CN117569584B

CN117569584B - Concrete slip form construction device

Info

Publication number: CN117569584B
Application number: CN202410063584.0A
Authority: CN
Inventors: 曹胜利; 白福鹏; 闫艳军; 张乐; 赵豫州; 刘昂; 高国峰; 曹大地; 禹翔瑜; 王宁; 张晓蔚; 魏哲宇
Original assignee: Henan Caishun Engineering Management Co ltd
Current assignee: Henan Caishun Engineering Management Co ltd
Priority date: 2024-01-17
Filing date: 2024-01-17
Publication date: 2024-04-02
Anticipated expiration: 2044-01-17
Also published as: CN117569584A

Abstract

The invention relates to the technical field of construction devices, in particular to a concrete slip form construction device which comprises a portal frame and two cleaning mechanisms. The two cleaning mechanisms are respectively arranged on the two groups of templates and are positioned on one sides of the two groups of templates, which are close to each other along the first direction, and the cleaning mechanisms can move along the second direction on the templates which are correspondingly arranged. The cleaning mechanism comprises a first shell, a cleaning rod and a plurality of positioning rods, wherein the cleaning rod is arc-shaped and can be rotatably installed in the first shell around a reference axis. The invention relates to a concrete slip form construction device which is provided with a portal frame and two cleaning mechanisms. The concrete adhered on the template is cleaned, and the cleaned concrete can be prevented from falling on the poured concrete wall, so that the construction quality is prevented from being influenced.

Description

Concrete slip form construction device

Technical Field

The invention relates to the technical field of construction devices, in particular to a concrete slip form construction device.

Background

The slip form construction is a construction process of the cast-in-place concrete engineering, the formwork is assembled at one time during the slip form construction, an operation platform for constructors is arranged on the slip form construction, and synchronous sliding lifting and continuous operation are carried out along the cast-in-place concrete surface by adopting a hydraulic or other lifting device from bottom to top while concrete is poured. Compared with the conventional construction method, the construction process has the characteristics of high construction speed, good overall structure performance, high mechanization degree and the like.

The Chinese patent with the publication number of CN213391205U discloses a hydraulic slip form construction device for a cylindrical warehouse, which comprises a portal, a lifting device for lifting the portal is arranged on the portal, templates are symmetrically arranged in the portal, a spray head is arranged above the templates on the portal, the spray head is communicated with a high-pressure pump and a release agent storage box in sequence through a pipeline, and the spray head is inclined downwards and aligned with the inner wall of the templates to help the templates to separate from concrete. However, the patent does not clean the concrete adhered on the template before spraying the mold release agent, the residual concrete on the template can prevent the mold release agent from fully contacting with the surface of the template, the permeation and action effects of the mold release agent are affected, the demolding is difficult or the effect is not ideal, and the uncleaned residual concrete can be adhered on the template in the demolding process, so that the surface of the template is damaged or worn, and the service life of the template is reduced.

Disclosure of Invention

The invention provides a concrete slip form construction device, which aims to solve the problems that the existing slip form construction device is difficult to demold and even affects the service life of a template because concrete adhered to the template is not cleaned before a mold release agent is sprayed.

The invention relates to a concrete slip form construction device which adopts the following technical scheme: the concrete slip form construction device is used for cleaning concrete on a formwork and comprises a portal frame and two cleaning mechanisms; the two groups of templates are arranged in the vertical direction and arc, the two groups of templates are sequentially arranged on the portal along the first direction, the first direction is the radial direction of the templates, and a pouring cavity is defined between the two groups of templates and is used for pouring concrete; the two cleaning mechanisms are respectively arranged on the two groups of templates and are positioned at one side of the two groups of templates, which are close to each other along the first direction, and the cleaning mechanisms can move along the second direction on the templates which are correspondingly arranged, wherein the second direction is the circumferential direction of the templates; the cleaning mechanism comprises a first shell, a cleaning rod and a plurality of positioning rods, wherein the first shell is obliquely arranged, is of a curved surface structure and is contacted with the surface of the template; the cleaning rod is arc-shaped, can be rotatably arranged on the first shell around a reference axis and is contacted with the surface of the template in an initial state, and the reference axis is a connecting line of two ends of the cleaning rod; the clearance pole is flexible pole, and a plurality of locating levers set gradually along the third direction in first casing, and the axial direction of third direction for the clearance pole, a plurality of locating levers are the rigid rod, and the one end of a plurality of locating levers rotates with the clearance pole respectively and is connected, and the other end respectively with first casing rigid coupling to make the clearance pole after rotating can be rather than the template surface contact that corresponds the setting all the time.

Further, the locating rod comprises a locating ring and two connecting rods, the two connecting rods are fixedly arranged in the first shell respectively, the locating ring is fixedly connected with the two connecting rods, and the locating ring is rotationally connected with the cleaning rod.

Further, the cleaning rod comprises a first rod body and a plurality of hairbrushes uniformly distributed on the first rod body, the first rod body is made of rubber, and the hairbrushes are made of nylon.

Further, two suction mechanisms are further included, each suction mechanism is arranged corresponding to one cleaning mechanism, a first installation cavity and a first channel are arranged in the first shell, the cleaning rod is installed in the first installation cavity, the first installation cavity is communicated with the first channel, the suction mechanism comprises a fan and a second shell, the second shell is fixedly connected with the first shell, the fan is installed on the second shell, a second channel is arranged in the second shell, and the first channel is communicated with the second channel.

Further, the device also comprises two coating mechanisms, each coating mechanism is arranged corresponding to one cleaning mechanism, each coating mechanism is sequentially arranged in a second direction with the corresponding cleaning mechanism, each coating mechanism comprises a third shell, a coating rod, a high-pressure pump and a release agent storage box, the third shell is arranged along a fourth direction, the fourth direction is the axial direction of the template, and the third shell is fixedly connected with the first shell; the coating rod is rotatably arranged in the third shell, a spray head is arranged in the third shell, the spray head is sequentially communicated with the high-pressure pump and the release agent storage box through a pipeline, and one side of a spray nozzle of the spray head is arranged towards the coating rod.

The mold plate is positioned in the clamping space.

Further, at least one travelling wheel is arranged in the clamping space.

Further, the coating rod comprises a second rod body and a plurality of coating cloths uniformly distributed on the second rod body, and the coating cloths are made of flexible materials and can always contact with the template.

Further, the template comprises an inner plate and an outer plate, wherein the outer plate is fixed on the inner plate, the inner plate is arranged towards one side of concrete, the surface of the inner plate is a rubber layer or a flexible ABS plastic layer, and the outer plate is a steel plate.

Further, the operation platforms are symmetrically arranged on the door frame.

The beneficial effects of the invention are as follows: the invention relates to a concrete slip form construction device which is provided with a portal frame and two cleaning mechanisms. After the slip form construction is finished, two cleaning mechanisms are respectively installed on the two templates, meanwhile, the cleaning rods are driven to rotate, the two cleaning mechanisms are respectively moved on the templates which are correspondingly arranged, the cleaning rods are moved along the cambered surfaces of the templates which are correspondingly arranged, and concrete adhered on the templates is cleaned. And in the rotation process of the cleaning rod, the arc-shaped cleaning rod is deformed due to the limiting effect of the positioning rods and always keeps in contact with the corresponding template, the cleaning rod can shake in the deformation process of the cleaning rod, the concrete adhered to the cleaning rod is cleaned, and the cleaning effect of the cleaning rod on the template is further guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic installation view of the overall structure of an embodiment of a concrete slip form construction device of the present invention;

FIG. 2 is a schematic installation view of a part of the construction of an embodiment of a concrete slip form construction device of the present invention;

FIG. 3 is a schematic view of the installation of a working portion and a form of an embodiment of a concrete slip form construction apparatus of the present invention;

FIG. 4 is a schematic view of the construction part of an embodiment of a concrete slip form construction device according to the present invention;

FIG. 5 is an enlarged view of FIG. 4 at A;

FIG. 6 is an enlarged view at B in FIG. 4;

FIG. 7 is a front view of the working portion of an embodiment of a concrete slip form construction apparatus of the present invention;

FIG. 8 is a cross-sectional view taken along line C-C of FIG. 7;

fig. 9 is a cross-sectional view of a working portion of an embodiment of a concrete slip form construction device of the present invention.

In the figure: 100. a template; 110. an inner plate; 120. an outer plate; 200. a door frame; 300. a cleaning mechanism; 310. a first housing; 311. a first motor; 312. a baffle; 313. a first mounting cavity; 314. a first channel; 320. cleaning a rod; 321. a first rod body; 322. a brush; 330. a positioning rod; 331. a positioning ring; 332. a connecting rod; 400. a suction mechanism; 410. a second housing; 420. a blower; 500. a coating mechanism; 510. a third housing; 511. a second motor; 520. a coating rod; 521. a second rod body; 522. brushing cloth; 530. a spray head; 540. a pipe; 600. a clamping rod; 610. a walking wheel; 700. a lifting mechanism; 800. an operating platform; 900. a concrete wall.

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.

An embodiment of a concrete slip form construction apparatus of the present invention is shown in fig. 1 to 9.

A concrete slip form construction device is used for cleaning concrete on a formwork 100 and comprises a portal frame 200 and a construction part. The construction section includes two cleaning mechanisms 300. The two groups of templates 100 are arranged in the vertical direction, the two groups of templates 100 are arc-shaped, the two groups of templates 100 are sequentially installed on the portal 200 in the first direction, the first direction is the radial direction of the templates 100, casting cavities are defined between the two groups of templates 100, and the casting cavities are used for casting concrete.

The two cleaning mechanisms 300 are respectively installed on the two groups of templates 100 and are located at one side, close to each other, of the two groups of templates 100 along the first direction, and the cleaning mechanisms 300 can move along the second direction, which is the circumferential direction of the templates 100, on the templates 100 correspondingly arranged. The cleaning mechanism 300 includes a first housing 310, a cleaning rod 320, and a plurality of positioning rods 330, where the first housing 310 is inclined, and the first housing 310 has a curved structure and contacts the surface of the template 100. The cleaning lever 320 is arc-shaped, is rotatably installed to the first housing 310 around a reference axis, which is a line connecting both ends of the cleaning lever 320, and contacts the surface of the template 100 in an initial state; the cleaning rod 320 is a flexible rod, the plurality of positioning rods 330 are sequentially arranged in the first shell 310 along a third direction, the third direction is the axial direction of the cleaning rod 320, the plurality of positioning rods 330 are rigid rods, one ends of the plurality of positioning rods 330 are respectively and rotatably connected with the cleaning rod 320, the other ends of the plurality of positioning rods 330 are respectively and fixedly connected with the first shell 310, and the rotating cleaning rod 320 can be always in surface contact with the corresponding template 100.

Specifically, the cleaning rod 320 includes a first rod body 321 and a plurality of brushes 322 uniformly distributed on the first rod body 321, the first rod body 321 is made of rubber, plastic or fiber reinforced composite material, and the brushes 322 are made of nylon. The first housing 310 is provided with a first motor 311, and the first motor 311 is used for driving the first rod 321 to rotate.

In this embodiment, after the slip-form construction is finished, the two cleaning mechanisms 300 are respectively installed on the two templates 100, and meanwhile, the cleaning rods 320 are driven to rotate, so that the two cleaning mechanisms 300 respectively move on the templates 100 correspondingly arranged, the cleaning rods 320 move along the cambered surfaces of the templates 100 correspondingly arranged, and the concrete adhered on the templates 100 is cleaned. And in the rotation process of the cleaning rod 320, since the cleaning rod 320 is arc-shaped, when the cleaning rod 320 rotates, one side of the cleaning rod 320 contacted with the template 100 is gradually away from the surface of the template 100 after rotating, but due to the limiting effect of the positioning rods 330, the arc-shaped cleaning rod 320 is deformed and always keeps in contact with the template 100 correspondingly arranged, and in the deformation process of the cleaning rod 320, the cleaning rod 320 generates shaking, so that the cleaning effect of the cleaning rod 320 on the template 100 is ensured.

Further, a baffle 312 is disposed on the first housing 310, and a certain distance is left between the baffle 312 and the surface of the formwork 100, the baffle 312 is not in contact with the formwork 100, and the cleaned concrete is blocked by disposing the baffle 312.

In this embodiment, the positioning rod 330 includes a positioning ring 331 and two connecting rods 332, the two connecting rods 332 are respectively and fixedly mounted in the first housing 310, the positioning ring 331 is fixedly connected with the two connecting rods 332, and the positioning ring 331 is rotatably connected with the cleaning rod 320.

In another possible embodiment, the positioning rod 330 includes a positioning ring 331, a connecting rod 332 and a first elastic member, where the positioning ring 331 is fixedly connected with the connecting rod 332 and the first elastic member, and the connecting rod 332 and the first elastic member are fixedly installed in the first housing 310, and the positioning ring 331 is rotationally connected with the cleaning rod 320.

The output shaft of the first motor 311 is provided with a first rotating wheel, the cleaning rod 320 extends out of the first shell 310, the cleaning rod 320 is connected with a second rotating wheel, the first rotating wheel and the second rotating wheel are in friction transmission, and the second rotating wheel is matched with the cleaning rod 320 through a key slot.

When the first motor 311 rotates, the second rotating wheel is driven to rotate by the first rotating wheel, so as to drive the cleaning rod 320 to rotate, and in the process of rotating the cleaning rod 320, if the hairbrush 322 on the cleaning rod 320 contacts with the concrete with larger volume on the formwork 100, the deformation amount of the cleaning rod 320 is increased, and the length of the cleaning rod 320 extending out of the first shell 310 is changed. The operator can extend the cleaning time of the cleaning rod 320 on the surface of the template 100 by observing the change condition of the length of the cleaning rod 320 extending out of the first housing 310, thereby ensuring the cleaning effect on the template 100.

In this embodiment, the working portion further includes two suction mechanisms 400, each suction mechanism 400 is disposed corresponding to one cleaning mechanism 300, a first installation cavity 313 and a first channel 314 are disposed in the first housing 310, the cleaning rod 320 is installed in the first installation cavity 313, the first installation cavity 313 is communicated with the first channel 314, the suction mechanism 400 includes a fan 420 and a second housing 410, the second housing 410 is fixedly connected with the first housing 310, the fan 420 is installed on the second housing 410, a second channel is disposed in the second housing 410, and the first channel 314 is communicated with the second channel.

In this embodiment, by providing the suction mechanism 400, when in use, the fan 420 can be used to suck the concrete swept by the cleaning rod 320, so that the concrete is sucked from the first installation cavity 313 to the first channel 314 under the action of negative pressure, and then enters the second channel from the first channel 314 to be collected.

In this embodiment, the application part further includes two coating mechanisms 500, each coating mechanism 500 is disposed corresponding to one cleaning mechanism 300, each coating mechanism 500 is disposed in sequence in the second direction with the cleaning mechanism 300 disposed corresponding thereto, the coating mechanism 500 includes a third housing 510, a coating rod 520, a high pressure pump, and a release agent storage box, the third housing 510 is disposed in the fourth direction, the fourth direction is the axial direction of the template 100, and the third housing 510 is fixedly connected with the first housing 310. The coating rod 520 is rotatably installed in the third housing 510, a spray head 530 is provided in the third housing 510, the spray head 530 is sequentially communicated with the high-pressure pump and the release agent storage tank through a pipe 540, and one side of a nozzle of the spray head 530 is disposed toward the coating rod 520.

Specifically, the coating rod 520 includes a second rod 521 and a plurality of coating cloths 522 uniformly distributed on the second rod 521, where the coating cloths 522 are made of flexible materials and can always contact with the template 100, and a second motor 511 is disposed in the third housing 510, and the second motor 511 is used for driving the second rod 521 to rotate.

In this embodiment, by arranging the coating mechanism 500, after the cleaning mechanism 300 completes cleaning the concrete on the surface of the formwork 100, the coating mechanism 500 will come to the cleaned surface of the formwork 100 along the moving route of the cleaning mechanism 300, and start the high-pressure pump to spray the release agent in the release agent storage box onto the coating cloth 522 through the spray nozzle 530, then along with the rotation of the second rod 521, the whole coating rod 520 moves while rotating, so as to complete the coating on the surface of the formwork 100, prevent the problem that the release agent is directly sprayed on the concrete surface to cause the untight connection of the concrete, and further improve the uniformity of the coating.

In this embodiment, the construction portion further includes a clamping rod 600, the clamping rod 600 is fixedly connected with the second housing 410, and a clamping space is defined between the clamping rod 600 and the third housing 510, and the mold 100 is located in the clamping space. Further, at least one traveling wheel 610 is disposed in the clamping space, the traveling wheel 610 is fixedly mounted on the third housing 510, and when in use, an operator can push the third housing 510 to move the traveling wheel 610 along the second direction on the template 100, so as to drive the first housing 310, the second housing 410 and the clamping rod 600 to move on the template 100, i.e. to move the whole construction part on the template 100. Specifically, the number of the traveling wheels 610 is two.

In this embodiment, the form 100 includes an inner plate 110 and an outer plate 120, the outer plate 120 is fixed on the inner plate 110, the inner plate 110 is disposed towards one side of concrete, a rubber layer or a flexible ABS plastic layer is formed on the surface of the inner plate 110, and the outer plate 120 is a steel plate.

In this embodiment, the mast 200 includes a cross beam and uprights disposed at opposite ends of the cross beam. The utility model provides a concrete slip form construction device still includes hoist mechanism 700, and hoist mechanism 700 includes the heart jack and promotes the pole-climbing, and heart jack fixed mounting is at the top of crossbeam, and the pole-climbing that promotes wears out from the heart jack, and the slip cap that matches outward of promotion pole-climbing is equipped with the sleeve pipe, sleeve pipe bottom and promotion pole-climbing parallel and level. In the pouring process, the sleeve is sleeved outside the lifting climbing rod, so that the lifting climbing rod is not contacted with concrete, and further cannot be embedded in the concrete, and the sleeve can be pulled out for recycling. The lifting mechanism 700 is conventional and will not be described in detail herein.

Specifically, the operation platform 800 is symmetrically disposed on the gantry 200, and a constructor can stand on the operation platform 800 to perform concrete pouring on the template 100.

In combination with the above embodiment, the specific working process is as follows:

after the slip form construction is finished, two cleaning mechanisms 300 are respectively installed on two templates 100, meanwhile, the cleaning rods 320 are driven to rotate, the two cleaning mechanisms 300 are respectively moved on the templates 100 which are correspondingly arranged, the cleaning rods 320 are moved along the cambered surfaces of the templates 100 which are correspondingly arranged, and the concrete adhered on the templates 100 is cleaned, and because the first shell 310 is obliquely arranged, the adhered concrete falls on the bottom of the first shell 310 under the guiding action of the inner inclined surface of the first shell 310 during cleaning, so that the cleaned concrete can be prevented from falling on the poured concrete wall 900, and the construction quality is influenced. And in the rotation process of the cleaning rod 320, due to the limiting effect of the positioning rods 330, the arc-shaped cleaning rod 320 is deformed and always keeps in contact with the corresponding template 100, and in the deformation process of the cleaning rod 320, the cleaning rod 320 generates shaking to clean the concrete adhered on the cleaning rod 320, so that the cleaning effect of the cleaning rod 320 on the template 100 is ensured.

And simultaneously, the fan 420 is used for sucking the concrete swept by the cleaning rod 320, so that the concrete is sucked to the first channel 314 from the first installation cavity 313 under the action of negative pressure, and then enters the second channel from the first channel 314 to be collected.

After the cleaning mechanism 300 completes cleaning of the concrete on the surface of the template 100, the coating mechanism 500 starts the high-pressure pump to spray the release agent in the release agent storage box onto the coating cloth 522 through the spray nozzle 530 along the moving route of the cleaning mechanism 300, then the whole coating rod 520 rotates and moves along with the rotation of the second rod body 521, coating on the surface of the template 100 is completed, the problem that the concrete connection is not tight due to direct spraying of the release agent on the concrete surface is solved, and the coating uniformity can be improved.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The utility model provides a concrete slip form construction equipment for clear up the concrete on the template, its characterized in that: comprises a portal frame and two cleaning mechanisms; the two groups of templates are arranged in the vertical direction and arc, the two groups of templates are sequentially arranged on the portal along the first direction, the first direction is the radial direction of the templates, and a pouring cavity is defined between the two groups of templates and is used for pouring concrete; the two cleaning mechanisms are respectively arranged on the two groups of templates and are positioned at one side of the two groups of templates, which are close to each other along the first direction, and the cleaning mechanisms can move along the second direction on the templates which are correspondingly arranged, wherein the second direction is the circumferential direction of the templates; the cleaning mechanism comprises a first shell, a cleaning rod and a plurality of positioning rods, wherein the first shell is obliquely arranged, is of a curved surface structure and is contacted with the surface of the template; the cleaning rod is arc-shaped, can be rotatably arranged on the first shell around a reference axis and is contacted with the surface of the template in an initial state, and the reference axis is a connecting line of two ends of the cleaning rod; the cleaning rod is a flexible rod, the positioning rods are sequentially arranged in the first shell along a third direction, the third direction is the axial direction of the cleaning rod, the positioning rods are rigid rods, one ends of the positioning rods are rotationally connected with the cleaning rod, the other ends of the positioning rods are fixedly connected with the first shell respectively, and the rotating cleaning rod can always contact with the surface of a template correspondingly arranged; the locating rod comprises a locating ring and two connecting rods, the two connecting rods are fixedly arranged in the first shell respectively, the locating ring is fixedly connected with the two connecting rods, and the locating ring is rotationally connected with the cleaning rod.

2. The concrete slip form construction device according to claim 1, wherein: the cleaning rod comprises a first rod body and a plurality of hairbrushes uniformly distributed on the first rod body, wherein the first rod body is made of rubber, and the hairbrushes are made of nylon.

3. The concrete slip form construction device according to claim 1, wherein: still include two pumping mechanism, every pumping mechanism corresponds the setting with a clearance mechanism, is provided with first installation cavity and first passageway in the first casing, and the clearance pole is installed in first installation cavity, and first installation cavity and first passageway intercommunication, pumping mechanism include fan and second casing, second casing and first casing rigid coupling, and the fan is installed on the second casing, has the second passageway in the second casing, first passageway and second passageway intercommunication.

4. A concrete slip form construction device according to claim 3, wherein: the coating mechanism comprises a third shell, a coating rod, a high-pressure pump and a release agent storage box, wherein the third shell is arranged along a fourth direction, the fourth direction is the axial direction of the template, and the third shell is fixedly connected with the first shell; the coating rod is rotatably arranged in the third shell, a spray head is arranged in the third shell, the spray head is sequentially communicated with the high-pressure pump and the release agent storage box through a pipeline, and one side of a spray nozzle of the spray head is arranged towards the coating rod.

5. The concrete slip form construction device according to claim 4, wherein: the connecting rod is fixedly connected with the second shell, a clamping space is defined between the connecting rod and the third shell, and the template is positioned in the clamping space.

6. The concrete slip form construction device according to claim 5, wherein: at least one travelling wheel is arranged in the clamping space.

7. The concrete slip form construction device according to claim 6, wherein: the coating rod comprises a second rod body and a plurality of coating cloths uniformly distributed on the second rod body, and the coating cloths are flexible materials and can always contact with the template.

8. The concrete slip form construction device according to claim 1, wherein: the template comprises an inner plate and an outer plate, wherein the outer plate is fixed on the inner plate, the inner plate is arranged towards one side of concrete, the surface of the inner plate is a rubber layer or a flexible ABS plastic layer, and the outer plate is a steel plate.

9. The concrete slip form construction device according to claim 1, wherein: the door frame is symmetrically provided with an operation platform.