insertion holes 1225 are respectively disposed below and at a side edge of the base of the clamping hydraulic rod 1223, a clamping plate 1226 is fixedly disposed at an output end of the clamping hydraulic rod 1223, and rubber resistance increasing sheets 1227 are respectively fixedly disposed on a side wall of the clamping plate 1226 and a lower wall of the upper clamping plate 1221; the elevator well all leaves at every layer and is equipped with the door opening, and door opening department bottom plate is the ring beam structure, goes up cardboard 1221 and can set up in door opening department floor upper wall to provide vertical support power for equipment through beam slab block base 122, grip block 1226 can realize firm centre gripping with the ring beam lateral wall through centre gripping hydraulic stem 1223, thereby prevents that equipment from heeling.

Referring to fig. 9, a protective power rack 311 is fixedly disposed on a side wall of the upright column 31 of the material distributor in this embodiment, a second pump pipe 312 is fixedly disposed on an inner wall of the upright column 31 of the material distributor, and a lower end of the second pump pipe 312 is fixedly connected to an upper end of the first pump pipe 115 in a penetrating manner.

Referring to fig. 10, in the present embodiment, a protection power motor 211 is fixedly disposed on a side wall of the dynamic lifting sleeve frame 21, a protection power gear 2111 is coaxially and fixedly disposed at an output end of the protection power motor 211, the protection power gear 2111 is engaged with the protection power rack 311, and a protection support rod 212 is fixedly disposed on a lower wall of the dynamic lifting sleeve frame 21.

Referring to fig. 10, the protection plates 22 in the present embodiment are respectively fixed at the upper and lower ends of the protection support rods 212, the lower walls of the protection plates 22 are respectively slidably provided with telescopic square tubes 221, and the side walls of the protection plates 22 are respectively rotatably provided with turning plates 222; the shape and size of the guard plate 22 is customized according to the hoistway size and the equipment installation location.

Referring to fig. 1, a third pump pipe 321 is fixedly disposed on the upper wall of the distributor body 32 in the present embodiment, and the upper ends of the third pump pipe 321 and the second pump pipe 312 are connected in a through and rotating manner.

The specific implementation manner of this embodiment is: the method comprises the steps of installing a material distributing machine when a building is constructed to a floor needing to be cast by using the material distributing machine, assembling a well support circulating climbing type concrete material distributing machine provided by the scheme in advance, enabling a circulating positioning support 12 to be in sliding clamping with a reset clamping rail 1172, a guide support rail 111 and a transfer clamping rail 1163 from top to bottom in sequence, hoisting the equipment to the interior of a building elevator well by using a tower crane, enabling a clamping hydraulic rod 1223 to be in an extension state in an initial state, enabling a locking rod 1224 to be inserted into a locking jack 1225 on the side of a base of the clamping hydraulic rod 1223, enabling the clamping plate 1226 to be in a horizontal state, setting a construction floor to be an Nth floor, enabling the circulating positioning support 12 to correspond to an Nth floor, the Nth-1 floor and an Nth-2 floor respectively, enabling an installer to install the circulating positioning support 12 to a ring beam of the corresponding floor respectively, enabling an upper clamping plate 1221 to be clamped to the upper wall of each ring beam by moving the equipment, enabling the clamping plate 1226 to be in a stable clamping jack 1225 of the clamping hydraulic rod 1226 and enabling the clamping rod 1226 to be in a vertical clamping jack 1226 locking state when the clamping hydraulic rod 1223 is moved, and the clamping rod 1226 is inserted into the clamping jack 1226, and the clamping rod 1226 is in a stable clamping process.

The constructor can use the equipment to perform concrete pouring after connecting the first pump pipe 115 with a conveying pump pipe in a building, when the concrete pouring is completed and the equipment needs to climb to a new construction floor, the installer transfers the circulating positioning support base 12 corresponding to the lowest layer, namely the N-2 layer, to the uppermost layer, namely the N +1 layer, the transfer process is performed in a circulating automatic climbing manner, as shown in fig. 11, the installer extends the clamping hydraulic rod 1223 of the lowest layer and adjusts the clamping plate 1226 of the lowest layer to be in a horizontal state, so that the circulating positioning support base 12 corresponding to the N-2 layer is separated from the door-hole ring beam of the N-2 layer, the support transfer motor 113 is started, the support transfer power gear 1131 is driven by the support transfer motor 113 to rotate, the transfer power gear 1131 drives the transfer power sleeve 116 and the transfer disc 1162 to rotate through the transfer driven gear 1161, the transfer disc 1162 drives the circulating positioning support base 12 corresponding to rotate through the N-2 layer, so that the circulating positioning support base 1211 12 leaves the door-hole ring beam, after the transfer disc 2 rotates 90 degrees, the transfer track 1163 and the lifting guide rail 111, and the lifting guide rail 121 on the lifting guide rail are driven to move up and the lifting rack 1213, and the lifting guide rail 111 on the lifting guide rail on the lifting support base 111 are gradually replaced by the lifting guide rail, the lifting rack support base 121 on the lifting guide rail, and the lifting guide rail on the lifting guide rail, the lifting guide rail on the lifting support base 111, meanwhile, in the process, the lifting motor 1211 on the circular positioning support seat 12 on the side of the transfer disc 1162 runs in reverse direction, so as to drive the circular positioning support seat 12 to ascend along the lifting power rack 112, in the process that the circular positioning support seat 12 ascends along the lifting power rack 112, the reset power sleeve 117 rotates and is ready to receive the circular positioning support seat 12, the transfer power sleeve 116 resets and is ready to receive the circular positioning support seat 12 corresponding to the N-1 layer, the reset motor 114 drives the support reset gear 1141 to rotate and drives the reset power sleeve 117 to rotate through the reset driven gear teeth 1171, when the reset clamping rail 1172 on the side wall of the reset power sleeve 117 is spliced with the guide support rail 111 on the other side wall of the circular guide support frame body 11, the reset motor 114 stops running, and when the circular positioning support seat 12 ascends along the lifting power rack 112 runs to the top, the lifting clamping groove 1213 on the circular positioning support 12 is clamped with the reset clamping rail 1172, and the lifting power gear 1212 on the circular positioning support 12 is engaged with the reset rack 1173, when the upper wall of the circular positioning support 12 touches the upper limit button 1175 of the lower wall of the upper limit block 1174, the circular positioning support 12 corresponding to the N-1 layer is clamped with the side wall of the transfer power sleeve 116 in a sliding manner, and the lower wall of the circular positioning support 12 of the N-1 layer just touches the lower limit button 1166 of the upper wall of the lower limit block 1165, the lifting motor 1211 on each lifting power base 121 stops running, at this time, the circular guiding support frame 11 finishes climbing, the lifted circular positioning support 12 corresponds to the door opening ring beam of the bottom plate of the N +1 layer, finally, the support reset power sleeve 117 is driven to rotate by the support reset motor 114, so that the lifted circular positioning support 12 rotates to the door opening ring beam of the bottom plate of the N +1 layer, and the circular positioning support seat 12 and the N + 1-layer door opening ring beam are clamped and locked, and the equipment climbing process is completed.

In the construction process, the protection and construction of the elevator shaft are in high-efficiency coordination and are important, in the embodiment, when the floor construction is in the formwork construction stage, the protection power motor 211 drives the protection power gear 2111 to rotate and enables the dynamic lifting sleeve frame 21 to descend through the protection power rack 311, so that the protection plate 22 on the upper layer is located at the bottom plate of the N layers, constructors can stand on the protection plate 22 on the upper layer to perform formwork installation and reinforcement operation, when the formwork construction is completed and enters the concrete pouring stage, the protection power motor 211 runs reversely and enables the dynamic lifting sleeve frame 21 to ascend, so that the protection plate 22 on the upper layer is located at the bottom plate of the N +1 layers and performs safety protection on a concrete pouring operation surface, the protection plate 22 on the lower layer is located at the bottom plate of the N layers, the constructors can check the formwork state in the concrete pouring process conveniently, and the turning plate 222 does not need to be opened in the lifting process of the dynamic lifting sleeve frame 21, so that collision between equipment and a pulling screw on a formwork is avoided.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a well support circulation formula concrete spreader that climbs which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the support circulating type supporting climbing frame (1) comprises a circulating guide supporting frame body (11) and circulating positioning supporting seats (12), wherein the circulating positioning supporting seats (12) are arranged on the side wall of the circulating guide supporting frame body (11) in an array distribution sliding clamping manner;

the tower-type distributing machine (3) comprises a distributing machine upright post (31) and a distributing machine body (32), wherein the distributing machine upright post (31) is fixedly arranged on the upper wall of the circulation guide supporting frame body (11), and the distributing machine body (32) is rotatably arranged on the upper wall of the distributing machine upright post (31);

the dynamic protection platform (2) comprises a dynamic lifting sleeve frame (21) and a protection plate (22), the dynamic lifting sleeve frame (21) is slidably sleeved on the outer side wall of the distributing machine upright post (31), and the protection plate (22) is fixedly arranged on the side wall of the dynamic lifting sleeve frame (21);

the edge of the adjacent side wall of the circulation guide bearing frame body (11) is respectively and symmetrically and fixedly provided with guide support rails (111), the adjacent side wall of the circulation guide bearing frame body (11) is respectively and fixedly provided with a lifting power rack (112), the lifting power racks (112) are respectively arranged between the guide support rails (111), the bottom wall of the interior of the circulation guide bearing frame body (11) is fixedly provided with a support transfer motor (113), the output end of the support transfer motor (113) is coaxially and fixedly provided with a transfer power gear (1131), the edge of the upper wall of the circulation guide bearing frame body (11) is fixedly provided with a support reset motor (114), and the output end of the support reset motor (114) is coaxially and fixedly provided with a support reset gear (1141);

the lower wall of the circulation guide supporting frame body (11) is provided with a transfer power sleeve (116) in a penetrating, rotating and clamping mode, the upper wall of the transfer power sleeve (116) is fixedly provided with a transfer driven gear (1161), the transfer driven gear (1161) is meshed with the transfer power gear (1131), the lower wall of the transfer power sleeve (116) is fixedly provided with a transfer disc (1162), the side wall of the transfer disc (1162) is symmetrically and fixedly provided with transfer clamping rails (1163), the side wall of the transfer disc (1162) is fixedly provided with a transfer rack (1164), the transfer rack (1164) is arranged between the transfer clamping rails (1163), the lower limiting blocks (1165) are respectively and fixedly arranged on the lower edge of the side wall of the transfer clamping rail (1163), and the upper wall of the lower limiting block (1165) is respectively provided with a lower limiting button (1166);

the upper wall of the circular guide supporting frame body (11) is rotatably sleeved with a reset power sleeve (117), the annular array of the side wall of the reset power sleeve (117) is fixedly provided with reset driven gear teeth (1171), the support reset gear (1141) is meshed with the reset driven gear teeth (1171), reset clamping rails (1172) are symmetrically and fixedly arranged on the side wall of the reset power sleeve (117), reset racks (1173) are fixedly arranged on the side wall of the reset power sleeve (117), the reset racks (1173) are arranged between the reset clamping rails (1172), upper limiting blocks (1174) are respectively and fixedly arranged on the upper wall of the reset clamping rails (1172), and upper limiting buttons (1175) are respectively arranged on the lower wall of the upper limiting blocks (1174);

circulation location supporting seat (12) are including lift power base (121) and roof beam board block base (122), lift power base (121) array distribution slides and locates circulation direction supporting support body (11) lateral wall, roof beam board block base (122) are fixed respectively and are located lift power base (121) lateral wall, lift power base (121) inside wall is fixed and is equipped with elevator motor (1211), elevator motor (1211) output coaxial fixed is equipped with lift power gear (1212), lift power base (121) lateral wall symmetric distribution is fixed and is equipped with lift draw-in groove (1213).

2. The well support circulation climbing formula concrete spreader of claim 1, characterized in that: the clamping device is characterized in that an upper clamping plate (1221) is fixedly arranged on the upper wall of the beam-plate clamping base (122), a lower clamping support rod (1222) is fixedly arranged on the lower wall of the beam-plate clamping base (122), a clamping hydraulic rod (1223) is rotatably arranged on the lower edge of the side wall of the lower clamping support rod (1222), a locking rod (1224) is slidably arranged on the circumferential side wall of the base end of the clamping hydraulic rod (1223), a locking jack (1225) penetrates through the side wall of the lower clamping support rod (1222), the locking jack (1225) is respectively arranged below and on the side edge of the base of the clamping hydraulic rod (1223), and a clamping plate (1226) is fixedly arranged at the output end of the clamping hydraulic rod (1223).

3. The well support circulation climbing type concrete distributor according to claim 2, characterized in that: and a protective power rack (311) is fixedly arranged on the side wall of the upright column (31) of the distributing machine.

4. The well support circulation climbing type concrete distributor according to claim 3, characterized in that: the dynamic lifting sleeve frame is characterized in that a protection power motor (211) is fixedly arranged on the side wall of the dynamic lifting sleeve frame (21), a protection power gear (2111) is coaxially and fixedly arranged at the output end of the protection power motor (211), the protection power gear (2111) is meshed with a protection power rack (311), and a protection supporting rod (212) is fixedly arranged on the lower wall of the dynamic lifting sleeve frame (21).

5. The well support circulation climbing type concrete distributor according to claim 4, characterized in that: the protection plate (22) is fixedly arranged at the upper end and the lower end of the protection supporting rod (212) respectively, the lower wall of the protection plate (22) is provided with a telescopic square tube (221) in a sliding mode respectively, and the side wall of the protection plate (22) is provided with a turning plate (222) in a rotating mode respectively.

6. The well support circulation climbing formula concrete spreader of claim 5, characterized in that: and rubber resistance increasing sheets (1227) are respectively and fixedly arranged on the side wall of the clamping plate (1226) and the lower wall of the upper clamping plate (1221).

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