阅读说明：本技术 外墙淋水数据处理方法与装置 (Method and device for processing outer wall water spraying data ) 是由 黄启云 张传海 冯林东 冯梓豪 潘琪 李运攀 曹莉 朱玉环 叶晓辉 于 2021-11-29 设计创作，主要内容包括：本发明公开了外墙淋水数据处理方法与装置,其特征在于,包括以下操作步骤：步骤S1、图像采集；S2、图像生成；S3、图像显示；S4、状况评估；本发明的有益效果是,通过稳固装置和传动传动装置能够将喷水装置精确定位到淋水试验段,省去了人工布置喷水装置的繁杂过程,高空作业更安全,效率更高；通过水压传感器、水压感应模块、数控调压器的设置,使得试验过程中淋水水压能控制在规范要求内,淋水试验效果更加理想；通过监控仪能够实现三维图像的采集,不仅可以自动识别渗漏状况,还能发出渗漏预警信息,从而提高技术人员对外墙渗漏状况评判的准确性；试验过程全程有录像监控,试验录像实时保存,为渗漏整改方案提供决策依据。(The invention discloses an external wall water spraying data processing method and device, which are characterized by comprising the following operation steps of: step S1, image acquisition; s2, generating an image; s3, displaying an image; s4, evaluating the condition; the water spraying device can be accurately positioned to the water spraying test section through the stabilizing device and the transmission device, the complex process of manually arranging the water spraying device is omitted, the overhead operation is safer, and the efficiency is higher; through the arrangement of the water pressure sensor, the water pressure sensing module and the numerical control voltage regulator, the water pressure of the water drenching in the test process can be controlled within the standard requirement, and the water drenching test effect is more ideal; the monitoring instrument can realize the acquisition of three-dimensional images, not only can automatically identify the leakage condition, but also can send leakage early warning information, thereby improving the accuracy of technicians in judging the leakage condition of the outer wall; video monitoring is carried out in the whole test process, test videos are stored in real time, and decision basis is provided for the leakage rectification scheme.)

1. The method for processing the outer wall water spraying data is characterized by comprising the following operation steps: step S1, image acquisition; s2, generating an image; s3, displaying an image; s4, evaluating the condition;

s1: acquiring an optical image through an imaging module II (34) of the monitor;

s2: generating a three-dimensional image according to the optical image information;

s3: sending the three-dimensional image to a display module (6) for display;

s4: and judging the outer wall leakage condition according to the three-dimensional image displayed by the display module (6).

2. The method for processing the exterior wall water spraying data according to claim 1, wherein the step S2 further comprises the following steps: step S21, image synthesis; step S22, judging characteristics;

step S21: synthesizing a three-dimensional image according to the optical image information;

step S22: judging whether the three-dimensional image has leakage characteristics or not;

generating early warning information, and sending the early warning information to the display module (6) for displaying;

and if not, sending the three-dimensional image to the display module (6) for display.

3. The outer wall water spraying data processing device is characterized by comprising a control platform, a detector, a monitor, a water supply device and a pressurizing device;

control platform pass through control cable with the detector is connected, control platform with the control appearance is connected, control platform with water supply installation connects, control platform with pressure device connects, water supply installation one end is passed through first hose (1) and is inserted the running water, the water supply installation other end pass through second hose (2) with pressure device intakes the end and connects, pressure device water outlet end pass through third hose (3) with the detector is connected.

4. The exterior wall water spraying data processing device of claim 3, wherein the control platform comprises: the water level control system comprises a control box body (4), a processing module (5), a display module (6), a storage module (7), a data module (8), an early warning module (9), an operation module (10), a split screen module (11), a water pressure sensing module (12) and a water level sensing module (13);

the water level control system is characterized in that the processing module (5) is installed in the control box body (4), the display module (6) is installed on the control box body (4), the storage module (7) is installed in the control box body (4), the data module (8) is installed in the control box body (4), the early warning module (9) is installed in the control box body (4), the operation module (10) is installed in the control box body (4), the screen dividing module (11) is installed in the control box body (4), the water pressure sensing module (12) is installed in the control box body (4), and the water level sensing module (13) is installed in the control box body (4).

5. The exterior wall water spraying data processing device of claim 4, wherein the water supply device comprises: a water tank (14), a water level sensor (15) and a numerical control water supply valve (16);

the water tank (14) is installed on the control box body (4), the water level sensor (15) is installed in the water tank (14), the numerical control water supply valve (16) is installed on the water tank (14), and the second water hose (2) is installed on the numerical control water supply valve (16).

6. The exterior wall water spraying data processing device of claim 4, wherein the pressurizing device comprises: a pressure pump (17) and a numerical control pressure regulator (18);

force (forcing) pump (17) install in on control box (4), force (forcing) pump (17) connect in on second flexible water pipe (2), numerical control voltage regulator (18) install in on force (forcing) pump (17), third flexible water pipe (3) install in force (forcing) pump (17) play water end.

7. The exterior wall water spraying data processing device of claim 3, wherein the detector comprises: a drive device and a water spray device;

the water jet equipment is installed on the driving device, and the driving device comprises: a transmission structure and a stable structure;

the transmission structure includes: a transverse plate (19), a transverse screw rod module (20) and a longitudinal screw rod module (21);

the transverse screw rod module (20) is arranged on the upper wall surface of the transverse plate (19), the longitudinal screw rod module (21) is arranged on the moving end of the transverse screw rod module (20), and the transverse screw rod module (20) and the longitudinal screw rod module (21) are arranged in a mutually perpendicular mode.

8. The exterior wall water spraying data processing device of claim 7, wherein the stabilizing structure comprises: the device comprises an L-shaped mounting plate (22), two support rods (23), a fixed sleeve (24), two cross rods (25), two electric push rods (26) and two vacuum suckers (27);

l type mounting panel (22) install in on the removal end of vertical lead screw module (21), two branch (23) install in on L type mounting panel (22), fixed cover (24) install in two branch (23) flexible end, two horizontal pole (25) install in on fixed cover (24), two electric putter (26) install respectively in two on horizontal pole (25), two vacuum chuck (27) install respectively in two electric putter (26) flexible end.

9. The exterior wall water spraying data processing device of claim 8, wherein the water spraying device comprises: a numerical control water inlet valve (28), a water spraying pipe (29), a distance sensor (30) and a water pressure sensor (31);

the numerical control water inlet valve (28) is installed on the third soft water pipe (3), the water spraying pipe (29) is installed on the numerical control water inlet valve (28), the water spraying pipe (29) is sleeved on the fixed sleeve (24), the distance sensor (30) is installed on the water spraying pipe (29), and the water pressure sensor (31) is installed on the water spraying pipe (29).

10. The exterior wall water spraying data processing device of claim 3, wherein the monitor comprises: the monitoring box body (32), the first imaging module (33) and the second imaging module (34);

the first imaging module (33) is installed on the monitoring box body (32), and the second imaging module (34) is installed on the monitoring box body (32).

Technical Field

The invention relates to the technical field of assembled outer wall detection, in particular to an outer wall water spraying data processing method and device.

Background

The waterproof construction of the joint of the prefabricated concrete structure is a very critical quality inspection content and is a key for ensuring the waterproof performance of the prefabricated outer wall. The construction quality acceptance standard DBJ/T15-171-.

The traditional water spraying test detection method is that after a water pipe is connected with tap water, personnel go to an overhead outer wall or a balcony through an overhead hanging rope, water is sprayed on the outer wall for a long time from a water outlet of the water pipe directly, and then whether leakage exists in a room or not is observed. According to the method, the water spraying device is simple and crude, the aerial operation is dangerous, and the water spraying effect can not meet the standard requirement on the waterproof performance of the outer wall.

In order to solve the problems, equipment and a method for a water spraying test are researched in the industry, for example, a Chinese patent with the publication number of CN204656761U discloses a special spray pipe for the water spraying test of an outer window and an outer wall, the device sprays water only by the pressure of tap water, and the water spraying effect can not reach the standard requirement of the test; further, as disclosed in chinese patent publication No. CN204422149U, although an improvement is made to the above-mentioned patent, the construction water leakage test apparatus is inconvenient to assemble, disassemble, move and operate, and the water spraying pressure cannot be controlled.

For another example, chinese patent publication No. CN205373968U discloses an external wall water spray test system, which is designed to adjust the spray water pressure of a spray pipe according to the difference of the water pressure at the high and low positions of each water pipe, and this design provides a means for adjusting the test water pressure according to the actual situation, but this method requires personnel to constantly observe the water pressure state and adjust it in time, and the whole process is very labor-consuming and time-consuming, and the external wall water spray test system is designed to move the position of a hose (spray pipe) at the top of a building, so this method cannot accurately position the spray device to the spray area, and the operation difficulty is high, and there is a certain risk.

In summary, although the apparatus and method for the exterior wall water spray test in the industry are continuously improved/upgraded, the following disadvantages are still commonly encountered:

1. most test schemes do not provide a water pressure control means, and even if the test schemes are mentioned, the whole process of the test process cannot be guaranteed to be subjected to pressure stabilization control, so the test effect is still not ideal;

2. in the existing popular water spraying test detection method, the arrangement of a water spraying device is mainly manual operation, and the current popular water spraying equipment in the industry is simple and crude, so that even if the improved version device designed by the patent is adopted, the problems of large device volume and large operation difficulty exist, and the high-altitude operation risk is high;

3. in the aspect of alignment of the water spraying device and the water spraying test section, the installation part of the water spraying device is determined by visual inspection of personnel, the method is difficult to operate, and large errors are caused in positioning;

4. at present, basically, no test video problem about how to record the whole test process is mentioned, although the water spraying part can be photographed in a specified time period and used as a judgment basis for judging whether the part leaks, when the leakage occurs, the leakage part cannot be accurately judged through the photograph, and a decision basis is difficult to provide for a leakage rectification scheme;

5. in the whole water spraying test process, whether the water spraying pressure is reached in the whole process or not and whether the spraying part deviates or not are determined by personnel all the time, so that the great labor cost is consumed.

Moreover, because the water spraying test is long in time consumption, some projects cannot completely meet the standard requirements when the water spraying test is carried out on site, the test conditions are not controlled comprehensively, only the time node is taken as the basis for judging whether the test is qualified, and the test under the state has the effect far from meeting the standard requirement on the waterproof performance, so that the complaint of owners caused by water seepage of the outer wall after the project delivery can be caused, and the adverse social influence can be caused.

Disclosure of Invention

The invention aims to solve the problems, designs an outer wall water spraying data processing method and device and solves the problems in the background technology.

The technical scheme of the invention for realizing the aim is as follows: the outer wall water spraying data processing device comprises a control platform, a detector, a monitor, a water supply device and a pressurizing device;

control platform pass through control cable with the detector is connected, control platform with the control appearance is connected, control platform with water supply installation connects, control platform with pressure device connects, water supply installation one end inserts the running water through first hose, the water supply installation other end pass through the second hose with pressure device intakes the end and connects, pressure device play water end pass through the third hose with the detector is connected.

The control platform comprises: the control box body, the processing module, the display module, the storage module, the data module, the early warning module, the operation module, the split screen module, the water pressure sensing module and the water level sensing module are arranged in the control box body;

the water pressure sensing device comprises a control box, a processing module, a display module, a storage module, a data module, an early warning module, an operation module, a screen splitting module, a water pressure sensing module and a water level sensing module, wherein the processing module is installed in the control box, the display module is installed on the control box, the storage module is installed in the control box, the data module is installed in the control box, the early warning module is installed in the control box, the operation module is installed in the control box, the screen splitting module is installed in the control box, the water pressure sensing module is installed in the control box, and the water level sensing module is installed in the control box.

The water supply device includes: the water tank, the water level sensor and the numerical control water supply valve;

the water tank is installed on the control box body, the water level sensor is installed in the water tank, the numerical control water supply valve is installed on the water tank, and the second flexible water pipe is installed on the numerical control water supply valve.

The pressurizing device includes: a pressure pump and a numerical control pressure regulator;

the force (forcing) pump install in on the control box, the force (forcing) pump connect in on the second hose, the numerical control voltage regulator install in on the force (forcing) pump, the third hose install in force (forcing) pump water outlet end.

The detector includes: a drive device and a water spray device;

the water jet equipment is installed on the driving device, and the driving device comprises: a transmission structure and a stable structure;

the transmission structure includes: the transverse plate, the transverse screw rod module and the longitudinal screw rod module are arranged on the base;

the transverse screw rod module is arranged on the upper wall surface of the transverse plate, the longitudinal screw rod module is arranged on the moving end of the transverse screw rod module, and the transverse screw rod module and the longitudinal screw rod module are arranged vertically;

the stabilizing structure includes: the device comprises an L-shaped mounting plate, two supporting rods, a fixing sleeve, two cross rods, two electric push rods and two vacuum suckers;

l type mounting panel install in on the vertical lead screw module removal end, two branch install in on the L type mounting panel, fixed cover is installed in two the flexible end of branch, two the horizontal pole install in fixed sheathe in, two electric putter installs respectively in two on the horizontal pole, two vacuum chuck installs respectively in two the flexible end of electric putter.

The water spray device includes: the numerical control water inlet valve, the water spraying pipe, the distance sensor and the water pressure sensor;

the numerical control water inlet valve is installed on the third soft water pipe, the water spraying pipe is installed on the numerical control water inlet valve, the water spraying pipe is sleeved on the fixing sleeve, the distance sensor is installed on the water spraying pipe, and the water pressure sensor is installed on the water spraying pipe.

The monitor includes: the monitoring box body, the first imaging module and the second imaging module;

the first imaging module is installed on the monitoring box body, and the second imaging module is installed on the monitoring box body.

The outer wall water spraying data processing method comprises the following operation steps: step S1, image acquisition; s2, generating an image; s3, displaying an image; s4, evaluating the condition;

s1: acquiring an optical image through an imaging module II of the monitor;

s2: generating a three-dimensional image according to the optical image information;

s3: sending the three-dimensional image to a display module for displaying;

s4: and judging the outer wall leakage condition according to the three-dimensional image displayed by the display module.

The step S2 further includes the following steps: step S21, image synthesis; step S22, judging characteristics;

step S21: synthesizing a three-dimensional image according to the optical image information;

step S22: judging whether the three-dimensional image has leakage characteristics or not;

generating early warning information, and sending the early warning information to the display module for displaying;

and if not, sending the three-dimensional image to the display module for displaying.

By utilizing the method and the device for processing the outer wall water spraying data, which are manufactured by the technical scheme of the invention, the water spraying device can be accurately positioned to the water spraying test section through the stabilizing device and the transmission device, so that the complex process of manually arranging the water spraying device is omitted, the overhead operation is safer, and the efficiency is higher; through the arrangement of the water pressure sensor, the water pressure sensing module and the numerical control voltage regulator, the water pressure of the water drenching in the test process can be controlled within the standard requirement, and the water drenching test effect is more ideal; the monitoring instrument can realize the acquisition of three-dimensional images, not only can automatically identify the leakage condition, but also can send leakage early warning information, thereby improving the accuracy of technicians in judging the leakage condition of the outer wall; video monitoring is carried out in the whole test process, test videos are stored in real time, and decision basis is provided for the leakage rectification scheme.

Drawings

Fig. 1 is a schematic view of a front cross-sectional structure of the external wall water spraying data processing device of the present invention.

Fig. 2 is a schematic diagram of a partial top-view cross-sectional structure of the external wall water spraying data processing device of the invention.

Fig. 3 is a schematic diagram of a partial side view structure of the external wall water spraying data processing device of the invention.

Fig. 4 is a schematic diagram of a partially enlarged structure of the external wall water spraying data processing device shown in fig. 1.

Fig. 5 is a schematic structural diagram of a display module of the external wall water spraying data processing device.

FIG. 6 is a flow chart of the method for processing the exterior wall water spraying data according to the invention.

FIG. 7 is a schematic diagram of the method for processing exterior wall water spraying data of the present invention to automatically determine the leakage condition.

In the figure: 1. the device comprises a first water hose, a second water hose, a third water hose, a fourth water hose, a fifth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fifth water hose, a control box, a sixth water hose, a control box, a fourth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fourth water hose, a sixth water hose, a fourth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fourth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fourth water hose, a fifth water hose, a sixth water hose, a fourth water hose, a sixth water hose, a fifth water hose, a fourth water hose, a sixth water hose, a fifth water hose, a sixth water hose, a fifth water hose, a fourth water hose, a fifth water hose, a.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, and as shown in fig. 1 to 5, a method and an apparatus for processing exterior wall water spraying data are provided.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example 1:

the outer wall water spraying data processing device comprises a control platform, a detector, a monitor, a water supply device and a pressurizing device;

the control platform is connected with the detector through a control cable, the control platform is connected with the monitor, the control platform is connected with a water supply device, the control platform is connected with a pressure device, one end of the water supply device is connected with tap water through a first soft water pipe 1, the other end of the water supply device is connected with the water inlet end of the pressure device through a second soft water pipe 2, and the water outlet end of the pressure device is connected with the detector through a third soft water pipe 3;

wherein, it is required to be noted that: the control platform is mainly used for processing and displaying the images of the test process, monitoring the states of the test water pressure and water quantity and carrying out instruction operation on the detector, the monitor, the water supply device and the pressurizing device;

in a specific implementation, the control platform may preferably adopt the following structure, which includes: the water level control system comprises a control box body 4, a processing module 5, a display module 6, a storage module 7, a data module 8, an early warning module 9, an operation module 10, a split screen module 11, a water pressure sensing module 12 and a water level sensing module 13; the processing module 5 is installed in the control box body 4, the display module 6 is installed on the control box body 4, the storage module 7 is installed in the control box body 4, the data module 8 is installed in the control box body 4, the early warning module 9 is installed in the control box body 4, the operation module 10 is installed in the control box body 4, the split screen module 11 is installed in the control box body 4, the water pressure sensing module 12 is installed in the control box body 4, and the water level sensing module 13 is installed in the control box body 4;

wherein, it is required to be noted that: the processing module 5 is used for processing image information acquired by the monitor to generate a three-dimensional image, the display module 6 is used for displaying the image and the three-dimensional image acquired by the monitor and displaying test water pressure information, water quantity information and displacement information of the detector, the storage module 7 is used for storing a test video, the operation module 10 is used for carrying out instruction operation on the detector, the monitor, the water supply device and the pressurizing device, and the screen splitting module 11 is used for dividing a display area of the display module into a plurality of sub-areas;

in a specific implementation, the water supply device may preferably adopt the following structure, which includes: a water tank 14, a water level sensor 15 and a numerical control water supply valve 16; the water tank 14 is installed on the control tank body 4, the water level sensor 15 is installed in the water tank 14, the numerical control water supply valve 16 is installed on the water tank 14, and the second flexible water pipe 2 is installed on the numerical control water supply valve 16;

wherein, it is required to be noted that: monitoring the water quantity state of the water tank 14 through a water level sensor 15 of the water supply device, acquiring water quantity information and transmitting the water quantity information to the display module 6, starting the numerical control water supply valve 16 and the numerical control water inlet valve 28 through the operation module 10, and observing the water spraying state of the water spraying pipe 29;

in a specific embodiment, the pressurizing means may preferably adopt the following structure, which includes: a pressure pump 17 and a numerical control pressure regulator 18; the pressure pump 17 is arranged on the control box body 4, the pressure pump 17 is connected to the second flexible water pipe 2, the numerical control pressure regulator 18 is arranged on the pressure pump 17, and the third flexible water pipe 3 is arranged at the water outlet end of the pressure pump 17;

wherein, it is required to be noted that: the water pressure sensor 31 of the pressurizing device is used for acquiring water pressure information and transmitting the water pressure information to the display module 6, and the operation module 10 is used for setting the numerical control pressure regulator 18 and regulating the water pressure to the pressure required by the test;

in the specific implementation process, the detector can preferably adopt the following structure, which comprises the following steps: a drive device and a water spray device; the water spraying device is arranged on the driving device, and in the specific implementation process, the driving device can preferably adopt the following structure, which comprises: a transmission structure and a stable structure; in a specific implementation, the transmission structure may preferably adopt the following structure, which includes: a transverse plate 19, a transverse screw rod module 20 and a longitudinal screw rod module 21; the transverse screw rod module 20 is arranged on the upper wall surface of the transverse plate 19, the longitudinal screw rod module 21 is arranged on the moving end of the transverse screw rod module 20, and the transverse screw rod module 20 and the longitudinal screw rod module 21 are arranged vertically; in particular implementations, the stabilizing structure may preferably take the following configurations, including: the device comprises an L-shaped mounting plate 22, two support rods 23, a fixing sleeve 24, two cross rods 25, two electric push rods 26 and two vacuum suckers 27; the L-shaped mounting plate 22 is mounted at the moving end of the longitudinal screw rod module 21, the two support rods 23 are mounted on the L-shaped mounting plate 22, the fixing sleeve 24 is mounted at the telescopic ends of the two support rods 23, the two cross rods 25 are mounted on the fixing sleeve 24, the two electric push rods 26 are respectively mounted on the two cross rods 25, and the two vacuum suction cups 27 are respectively mounted at the telescopic ends of the two electric push rods 26; in a specific implementation, the water spraying device may preferably adopt the following structure, which includes: a numerical control water inlet valve 28, a water spraying pipe 29, a distance sensor 30 and a water pressure sensor 31; the numerical control water inlet valve 28 is arranged on the third soft water pipe 3, the water spraying pipe 29 is arranged on the numerical control water inlet valve 28, the water spraying pipe 29 is sleeved on the fixed sleeve 24, the distance sensor 30 is arranged on the water spraying pipe 29, and the water pressure sensor 31 is arranged on the water spraying pipe 29;

wherein, it is required to be noted that: the water spraying pipe 29 can move in parallel or vertical to the wall surface by virtue of the transverse screw rod module 20 and the longitudinal screw rod module 21; the numerical control water inlet valve 28 is used for controlling the circulation of water of the water spraying device, the water spraying pipe 29 is used for spraying water, the distance sensor 30 is used for collecting displacement information of the water spraying pipe 29, after the distance from the wall surface to a target distance is reached, the two electric push rods 26 extend until the two vacuum suction cups 27 prop against the wall surface, the water spraying pipe 29 is fixed, and the water pressure sensor 31 is used for collecting test water pressure information;

in the specific implementation process, the monitoring instrument can preferably adopt the following structure, which comprises: a monitoring box 32, a first imaging module 33 and a second imaging module 34; the first imaging module 33 is arranged on the monitoring box body 32, and the second imaging module 34 is arranged on the monitoring box body 32;

the image information is collected through a first imaging module 33 of the monitor and is directly transmitted to the display module 6, a second imaging module 34 collects the image information and transmits the image information to the processing module 5, and the processing module 5 generates a three-dimensional image from the image information and transmits the three-dimensional image to the display module 6; after the three-dimensional image is formed, the data module 8 can judge the leakage characteristic of the three-dimensional image, when the leakage characteristic exists in the three-dimensional image, the data module 8 can output an early warning signal, the early warning module 9 can respond to the early warning signal and output early warning information, the early warning information can be displayed on the display module 6, and the early warning information comprises leakage characteristic information.

The working principle is as follows: connect each part, open control platform, start the detector, put the roughly position of water spray test section with the detector, control securing device through operating module 10 and make the detector fix at the wall, displacement sensor 30 gathers displacement information and transmits the displacement display area to display module 6, through operating module 10 control transmission, make water jet equipment move to water spray test section and adjust the distance of water jet equipment and wall to the required interval of standard.

The water level supply device is started, the water level sensor 15 monitors the water quantity state of the water tank 14, the water quantity information is transmitted to the water level display area of the display module 6, the numerical control water supply valve 16 and the numerical control water inlet valve 28 are started through the operation module 10, and the water spraying state of the water spraying pipe 29 is observed.

The pressurizing device is started, the water pressure sensor 31 collects water pressure information and transmits the water pressure information to the water pressure display area of the display module 6, the numerical control pressure regulator 18 is set through the operation module 10, and the water pressure is regulated to the pressure required by the test.

When the test state is reached, the monitor is started, the image information collected by the first imaging module 33 is directly transmitted to the main display area of the display module 6, the image information collected by the second imaging module 34 is transmitted to the processing module 5, and the processing module 5 forms a three-dimensional image from the image information and transmits the three-dimensional image to the three-dimensional image display area of the display module 6.

The video recording can be started/stopped through the operation module 10, the video recording is started, the start of a test is considered, the video recording is stopped, and the end of the test is considered; after the video recording is started, the images of the main display area and the three-dimensional image display area are stored in the storage module 7 until the video recording is stopped.

Specifically, the second imaging module 34 collects optical image information and transmits the optical image information to the processing module 5, the processing module 5 forms the optical image information into a three-dimensional image, after the three-dimensional image is formed, the data module 8 can judge leakage characteristics of the three-dimensional image, when the leakage characteristics exist in the three-dimensional image displayed by the display module 6, the data module 8 can output an early warning signal, the early warning module 9 can respond to the early warning signal and output early warning information, the early warning information can be displayed on the display module 6, and the early warning information comprises leakage characteristic information.

After the test begins, water level sensor 15 monitors the water quantity state of water tank 14, with water quantity information transmission to water level response module 13, water level response module 13 can carry out the water yield judgement to water quantity information, it is low excessively to work as the water yield, water level response module 13 can be to the open signal of numerical control feed valve 16 input, the feed valve can be opened after numerical control feed valve 16 response this signal, it is too high to work as water level response module 13 judgement water yield, water level response module 13 can be to the closing signal of numerical control feed valve 16 input, the feed valve can be closed after numerical control feed valve 16 response this signal.

After the experiment begins, water pressure sensor 31 gathers water pressure information and transmits it to the water pressure display area of display module 6, transmit water pressure information to water pressure response module 12, water pressure response module 12 can carry out the water pressure judgement to water pressure information, be less than the lower limit value that the standard required when water pressure, water pressure response module 12 can be to numerical control voltage regulator 18 input pressurization signal, numerical control voltage regulator 18 can begin the pressure boost after responding this signal, judge that water pressure surpasses the upper limit value that the standard required when water pressure response module 12, water pressure response module 12 can be to numerical control voltage regulator 18 input pressure release signal, numerical control voltage regulator 18 can begin the pressure release after responding this signal.

Example 2:

the outer wall water spraying data processing method comprises the following operation steps: step S1, image acquisition; s2, generating an image; s3, displaying an image; s4, evaluating the condition; s1: acquiring an optical image through a second imaging module 34 of the monitor; s2: generating a three-dimensional image according to the optical image information; s3: sending the three-dimensional image to a display module 6 for display; s4: and judging the outer wall leakage condition according to the three-dimensional image displayed by the display module 6.

Step S2 further includes the following operation steps: step S21, image synthesis; step S22, judging characteristics; step S21: synthesizing a three-dimensional image according to the optical image information; step S22: judging whether the three-dimensional image has leakage characteristics or not; if yes, generating early warning information, and sending the early warning information to the display module 6 for displaying; otherwise, the three-dimensional image is sent to the display module 6 for display.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.