CN219931684U

CN219931684U - Curing means of concrete beam post

Info

Publication number: CN219931684U
Application number: CN202321218870.7U
Authority: CN
Inventors: 张晓东; 杨静; 冯剑锋; 王豆; 朱伟东
Original assignee: SCEGC Mechanized Construction Group Co ltd
Current assignee: SCEGC Mechanized Construction Group Co ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-10-31
Anticipated expiration: 2033-05-18

Abstract

The utility model discloses a curing device for concrete beams and columns, which comprises a movable frame body, wherein a liftable crawling module and a controller are arranged on the movable frame body, a water supply pipe is fixed on the liftable crawling module, an electromagnetic valve is arranged on the water supply pipe, an outlet end of the water supply pipe is detachably connected with a mouth-shaped spray pipe or a U-shaped spray pipe, the mouth-shaped spray pipe can be sleeved on a concrete column to be cured, the U-shaped spray pipe can be sleeved on the concrete beam to be cured, and a plurality of atomizing spray heads are respectively arranged on four inner side walls of the mouth-shaped spray pipe and three inner side walls of the U-shaped spray pipe; the controller is connected with the liftable crawling module and the electromagnetic valve, and the controller is also connected with a plurality of humidity sensors which are used for being distributed on the concrete column to be maintained or the concrete beam to be maintained. The utility model can monitor the humidity condition of the concrete surface to automatically spray and maintain, reduce the waste of manpower and water resources caused by maintenance, reduce the maintenance cost and ensure the maintenance effect.

Description

Curing means of concrete beam post

Technical Field

The utility model belongs to the technical field of concrete curing, and particularly relates to a curing device for concrete beams and columns.

Background

In the construction of the building engineering, after the concrete is poured, maintenance is needed, and the concrete maintenance is the sub-engineering with the longest time consumption in the whole concrete construction and the greatest influence on the concrete quality. At present, the conventional technology of beam column concrete curing comprises the following three types: 1. the periphery is covered with a plastic film for maintenance, the exposed part of the surface of the concrete column is covered tightly by the film, and water is sprayed once a day manually; 2. directly spraying and curing, and manually and uniformly spraying wet concrete back and forth by using a hose, wherein the surface of the concrete is required to be kept in a wet state by continuous spraying; 3. the concrete is cured with the mold, so that the evaporation of water in the mold plate can be reduced, certain humidity in the mold plate can be kept, the mold plate is slightly loosened after the concrete is poured for 24-48 hours, smooth mold removal is ensured, and the spray curing is continued. Under the prior art condition, the plastic film is easy to age, is a disposable consumable product, and generates a large amount of white pollution after curing; directly and manually continuously spraying and maintaining, and quickly losing water under the action of gravity, so that a large amount of water resource is wasted in the construction in a dry area and in summer high-temperature weather; the mold maintenance prolongs the turnover time of the mold plate and increases the construction cost to a certain extent.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides a curing device for concrete beams and columns, which can monitor the humidity condition of the concrete surface to automatically spray and cure, solve the limitations in the prior art, reduce the waste of manpower and water resources caused by curing, reduce the curing cost and ensure the curing effect.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides a concrete beam column curing means, includes the movable support body, be provided with liftable and crawl module and controller on the movable support body, be fixed with the feed pipe on the liftable and crawl module, be provided with the solenoid valve on the feed pipe, the exit end of feed pipe can dismantle and be connected with mouth shape shower or U type shower, mouth shape shower can overlap and establish on the concrete column that waits to maintain, U type shower can overlap and establish on the concrete beam that waits to maintain, the inboard four walls of mouth shape shower and the inboard three walls of U type shower all are provided with a plurality of atomizer; the controller with liftable crawling module with the solenoid valve is connected, the controller still is connected with a plurality of humidity transducer, and a plurality of humidity transducer is used for laying on the concrete column that waits to maintain or waiting to maintain the concrete beam.

Further, the movable frame body comprises a movable base and a vertical frame fixed on the movable base, and the liftable crawling module is arranged on the vertical frame in a sliding manner.

Further, the liftable crawling module comprises a first driving device arranged on the movable base, a fixed pulley arranged at the top of the vertical frame, a rope, a cross rod, vertical plates and supporting pieces, wherein one end of the rope is connected with the output end of the first driving device, the other end of the rope is wound around the fixed pulley, the cross rod is connected with the other end of the rope, the vertical plates are connected with the two ends of the cross rod, the supporting pieces are connected with the two vertical plates, the water feeding pipe is fixedly arranged on the supporting pieces, and the controller is connected with the first driving device.

Further, the liftable crawling module further comprises a horizontal support shaft with two ends connected with the vertical plates, and the position, close to the two ends, on the horizontal support shaft is rotatably sleeved with a roller, and the roller is in sliding fit with the vertical frame.

Further, the other end of the rope is connected with a lifting hook, and the lifting hook is connected with the cross rod.

Further, the movable base comprises a bottom plate, and a universal wheel and a second driving device which are arranged at the bottom of the bottom plate, wherein the output end of the second driving device is connected with the universal wheel, and the controller is connected with the second driving device.

Further, the stand is formed by vertically and sequentially detachably connecting a plurality of standard sections.

Further, the plurality of atomizing spray heads are uniformly distributed on the inner four walls of the mouth-shaped spray pipe and the inner three walls of the U-shaped spray pipe according to set intervals.

Further, in the use state, a plurality of humidity sensors are uniformly distributed on the concrete column to be cured or the concrete beam to be cured, and the concrete column to be cured or the concrete beam to be cured is coated with the moisturizing felt.

Compared with the prior art, the utility model has at least the following beneficial effects:

according to the concrete beam column curing device provided by the utility model, the mouth-shaped spray pipe or the U-shaped spray pipe is detachably connected to the outlet end of the water supply pipe, so that the mouth-shaped spray pipe for spraying the concrete column and the U-shaped spray pipe for spraying the concrete beam can be quickly disassembled and assembled to be replaced, and the curing requirements of different parts can be met. Utilize the humidity sensor of arranging on concrete beam post can gather the humidity of the concrete surface of different positions department in the maintenance region in real time, can set for humidity threshold value according to real-time supervision's humidity value contrast, control solenoid valve's switching realizes automatic maintenance, specifically speaking, need not the manual work and look over the wet condition of doing of concrete, after the concrete face reaches the humidity of setting up, solenoid valve can automatic closing spray and end, if monitor humidity is less than the humidity threshold value of setting for once more, the solenoid valve can open the circulation again and spray until satisfying, thereby realize carrying out watering maintenance to the different positions of concrete, the maintenance effect has been improved, utilize the atomizer to carry out gentle spraying, can make the spraying effect better and water economy resource.

In order to make the above objects, features and advantages of the present utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the cooperation of a concrete column and a mouth-shaped spray pipe of a concrete beam column curing device according to an embodiment of the utility model;

fig. 2 is a schematic view of a concrete beam and a U-shaped shower pipe of a concrete beam-column curing apparatus according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a movable frame body and a liftable crawling module of the concrete beam-column curing device according to an embodiment of the utility model;

fig. 4 is a partial schematic diagram of a liftable crawling module of a concrete beam-column curing device according to an embodiment of the utility model.

In the figure: 1-a movable frame; 101-moving a base; 102-a vertical frame; 103-a bottom plate; 104-universal wheels; 105-a second drive; 106-standard section; 2-a liftable crawling module; 201-a first driving device; 202-a fixed pulley; 203-rope; 204-a cross bar; 205-risers; 206-a support; 207-a horizontal support shaft; 208-a roller; 209-a hook; 3-a controller; 4-a water supply pipe; 5-mouth spray pipe; 6-U-shaped spray pipes; 7-concrete columns; 8-concrete beams; 9-atomizing spray heads; 10-a humidity sensor; 11-an electromagnetic valve; 12-a moisturizing felt; 13-hoops; 14-a three-way pipe fitting; 15-L-shaped water pipe joint; 16-connecting bolts.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present utility model. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

Referring to fig. 1 to 4, the present embodiment provides a concrete beam-column curing device, which includes a movable frame 1, a liftable crawling module 2 and a controller 3 are provided on the movable frame 1, a water supply pipe 4 is fixed on the liftable crawling module 2, an electromagnetic valve 11 is provided on the water supply pipe 4, an outlet end of the water supply pipe 4 is detachably connected with a mouth-shaped spray pipe 5 or a U-shaped spray pipe 6, the mouth-shaped spray pipe 5 can be sleeved on a concrete column 7 to be cured, the U-shaped spray pipe 6 can be sleeved on a concrete beam 8 to be cured, and a plurality of atomizing nozzles 9 are provided on inner side four walls of the mouth-shaped spray pipe 5 and inner side three walls of the U-shaped spray pipe 6; the controller 3 is connected with the liftable crawling module 2 and the electromagnetic valve 11, the controller 3 is also connected with a plurality of humidity sensors 10, and the humidity sensors 10 are used for being distributed on the concrete column 7 to be cured or the concrete beam 8 to be cured.

Specifically, the liftable crawling module 2 can move up and down on the movable frame 1, and the water supply pipe 4 is fixed on the liftable crawling module 2 to move up and down along with the liftable crawling module 2. When in use, the mouth-shaped spray pipe 5 is used for being sleeved on the concrete column 7 to be maintained, and the mouth-shaped spray pipe 5 is connected with the water supply pipe 4 and then moves up and down along with the liftable crawling module 2; the U-shaped spray pipe 6 is used for being sleeved on the concrete beam 8 to be maintained, the U-shaped spray pipe 6 is connected with the water supply pipe 4 and then ascends along with the liftable crawling module 2, so that the U-shaped spray pipe 6 is sleeved on the concrete beam 8 to be maintained, the movable frame body 1 is made to reciprocate along the extending direction of the concrete beam 8, and the U-shaped spray pipe 6 is made to reciprocate along the extending direction of the concrete beam 8 along with the movable frame body 1. The controller 3 is exemplified by a PLC controller.

As shown in fig. 1, when curing the concrete column 7, a plurality of humidity sensors 10 are installed on four sides of the concrete column 7 (the humidity sensors 10 are equally spaced on the surface of the concrete column 7); the inlet end of the water supply pipe 4 is connected with a water source, the outlet end of the water supply pipe 4 is connected with the mouth-shaped spray pipe 5, and the mouth-shaped spray pipe 5 is sleeved on the concrete column 7; the humidity value of the concrete column 7 is acquired by utilizing the humidity sensor 10, the humidity value acquired by the humidity sensor 10 is sent to the controller 3, the controller 3 compares the humidity value with a set humidity threshold value, when the humidity value is lower than the humidity threshold value, the controller 3 controls the liftable crawling module 2 to lift up and down along the movable frame body 1, simultaneously controls the electromagnetic valve 11 to be opened, and curing water is sprayed onto four surfaces of the concrete column 7 through the water supply pipe 4, the inlet type spray pipe 5 and the plurality of atomizing nozzles 9. The lifting crawling module 2 moves up and down to drive the mouth-shaped spray pipe 5 to move up and down along the concrete column 7, water is uniformly sprayed onto the concrete column 7 by means of the atomizing nozzle 9, and when the humidity value acquired by the humidity sensor 10 is not less than a set humidity threshold value, the electromagnetic valve 11 is controlled to be closed to stop spraying.

As shown in fig. 2, when curing the concrete beam 8, a plurality of humidity sensors 10 are installed on three sides of the concrete beam 8 (the humidity sensors 10 are equally spaced on the surface of the concrete beam 8); the inlet end of the water supply pipe 4 is connected with a water source, the outlet end of the water supply pipe 4 is connected with the U-shaped spray pipe 6, and the U-shaped spray pipe 6 is sleeved on a concrete beam 8 to be cured; the movable frame body 1 is made to reciprocate along the direction of the concrete beam 8, the humidity value of the concrete beam 8 is collected by the humidity sensor 10, the collected humidity value is sent to the controller 3 by the humidity sensor 10, the humidity value is compared with a set humidity threshold value by the controller 3, when the humidity value is lower than the humidity threshold value, the electromagnetic valve 11 is controlled by the controller 3 to be opened, curing water enters the U-shaped spray pipe 6 through the water supply pipe 4 and is sprayed onto three surfaces of the concrete beam 8 from the plurality of atomizing nozzles 9, and when the humidity value collected by the humidity sensor 10 is not smaller than the set humidity threshold value, the electromagnetic valve 11 is controlled to be closed to stop spraying.

Preferably, as shown in fig. 1 and 2, in the use state, the plurality of humidity sensors 10 are uniformly distributed on the concrete column 7 or the concrete beam 8 to be cured, and the concrete column 7 or the concrete beam 8 to be cured is coated with the moisturizing felt 12. The moisture-preserving felt 12 is covered on the surface of the concrete, and after water is sprayed, the evaporation of water on the surface of the concrete can be reduced, the moisture-preserving effect is achieved on the concrete, and the waste of water resources is reduced.

It should be noted that if the outlet end of the water feeding pipe 4 is already connected to the U-shaped shower pipe 6 before curing the concrete column 7, after the liftable crawling module 2 is controlled to descend, the U-shaped shower pipe 6 is detached and the mouth-shaped shower pipe 5 is connected to the outlet end of the water feeding pipe 4, and similarly, if the outlet end of the water feeding pipe 4 is already connected to the mouth-shaped shower pipe 5 before curing the concrete beam 8, after the liftable crawling module 2 is controlled to descend, the mouth-shaped shower pipe 5 is detached and the U-shaped shower pipe 6 is connected to the outlet end of the water feeding pipe 4.

Preferably, as shown in fig. 1, a plurality of atomizing nozzles 9 are uniformly distributed on the inner side four walls of the mouth-shaped spray pipe 5 at set intervals, and as shown in fig. 2, a plurality of atomizing nozzles 9 are uniformly distributed on the inner side three walls of the U-shaped spray pipe 6 at set intervals. The spraying process is more uniform, and the concrete curing effect is better.

As a more preferable example, as shown in fig. 3, the movable frame 1 includes a movable base 101 and a vertical frame 102 fixed to the movable base 101, and the liftable crawling module 2 is slidably disposed on the vertical frame 102, that is, the liftable crawling module 2 can perform up-and-down crawling movement along the vertical frame 102. For example, a connecting plate is welded and fixed at the lower end of the stand 102, and the connecting plate is connected with the mobile base 101 through bolts. Of course, the fixed connection may be performed by welding.

Preferably, as shown in fig. 3, the mobile base 101 includes a base plate 103, and a universal wheel 104 and a second driving device 105 disposed at the bottom of the base plate 103, wherein an output end of the second driving device 105 is connected to the universal wheel 104, and the controller 3 is connected to the second driving device 105. Specifically, the controller 3 can control the second driving device 105 to work, and the second driving device 105 drives the universal wheel 104 to rotate, so that the movement of the mobile base 101 is realized, and the mobile turnover of the device in the field can be realized.

The bottom plate 103 is a rectangular plate, and universal wheels 104 are welded and fixed at four corners of the bottom of the rectangular plate respectively, so that the whole movement and steering of the movable base 101 can be realized, a motor is adopted by the second driving device 105, and the output end of the motor is connected with the universal wheels 104 and used for driving the universal wheels 104 to move.

Preferably, the stand 102 is formed by sequentially and vertically detachably connecting a plurality of standard sections 106, the stand 102 can adjust the height of the stand 102 by increasing or decreasing the standard sections 106, and adjacent standard sections 106 are connected by connecting bolts 16. The height of the vertical frame 102 can be freely and quickly adjusted according to different construction conditions, and the applicability is wider. That is, the stand 102 is fabricated, and the overall height of the stand can be adjusted by adding or subtracting standard knots to match the heights of the columns and beams between different floors, which is highly adaptable.

On the basis of the above embodiment, as a more preferable embodiment, as shown in fig. 4, the liftable crawling module 2 includes a first driving device 201, a fixed pulley 202, a rope 203, a cross bar 204, a vertical plate 205 and a supporting member 206, the first driving device 201 is mounted on the movable base 101, the fixed pulley 202 is fixed on the top of the vertical frame 102, one end of the rope 203 is connected with the output end of the first driving device 201, the other end of the rope 203 passes around the fixed pulley 202, the cross bar 204 is connected with the other end of the rope 203, the vertical plates 205 are fixedly connected at two ends of the cross bar 204, and two ends of the supporting member 206 are respectively fixed on the two vertical plates 205. As shown in fig. 4, the water supply pipe 4 is fixedly installed on the support 206, and the controller 3 is connected to the first driving device 201.

Specifically, the controller 3 controls the first driving device 201 to rotate according to the first direction, the fixed pulley 202 limits the rope 203, the first driving device 201 causes the rope 203 to wind and shorten and then pulls the cross rod 204 to rise, and then drives the vertical plate 205 connected with the cross rod 204 and the supporting piece 206 connected with the vertical plate 205 to move upwards together, and further causes the water supply pipe 4 installed on the supporting piece 206 and the mouth-shaped spray pipe 5 or the U-shaped spray pipe 6 detachably connected with the water supply pipe 4 to move upwards together. In contrast, the first driving device 201 is controlled to rotate in the second direction by the controller 3, the first driving device 201 unwinds the ropes 203 and moves downward by gravity, thereby causing the water supply pipe 4 mounted on the support 206 to move downward together with the mouth-shaped shower pipe 5 or the U-shaped shower pipe 6 detachably connected to the water supply pipe 4. The first direction is opposite to the second direction, for example, when the first direction is clockwise, the second direction is counterclockwise.

Illustratively, the feed pipe 4 is fixedly mounted to the support 206 by the anchor 13, and the support 206 is welded to the riser 205. The first driving device 201 adopts a motor, the rope 203 adopts a steel wire rope, the top of the vertical frame 102 is welded with a fixed pulley bracket, and the fixed pulley 202 is welded on the fixed pulley bracket.

On the basis of the above embodiment, as a more preferable embodiment, as shown in fig. 4, the liftable crawling module 2 further includes a horizontal support shaft 207 and rollers 208, two ends of the horizontal support shaft 207 are connected with two risers 205, the rollers 208 are rotatably sleeved on the horizontal support shaft 207 at positions close to two ends, and the rollers 208 are in sliding fit with the risers 102. By providing the rollers 208 matched with the vertical frame 102, the liftable crawling module 2 can be more stable and reliable in the process of climbing up and down along the vertical frame 102. For example, the liftable crawling module 2 comprises three horizontal support shafts 207, rollers 208 are sleeved on positions, close to two ends, of each horizontal support shaft 207, and the vertical frame 102 rod is used as a track to drive the winding and unwinding ropes 203 to move up and down through the first driving device 201.

On the basis of the above embodiment, as a more preferable embodiment, as shown in fig. 4, the liftable crawling module 2 further includes a hook 209, the hook 209 is fixedly connected to the other end of the rope 203, and the cross rod 204 is hung and connected by the hook 209, so that the installation and the disassembly are rapid and convenient.

On the basis of the above embodiment, it is preferable that, as shown in fig. 1, two ends of the mouth-shaped spray pipe 5 are connected with two outlet ends of the three-way pipe fitting 14, an inlet end of the three-way pipe fitting 14 is connected with an outlet end of the water supply pipe 4, and an inlet end of the water supply pipe 4 is communicated with an adjacent water source. The two ends of the U-shaped spray pipe 6 are plugged, a three-way pipe fitting 14 is arranged at the bottom of the U-shaped spray pipe 6, when the U-shaped spray pipe 6 is required to be connected with the water supply pipe 4, a section of L-shaped water pipe joint 15 can be connected with the water supply pipe 4, and the L-shaped water pipe joint 15 is connected with the inlet end of the three-way pipe fitting 14.

In a specific embodiment, a concrete beam and column curing method, which uses a concrete beam and column curing device for curing, comprises the following steps:

and (3) curing the concrete column 7:

step 1: humidity sensors 10 are arranged on four surfaces of the concrete column 7 to be maintained at vertical intervals of 50 cm;

step 2: covering the four concrete surfaces of the concrete column 7 with the moisture-keeping felt 12, and locking by using a magic tape to ensure that the moisture felt 12 is flatly attached to the concrete surfaces and is covered in place in a contact manner;

step 3: a movable base 101 is placed near the concrete column 7 to be maintained, universal wheels 104 are locked, and the height of a stand 102 is adjusted by adding or subtracting standard joints 106 according to the height of the concrete column 7 so as to match the net height of the concrete column 7, so that each height position of the concrete column 7 can be sprayed by sprinkling water;

step 4: the method comprises the steps of encircling a mouth-shaped spray pipe 5 around a concrete column 7, connecting two ends of the mouth-shaped spray pipe 5 with two outlet ends of a three-way pipe fitting 14, and connecting a water supply pipe 4 with an inlet end of the three-way pipe fitting 14;

step 5: the power is turned on, and the humidity sensor 10 is turned on to monitor the humidity of the concrete column 7. When the humidity of the concrete column 7 is lower than the set humidity threshold, the PLC controller controls the first driving device 201 to lift or descend the mouth-shaped spray pipe 5 to the area with insufficient humidity, meanwhile, the electromagnetic valve 11 can be automatically opened, spray maintenance is carried out on the area through the atomizing nozzle 9 on the mouth-shaped spray pipe 5, and as the concrete surface is covered with the moisturizing felt 12, moisture is not easy to run off, the humidity of the concrete surface can be well maintained, and the humidity of the concrete surface can be gradually increased through continuous spraying.

Step 6: when the humidity is greater than the set threshold, the PLC automatically closes the electromagnetic valve 11 to stop spraying. If the humidity is monitored again and does not meet the set threshold value, the PLC controller starts the process again until the humidity meets the requirement.

When the concrete beam 8 is cured:

step A: mounting humidity sensors 10 on three surfaces of a concrete beam 8 to be maintained at a horizontal distance of 50cm, covering the three concrete surfaces of the concrete beam 8 with a moisture-keeping felt 12, and clamping and fixing the moisture-keeping felt 12 by using a clamp to ensure that the moisture felt 12 is flatly attached to the concrete surfaces and is covered in place in a contact manner;

and (B) step (B): starting the first driving device 201 to enable the mouth-shaped spray pipe 5 to descend to the bottom of the vertical frame 102, detaching the mouth-shaped spray pipe 5, replacing the U-shaped spray pipe 6, replacing the L-shaped water pipe joint 15 and connecting with the U-shaped spray pipe 6;

step C: according to the height of the concrete beam 8, the height of the vertical frame 102 is adjusted by increasing or decreasing the standard section 106 so as to match the net height of the concrete beam 8, the U-shaped spray pipe 6 is lifted to the top end of the vertical frame 102, and the concrete beam 8 is ensured to be in the spray range of the U-shaped spray pipe 6;

step D: when the humidity of the concrete beam 8 is lower than a set humidity threshold, the PLC controller controls the second driving device 105 to drive the movable frame body 1 to move in parallel at the bottom of the concrete beam 8, meanwhile, the electromagnetic valve 11 is automatically opened, spraying maintenance is carried out on the area through the atomizing nozzle 9 on the U-shaped spray pipe 6, and as the surface of the concrete is covered with the moisturizing felt 12, moisture is not easy to run off, the surface humidity of the concrete can be well maintained, and the surface humidity of the concrete can be gradually increased through continuous spraying;

step E: when the humidity is greater than the set threshold, the PLC automatically closes the electromagnetic valve 11 to stop spraying. If the humidity is monitored again and does not meet the set threshold value, the PLC controller starts the process again until the humidity meets the requirement.

The concrete beam column curing device of this embodiment is easy operation, convenient, but the maintenance of quick assembly disassembly change beam column sprays the module, and the suitability is strong. The multipoint humidity sensor monitors the humidity of the concrete surface at different positions in the maintenance area, and can compare and set a temperature and humidity threshold according to the humidity monitored in real time to control the motor to control the spraying module to reach the area needing spraying and humidifying.

Finally, it should be noted that: the above examples are only specific embodiments of the present utility model, and are not intended to limit the scope of the present utility model, but it should be understood by those skilled in the art that the present utility model is not limited thereto, and that the present utility model is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a curing means of concrete beam post, its characterized in that includes portable support body (1), be provided with liftable climbing module (2) and controller (3) on portable support body (1), be fixed with feed pipe (4) on liftable climbing module (2), be provided with solenoid valve (11) on feed pipe (4), the exit end of feed pipe (4) can dismantle and be connected with mouth shape shower (5) or U type shower (6), mouth shape shower (5) can overlap and establish on waiting to maintenance concrete column (7), U type shower (6) can overlap and establish on waiting to maintain concrete beam (8), the inboard four walls of mouth shape shower (5) with the inboard three walls of U type shower (6) all are provided with a plurality of atomizer (9); the controller (3) is connected with the liftable crawling module (2) and the electromagnetic valve (11), the controller (3) is also connected with a plurality of humidity sensors (10), and the humidity sensors (10) are used for being distributed on a concrete column (7) to be maintained or a concrete beam (8) to be maintained.

2. The curing device of a concrete beam and column according to claim 1, wherein the movable frame body (1) comprises a movable base (101) and a vertical frame (102) fixed on the movable base (101), and the liftable crawling module (2) is slidably arranged on the vertical frame (102).

3. The curing device of a concrete beam and column according to claim 2, wherein the liftable crawling module (2) comprises a first driving device (201) arranged on the movable base (101), a fixed pulley (202) arranged at the top of the vertical frame (102), a rope (203) with one end connected with the output end of the first driving device (201) and the other end wound around the fixed pulley (202), a cross rod (204) connected with the other end of the rope (203), vertical plates (205) connected with the two ends of the cross rod (204) and supporting pieces (206) with the two ends connected with the two vertical plates (205), wherein the water supply pipe (4) is fixedly arranged on the supporting pieces (206), and the controller (3) is connected with the first driving device (201).

4. A curing device for concrete beams and columns according to claim 3, characterized in that the liftable crawling module (2) further comprises a horizontal support shaft (207) with two ends connected with two vertical plates (205), a roller (208) is rotatably sleeved on the horizontal support shaft (207) at a position close to the two ends, and the roller (208) is in sliding fit with the vertical frame (102).

5. A curing device for concrete beams and columns according to claim 3, c h a r a c t e r i z e d in that the other end of the rope (203) is connected with a hook (209), said hook (209) being connected with the cross bar (204).

6. The curing device of a concrete beam and column according to claim 2, wherein the movable base (101) comprises a bottom plate (103), a universal wheel (104) and a second driving device (105), wherein the universal wheel (104) and the second driving device (105) are arranged at the bottom of the bottom plate (103), the output end of the second driving device (105) is connected with the universal wheel (104), and the controller (3) is connected with the second driving device (105).

7. The curing device of a concrete beam and column according to claim 2, wherein the stand (102) is formed by vertically and sequentially detachably connecting a plurality of standard sections (106).

8. The curing device of the concrete beam column according to claim 1, wherein a plurality of atomizing spray heads (9) are uniformly distributed on the inner four walls of the mouth-shaped spray pipe (5) and the inner three walls of the U-shaped spray pipe (6) at set intervals.

9. The curing device of the concrete beam and column according to claim 1, wherein in a use state, a plurality of humidity sensors (10) are uniformly distributed on the concrete column (7) to be cured or the concrete beam (8) to be cured, and the concrete column (7) to be cured or the concrete beam (8) to be cured is coated with a moisturizing felt (12).