CN219842314U - Rain-proof testing arrangement of imitative mineral varnish - Google Patents

Abstract

The utility model belongs to the technical field of rain-proof tests, and discloses a stone-like paint rain-proof testing device which comprises a main body shell, wherein a detection groove is formed in the main body shell, support plates are symmetrically arranged on two sides of the inner wall of the detection groove, detection plates are placed on the support plates, a mounting groove is formed in the main body shell and positioned at the bottom of the detection groove, a booster pump is arranged in the mounting groove, and a water outlet of the booster pump is connected with a water outlet of the detection groove.

Description

Rain-proof testing arrangement of imitative mineral varnish

Technical Field

The utility model belongs to the technical field of rain resistance tests, and particularly relates to a stone-like paint rain resistance test device.

Background

In order to increase or decrease the aesthetic degree of the building, after the construction is finished, most of using units adopt stone-like paint as external painting materials, and the stone-like paint has the advantages of good fireproof, waterproof, acid and alkali resistance and the like, and can prolong the service life of the building while decorating the building, so that the stone-like paint is widely popularized.

At present, when the stone-like paint is produced, in order to ensure the quality qualification of the stone-like paint, the stone-like paint in the same batch is required to be sampled and detected before leaving the factory, so that various indexes of the stone-like paint are ensured to be normal, the problem that the stone-like paint is corroded by passing external rainwater through the wall body in rainy days and the service life of a building is shortened is solved, the traditional detection method is to smear the stone-like paint on a detection plate, and the water resistance of the stone-like paint is detected by manually spraying water through a water pipe, so that the working intensity of detection personnel is definitely greatly increased, and the rain-resistance detection device for the stone-like paint is designed, so that the problem that the workload of the detection personnel is greatly increased by the traditional detection method is solved.

Disclosure of Invention

The utility model aims to provide a stone-like paint rain-proof testing device, which is used for solving the problem that the workload of detection personnel is greatly increased by the traditional detection method in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a imitative mineral varnish rain test device, includes that the inside of main body shell has seted up the detection groove, the backup pad has been installed to the inner wall bilateral symmetry of detection groove, the pick-up plate has been placed in the backup pad, the mounting groove has been seted up to the inside of main body shell and the bottom that is located the detection groove, the inside of mounting groove is provided with the force (forcing) pump, the delivery port interconnect of force (forcing) pump and detection groove, and the side of force (forcing) pump is connected with the water pipe, the water pipe runs through the main body shell and extends to the inside of detection groove and be located directly over the backup pad, the shower nozzle is installed to the equidistant symmetry in the position of terminal surface and being located directly over the backup pad under the water pipe.

Preferably, water blocking plates are installed on the two supporting plates, the water blocking plates are arranged in an annular mode, a pressure sensor is arranged in the water blocking plates, positioning holes are formed in the detection plates relative to the positions of the water blocking plates, the water blocking plates are embedded into the positioning holes, the upper end faces of the pressure sensors are in contact with the inner walls of the positioning holes, fixing grooves are formed in the rear end faces of the main body shell, embedded computing equipment is arranged in the fixing grooves, and the embedded computing equipment and the pressure sensor are connected through wires.

Preferably, the three-way valve is installed on the water pipe inside the mounting groove and located at the side of the booster pump, the connection ports of the three-way valve are an opening a, an opening b and an opening c respectively, the opening a and the water pipe are connected with each other, the opening b and the output end of the booster pump are connected with each other, the opening c is kept in a normally closed state, a revolving door is arranged inside the mounting groove and at one side far away from the booster pump relatively, a waterproof layer is arranged on the inner wall of the detection groove, and a sealing cover is arranged at the top of the inner part of the detection groove.

Preferably, the inside of main part shell and be located one side that embedded computing equipment kept away from the detection groove and seted up the spout, the inside slip of spout has the fixed plate, limiting plate is installed to the bottom of fixed plate, limiting plate's length is greater than the length of spout export, and the spring is installed to limiting plate's bottom.

Preferably, the inner bottom of the detection groove is conical, the booster pump is positioned at the center of the bottom of the detection groove, two sides of the upper end face of the detection plate are obliquely arranged downwards, and the stone-like paint is smeared on the horizontal plane in the middle of the detection plate.

Preferably, the bottom of the detection plate is symmetrically provided with a moving groove relative to two sides of the support plate, and the upper end face of the waterproof layer is lower than the lower end face of one end of the water pipe extending to the inside of the detection groove.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The utility model is provided with the water pipe, the spray head, the pressure pump and the like, during detection, the stone-like paint is smeared on the detection plate, the detection plate is placed in the detection groove, then the pressure pump is started after water is injected into the detection groove, the pressure pump pumps the water into the water pipe, the water is sprayed onto the detection plate through the spray head on the water pipe, rainy days are simulated, the purpose of automatic detection is achieved, and the problem that the workload of detection personnel is greatly increased by the traditional detection method is solved.

(2) The utility model is provided with the pressure sensor, the embedded computing equipment, the water blocking plate and the like, when the drying time of the stone-like paint is detected, the initial downward pressure of the detection plate can be recorded by the pressure sensor before spraying water, the received downward pressure is transmitted to the embedded computing equipment by the pressure sensor after the spraying of the spray head is stopped, the time required for the detection plate to return to the initial downward pressure is calculated by the embedded computing equipment, the drying time is further determined, various detection effects are further achieved, and the detection items of the equipment are improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

fig. 3 is an enlarged view at a in fig. 1;

FIG. 4 is an enlarged view at B in FIG. 2;

in the figure: 1. a detection plate; 2. a spray head; 3. sealing cover; 4. a main body housing; 5. a waterproof layer; 6. a mounting groove; 7. a pressurizing pump; 8. a three-way valve; 9. a water pipe; 10. a support plate; 11. a fixing groove; 12. a moving groove; 13. an embedded computing device; 14. a revolving door; 15. a pressure sensor; 16. positioning holes; 17. a water blocking plate; 18. a fixing plate; 19. a chute; 20. a limiting plate; 21. and (3) a spring.

Detailed Description

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

Referring to fig. 1-2, the present utility model provides the following technical solutions: the utility model provides a imitative mineral varnish rain test device, the detection groove has been seted up to the inside of main body shell 4, backup pad 10 has been installed to the inner wall bilateral symmetry of detection groove, the pick-up plate 1 has been placed on the backup pad 10, mounting groove 6 has been seted up to the inside of main body shell 4 and the bottom that is located the detection groove, the inside of mounting groove 6 is provided with force (forcing) pump 7, force (forcing) pump 7 and the delivery port interconnect of detection groove, and the side of force (forcing) pump 7 is connected with water pipe 9, water pipe 9 runs through main body shell 4 and extends to the inside of detection groove and be located directly over the backup pad 10, shower nozzle 2 is installed to the equidistant symmetry in position just above backup pad 10 to water pipe 9 lower terminal surface, the inside bottom of detection groove becomes conical, force (forcing) pump 7 is located the bottom central authorities of detection groove, the up end both sides downward sloping of detection plate 1 set up, the imitative mineral varnish is smeared on the horizontal plane in the middle of detection plate 1, the bottom of detection plate 1 and for the both sides symmetry of backup pad 10 has seted up removal groove 12, the up of waterproof layer 5's up terminal surface is less than water pipe 9 and extends to the lower terminal surface of the inside one end of detection groove.

Through the technical scheme: the stone-like paint is smeared on the detection plate 1, the detection plate 1 is placed in the detection groove, water is injected into the detection groove, then the pressurizing pump 7 is started, the pressurizing pump 7 pumps the water in the detection groove into the water pipe 9 and then continuously pressurizes the water, the pressurized water is sprayed onto the detection plate 1 through the spray head 2 on the water pipe 9, further, a rainy day scene is continuously simulated, the water is sprayed onto the detection plate 1 after the water is sprayed onto the detection plate 1, the water enters the bottom of the detection groove again through the inclined surface, the pressurizing pump 7 can continuously pressurize, further, water circulation is realized, the detection plate 1 is taken out after simulation is completed, the water resistance of the detection plate can be observed, the aim of automatic detection is fulfilled, and the problem that the workload of a detection staff is greatly increased by a traditional detection method is solved.

Further, a three-way valve 8 is installed on a water pipe 9 which is arranged in the installation groove 6 and is positioned beside the pressurizing pump 7, connection ports of the three-way valve 8 are an opening a, an opening b and an opening c respectively, the opening a and the water pipe 9 are mutually connected, the opening b and the output end of the pressurizing pump 7 are mutually connected, the opening c is kept in a normally closed state, a revolving door 14 is arranged in the installation groove 6 and is relatively far away from one side of the pressurizing pump 7, a waterproof layer 5 is arranged on the inner wall of the detection groove, and a sealing cover 3 is arranged at the top of the inner part of the detection groove.

Specifically, after the detection is accomplished, insert c mouthful with other water pipes 9 back, rotatory three-way valve 8 for the water that force (forcing) pump 7 was taken out is outside through c mouthful and the water pipe 9 of inserting outside the equipment, accomplish the operation of automatic drainage, need not the manual drainage of operating personnel, reduce the working strength of inspector, in addition, the revolving door 14 of setting can effectively block the outside and the continuity between the force (forcing) pump 7, reduce the possibility of force (forcing) pump 7 damage, and increase the aesthetic property of equipment simultaneously, the setting of sealed lid 3 makes the inside water resource unable overflow to the detection groove outside when detecting, reduce the use amount of detection use water, reach the purpose of water conservation.

Referring to fig. 1-4, water-blocking plates 17 are installed on two support plates 10, the water-blocking plates 17 are annularly arranged, a pressure sensor 15 is arranged in the water-blocking plates 17, a positioning hole 16 is formed in a position, opposite to the water-blocking plates 17, of the detection plate 1, the water-blocking plates 17 are embedded into the positioning hole 16, the upper end face of the pressure sensor 15 and the inner wall of the positioning hole 16 are in contact with each other, a fixing groove 11 is formed in the rear end face of the main body shell 4, an embedded computing device 13 is arranged in the fixing groove 11, and the embedded computing device 13 and the pressure sensor 15 are connected with each other through wires.

Through the technical scheme: when detecting the imitative mineral varnish drying duration, can record the initial downforce of pick-up plate 1 through pressure sensor 15 before the water spray, after shower nozzle 2 stops spraying, transmit the downforce that receives to embedded computing device 13 through pressure sensor 15, calculate the time that pick-up plate 1 got back to initial downforce through embedded computing device 13, and then confirm the drying duration, make the equipment detect multiple condition, improve the detection project of equipment, in addition, through annular water blocking plate 17 and locating hole 16 that set up, wrap up pressure sensor 15 in the inside of locating hole 16 completely, reduce pressure sensor 15 and water direct contact, and then guarantee the normal use of pressure sensor 15, in addition annular water blocking plate 17 and locating hole 16 still can further fix the fixed connection between backup plate and the pick-up plate 1.

Further, a sliding groove 19 is formed in the main body housing 4 and located at one side, far away from the detection groove, of the embedded computing device 13, a fixing plate 18 slides in the sliding groove 19, a limiting plate 20 is mounted at the bottom of the fixing plate 18, the length of the limiting plate 20 is larger than that of an outlet of the sliding groove 19, and a spring 21 is mounted at the bottom of the limiting plate 20.

Specifically, when the embedded computing device 13 is installed, a downward pressure can be applied to the fixed plate 18, the spring 21 in the sliding groove 19 is compressed, so that the fixed plate 18 is embedded into the sliding groove 19, the inside of the fixed groove 11 is opened, the embedded computing device 13 is installed, the fixed plate 18 is released after the installation is completed, the fixed plate 18 slides in the sliding groove 19 under the action of the spring 21 and is positioned through the limiting plate 20, the semi-closed state of the fixed groove 11 is further realized, the contact between the embedded computing device 13 and air is increased while the stability of the embedded computing device 13 is ensured, and the heat dissipation efficiency is increased.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a imitative mineral varnish rain test device which characterized in that: including the inside of main body shell (4) has been seted up and has been examined the groove, the backup pad (10) have been installed to the inner wall bilateral symmetry of examining the groove, place on backup pad (10) pick-up plate (1), the inside of main body shell (4) and be located the bottom of examining the groove and seted up mounting groove (6), the inside of mounting groove (6) is provided with force (forcing) pump (7), the delivery port interconnect of force (forcing) pump (7) and inspection groove, and the side of force (forcing) pump (7) is connected with water pipe (9), water pipe (9) run through main body shell (4) and extend to the inside of inspection groove and be located directly over backup pad (10), shower nozzle (2) are installed to the equidistant symmetry in position of terminal surface and being located directly over backup pad (10) under water pipe (9).

2. The stone-like paint rain-proof testing device of claim 1, wherein: install water-blocking plate (17) on two backup pad (10), water-blocking plate (17) become annular setting, and the inside of water-blocking plate (17) is provided with pressure sensor (15), locating hole (16) have been seted up for the position of water-blocking plate (17) to pick-up plate (1), water-blocking plate (17) imbeds to the inside of locating hole (16), the up end of pressure sensor (15) and the inner wall of locating hole (16) contact each other, fixed slot (11) have been seted up to the rear end face of main body shell (4), the inside of fixed slot (11) is provided with embedded computing equipment (13), embedded computing equipment (13) and pressure sensor (15) pass through wire interconnect.

3. A stone-like paint rain-resistance testing device according to claim 2, wherein: install three-way valve (8) on water pipe (9) of inside and being located force (forcing) pump (7) side of mounting groove (6), the connector of three-way valve (8) is a mouthful, b mouthful and c mouthful respectively, a mouthful and water pipe (9) interconnect, b mouthful and force (forcing) pump (7) output interconnect, c mouthful keep normally closed state, the inside of mounting groove (6) and one side of keeping away from force (forcing) pump (7) relatively are provided with revolving door (14), be provided with waterproof layer (5) on the inner wall of detection groove, the inside top of detection groove is provided with sealed lid (3).

4. A stone-like paint rain-resistance testing device according to claim 3, wherein: the inside of main part shell (4) and be located one side that embedded computing equipment (13) kept away from the detection groove and seted up spout (19), the inside slip of spout (19) has fixed plate (18), limiting plate (20) are installed to the bottom of fixed plate (18), limiting plate (20)'s length is greater than the length of spout (19) export, and spring (21) are installed to limiting plate (20)'s bottom.

5. The stone-like paint rain-proof testing device of claim 4, wherein: the inside bottom of detection groove becomes conical, force (forcing) pump (7) are located the bottom central authorities of detection groove, the up end both sides downward sloping of pick-up plate (1) set up, imitative mineral varnish is smeared on the horizontal plane in the middle of pick-up plate (1).

6. The stone-like paint rain-proof testing device of claim 5, wherein: the bottom of the detection plate (1) and the two sides of the detection plate (10) are symmetrically provided with moving grooves (12), and the upper end face of the waterproof layer (5) is lower than the lower end face of one end of the water pipe (9) extending to the inside of the detection groove.