CN114961167A - Environment-friendly anti-skidding floor and construction method thereof - Google Patents

Abstract

The application relates to the technical field of wood floors, and particularly discloses an environment-friendly anti-skidding floor and a construction method thereof, wherein the environment-friendly anti-skidding floor comprises an upper decoration panel and a lower substrate which are detachably connected, the lower substrate is arranged in an open manner, a water storage module and a detection module are arranged in the lower substrate, and a water treatment module is arranged between the upper decoration panel and the lower substrate; the detection module is used for detecting the water leakage position of the floor heating pipeline; the water storage module is used for collecting water leaked from the floor heating pipeline into the lower substrate; the water treatment module is used for guiding the water gathered in the lower substrate to the external environment. The floor heating water leakage point searching method has the effect of improving the difficulty in finding the floor heating water leakage point.

Description

Environment-friendly anti-skidding floor and construction method thereof

Technical Field

The application relates to the technical field of wood floors, in particular to an environment-friendly anti-skidding floor and a construction method thereof.

Background

The wood floor is a floor made of wood, and is generally used for house decoration at present, wherein the anti-skid wood floor is widely applied to decoration construction of a rest home due to good anti-skid effect.

In the north, the ground heating is usually adopted as a heating mode, namely, a ground heating pipeline is laid on a floor, the ground is leveled after the laying is finished, the horizontal plane of a roof in an old age home is kept at the same height, and finally, the anti-skid wood floor is laid on the leveled ground.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the floor heating pipeline can be affected by later-stage decoration construction or pipe quality to generate the condition of local breakage after the installation is finished, and the wood floor is already installed at the moment, so that the water leakage point is difficult to find, and therefore the integrated composite wood floor which is convenient to check under the condition of meeting skid resistance is needed.

Disclosure of Invention

In order to solve the problem that floor heating water leakage points are difficult to find, the application provides an environment-friendly anti-skidding floor and a construction method thereof.

The application provides an environment-friendly anti-skidding floor and a construction method thereof, and the following technical scheme is adopted:

an environment-friendly anti-skid floor comprises an upper-layer decoration panel and a lower-layer substrate which are detachably connected, wherein the lower-layer substrate is arranged in an open manner, a water storage module and a detection module are arranged in the lower-layer substrate, and a water treatment module is arranged between the upper-layer decoration panel and the lower-layer substrate;

the detection module is used for detecting the water leakage position of the floor heating pipeline;

the water storage module is used for collecting water leaked from the floor heating pipeline into the lower substrate;

and the water treatment module is used for guiding the water gathered in the lower substrate to the external environment.

Through adopting above-mentioned technical scheme, with lower floor's base plate fixed mounting in the bottom of upper decoration panel, lay the floor after the polylith concatenation one by one next, lay the back that finishes, detection module in the lower floor's base plate leaks and detects this floor heating pipe that the lower floor base plate is just right, it appears to have the condition of leaking when this region, the floor heating water that the retaining module will leak out collects to the lower floor base plate in, utilize the floor heating water that water treatment module collects in with the lower floor base plate at last to derive to external environment, the setting up of detection template makes the maintainer find the floor heating water leakage point fast in this application, make the timber apron add the efficiency of short-term test on skid-proof basis.

Optionally, the retaining module is including being located absorption piece and a plurality of absorption strip in the lower floor's base plate, seted up on the week side of lower floor's base plate with absorb the corresponding water conservancy diversion hole of strip quantity, the one end of absorption strip with absorb the piece laminating, the other end that adsorbs the strip is through corresponding the water conservancy diversion hole extends to outside the lower floor's base plate.

Through adopting above-mentioned technical scheme, when the local heating pipe did leak, the absorption strip that extends to the outer lower base plate adsorbs warm water, then will warm up water backward flow to the absorption piece under the effect of each absorption strip on, the absorption piece is accumulated warm water, the cooperation of absorption strip and absorption piece has effectually alleviated the diffusion that spreads of warm water, makes the warm water of leaking can collect.

Optionally, the detection module includes a detection strip placed in the lower substrate and a plurality of guide wheels rotatably mounted in the lower substrate, the rotation axes of the guide wheels are parallel to each other, the guide wheels are in rolling fit with the detection strip, two through holes are formed in the surface of the upper decoration panel along the thickness direction of the upper decoration panel, a transparent sealing assembly is arranged in the through holes of the upper decoration panel, and two ends of the detection strip are arranged on the transparent sealing assembly through corresponding through holes.

Through adopting above-mentioned technical scheme, when detecting floor heating pipe whether leaking, place the test strip in lower floor's base plate, the test strip meets the water and discolours, fixes a position specific transparent seal assembly of water leakage point's setting in the transparent seal assembly of follow and is convenient for observe the testing result fast when guaranteeing the leakproofness.

Optionally, the transparent sealing assembly includes a sealing strip, the sealing strip is inserted into the through hole in a sealing manner, the end of the detection strip is fixed to the end of the sealing strip close to the lower substrate, and a locking member for fixing the sealing strip is further disposed on the lower substrate.

Through adopting above-mentioned technical scheme, with the tip of detecting strip fixed on the sealing strip, then peg graft the sealing strip in the through-hole, the setting of locking piece is even as an organic whole with sealing strip and upper decoration panel, reduces the possibility that the sealing strip loses.

Optionally, the locking piece includes a locking block disposed on the peripheral side of the sealing strip, a guide groove communicated with the through hole is disposed on the top surface of the upper decorative panel along the height direction of the top surface, the locking block is slidably embedded in the guide groove, a locking groove communicated with the guide groove is disposed on the inner peripheral wall of the through hole along the circumferential direction of the through hole, and the locking block is movably embedded in the locking groove.

Through adopting above-mentioned technical scheme, when pegging graft the test strip at the in-process that corresponds the through-hole, the guide block is pegged graft in the guide way, and the guide block continues to move down to the locking groove in, then rotates the test strip and makes the guide block joint in the locking groove, and the offering of locking groove has restricted the vertical lift of sealing strip, makes sealing strip and upper decoration panel even be a whole, simple structure, convenient operation.

Optionally, the sealing strip includes a large head and a small head, wherein the end of the detection strip and the locking block are both disposed on the small head, a sinking groove adapted to the large head is formed in the top surface of the upper layer decoration panel along the height direction of the top surface, and the sinking groove is respectively communicated with the guide groove and the through hole; when the locking block is clamped in the locking groove, the large head part is positioned in the sunken groove, and one end of the large head part, which is far away from the small head part, is coplanar with the upper surface of the upper decorative panel.

Through adopting above-mentioned technical scheme, divide into big head and little head with the sealing strip, when the locking piece joint was in the locking groove, the guide way can expose outside, and the setting of big head carries out the shutoff to the guide way, has improved the integrality and the leakproofness on floor.

Optionally, the upper surface of the upper decorative panel is provided with a mounting hole, the water treatment module comprises a water guide pipe arranged in the mounting hole, one end of the water guide pipe extends into the lower substrate, and the upper decorative panel is further provided with a shielding piece for sealing the mounting hole.

Through adopting above-mentioned technical scheme, after ground warm water is adsorbed backward flow to lower floor's base plate, open the shielding piece, with the water conduit external connection on suction equipment, derive the ground warm water that collects in the base plate of lower floor, reduce the condition emergence that ground warm water oozes outward from lower floor's base plate.

Optionally, the shielding part comprises a buckle plate, the buckle plate is in sealed buckling connection in the mounting hole, the buckle plate is in butt connection with the aqueduct, and a clamping groove is formed in the surface of the buckle plate.

Through adopting above-mentioned technical scheme, when carrying out the shutoff to the mounting hole, with buckle sealed lock joint in the mounting hole, when the ground water leakage that needs to take out and inhale, utilize the instrument to hook the draw-in groove, then lift, make the buckle break away from the mounting hole, make the week side of buckle fully laminate with the interior perisporium of mounting hole with the mode of buckle lock joint, improved the leakproofness of mounting hole.

Optionally, the pinch plate and the upper layer decoration panel have the same ground color.

Through adopting above-mentioned technical scheme, set up the buckle into with upper decoration panel colochrous, improved the aesthetic property on floor.

The application also comprises a construction method of the environment-friendly anti-skidding floor, which comprises the following steps:

s1: firstly, laying the detection strips in the lower-layer substrate and rotatably installing guide wheels on the lower-layer substrate;

s2: placing the adsorption block and the adsorption strip in the lower substrate;

s3: installing the water conduit in the installation hole;

s4: fixing two ends of the sealing strip on the small head part of the sealing strip and installing the sealing strip in the corresponding through hole;

s5: and buckling the buckle plate in the mounting hole.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when detecting whether the floor heating pipe leaks water or not, the detection strip is placed in the lower substrate, the detection strip changes color when meeting water, and the transparent sealing assembly is positioned to a specific water leakage point from the transparent sealing assembly, so that the detection result can be conveniently and quickly observed while the sealing performance is ensured;

2. the arrangement of the locking piece connects the sealing strip and the upper layer decoration panel into a whole, so that the possibility of losing the sealing strip is reduced, and the sealing property of the sealing strip is improved;

3. the cooperation of adsorption block and adsorption block will leak ground warm water backward flow to lower floor's base plate in, the short-term test of the detection strip of being convenient for.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an exploded view of the upper decorative panel and the lower substrate in the embodiment of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic cross-sectional view of the upper decorative panel according to the embodiment of the present application.

Fig. 5 is an exploded view of a water treatment module according to an embodiment of the present invention.

Reference numerals: 1. an upper layer decoration panel; 2. a lower substrate; 3. a water storage module; 31. an adsorption block; 32. an adsorption strip; 4. a detection module; 41. a test strip; 42. a guide wheel; 43. a seal assembly; 431. a sealing strip; 4311. a large head; 4312. a small head; 432. a locking member; 4321. a locking block; 5. a water treatment module; 51. a water conduit; 52. buckling the plate; 6. a flow guide hole; 7. a through hole; 8. a locking groove; 9. a guide groove; 10. sinking a groove; 11. a card slot; 12. an elastic cord; 13. an annular groove; 14. and (4) a groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses environmental protection antiskid floor.

Referring to fig. 1, an environmental protection anti-skidding floor includes upper decoration panel 1 and lower floor's base plate 2, and upper decoration panel 1 and lower floor's base plate 2 are the rectangular plate, and upper decoration panel 1 is anti-skidding floor, and lower floor's base plate 2's area is less than upper decoration panel 1's area, and upper decoration panel 1 is located lower floor's base plate 2's top, and lower floor's base plate 2's top surface is uncovered setting. Detachable the being connected between upper decoration panel 1 and lower floor's base plate 2, specific mounting means is in this application embodiment: a plurality of ear plates are arranged at intervals at the periphery of the top opening of the lower base plate 2, each ear plate is provided with a screw, and each screw is connected with the bottom surface of the upper decorative panel 1 through screw threads. In order to solve the problem that a floor heating water leakage point is difficult to find, a detection module 4 and a water storage module 3 are arranged in a lower-layer substrate 2, a water treatment module 5 is arranged between an upper-layer decoration panel 1 and the lower-layer substrate 2, and specifically, the detection module 4 is used for detecting the water leakage position of the floor heating; the water storage module 3 is used for collecting leaked floor heating water into the lower substrate 2; the water treatment module 5 is used for guiding the floor heating water collected in the lower substrate 2 to the outside.

According to the modules, the general working process is as follows: if leakage does occur to the local floor heating pipeline, the leaked floor heating water is collected to the lower substrate 2 under the action of the water storage module 3, the detection device detects the water leakage position, and finally the floor heating water in the lower substrate 2 is guided to the outside by the water treatment module 5.

Referring to fig. 2, specifically, the water storage module 3 includes an adsorption block 31 and a plurality of adsorption strips 32, the adsorption block 31 and the adsorption strips 32 are both placed in the lower substrate 2, and the periphery of the lower substrate 2 is provided with diversion holes 6 corresponding to the number of the adsorption strips 32. Adsorb piece 31 for absorbing water sponge (flower mud) in this application implementation, has seted up a plurality of holes on adsorbing the week side of piece 31, with the one end plug-in of adsorbing strip 32 in the hole that corresponds, the other end of adsorbing strip 32 extends to lower floor's base plate 2 through the water conservancy diversion hole 6 that corresponds outside, and these free ends of adsorbing strip 32 are laid between the floor heating pipe. When the floor heating pipeline leaks water, the floor heating water is adsorbed by the adsorption strip 32 corresponding to the pipeline and flows back to the adsorption block 31 through the adsorption strip 32 to be accumulated.

It should be emphasized here that the opening position of the diversion hole 6 is located at the top edge of the lower substrate 2, and at the same time, a waterproof film is laid on the inner peripheral side of the lower substrate 2, and the adsorption block 31 is placed on the waterproof film, so as to: when the adsorption capacity of the adsorption block 31 reaches the upper limit, the excessive floor drain in the lower substrate 2 is accumulated at the bottom of the lower substrate 2 under the action of gravity, and the limitation of the opening position of the diversion hole 6 and the arrangement of the water-proof film reduce the possibility of secondary backflow of the water leakage in the lower substrate 2 and protect the lower substrate 2.

Referring to fig. 2, the detection assembly includes a detection strip 41, the detection strip 41 changes color when it encounters water, and the detection strip 41 is laid between the water-stop film and the absorbent block 31 in a wavy manner and has a certain ductility. Two leading wheels 42 are installed in the interval rotation on the 2 inside walls of lower floor's base plate, the axis of rotation of two leading wheels 42 parallels, leading wheel 42 rotates the laminating with detection strip 41, through-hole 7 has been seted up along its thickness direction on the surface of upper decoration panel 1, transparent seal assembly 43 is installed in through-hole 7 department to upper decoration panel 1, detection strip 41 sets up on transparent seal assembly 43, transparent seal assembly 43 is sealing strip 431 in this application, sealing strip 431 is transparent setting. The sealing strip 431 comprises a large head part 4311 and a small head part 4312 which are coaxial, the large head part 4311 and the small head part 4312 are cylindrical, a sinking groove 10 matched with the large head part 4311 is formed in the top surface of the upper-layer decoration panel 1 along the height direction of the top surface, the sinking groove 10 is coaxial with the through hole 7, the large head part 4311 of the sealing strip 431 is embedded in the sinking groove 10, the end parts of the detection strips 41 are respectively fixed on the corresponding small head parts 4312, and the sealing strip 431 is divided into the large head part 4311 and the small head part 4312, so that impurities on the upper-layer decoration panel 1 can be reduced from entering the through hole 7, and a good sealing effect is achieved.

Referring to fig. 3, two end portions of the detection strip 41 are respectively fixed to the peripheral sides of the small head portions 4312 of the corresponding sealing strips 431 in the following specific fixing manner in the embodiment of the present application: the small head part 4312 is provided with a circle of annular grooves 13 on the circumferential side, the detection strip 41 is provided with grooves 14 during production and processing, the small head part 4312 is also sleeved with elastic ropes 12, the grooves 14 correspond to the annular grooves 13 during fixing, and then the elastic ropes 12 are moved until the elastic ropes 12 are embedded in the annular grooves 13. The matching of the groove 14, the annular groove 13 and the elastic rope 12 enables the sealing strip 431 and the detection strip 41 to be detachably connected, so that the detection strip 41 which is discarded after detection can be replaced conveniently.

During the use, install sealing strip 431 in corresponding through-hole 7, meet the water back of discolouing when detecting strip 41, the maintainer can see through the sealing strip 431 and observe the circumstances of discolouing of detecting strip 41, has improved the problem that floor heating water leakage point is difficult to seek.

Referring to fig. 3 and 4, in order to further improve the sealing effect of the sealing bar 431, a locking member 432 for fixing the sealing bar 431 is further provided on the lower substrate 2. Specifically, a locking block 4321 is integrally installed on the peripheral side of the small head 4312, a guide groove 9 for the locking block 4321 to slide is formed in the bottom wall of the sinking groove 10 along the axis direction of the through hole 7, a locking groove 8 is formed in the inner side wall of the through hole 7 along the circumferential direction of the through hole, the locking groove 8 is communicated with the guide groove 9, the locking groove 8 is an arc-shaped groove in the embodiment of the present application, or an annular groove in other embodiments, and the locking block 4321 is rotatably inserted into the locking groove 8. During installation, the locking block 4321 is opposite to the guide groove 9, then the small head 4312 is inserted into the through hole 7, and when the locking block 4321 continues to move into the locking groove 8, the sealing strip 431 is rotated to enable the locking block 4321 to be clamped and embedded in the locking groove 8. The cooperation of locking piece 4321, locking groove 8 and guide way 9 has restricted sealing strip 431's vertical movement, makes the top surface of big head portion 4311 and upper decoration panel 1 coplane all the time, is stumbled by the little arch when preventing the old man of asylum from walking, has improved the security performance. Meanwhile, the large head part 4311 blocks the guide groove 9, so that the sealing effect of the sealing strip 431 is improved.

Referring to fig. 2, two opposite V-shaped caulking grooves are formed in the large end portion 4311 of the detection strip 41, in a specific detection process, if a maintainer feels that the color change condition of the detection strip 41 is not obvious, the V-shaped caulking groove is hooked by a tool to unlock and draw out the detection strip 431, when the detection strip 431 rises, the detection strip 41 is driven to rise, and at the moment, the detection strip 41 is exposed to the outside for observation. If the detection strip 41 is not discolored due to observation error after observation is finished, the detection strip 41 needs to be reset, and at this time, the other sealing strip 431 is unlocked, the sealing strip 431 is moved upwards, the detection strip 41 is driven to ascend from the other side, and the position of the detection strip 41 is adjusted. The guide wheel 42 plays a role in positioning and guiding the detection strip 41 in the position adjustment process of the detection strip 41.

Referring to fig. 2 and 5, the water treatment module 5 includes a water conduit 51, and the upper layer decoration panel 1 is provided with a mounting hole, which is an inverted L-shaped hole in the present application, that is, a large head end is on top. The water guide pipe 51 is arranged in the mounting hole, the adsorption block 31 is provided with a hole matched with the end part of the water guide pipe 51 in size, one end of the water guide pipe 51 is inserted into the hole, and the other end of the water guide pipe 51 is folded and arranged in the large end of the mounting hole. The upper layer decoration panel 1 is provided with a shielding piece at the mounting hole, the shielding piece is a buckle plate 52 in the embodiment of the application, the surface of the buckle plate 52 has the same ground color as the upper decoration panel, and the buckle plate 52 is in sealing buckling connection with the mounting hole and abuts against the water guide pipe 51. Two relative draw-in grooves 11 have been seted up on the surface of buckle 52, when needing to derive the floor drain in lower floor's base plate 2, with the instrument card in draw-in groove 11 department, then lift and remove buckle 52 from the mounting hole, external suction pump is followed, takes out the floor drain in lower floor's base plate 2.

The implementation principle of an environment-friendly anti-skidding floor in the embodiment of the application is as follows: if the ground heating pipe condition of leaking appears, adsorb ground heating water rather than corresponding absorption strip 32, flow back to in the absorption piece 31 in lower floor's base plate 2 at last, detection strip 41 changes color with water, and maintainer can observe the condition of changing color by detection strip 41 through transparent sealing strip 431, opens buckle 52 immediately, sucks ground heating water in lower floor's base plate 2 with the external suction pump of aqueduct 51, confirms behind the water leakage level, and maintainer overhauls ground heating pipe.

The application also discloses a construction method of the environment-friendly anti-skidding floor, which specifically comprises the following steps:

s1: firstly, laying the detection strips 41 in the lower-layer substrate 2 and rotatably installing the guide wheels 42 on the lower-layer substrate 2;

s2: placing the adsorption blocks 31 and the adsorption strips 32 in the lower substrate 2;

s3: installing the water guide pipe 51 in the installation hole;

s4: fixing both ends of the seal bar 431 to the small head 4312 of the seal bar 431 and fitting the seal bar 431 in the corresponding through hole 7;

s5: the buckle plate 52 is buckled in the mounting hole.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an environmental protection antiskid floor which characterized in that: the device comprises an upper-layer decoration panel (1) and a lower-layer substrate (2) which are detachably connected, wherein the lower-layer substrate (2) is arranged in an open manner, a water storage module (3) and a detection module (4) are arranged in the lower-layer substrate (2), and a water treatment module (5) is arranged between the upper-layer decoration panel (1) and the lower-layer substrate (2);

the detection module (4) is used for detecting the water leakage position of the floor heating pipeline;

the water storage module (3) is used for collecting water leaked from the floor heating pipeline into the lower substrate (2);

the water treatment module (5) is used for guiding the water gathered in the lower substrate (2) to the external environment.

2. The environment-friendly anti-slip floor according to claim 1, wherein: the retaining module (3) is including being located absorption piece (31) and a plurality of absorption strip (32) in lower floor's base plate (2), seted up on the week side of lower floor's base plate (2) with absorb corresponding water conservancy diversion hole (6) of strip (32) quantity, the one end of absorbing strip (32) with absorb the laminating of piece (31), the other end of absorbing strip (32) is through corresponding water conservancy diversion hole (6) extend to outside lower floor's base plate (2).

3. The environment-friendly anti-slip floor according to claim 1, wherein: the detection module (4) is installed including placing detection strip (41) and a plurality of rotation in lower floor's base plate (2) leading wheel (42) in lower floor's base plate (2), and is a plurality of the axis of rotation of leading wheel (42) is parallel to each other, leading wheel (42) with detection strip (41) roll laminating, two through-holes (7) have been seted up along its thickness direction on the surface of upper decoration panel (1), upper decoration panel (1) in be provided with transparent seal assembly (43) in through-hole (7), the both ends of detection strip (41) are through corresponding through-hole (7) and set up on transparent seal assembly (43).

4. The environment-friendly anti-slip floor as claimed in claim 3, wherein: the transparent sealing assembly (43) comprises a sealing strip (431), the sealing strip (431) is inserted into the through hole (7) in a sealing mode, the end portion of the detection strip (41) is fixed to the position, close to the end portion of the lower-layer base plate (2), of the sealing strip (431), and a locking piece (432) used for fixing the sealing strip (431) is further arranged on the lower-layer base plate (2).

5. The environment-friendly anti-slip floor according to claim 4, wherein: the locking piece (432) comprises a locking block (4321) arranged on the peripheral side of the sealing strip (431), the top surface of the upper decorative panel (1) is provided with a guide groove (9) communicated with the through hole (7) along the height direction of the top surface, the locking block (4321) is embedded in the guide groove (9) in a sliding manner, the inner peripheral wall of the through hole (7) is provided with a locking groove (8) communicated with the guide groove (9) along the peripheral direction of the inner peripheral wall, and the locking block (4321) is movably embedded in the locking groove (8).

6. The environment-friendly anti-slip floor according to claim 5, wherein: the sealing strip (431) comprises a large head part (4311) and a small head part (4312), wherein the end part of the detection strip (41) and the locking block (4321) are arranged on the small head part (4312), the top surface of the upper-layer decorative panel (1) is provided with a sinking groove (10) matched with the large head part (4311) along the height direction, and the sinking groove (10) is respectively communicated with the guide groove (9) and the through hole (7); when the locking block (4321) is clamped in the locking groove (8), the large head (4311) is positioned in the sunken groove (10), and one end of the large head (4311) far away from the small head (4312) is coplanar with the upper surface of the upper decorative panel (1).

7. The environment-friendly anti-slip floor according to claim 1, wherein: the upper surface of the upper layer decoration panel (1) is provided with a mounting hole, the water treatment module (5) comprises a water guide pipe (51) arranged in the mounting hole, one end of the water guide pipe (51) extends into the lower layer substrate (2), and a shielding piece used for sealing the mounting hole is further arranged on the upper layer decoration panel (1).

8. The environment-friendly anti-slip floor according to claim 7, wherein: the shielding piece comprises a buckling plate (52), the buckling plate (52) is buckled in the mounting hole in a sealing mode, the buckling plate (52) abuts against the water guide pipe (51), and a clamping groove (11) is formed in the surface of the buckling plate (52).

9. The environment-friendly anti-slip floor according to claim 8, wherein: the pinch plate (52) and the upper decorative panel (1) have the same ground color.

10. An environment-friendly anti-slip floor construction method based on any one of claims 1 to 9, characterized by comprising the following steps:

s1: firstly, laying the detection strips (41) in the lower-layer substrate (2) and rotatably installing guide wheels (42) on the lower-layer substrate (2);

s2: placing the adsorption block (31) and the adsorption strip (32) in the lower substrate (2);

s3: mounting the water introduction duct (51) in the mounting hole;

s4: fixing both ends of the sealing strip (431) on the small head part (4312) of the sealing strip (431) and installing the sealing strip (431) in the corresponding through hole (7);

s5: and the buckle plate (52) is buckled in the mounting hole.

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