LU102943B1 - Device for constructing fabricated wall structure - Google Patents

Abstract

The present invention relates to a device for constructing a fabricated wall structure. The device comprises a baffle transverse movement adjusting mechanism, a binding adjusting mechanism, a binding mechanism, a baffle, a formwork, a moving mechanism, a position adjusting mechanism and a centering mechanism. In thé présent invention, by enabling thé transmission sliding plate to slide, thé binding mechanism is moved to steel bars; under extrusion of thé steel bars, thé binding unit in thé binding mechanism is triggered, thé steel bars on thé two sides are bound and fixed through thé binding unit, then thé fixing mechanism is disengaged from thé binding unit, a Connecting structure composed of thé mounting Connecting block and thé binding units is left on thé steel bars to achieve thé binding effect on thé steel bars.

Description

H113P4LU 03.05.2022 DEVICE FOR CONSTRUCTING FABRICATED WALL STRUCTURE LU102943

FIELD OF THE INVENTION The present invention belongs to the technical field of fabricated wall structures, and particularly relates to a device for constructing a fabricated wall structure.

BACKGROUND OF THE INVENTION A prefabricated building is defined as a building assembled from prefabricated components on site. Prefabricated building components can be industrially produced in the factory, and can be installed directly when they are delivered to the site, which is convenient and fast, shortening the construction period, ensuring the product quality. The material input for tumover is reduced, and the rental cost is reduced. The standardized production can save materials and reduce wastes. The product is highly mechanized, reducing labor costs and risks. In addition, the reduction of on-site workload of prefabricated buildings is conducive to environmental protection.

At present, most of the prefabricated buildings are concentrated on the wall, and the prefabricated wall is used to quickly build the wall. However, the prefabricated structure is not used at the joint of the wall. The method of bundling steel bars and cast-in-place concrete is often used for connection. This method can connect the prefabricated walls together with a high strength, but the construction efficiency is low, and the construction progress is affected to a certain extent.

The present invention solves the above problems by designing construction equipment for improving the efficiency of formwork construction and steel bar connection during on-site connection at the joint.

SUMMARY OF THE INVENTION | In order to solve the defects in the prior art, the present invention discloses a device for constructing a fabricated wall structure, which is achieved through the following technical solutions.

A device for constructing a fabricated wall structure comprises a baffle transverse movement adjusting mechanism, a binding adjusting mechanism, a binding mechanism, a baffle, a formwork, a moving mechanism, a position adjusting mechanism and a centering er

H113P4LU 03.05.2022 mechanism, wherein the position adjusting mechanism is mounted on the upper side of a LU102943 moving platform, and the centering mechanism which is used for positioning the device placed between two fabricatéd walls is mounted on the upper side of the position adjusting mechanism.

The baffle is divided into an inner baffle and an outer baffle which are both in an L shape, the lower end of the inner baffle is fixedly mounted on the position adjusting mechanism, and the outer baffle is mounted on one side of the inner baffle through the baffle transverse movement adjusting mechanism controlling the inner baffle and the outer baffle to slide relatively.

Two binding adjusting mechanisms are mounted on the two sides of the inner baffle and the two sides of the outer baffle, and the binding adjusting mechanism comprises a transmission sliding plate mounted on the outer baffle, the binding mechanism mounted on the transmission sliding plate and a sixth motor controlling the transmission sliding plate to slide. | The formwork is divided into an inner formwork and an outer formwork which are both in an L shape, and the inner formwork is mounted on the inner side of the inner baffle through the binding mechanism in the binding adjusting mechanism mounted on the inner baffle: and the outer formwork is mounted on the inner side of the outer baffle through the binding mechanism in the binding adjusting mechanism mounted on the outer baffle, the binding adjusting mechanisms control the binding mechanisms mounted on the binding adjusting mechanisms to slide relative to the inner baffle or the outer baffle.

As a further improvement of the technology, the position adjusting mechanism is composed of a second mounting sliding block which is longitudinally slidably mounted on the upper side of the moving platform and a first mounting sliding block transversely slidably mounted on the upper side of the second mounting sliding block, and a second motor for controlling the second mounting sliding block to longitudinally move on the moving platform is mounted on the moving platform; a first motor for controlling the first mounting sliding block to transversely move on the second mounting sliding block is mounted on the second mounting sliding block; and the centering mechanism for positioning whether the device 1s centered and placed between the two fabricated walls or not is mounted on the upper side of 6 ; dd

H113P4LU 03.05.2022 the first mounting sliding block. | LU102943 Compared with a conventional fabricated wall structure technology, in the present invention, the binding mechanism is moved to steel bars; under extrusion of the steel bars, the binding unit in the binding mechanism is triggered, the steel bars on the two sides are bound and fixed through the binding unit, then the fixing mechanism is disengaged from the binding unit, a connecting structure composed of the mounting connecting block and the binding units is left on the steel bars to achieve the binding effect on the steel bars; while the fixing mechanism is taken out of the formwork along with the transmission rod after the formwork is fixed, and the construction efficiency is greatly improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of appearance of an overall part. FIG. 2 is a structural representation of a moving mechanism. FIG. 3 is a mounting diagram of a first mounting sliding block. FIG. 4 is a diagram of drive of a first mounting sliding block and a second mounting. FIG. 5 is a mounting diagram of a centering mechanism. FIG. 6 is a mounting diagram of an adjusting sliding plate. : FIG. 7 is a diagram of distribution of a binding adjusting mechanism. FIG. 8 is a mounting diagram of a fourth motor. FIG. 9 is a mounting diagram of a baffle. FIG. 10 is a mounting diagram of a lifting sliding block. | FIG. 11 is a mounting diagram of a baffle transverse movement adjusting mechanism. FIG. 12 is a mounting diagram of a binding mechanism. FIG. 13 is a structural representation of a baffle transverse movement adjusting mechanism. FIG. 14 is a structural representation of an outer baffle. FIG. 15 is a structural representation of an inner baffle. FIG. 16 is a structural representation of an inner formwork. FIG. 17 is a structural representation of an outer formwork. FIG. 18 is a structural representation of a binding adjusting mechanism. FIG. 19 is diagram of appearance of a binding mechanism. 7 .

H113P4LU 03.05.2022 FIG. 20 is a structural representation of a binding mechanism. LU102943 FIG. 21 is a mounting diagram of a clamping and hooking structure.

FIG. 22 is a structural representation of a binding unit.

FIG. 23 is a mounting diagram of a trigger block.

FIG. 24 is a mounting diagram of a clamping block.

FIG. 25 is a structural representation of a fixed arc strip.

FIG 26 is a schematic diagram of the structural state before pouring.

Reference numerals: 1, baffle transverse movement adjusting mechanism; 2, binding adjusting mechanism; 3, binding mechanism; 4, baffle; 5, formwork; 6, moving mechanism; 7, position adjusting mechanism; 8, centering mechanism; 9, moving platform; 11, first motor; 13, first mounting sliding block; 14, second mounting sliding block; 16, second motor; 24, adjusting sliding plate; 25, third motor; 35, fourth motor; 36, lifting sliding block; 38, first guiding sliding rod; 39, outer baffle; 40, inner baffle; 48, inner formwork; 52, outer formwork; 55, sixth motor; 56, transmission sliding plate; 58, transmission rod; 59, binding head; 60, fixing mechanism; 61, mounting connecting block; 62, first spring; 63, sliding rod; 64, | clamping and hooking structure; 65, pull head; 66, binding unit; 67, sliding disc; 68, clamping groove; 69, trigger block; 70, fixed arc strip; 71, fixed arc plate; 74, limiting groove; 76, limiting block; 77, second spring; 78, clamping block; 79, elastic rope; 80, mounting shell; 83, trigger relieving groove; 84, third spring; 85, sixth guiding sliding block.

DETIALED DESCRIPTION The specific embodiments of the present invention will be further described in detail below in conjunction with the accompanying drawings and examples. The following examples or drawings are intended to illustrate the present invention rather than limit the scope of the present invention.

A device for constructing a fabricated wall structure comprises a baffle transverse movement adjusting mechanism 1, a binding adj usting mechanism 2, a binding mechanism 3, a baffle 4, a formwork 5, a moving mechanism 6, a position adjusting mechanism 7 and a | centering mechanism 8, wherein the position adjusting mechanism 7 is mounted on the upper side of a moving platform 9, and the centering mechanism 8 which is used for positioning the device placed between two fabricated walls is mounted on the upper side of the position 8 ‘ _

H113P4LU 03.05.2022 adjusting mechanism 7. | LU102943 The baffle 4 is divided into an inner baffle 40 and an outer baffle 39 which are both in an L shape, the lower end of the inner baffle 40 is fixedly mounted on the position adjusting mechanism 7, and the outer baffle 39 is mounted on one side of the inner baffle 40 through the baffle transverse movement adjusting mechanism 1 controlling the inner baffle 40 and the outer baffle 39 to slide relatively.

Two binding adjusting mechanisms 2 are mounted on the two sides of the inner baffle 40 and the two sides of the outer baffle 39, and the binding adjusting mechanism 2 comprises a transmission sliding plate 56 mounted on the outer baffle 39, the binding mechanism 3 mounted on the transmission sliding plate 56 and a sixth motor 55 controlling the transmission sliding plate 56 to slide.

The formwork 5 is divided into an inner formwork 48 and an outer formwork 52 which are both in an L shape, and the inner formwork 48 is mounted on the inner side of the inner baffle 40 through the binding mechanism 3 in the binding adjusting mechanism 2 mounted on the inner baffle 40; and the outer formwork 52 is mounted on the inner side of the outer baffle 39 through the binding mechanism 3 in the binding adjusting mechanism 2 mounted on the outer baffle 39, the binding adjusting mechanisms 2 control the binding mechanisms 3 mounted on the binding adjusting mechanisms 2 to slide relative to the inner baffle 40 or the outer baffle 39.

The position adjusting mechanism 7 is composed of a second mounting sliding block 14 which is longitudinally slidably mounted on the upper side of the moving platform 9 and a first mounting sliding block 13 transversely slidably mounted on the upper side of the second mounting sliding block 14, and a second motor 16 for controlling the second mounting sliding block 14 to longitudinally move on the moving platform 9 is mounted on the moving platform 9; a first motor 11 for controlling the first mounting sliding block 13 to transversely | move on the second mounting sliding block 14 is mounted on the second mounting sliding block 14; and the centering mechanism 8 for positioning whether the device is centered and placed between the two fabricated walls or not is mounted on the upper side of the first mounting sliding block 13. An adjusting sliding plate 24 and a third motor 25 for controlling the adjusting sliding 9

EIN

H113P4LU 03.05.2022 plate 24 to slide are slidably mounted on the upper side of the first mounting sliding block 13; LU102943 a lifting sliding block 36 is slidably mounted on the upper side of the adjusting sliding plate 24 through two first guiding sliding rods 38 mounted on the upper side of the adjusting sliding plate 24; a fourth motor 35 for controlling the lifting sliding block 36 to rise and fall is fixedly mounted on the lower side of one end of the adjusting sliding plate 24; and then the baffle 4 is divided into the inner baffle 40 and the outer baffle 39 which are both in an L shape, and the lower end of the inner baffle 40 is fixedly mounted on the lifting sliding block

36.

The binding mechanism 3 comprises a transmission rod 58 and a binding head 59, wherein one end of the transmission rod 58 is fixedly mounted on the corresponding transmission sliding plate 36, and the formwork 5 is slidably mounted on the transmission rod 58; the binding head 59 is mounted on the other end of the transmission rod 58 and located on the inner sides of the inner formwork 48 and the outer formwork 52; and the binding head 59 is composed of a fixing mechanism 60 mounted on the transmission rod 38 and two binding units 66 detachably mounted on the fixing mechanism 60 through mounting connecting blocks 61.

A trigger relieving groove 83 is formed on the end, away from transmission sliding plate 56, of the transmission rod 58; the fixing mechanism 60 comprises a first spring 62, a sliding rod 63, a clamping and hooking structure 64 and a sliding disc 67, wherein one end of the sliding rod 63 is mounted on the transmission rod 58 in a sliding mode, the first spring 62 is mounted between the sliding rod 63 and the transmission rod 58, and the first spring 62 is a compression spring; the clamping and hooking structure 64 is divided into two symmetrical parts which are hinged to the other end of the sliding rod 63, and a concave face clamping groove 68 is formed on one end of the clamping and hooking structure 64; a pull head 65 is arranged on one end of the mounting connecting block 61, and the mounting connecting block 61 is mounted on the fixing mechanism 60 through cooperation of the pull head 65 and : the clamping and hooking structure 64. / The binding unit 66 comprises a trigger block 69, a fixed arc strip 70, a fixed arc plate | 71, a limiting block 76, a second spring 77, a clamping block 78, an elastic rope 79 and a mounting shell 80, wherein a limiting groove 74 is formed in the outer arc surface of one end

H113P4LU | 03.05.2022 of the fixed arc plate 71, the fixed arc plate 71 is fixedly mounted on the mounting LU102943 connecting block 61, the trigger block 69 is slidably mounted on the fixed arc plate 71, a third spring 84 is mounted between the trigger block 69 and the fixed arc plate 71, and the third spring 84 is a compression spring; the fixed arc strip 70 is slidably mounted on the outer arc surface of the fixed arc plate 71, the elastic rope 79 is mounted between the fixed arc strip 70 and the fixed arc plate 71, and the elastic rope 79 and has pretension force; the mounting shell 80 is arranged on the outer arc surface of one end of the fixed arc strip 70, the limiting block 76 is fixedly mounted on the outer side of the mounting shell 80 and the limiting block 76 is matched with the trigger block 69, the clamping block 78 is slidably mounted in the mounting shell 80, and the second spring 77 is mounted between the clamping block 78 and the mounting shell 80 and the second spring 77 is a compression spring and has pre-compression force; and the clamping block 78 is matched with the limiting groove 74 formed in the fixed arc plate 71. When the device designed by the present invention is used, as shown in FIGS. 18, 19, 20, 21, 22, 23, 24 and 25, firstly, connecting structures, which are composed of the mounting connecting blocks 61 and the binding units 66 and used for connecting steel bars and then are left on the steel bars after binding, need to be mounted on the fixing mechanisms 60, and the connecting structures are fixed through cooperation of the clamping grooves 68 in the clamping and hooking structures 64 in the fixing mechanisms 60 and the pull heads 65; then the moving mechanism 6 is controlled, as shown in FIGS. 1, 2, 3, 4, 5, 6, 7, 11 and 12, the moving mechanism 6 drives the baffle 4 and the formwork 5 on the moving mechanism 6 to move to the positions near the two fabricated walls, as shown in FIGS. 8, 9, 10, 13, 14, 15, 16 and 17, the fourth motor 35 is controlled to work, and the fourth motor 35 can drive the lifting sliding block 36 to lift up along two first guiding sliding rods 38; the lifting sliding block 36 lifts up to drive the inner baffle 40 to slide, and the inner baffle 40 slides to drive the outer baffle 39 to lift up; the inner baffle 40 and the outer baffle 39 which are lifted up to drive the inner formwork 48 and the outer formwork 52 to ascend; then the third motor 25 1s controlled to work, as shown in FIGS. 5, 6 and 7, the third motor 25 works to drive the adjusting sliding plate 24 to slide; the adjusting sliding plate 24 slides to drive the baffle 4 and the formwork 5 on the adjusting sliding plate 24 to slide to the upper sides of connecting 11

HI13P4LU 03.05.2022 points of the two fabricated walls; then the fourth motor 35 is controlled to work to drive the 10108943 baffle 4 and the formwork 5 move downwards, after the formwork 5 moves downwards to make contact with the ground, the baffle 4 and the formwork 5 are further accurately adjusted through the position adjusting mechanism 7 and the centering mechanism 8 according to the positions of the connecting points of the two fabricated walls, and thus the baffle 4 and the formwork S move to the most appropriate positions; and the centering mechanism 8 and the position adjusting mechanism 7 can be used in cooperation, as shown in FIG. 26, finally the inner formwork and the outer formwork are fixed to the fabricated walls through screws 52. After adjustment is completed, the binding mechanisms 3 are controlled to slide relative to the inner baffle 40 or the outer baffle 39, in the sliding process, after the trigger blocks 69 make contact with the steel bars, as shown in the FIGS. 22, 23, 24 and 25, the steel bars extrude the trigger blocks 69 to enable the trigger blocks 69 to slide towards the inner side of the mounting connecting blocks 61, after the trigger blocks 69 slide by a certain distance, the trigger blocks 69 are separated from the limiting blocks 76 to release limiting of the limiting blocks 76, namely, limiting of the fixed arc strips 70 are released, at the moment, the fixed arc strips 70 slide along the outer arc faces of the fixed arc plates 71 under the action of the elastic ropes 79 to wrap the steel bars, and in the sliding process of the fixed arc strips 70, after the clamping blocks 78 mounted on the fixed arc strips 70 are matched with the limiting grooves 74 in the fixed arc plates 71, the clamping blocks 78 can be clamped in the limiting grooves 74 to limit sliding of the fixed arc strips 70 and the fixed arc plates 71; at the moment, the steel bars are fixed by the binding units 66, then the transmission rods 58 are controlled to move backwards, the transmission rods 58 move backwards to extrude the clamping and hooking structures 64 through the trigger relieving grooves 83 formed in the transmission rod 58, the ends, provided with the clamping grooves 68, of the clamping and hooking structures 64 are gradually unfolded, meanwhile, the transmission rods 38 slide relative to the clamping and hooking structures 64, and the first springs 62 are compressed; after the pull heads 65 are separated from the clamping and hooking structures 64, as shown in the FIG. 26, the connecting structures composed of the mounting connecting blocks 61 and the binding units 66 are left on the steel bars to bind the steel bars; after binding is completed, the transmission rods 58 of the binding mechanisms 3 and the fixing mechanisms 60 are controlled to be taken 12

H113P4LU 03.05.2022 down from the formwork 5, and finaliy the fourth motor 35 is controlled to work, as shown in 10106068 the FIGIS. 8, 9 and 10, the fourth motor 35 drives the lifting sliding block 36 to lift up along two first guide sliding rods 38; the lifting sliding block 36 lifts up to drive the inner baffle 40 to slide, and the inner baffle 40 slides to drive the outer baffle 39 to ascend; and after ascending, the moving mechanism 6 is controlled to move away the device, and then concrete pouring can be carried out.

; 13 ;

J

Claims (2)

H113P4LU 03.05.2022 CLAIMS LU102943

1. A device for constructing a fabricated wall structure, comprising a baffle transverse movement adjusting mechanism, a binding adjusting mechanism, a binding mechanism, a baffle, a formwork, a moving mechanism, a position adjusting mechanism and a centering mechanism, wherein the position adjusting mechanism is mounted on the upper side of a moving platform, and the centering mechanism which is used for positioning the device placed between two fabricated walls is mounted on the upper side of the position adjusting mechanism; the baffle is divided into an inner baffle and an outer baffle which are both in an L shape, the lower end of the inner baffle is fixedly mounted on the position adjusting mechanism, and the outer baffle is mounted on one side of the inner baffle through the baffle transverse movement adjusting mechanism controlling the inner baffle and the outer baffle to slide relatively; two binding adjusting mechanisms are mounted on the two sides of the inner baffle and the two sides of the outer | baffle, and the binding adjusting mechanism comprises a transmission sliding plate mounted on the outer baffle, the binding mechanism mounted on the transmission sliding plate and a sixth motor controlling the transmission sliding plate to slide; the formwork is divided into an inner formwork and an outer formwork which are both in an L shape, and the inner formwork is mounted on the inner side of the inner baffle through the binding mechanism in the binding adjusting mechanism mounted on the inner baffle: and the outer formwork is mounted on the inner side of the outer baffle through the binding mechanism in the binding adjusting mechanism mounted on the outer baffle, the binding adjusting mechanisms control the binding mechanisms mounted on the binding adjusting mechanisms to slide relative to the inner baffle or the outer baffle.

2. The device for constructing a fabricated wall structure according to claim 1, wherein the position adjusting mechanism is composed of a second mounting sliding block which is longitudinally slidably mounted on the upper side of the moving platform and a first mounting sliding block transversely slidably mounted on the upper side of the second 3

HI13P4LU 03.05.2022 mounting sliding block, and a second motor for controlling the second mounting sliding LU102943 block to longitudinally move on the moving platform is mounted on the moving platform: a first motor for controlling the first mounting sliding block to transversely move on the second mounting sliding block is mounted on the second mounting sliding block; and the centering mechanism for positioning whether the device is centered and placed between the two fabricated walls or not is mounted on the upper side of the first mounting sliding block.

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