CN217981179U - Infiltration check out test set - Google Patents
Infiltration check out test set Download PDFInfo
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- CN217981179U CN217981179U CN202222014842.5U CN202222014842U CN217981179U CN 217981179 U CN217981179 U CN 217981179U CN 202222014842 U CN202222014842 U CN 202222014842U CN 217981179 U CN217981179 U CN 217981179U
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Abstract
The utility model is suitable for a detection tool technical field for the building provides a infiltration check out test set, including water storage device, detection section of thick bamboo and connect water spray component and return water component between water storage device and detection section of thick bamboo; one end of the detection cylinder is provided with an opening, the water outlet end of the water spraying component extends into the detection cylinder and is arranged opposite to the opening, and the water inlet end of the water spraying component extends into the water storage device; the water inlet end of the water return component is communicated with the detection cylinder, and the water outlet end of the water return component is communicated with the water storage device. The utility model discloses a set up water storage device, a detection section of thick bamboo and connect water spray component and return water subassembly between water storage device and a detection section of thick bamboo, a detection section of thick bamboo can cover the check point during use for after the water spray component sprays water to the check point again, a detection section of thick bamboo can carry out effective collection to water, and in return water subassembly flows back to water storage device, thereby realize the cyclic utilization of water resource, avoid causing a large amount of water waste.
Description
Technical Field
The utility model belongs to the technical field of detection tool for the building, especially, relate to a infiltration check out test set.
Background
The building outer wall is used as a barrier of the outermost layer of a building and has the basic functions of water resistance, moisture resistance, frost resistance, high temperature resistance and the like; the waterproof performance is an important index of the quality of the building, and therefore, in the house construction process, the waterproof performance of the outer wall needs to be detected by using the building outer wall water seepage detection equipment.
The existing building external wall water seepage detection equipment continuously sprays water to a detection point on one side of an external wall, and then a sensor is used for detecting the water seepage length of the wall body at a corresponding position on the other side of the external wall. However, in the detection process, because water needs to be continuously sprayed, a large amount of water flows to the ground, a large amount of water resource is wasted, and the water is not saved enough.
SUMMERY OF THE UTILITY MODEL
An embodiment of the utility model provides a infiltration check out test set aims at solving an at least technical problem in the middle of the above-mentioned background art.
The embodiment of the utility model provides a realize like this, a infiltration check out test set, the equipment includes water storage device, detection section of thick bamboo and connects water spray component and return water component between the water storage device and the detection section of thick bamboo;
an opening is formed in one end of the detection cylinder, the water outlet end of the water spraying component extends into the detection cylinder and is arranged opposite to the opening, and the water inlet end of the water spraying component extends into the water storage device;
the water inlet end of the water return component is communicated with the detection cylinder, and the water outlet end of the water return component is communicated with the water storage device, so that water collected by the detection cylinder can flow back into the water storage device through the water return component.
Preferably, a compression ring extends outwards from the edge of the end, provided with the opening, of the detection cylinder, and a sealing element used for being closely attached to a measured object is arranged on the surface, back to the detection cylinder, of the compression ring.
Preferably, the diameter of the opening is gradually increased towards the center of the detection cylinder;
the sealing element is annular, a through hole connected with the opening is formed by surrounding the sealing element, and the diameter of the through hole is gradually increased towards the center of the detection cylinder.
Preferably, the water return component comprises a collecting hopper communicated with the detection cylinder and a water return pipe communicated with the collecting hopper and the water storage device.
Preferably, a leakage opening is formed in the position, close to the opening, of the bottom of the detection barrel, and the collection hopper is communicated with the detection barrel through the leakage opening.
Preferably, the return water subassembly still includes filtering component, filtering component is including setting up the outer top of water storage device and the fixed cylinder of upper end open-ended, can dismantle in the fixed cylinder and be connected with the upper end open-ended and strain a section of thick bamboo, strain a section of thick bamboo and extend to in the water storage device, the upper end of fixed cylinder can be dismantled and be connected with the closing cap, the lower extreme of wet return with closing cap fixed connection and extend to strain in the section of thick bamboo.
Preferably, a fixing ring is arranged at the upper end of the fixing cylinder, a connecting ring between the fixing ring and the sealing cover is arranged at the upper end of the filter cylinder, and a plurality of fixing bolts are detachably arranged among the sealing cover, the connecting ring and the fixing ring in a penetrating manner.
Preferably, the water spray assembly comprises a spray head extending into the detection cylinder, a water pump arranged at the top of the water storage device, and a water spray pipe connecting the spray head and the water pump, and the water pump is communicated with the interior of the water storage device through a water inlet pipe.
Preferably, the spray pipe with the wet return is the bellows, infiltration check out test set is still including being used for the drive detect the lifting unit that a section of thick bamboo goes up and down.
Preferably, the lifting component is including being fixed in the support at water storage device top, it is connected with the lead screw to rotate on the support, be equipped with on the support with the motor that the lead screw is connected, a detection section of thick bamboo is kept away from open one end is equipped with the fixed plate, be equipped with the dead lever on the fixed plate, be equipped with on the dead lever with lead screw matched with swivel nut, be equipped with on the support with the guide bar that the lead screw paralleled, be equipped with the movable sleeve on the dead lever guide sleeve on the guide bar.
Compared with the prior art, through setting up water storage device, a detection section of thick bamboo and connecting water spray component and the return water subassembly between water storage device and a detection section of thick bamboo, a detection section of thick bamboo can cover the check point during use for after the water spray component sprayed water to the check point again, a detection section of thick bamboo can carry out effective collection to water, and in the water storage device that flows back through the return water subassembly, thereby realize the cyclic utilization of water resource, avoid causing a large amount of water waste.
Drawings
Fig. 1 is a structural diagram of a water seepage detection apparatus according to an embodiment of the present invention;
FIG. 2 is an enlarged view taken at A in FIG. 1;
fig. 3 is an enlarged view at B in fig. 1.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.
Example one
Referring to fig. 1 to 3, a water seepage detection apparatus according to a first embodiment of the present invention is shown, which includes a water storage device 10, a detection cylinder 20, a lifting component 30 for driving the detection cylinder 20 to lift, and a water spraying component 40 and a water returning component 50 connected between the water storage device 10 and the detection cylinder 20.
In the middle of this embodiment, water storage device 10 specifically is box structure, also is the water storage box, through setting up water storage device 10 into box structure, makes it can act as the base effect of infiltration check out test set, can support whole infiltration check out test set. The bottom of water storage device 10 is equipped with the gyro wheel, and the whole infiltration check out test set of being convenient for removes to satisfy the detection of different position check points. In particular, the roller can be a universal wheel with a self-locking function.
The water outlet end of the water spray assembly 40 extends into the detection cylinder 20 and is opposite to the opening 21, and the water inlet end of the water spray assembly 40 extends into the water storage device 10, so that water can be sucked out of the water storage device 10 and sprayed to a detection point through the opening 21 of the detection cylinder 20. Specifically, water jet subassembly 40 is including extending to in detecting a section of thick bamboo 20 and just to the shower nozzle 41 that uncovered 21 set up, the fixed water pump 42 that sets up at the water storage device 10 top, connect shower nozzle 41 and water pump 42's spray pipe 43, water pump 42 passes through inlet tube 44 and the inside intercommunication of water storage device 10, in use, start water pump 42 and aspirate the water in water storage device 10, water passes through inlet tube 44 in proper order, and spray pipe 43 and spout from shower nozzle 41, because shower nozzle 41 is just to detecting a section of thick bamboo 20 uncovered 21, and detecting a section of thick bamboo 20's uncovered 21 need cover the check point, thereby realize constantly spraying water in order to realize the infiltration detection to the check point. In order to realize the elevation of the detection cylinder 20, the water spray pipe 43 is provided as a bellows, so that the water spray pipe 43 can be extended and contracted to match the elevation movement of the detection cylinder 20. In specific implementation, the water pump 42 may be connected to the spray pipe 43 and the water inlet pipe 44 in a sealing manner by a sealing ring, a pipe joint, or welding, and the spray pipe 43 may be connected to the detection cylinder 20, and the water inlet pipe 44 may be connected to the water storage device 10 in a sealing manner by a sealing ring or welding.
The water inlet end of the water return component 50 is communicated with the detection cylinder 20, and the water outlet end of the water return component 50 is communicated with the water storage device 10, so that water collected by the detection cylinder 20 can flow back into the water storage device 10 through the water return component 50. Specifically, the water return component 50 includes a collecting hopper 51 communicated with the detection cylinder 20, and a water return pipe 52 communicating the collecting hopper 51 with the water storage device 10, a leakage opening 22 is opened at a position near the opening 21 at the bottom of the detection cylinder 20, the collecting hopper 51 is communicated with the detection cylinder 20 through the leakage opening 22, since the opening 21 of the detection cylinder 20 needs to cover the detection point when in use, after the spray head 41 sprays water to the detection point, the water can flow back into the detection cylinder 20 through the opening 21 of the detection cylinder 20, and since the leakage opening 22 is arranged near the opening 21, the water that 33 has to flow back into the detection cylinder 20 can rapidly flow into the collecting hopper 51 through the opening 21 and flow back into the water storage device 10 through the water return pipe 52, so as to realize water recycling. In order to realize the elevation of the detection cylinder 20, the water return pipe 52 is also provided as a bellows, so that the water return pipe 52 can be extended and contracted to match the elevation movement of the detection cylinder 20. In specific implementation, the collecting hopper 51 and the detecting cylinder 20 may be hermetically connected by integral molding or welding, and the collecting hopper 51 and the water return pipe 52 may be hermetically connected by a sealing ring, a pipe joint, or welding.
In order to recover more water resources, the edge of the end, provided with the opening 21, of the detection cylinder 20 extends outwards to form a compression ring 23, and a sealing element 24 used for being closely attached to a measured object is arranged on the surface, facing away from the detection cylinder 20, of the compression ring 23. When the device is used, the whole device can be pushed, so that the sealing element 24 is attached to a measured object tightly (the attaching effect can be improved by abutting against the water storage device 10 or the support 31), the periphery of a detection point is surrounded by a rubber ring, and more water can flow into the detection cylinder 20 for recovery. In some optional embodiments, the sealing element 24 may be a rubber or silica gel suction cup, which sucks the object to be measured to achieve sealing, and a through hole should be formed in the middle of the suction cup to ensure normal water spraying, or the sealing element 24 may be a rubber ring with a back adhesive, for example, the surface of the rubber ring may be coated with adhesive, and the sealing may be achieved by adhering to the object to be measured.
In addition, in order to further retrieve more water resources, the diameter of uncovered 21 is crescent towards the center of detecting a section of thick bamboo 20, and sealing member 24 is the annular, the through-hole that links up with uncovered 21 is enclosed to its centre, and the diameter of through-hole is crescent towards the center of detecting a section of thick bamboo 20 to form the water guide structure of outside-in slope, thereby can be better collect water in detecting a section of thick bamboo 20, realize the recovery of more water resources. It should be noted that, because water is sprayed by the nozzle 41, water is sputtered in the reverse direction after being sprayed to the detection point, that is, is sputtered toward the inside of the detection cylinder 20, so that water is collected into the detection cylinder 20 for recycling, and in addition, the opening 21 of the detection cylinder 20 has a water guide structure inclined from outside to inside and a rubber ring is arranged on the periphery of the opening 21, so that water resources can be effectively recycled, and a large amount of water resource waste is avoided.
Further, in order to avoid the impurity to retrieve in water storage device 10, return water component 50 still includes filter element 53, and return water pipe 52 passes through filter element 53 and connects water storage device 10 to make in the water resource of retrieving need just can get back to water storage device 10 after filter element 53 filters, avoid retrieving water storage device 10 with impurity etc. in, avoid blockking up follow-up pipeline. Specifically, the filtering assembly 53 includes a fixed cylinder 531 disposed at the top outside the water storage device 10 and having an open upper end, a filter cylinder 532 having an open upper end is detachably connected in the fixed cylinder 531, the filter cylinder 532 extends into the water storage device 10, a sealing cover 533 is detachably connected to the upper end of the fixed cylinder 531, the lower end of the water return pipe 52 is fixedly connected to the sealing cover 533 and extends into the filter cylinder 532, that is, water flowing into the water return pipe 52 flows into the water storage device 10 after being filtered by the filter cylinder 532. In order to realize the disassembly of the filter cylinder 532 and clean the filter cylinder 532, a fixing ring 5311 is disposed at the upper end of the fixing cylinder 531, a connecting ring 5321 is disposed between the fixing ring 5311 and the sealing cover 533, and a plurality of fixing bolts 534 are detachably inserted between the sealing cover 533, the connecting ring 5321 and the fixing ring 5311.
When using, remove the equipment suitable position to through elevating system according to the demand to detect a height of section of thick bamboo 20 and adjust, then make rubber circle and wall hug closely, then, continuously spray water to the check point through water spray component 40, at the water spray in-process, unnecessary water is in water storage device 10 is retrieved via return water component 50, thereby makes water resource can reuse, avoids extravagant.
To sum up, infiltration check out test set in the middle of the embodiment, through setting up water storage device 10, detect a section of thick bamboo 20 and connect water spray component 40 and return water component 50 between water storage device 10 and a detection section of thick bamboo 20, it can cover the check point to detect a section of thick bamboo 20 during the use, make water spray component 40 after spraying water to the check point again, detect a section of thick bamboo 20 and can effectively collect water, and return water component 50 flows back in water storage device 10, thereby realize the cyclic utilization of water resource, avoid causing a large amount of water waste.
In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (10)
1. The water seepage detection equipment is characterized by comprising a water storage device, a detection cylinder, a water spraying component and a water return component, wherein the water spraying component and the water return component are connected between the water storage device and the detection cylinder;
an opening is formed in one end of the detection cylinder, the water outlet end of the water spraying component extends into the detection cylinder and is arranged opposite to the opening, and the water inlet end of the water spraying component extends into the water storage device;
the water inlet end of the water return component is communicated with the detection cylinder, and the water outlet end of the water return component is communicated with the water storage device, so that water collected by the detection cylinder can flow back into the water storage device through the water return component.
2. The water seepage detection device according to claim 1, wherein a compression ring extends outwards from the edge of the end, provided with the opening, of the detection cylinder, and a sealing element used for being in close contact with a detected object is arranged on the surface, facing away from the detection cylinder, of the compression ring.
3. The water seepage detection apparatus according to claim 2, wherein the diameter of the opening is gradually increased toward the center of the detection cylinder;
the sealing element is annular, a through hole connected with the opening is formed by surrounding the sealing element, and the diameter of the through hole is gradually increased towards the center of the detection cylinder.
4. The water seepage detection apparatus according to claim 1, wherein the water return assembly comprises a collection hopper communicating with the detection cylinder, and a water return pipe communicating the collection hopper and the water storage device.
5. The water seepage detection device of claim 4, wherein a leakage opening is formed in the bottom of the detection barrel at a position close to the opening, and the collection hopper is communicated with the detection barrel through the leakage opening.
6. The water seepage detection equipment according to claim 4, wherein the water return component further comprises a filtering component, the filtering component comprises a fixed cylinder which is arranged at the outer top of the water storage device and is provided with an opening at the upper end, a filter cylinder with an opening at the upper end is detachably connected in the fixed cylinder, the filter cylinder extends into the water storage device, a sealing cover is detachably connected at the upper end of the fixed cylinder, and the lower end of the water return pipe is fixedly connected with the sealing cover and extends into the filter cylinder.
7. The water seepage detection device of claim 6, wherein a fixing ring is arranged at the upper end of the fixing cylinder, a connecting ring is arranged between the fixing ring and the sealing cover at the upper end of the filter cylinder, and a plurality of fixing bolts are detachably arranged among the sealing cover, the connecting ring and the fixing ring in a penetrating manner.
8. The water seepage detection device as claimed in claim 4, wherein the water spraying assembly comprises a spray head extending into the detection cylinder, a water pump arranged on the top of the water storage device, and a water spraying pipe connecting the spray head and the water pump, and the water pump is communicated with the interior of the water storage device through a water inlet pipe.
9. The water seepage detection device of claim 8, wherein the water spraying pipe and the water returning pipe are both corrugated pipes, and the water seepage detection device further comprises a lifting component for driving the detection cylinder to lift.
10. The water seepage detection device according to claim 9, wherein the lifting assembly comprises a bracket fixed at the top of the water storage device, a screw rod is rotatably connected to the bracket, a motor connected with the screw rod is arranged on the bracket, a fixed plate is arranged at one end of the detection cylinder away from the opening, a fixed rod is arranged on the fixed plate, a threaded sleeve matched with the screw rod is arranged on the fixed rod, a guide rod parallel to the screw rod is arranged on the bracket, and a guide sleeve movably sleeved on the guide rod is arranged on the fixed rod.
Priority Applications (1)
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CN202222014842.5U CN217981179U (en) | 2022-08-01 | 2022-08-01 | Infiltration check out test set |
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CN202222014842.5U CN217981179U (en) | 2022-08-01 | 2022-08-01 | Infiltration check out test set |
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CN217981179U true CN217981179U (en) | 2022-12-06 |
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CN202222014842.5U Active CN217981179U (en) | 2022-08-01 | 2022-08-01 | Infiltration check out test set |
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