CN109030042B - Shower room detection system and detection method applying same - Google Patents

Abstract

The invention discloses a shower room detection system and a detection method applying the same, relates to the technical field of tests, and solves the problems that in the prior art, a shower room needs to be split into a plurality of construction units for detection one by one, so that the detection efficiency is low and the detection device occupies a large space. The key point of the technical scheme is that the shower room detection system comprises a shower simulation room with a spraying system, and the shower room detection system mainly comprises a room frame, a fixed shower screen, a sliding shower screen and a rotating shower screen; shower simulation room department is provided with pulley verifying attachment, pivot verifying attachment, heavy verifying attachment, first anti-impact verifying attachment, second anti-impact verifying attachment and drainage verifying attachment, has reached and has collected multiple verifying attachment in an organic whole, reduces the occupation space in inspection place, avoids the dismouting to establish the unit repeatedly in the testing process simultaneously to improve inspection efficiency's purpose.

Description

Shower room detection system and detection method applying same

Technical Field

The invention relates to the technical field of tests, in particular to a shower room detection system and a detection method applying the same.

Background

The shower room comprises: the requirement of a single shower compartment and modern home for sanitary facilities is higher and higher, and many families want to have an independent bathing space, but the bathing facilities and sanitary wares can only be arranged in one room due to the limited sanitary space of the room. The shower room fully utilizes one corner of the room, and the shower range is clearly divided by the fence to form relatively independent shower spaces. The shower room is divided into an integral shower room and a simple shower room according to functions.

The simple shower room comprises: a non-steam and spray generating device comprises a house wall, a glass wall and various hardware for connection, which form a building unit such as a shower room body, a top cover, a bottom plate or a shower screen; shower screen: shower screens are sanitary units for bathing that prevent shower water from splashing or flowing out of the shower area, and generally comprise a fixedly mounted glass wall and a movably mounted glass door that opens the door of the shower enclosure, typically in a sliding or pivoting manner.

At present, the performance test of the simple shower room is to divide the shower room into a plurality of construction units and then to detect one by one. The problem of large space occupancy rate of a detection laboratory exists in the mode, and the construction units need to be repeatedly disassembled and assembled when being detected one by one, so that the detection efficiency is low.

Disclosure of Invention

The invention aims to provide a shower room detection system, which integrates various detection devices, reduces the occupied space of a detection field, and simultaneously avoids repeated disassembly and assembly of construction units in the detection process, thereby improving the detection efficiency.

The first technical object of the present invention is achieved by the following technical solutions: a shower room detection system comprises a shower simulation room which is provided with a spraying system and can drain water, wherein the shower simulation room mainly comprises a room frame, a fixed shower screen fixedly arranged on the room frame, a sliding shower screen connected to the room frame in a sliding mode and a rotating shower screen pivoted to the fixed shower screen; a pulley inspection device is arranged at the shower simulation room and used for detecting the opening and closing service life of the sliding shower screen; the rotating shaft inspection device is used for detecting the opening and closing service life of the rotating shower screen; the hanging weight inspection device is used for detecting the adhesion performance between the fixed shower screen and the room frame; the first impact-resistant detection device is used for detecting the impact strength of the fixed shower screen; second impact resistance checking means for detecting the impact strength of the sliding shower screen and/or the rotating shower screen; and the drainage inspection device is used for detecting the drainage performance of the shower simulation room.

By adopting the technical scheme, the fixed shower screen, the sliding shower screen and the rotating shower screen are arranged on the room frame, so as to be assembled into a shower simulation room, the drainage inspection device is arranged in the shower simulation room, the preliminary drainage performance of the shower simulation room is detected, the hanging weight inspection device, the first impact resistance inspection device and the second impact resistance inspection device are also arranged, on the premise of not dismantling the shower simulation room, the testing device is used for testing the impact resistance strength of the fixed shower screen, the sliding shower screen and the rotating shower screen, even the adhesion performance between the fixed shower screen and the room frame, even a pulley inspection device and a rotating shaft inspection device are also arranged, the service life of a door of the shower simulation room is detected, various inspection devices are integrated, the occupied space of an inspection field is reduced, and the construction unit is prevented from being repeatedly dismantled and assembled in the inspection process, thereby improving inspection efficiency.

The invention is further characterized in that the pulley inspection device and the rotating shaft inspection device both comprise a connecting rod assembly which is connected with the sliding shower screen/the rotating shower screen; the driving module drives the connecting rod assembly to link the sliding shower screen/the rotating shower screen; the counting module is coupled with the driving module to detect the opening and closing times of the sliding shower screen/the rotating shower screen; the current detection module is coupled with the driving module to monitor the opening and closing smoothness of the sliding shower screen/the rotating shower screen; and the main control module is coupled with the counting module and the current detection module and presets a rated current value and the maximum opening and closing times.

By adopting the technical scheme, the driving module is used for linking the connecting rod assembly to drive the door of the shower simulation room to do reciprocating opening and closing movement, the connecting rod assembly is of a structure with a plurality of connecting rods hinged as well known, and the connecting rod assembly can be suitable for sliding or rotating the door under the condition that the door has a specific movement track and is simple in structure; the counting module is used for counting the opening and closing times; when the opening and closing of the door are blocked, namely the service life is near or the door is about to be damaged, the current in the loop is monitored by using the current detection module, the resistance to the driving module is increased due to the blocked opening and closing of the door, and the current is suddenly changed, so that the opening and closing smoothness of the sliding shower screen/the rotating shower screen can be detected by using the current detection module; the main control module presets the whole detection process.

The invention is further arranged in that the fixed shower screen comprises a load bearing shower screen connected with the rotary shower screen, the sling check device comprises a pressure sensitive element arranged on the room frame and attached to the bottom surface of the rotary shower screen and a signal processor coupled with the pressure sensitive element, and the pressure sensitive unit is arranged at one end far away from the pivot joint of the rotary shower screen.

Through adopting above-mentioned technical scheme, at the in-process that rotates the shower screen and open and close or static, mainly concentrate on the bearing shower screen because of its gravity, then the joint strength of bearing shower screen on the frame of room is crucial, consequently utilize to hang heavy verifying attachment, glue adhesion effect weakening or when losing efficacy when glass, rotate the shower screen and can drop and then can start hanging heavy verifying attachment, then can know glass and glue life and the adhesion condition at this moment, device simple structure, but sensitivity is high.

The invention is further characterized in that the fixed shower screen comprises a water retaining shower screen which is positioned at the same side of the sliding shower screen and mutually matched to form a glass wall body; the first impact-resistant inspection device comprises a bearing frame, a water retaining shower screen is fixedly installed, one side of the bearing frame is rotatably connected to the room frame, and a rotating central shaft of the bearing frame is parallel to the ground; the mark pole frame is longitudinally and movably arranged in the house frame and is provided with elevation scales; the shot bag is adjusted and installed on the mark rod frame according to the throwing height requirement, and freely falls to impact the weak part of the water retaining shower screen; and the bearing frame is rotatably connected with a supporting leg which is matched with the house frame to enable the bearing frame to be horizontally placed.

Through adopting above-mentioned technical scheme, generally be manger plate shower screen with the shower screen complex that slides, both are unrelated, only be used for crisscross concatenation to be the glass wall body, function to manger plate shower screen, need detect the impact strength of manger plate shower screen, utilize the mode of throwing the shrapnel bag from the eminence, throw the impulsive force that can apply different values to manger plate shower screen from different heights, and if take this kind of mode, need place manger plate shower screen level, consequently, set up rotatable bearing frame, simultaneously the spike increases the support to manger plate shower screen, it is not hard up to avoid manger plate shower screen in the testing process, easy operation is convenient.

The invention is further provided that the second impact resistance detection device comprises a sand bag which is hung in the room frame and freely swings back to impact the weak part of the sliding shower screen and/or the rotating shower screen; the hanging beam is rotatably connected to the room frame and used for hanging the sand bag; the rope is connected with the sand bag and the hanging beam and is wound at the hanging beam along with the rotation of the hanging beam; the driving piece is used for driving the hanging beam to rotate; and one end of the telescopic door is fixedly arranged on the room frame and is positioned on one side of the sliding shower screen and/or the rotating shower screen, which faces away from the sand bag, and the telescopic door is stretched on the side of the sliding shower screen and/or the rotating shower screen.

Through adopting above-mentioned technical scheme, still need test the impact strength as the slip shower screen of shower room door and rotation shower screen, because of the injecing of its mounting means, can adopt the mode of hanging sand bag swing back and forth and assaulting slip shower screen and rotation shower screen, the operating means is simpler, it can descend the one end of rope to set up driving piece and rotatable hanging beam simultaneously, installation sand bag on the platform, thereby avoid the sand bag overweight, need lift up installation sand bag, alleviate the equipment degree of difficulty.

The invention is further arranged in that the room frame comprises a bottom plate with a drain hole, a water meter for measuring the water discharge amount is arranged in the spraying system, and the water discharge inspection device comprises a weighing cylinder arranged below the drain hole and a weighing sensor for hanging the weighing cylinder.

By adopting the technical scheme, the water meter in the spraying system can know the water amount consumed during spraying, the water is discharged from the water discharge hole, the discharged water is collected by the weighing cylinder, the mass of the discharged water is known by the weighing sensor, the volume is calculated according to a mass formula, and the water meter and the weighing sensor perform numerical calculation within the same time, so that the water discharge performance can be known, the device is simple in structure and low in cost.

The invention is further provided with a water valve at the bottom of the weighing cylinder, and a water collecting tank for a water source of a spraying system is arranged below the weighing cylinder.

Through adopting above-mentioned technical scheme, utilize the header tank, the water resource among the circulated use drainage verifying attachment, resources are saved, and the header tank is arranged in the weighing cylinder below, the cubical space in rational utilization shower simulation room.

The invention is further arranged in that the room frame has side frames, the distance between the side frames and the sliding shower screen/rotating shower screen increases with the opening of the sliding shower screen/rotating shower screen; the waterproof cloth which is always in a loose state is arranged between the sliding shower screen and the rotating shower screen and between the sliding shower screen and the side frame.

Through adopting above-mentioned technical scheme, set up the tarpaulin, be convenient for start pulley verifying attachment, pivot verifying attachment and drainage verifying attachment simultaneously, effectively avoid the water that spraying system discharged to discharge from the gate of opening, the tarpaulin keeps the lax state simultaneously, avoids the tarpaulin to drag the door to drive the module resistance, ensure pulley verifying attachment and pivot verifying attachment's normal function.

The second purpose of the invention is to provide a shower room detection method, which utilizes the detection system to avoid repeated disassembly and assembly of the construction units in the detection process, and even can reasonably arrange the detection sequence according to the detection requirements, thereby achieving the purpose of synchronously carrying out various detections and further improving the detection efficiency.

The second objective of the above technology of the present invention is achieved by the following technical solutions: a shower room detection method, use the above-mentioned shower to prevent the detection system, including the following steps, S1, assemble the shower simulation room, and start the hoisting weight checkout gear; s2, rotating the bearing frame to enable the water retaining shower screen to be horizontally placed, starting the first impact resistance testing device, and testing the impact resistance strength of the water retaining shower screen by utilizing free falling body impact of the shot bags; s3, resetting the bearing frame, starting a second impact resistance testing device, and testing the impact resistance strength of the sliding shower screen and/or the rotating shower screen by using sand bag impact; s4, starting a pulley checking device, a rotating shaft checking device and a drainage checking device, enabling the sliding shower screen and the rotating shower screen to do reciprocating opening and closing movement, testing the opening and closing service life, and testing the drainage performance of the shower simulation room by using a water meter and a weighing sensor.

Through adopting above-mentioned technical scheme, according to multiple verifying attachment's detection requirement, rationally arrange the detection order to reach the purpose of carrying out multiple detection in step, thereby improve inspection efficiency.

In conclusion, the invention has the following beneficial effects: the fixed shower screen, the sliding shower screen and the rotating shower screen are installed on a room frame so as to be assembled into a shower simulation room, a drainage inspection device is installed in the shower simulation room to detect the preliminary drainage performance of the shower simulation room, a hanging weight inspection device, a first anti-impact inspection device and a second anti-impact inspection device are also installed, the hanging weight inspection device is used for testing the anti-impact strength of the fixed shower screen, the sliding shower screen and the rotating shower screen and even the adhesion performance between the fixed shower screen and the room frame on the premise of not dismantling the shower simulation room, even a pulley inspection device and a rotating shaft inspection device are also installed for detecting the opening and closing life of a room door of the shower simulation room, various inspection devices are integrated into a whole, the occupied space of an inspection field is reduced, the various inspection devices can reasonably arrange the detection sequence according to the detection requirements, and achieve the purpose of synchronously carrying out various detections, meanwhile, the construction units are prevented from being repeatedly disassembled and assembled in the inspection process, so that the inspection efficiency is improved.

Drawings

FIG. 1 is a schematic view of a shower room detection system;

FIG. 2 is a schematic view of a pulley/shaft inspection device in a shower room inspection system;

FIG. 3 is a schematic diagram of the operation of the pulley/shaft testing apparatus;

FIG. 4 is a schematic view of a sling check device, a first impact resistance check device and a second impact resistance check device in a shower room detection system;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic view of a drain testing device in a shower room detection system;

fig. 7 is an enlarged view of a portion of the sliding shower screen mounting.

In the figure, 1, a house frame; 11. a column; 111. a side frame; 12. a base plate; 121. a drain hole; 1211. a drain pipe; 13. a limit stop block; 14. a water collection tank; 15. waterproof cloth; 151. sealing the suction strip; 21. a water retaining shower screen; 22. a load bearing shower screen; 31. sliding the shower screen; 32. rotating the shower screen; 41. a pulley inspection device; 42. a rotating shaft inspection device; 51. a connecting rod assembly; 511. a clamp; 52. a drive module; 53. a counting module; 54. a current detection module; 55. a main control module; 6. a hoist inspection device; 61. a pressure sensitive unit; 62. a signal processor; 7. a first impact resistance testing device; 71. a load-bearing frame; 711. a brace; 72. a marker post frame; 721. erecting a rod; 7211. scale marking; 722. a support table; 73. a shotshell bag; 8. a second impact resistance test device; 81. a sand bag; 82. a hanging beam; 83. a rope; 84. a drive member; 85. a retractable door; 9. a drainage inspection device; 91. a spray system; 911. a shower head; 912. a water meter; 92. a weighing cylinder; 921. a water valve; 93. and a weighing sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1, a shower room detection system comprises a rectangular shower simulation room, wherein the shower simulation room is provided with a room frame 1 made of aluminum profiles, the room frame 1 comprises upright posts 11 positioned at four top corners, cross beams connecting two adjacent upright posts 11 and a bottom plate 12 with drain holes 121; the shower simulation room comprises two metal plate walls and two glass walls on four sides, the two metal plate walls are adjacent to simulate a room wall, and the two glass walls are formed by two fixed shower screens and the sliding shower screen 31 and the rotating shower screen 32 respectively. Wherein, the fixed shower screens are fixedly arranged on the room frame 1, and the two fixed shower screens are respectively a water retaining shower screen 21 and a bearing shower screen 22; the upper side and the lower side of the sliding shower screen 31 are provided with pulleys, and are connected to the room frame 1 in a sliding manner, and are positioned at the same side with the water retaining shower screen 21 and matched with each other to form a glass wall; the rotary shower screen 32 is pivotally attached to the load bearing shower screen 22 via a hinge.

Referring to fig. 2, a shower simulation room is provided with a pulley checking device 41 for detecting the opening/closing life of the sliding shower panel 31 and a pivot checking device 42 for detecting the opening/closing life of the rotating shower panel 32. The pulley checking device 41 and the rotation shaft checking device 42 each include a link assembly 51, a driving module 52, a counting module 53, a current detecting module 54, and a main control module 55. Wherein, the driving module 52 is a rotating motor; the connecting rod assembly 51 comprises a first connecting rod and a second connecting rod which are hinged with each other, one end of the first connecting rod is fixed with a rotating shaft of the rotating motor, the other end of the second connecting rod is provided with a clamp 511, the clamp 511 comprises two clamping blocks which are hinged and fixed on the second connecting rod, and the two clamping blocks have attractive magnetism, so that the second connecting rod and a handle on the sliding shower screen 31/the rotating shower screen 32 can be conveniently and quickly assembled and disassembled, and the rotating motor rotates for a circle, and the sliding shower screen 31/the rotating shower screen 32 are opened and closed once; the counting module 53 comprises an opposite type photoelectric switch arranged on a rotating shaft and a motor shell of the driving module 52 and a digital display counter coupled with the opposite type photoelectric switch, the opposite type photoelectric switch is aligned once when the rotating shaft rotates for one circle, and the numerical value on the digital display counter can be triggered to be increased by one at the moment, so that the turnover frequency of the rotating motor can be recorded; the current detection module 54 includes a current indicator coupled to the driving module 52, when the sliding shower panel 31/the rotating shower panel 32 is blocked from opening or closing, the resistance to the rotation of the rotating motor is increased, and at this time, the current value in the conductive loop of the driving module 52 is increased, so that the opening or closing smoothness of the sliding shower panel 31/the rotating shower panel 32 can be detected by the current detection module 54; the main control module 55 is a processor coupled to the counting module 53 and the current detecting module 54, and is preset with a rated current value a and a maximum on/off frequency Q.

The operation principle of the pulley checking device 41 and the rotation shaft checking device 42 is shown in fig. 3: the driving module 52 is started, the counting module 53 records that the opening and closing times are Q, the current detection module 54 records that the current value is a, Q is compared with Q, a is compared with a, the first condition for judgment in the main control module 55 is that Q reaches Q, the second condition is that a reaches a, when the first condition and/or the second condition are satisfied, the driving module 52 can be controlled to stop, the opening and closing times at the moment can be known according to the counting module 53, and the detected opening and closing life is used.

Referring to figures 4 and 5, the load-bearing shower screen 22 is secured to the frame 1 by means of a glass adhesive and a hanging weight checking device 6 is provided in the shower simulation room for checking the adhesion between the load-bearing shower screen 22 and the frame 1. The sling check device 6 comprises a pressure sensitive unit 61 and a signal processor 62 coupled to the pressure sensitive element. The pressure sensitive unit 61 is arranged in a gap between the rotary shower screen 32 and the room frame 1, is specifically positioned at the bottom of the rotary shower screen 32 and at one end far away from the pivot joint of the rotary shower screen 32, and is adhered to a cross beam of the room frame 1 through epoxy resin; the signal processor 62 is configured to receive signals from the pressure sensing device, and in the embodiment of the present invention, specifically, an alarm, when the pressure value suddenly changes, the signal processor 62 sends an alarm. Of course, a timer (not further described herein) controlled by the pressure-sensitive unit 61 may be used, and when the pressure value suddenly changes, the timer is stopped. When the adhesion effect of the glass cement is weakened or failed, the rotary shower screen 32 can fall off and the hanging weight checking device 6 can be started, so that the service life of the glass cement and the adhesion condition at the moment can be known.

A first impact-resistance testing device 7 is provided in the shower simulation chamber for testing the impact resistance of the water-retaining shower screen 21. The first impact-resistance testing device 7 comprises a load-bearing frame 71, a mast frame 72 and several shotgun bags 73. The water-retaining shower screen 21 is fixedly adhered in the bearing frame 71, the bearing frame 71 is pivoted at the lower side beam of the room frame 1, the rotating central shaft of the bearing frame 71 is parallel to the ground, so that the bearing frame 71 rotates towards the outer side direction of the room frame 1, the room frame 1 is rotatably connected with a limit stop 13 for limiting the rotation of the bearing frame 71, the top end of the bearing frame 71 is pivoted with two supporting feet 711, the length of each supporting foot 711 is equal to the height of the rotating connection position of the bearing frame 71 from the ground, and the bearing frame 71 can be supported to be horizontally placed; the mark pole frame 72 comprises an upright 721 vertically arranged at the bottom plate 12 in the room frame 1 and a support platform 722 vertically arranged on the upright 721, the upright 721 is provided with elevation scales 7211 distributed along the axis thereof, jacks for inserting the support platform 722 are arranged at different heights so as to adjust the height for installing the support platform 722, and the upright 721 is rotatably connected to the bottom plate 12 so as to rotate the support platform 722 to be above the water-retaining shower screen 21 in a horizontal state; the shot bag 73 is placed on the support 722 of the mast frame 72, and the vertical rod 721 is rapidly rotated, so that the shot bag 73 falls in a free-falling state and strikes against the weak part of the water-retaining shower screen 21.

One of the four uprights 11 of the room frame 1, which is located between the sliding screen 31 and the rotating screen 32, is a side frame 111, and the distance between the side frame 111 and the sliding screen 31 increases with the opening of the sliding screen 31/the rotating screen 32. The shower simulation room is provided with a second impact resistance checking means 8 near the side frame 111 for checking the impact resistance of the sliding shower screen 31 and/or the rotating shower screen 32. The second impact resistance verification device 8 includes a sand bag 81, a hanging beam 82, a rope 83, a driving member 84, and two telescopic doors 85. The hanging beam 82 is a cylinder and is rotatably connected to two mutually parallel cross beams on the upper side of the room frame 1; the driving element 84 is a rotating motor, is fixedly connected with one end of the hanging beam 82, and is used for driving the hanging beam 82 to rotate; one end of the rope 83 is fixedly connected to the middle part of the hanging beam 82, the sand bag 81 is fixedly bound to the other end of the rope 83, the rope 83 can rotate along with the hanging beam 82 and is wound on the hanging beam 82, therefore, the height of the sand bag 81 can be adjusted, and the sand bag 81 can freely swing back to impact weak parts of the sliding shower screen 31 and/or the rotating shower screen 32; one ends of the two retractable doors 85 are fixed on the side frames 111, the other ends of the two retractable doors slide along the sides of the sliding shower panel 31 and the rotating shower panel 32, respectively, and the retractable doors 85 are located on the side of the sliding shower panel 31 facing away from the sand bag 81 and the side of the rotating shower panel 32 facing away from the sand bag 81, respectively, so that the sliding shower panel 31 and the rotating shower panel 32 are prevented from falling down in the direction of the outside of the room frame 1 when the impact resistance is checked.

As shown in fig. 6, the shower simulation room is further provided with a drainage check device 9 including a spraying system 91 for checking the drainage performance of the shower simulation room. The sprinkler system 91 includes two shower heads 911, water pipes (not shown) connected to the shower heads 911, and a water meter 912 connected to the two water pipes. The drain testing device 9 further includes a weighing cylinder 92 and a load cell 93. The weighing cylinder 92 has an upper opening and a lower opening, but the lower opening is provided with a water valve 921 for controlling water outlet according to requirements, the weighing cylinder 92 is hung under a drain hole 121 of the bottom plate 12 through a weighing sensor 93, the drain hole 121 is connected with a drain pipe 1211, and the other end of the drain pipe 1211 is put in from the upper opening of the weighing cylinder 92 for collecting water drained from the drain hole 121. The water discharge rate of the shower room is known according to the values in the water meter 912 and the weighing sensor 93, and the water discharge performance is checked.

A water collecting tank 14 is provided below the weighing cylinder 92 for collecting water discharged from the weighing cylinder 92 and supplying the water to the spraying system 91 as a water source, thereby circulating water for use and saving water resources.

Meanwhile, waterproof cloth 15 is arranged between the sliding shower screen 31 and the rotating shower screen 32 and the side frame 111 (see fig. 7, fig. 7 takes the sliding shower screen 31 as an example), certainly, the waterproof cloth 15 at the rotating shower screen 32 is connected with the cross beams on the upper side and the lower side of the rotating shower screen 32, the waterproof cloth 15 is always kept in a loose state in the opening and closing processes of the sliding shower screen 31/the rotating shower screen 32, one end of the waterproof cloth 15 is fixed on the side frame 111 through epoxy resin, and the other end of the waterproof cloth is wrapped with a sealing suction strip 151 and can be sucked with the sliding shower screen 31/the rotating shower screen 32 in a vacuum manner, so that the function of quick detachment is realized. And the upper surface of the bottom plate 12 is provided with a groove, so that water is prevented from directly flowing out from a gap between the bottom plate 12 and the glass wall.

Example two:

a shower room detection method, which applies the shower room detection system in the first embodiment, comprises the following steps:

s1, assembling the shower simulation room, and starting the sling check device 6.

Mounting the fixed shower screen, the sliding shower screen 31 and the rotating shower screen 32 on the room frame 1, and assembling the sling check device 6, the first impact check device 7, the second impact check device 8 and the drainage check device 9; after the assembly is completed, the hoisting inspection device 6 can be started, the signal processor 62 is utilized to start monitoring the adhesion effect between the bearing shower screen 22 and the room frame 1, and in the following whole detection process, once the adhesion effect changes, the hoisting inspection device 6 can be stopped.

S2, the first impact resistance testing device 7 is started.

The limit stop 13 is removed, the bearing frame 71 is rotated until the water retaining shower screen 21 is horizontally placed, the marker support 72 is rotated until the support platform 722 is positioned above the weak part in the water retaining shower screen 21, the shot bag 73 is placed at the support platform 722, the weak part of the water retaining shower screen 21 is impacted by the free falling mode of the shot bag 73, at least 5 times of tests are carried out, the height or the dead weight of the shot bag 73 needs to be adjusted in the period, and the impact resistance of the water retaining shower screen 21 is detected.

S3, the second impact resistance test device 8 is activated.

And S2, the bearing frame 71 is reset in time, the hanging beam 82 is rotated to adjust the height of the sand bag 81, the sand bag 81 is ensured to impact the weak part of the sliding shower screen 31/the rotating shower screen 32, the sand bag 81 is used for swinging and impacting back and forth, the impact resistance of the sliding shower screen 31 and the rotating shower screen 32 is sequentially tested, each test is carried out for at least 5 times, and the self weight of the sand bag 81 or the height of the sand bag 81 during swinging needs to be adjusted. It is of course also possible to verify the shock resistance of the rotating shower screen 32 while performing S2.

S4, starting the pulley checking device 41, rotating shaft checking device and drainage checking device 9.

Connecting the sliding shower screen 31 and the rotating shower screen 32 with the pulley checking device 41 and the rotating shaft checking device 42 respectively, and driving the sliding shower screen 31 and the rotating shower screen 32 to do reciprocating opening and closing movement by using the driving module 52 until the driving module 52 stops, so as to test the opening and closing service life; and simultaneously ensuring that the sliding shower screen 31 and the rotating shower screen 32 are both connected with the waterproof cloth 15, the water valve 921 keeps a closed state, the shower head 911 and the weighing sensor 93 are simultaneously opened, after a period of time, the shower head 911 is synchronously closed, the drain pipe 1211 is taken out of the weighing cylinder 92, at the moment, the drainage rate is calculated through the numerical values on the water meter 912 and the weighing sensor 93, and the operation is repeated for at least 5 times.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. A shower room detection system comprises a shower simulation room which is provided with a spraying system (91) and can drain water, and is characterized in that:

the shower simulation room mainly comprises a room frame (1), a fixed shower screen fixedly arranged on the room frame (1), a sliding shower screen (31) connected to the room frame (1) in a sliding manner, and a rotating shower screen (32) pivoted on the fixed shower screen;

a pulley inspection device (41) is arranged at the shower simulation room and used for detecting the opening and closing service life of the sliding shower screen (31); a spindle verification means (42) for detecting the on-off life of the rotary shower screen (32); the hanging weight inspection device (6) is used for detecting the adhesion performance between the fixed shower screen and the room frame (1); a first resistance test device (7) for detecting the resistance strength of the fixed shower screen; second impact resistance checking means (8) for detecting the impact resistance of the sliding shower screen (31) and/or the rotating shower screen (32); a drainage test device (9) for testing the drainage performance of the shower simulation room;

the fixed shower screen comprises a water retaining shower screen (21) which is positioned at the same side of the sliding shower screen (31) and mutually matched to form a glass wall body; the first impact-resistant inspection device (7) comprises a bearing frame (71), a water-retaining shower screen (21) is fixedly arranged, one side of the bearing frame is rotatably connected to the room frame (1), and the rotating central axis of the bearing frame is parallel to the ground; the mark pole frame (72) is longitudinally movably arranged in the house frame (1) and is provided with an elevation scale (7211); the shot bag (73) is adjusted and installed on the mark rod frame (72) according to the throwing height requirement, and freely falls to impact the weak part of the water retaining shower screen (21); and the bearing frame (71) is rotatably connected with a supporting foot (711) which is matched with the house frame (1) to enable the bearing frame (71) to be horizontally placed.

2. The shower room detection system of claim 1, wherein: the pulley checking device (41) and the rotating shaft checking device (42) both comprise a connecting rod assembly (51) which is connected with the sliding shower screen (31)/the rotating shower screen (32); a driving module (52) which drives the connecting rod assembly (51) to slide the shower screen (31)/rotate the shower screen (32) in a linkage manner; a counting module (53) coupled to the driving module (52) to detect the number of on/off times of the sliding shower screen (31)/the rotating shower screen (32); a current detection module (54) coupled with the driving module (52) to monitor the opening and closing smoothness of the sliding shower screen (31)/the rotating shower screen (32); and the main control module (55) is coupled with the counting module (53) and the current detection module (54) and presets a rated current value and the maximum opening and closing times.

3. The shower room detection system of claim 1, wherein: fixed shower screen includes bearing shower screen (22) that link to each other with rotation shower screen (32), hangs heavy verifying attachment (6) including set up in laminating on room frame (1) and rotate pressure sensing element (61) of shower screen (32) bottom surface department and signal processor (62) that are coupled with pressure sensing element (61), and pressure sensing unit sets up in the one end of keeping away from rotation shower screen (32) pin joint department.

4. The shower room detection system of claim 1, wherein: the second impact resistance detection device (8) comprises a sand bag (81) which is hung in the room frame (1) and freely swings back to impact weak parts of the sliding shower screen (31) and/or the rotating shower screen (32); the hanging beam (82) is rotatably connected to the room frame (1) and used for hanging the sand bag (81); a rope (83) which connects the sand bag (81) and the hanging beam (82) and is wound around the hanging beam (82) along with the rotation of the hanging beam (82); the driving piece (84) is used for driving the hanging beam (82) to rotate; and one end of the telescopic door (85) is fixedly arranged on the room frame (1) and is positioned on one side of the sliding shower screen (31) and/or the rotating shower screen (32) back to the sand bag (81), and the telescopic door (85) is stretched on the side of the sliding shower screen (31) and/or the rotating shower screen (32).

5. A shower room detection system according to claim 4, characterized in that: the house frame (1) comprises a bottom plate (12) with a drain hole (121), a water meter (912) for measuring the water discharge amount is arranged in the spraying system (91), and the water discharge inspection device (9) comprises a weighing cylinder (92) arranged below the drain hole (121) and a weighing sensor (93) for hanging the weighing cylinder (92).

6. A shower room detection system according to claim 5, characterized in that: the bottom of weighing cylinder (92) is provided with water valve (921), and the below of weighing cylinder (92) is provided with header tank (14) that supplies spraying system (91) water source.

7. A shower room detection system according to claim 5, characterized in that: the room frame (1) is provided with a side frame (111), and the distance between the side frame (111) and the sliding shower screen (31)/the rotating shower screen (32) is increased along with the opening of the sliding shower screen (31)/the rotating shower screen (32);

waterproof cloth (15) which is always in a loose state is arranged between the sliding shower screen (31) and the rotating shower screen (32) and the side frame (111).

8. A method for detecting a shower room is characterized in that: a shower room detection system as claimed in claim 5, comprising the steps of,

s1, assembling the shower simulation room, and starting the hanging weight checking device (6);

s2, rotating the bearing frame (71) to enable the water-retaining shower screen (21) to be horizontally placed, starting the first impact-resistant testing device (7), and testing the impact strength of the water-retaining shower screen (21) by utilizing the free falling body impact of the shrapnel bag (73);

s3, resetting the bearing frame (71), starting a second impact resistance testing device (8), and testing the impact resistance strength of the sliding shower screen (31) and/or the rotating shower screen (32) by using the impact of the sand bag (81);

s4, starting a pulley checking device (41), a rotating shaft checking device (42) and a drainage checking device (9), enabling the sliding shower screen (31) and the rotating shower screen (32) to do reciprocating opening and closing movement, testing the opening and closing service life, and testing the drainage performance of the shower simulation room by using a water meter (912) and a weighing sensor (93).

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