CN211013538U - Automatic ball-throwing device for toilet flushing detection - Google Patents

Abstract

The utility model relates to the technical field of closestool detection equipment, in particular to an automatic ball-throwing device for closestool flushing detection; the ball suction pipe is connected to one end of the thrown ball check valve, the other end of the thrown ball check valve is connected with the suction end of the thrown pneumatic fluid generating device, the outlet end of the thrown pneumatic fluid generating device is connected with the ball throwing pipe, and the ball throwing pipe is connected with the ball inlet of the ball throwing tank; the utility model discloses a test ball is sent into the bowling pipeline by the suction bulb pipe entering, by pneumatic fluid generating device, sends into through the bowling pipe again and throws the spherical tank, realizes the bowling very fast, improves production efficiency greatly.

Description

Automatic ball-throwing device for toilet flushing detection

Technical Field

The utility model relates to a closestool check out test set technical field refers in particular to a closestool bath detects automatic bowling device.

Background

In the production process of the closestool, the quality of the closestool needs to be detected, and the international universal standard test method is that one hundred test balls are put into the closestool, the diameter of each test ball is 19mm, and then the closestool is flushed to see the siphonage. If the number of the flushed test balls is more than 90 percent when the closestool is flushed, the test balls pass, and if the number of the flushed test balls is less than 90 percent, the test balls fail. The detection of the current closestool is manual, one hundred test balls are selected firstly in a mode of manually sending the test balls, then the one hundred test balls are put into the closestool, the number of the flushed test balls is counted in a manual counting mode, and the production efficiency is very low.

In addition, human detection of the number of shots may also be subject to error. If the photoelectric technology is adopted for detection and statistics, the input cost of production equipment can be greatly increased, and in addition, because the test ball is placed in water and can carry water after being flushed out of the closestool, the risk that the water influences the equipment exists, and the use, maintenance and repair of the corresponding production equipment under the water environment can cause adverse effects. If the test balls can not fall one by one, the condition that the general sensor can not detect can also occur, and sensing errors can be caused. Some scales weigh the test balls, and the number of the test balls is determined by the weight, but the weighing has errors because the test balls contain water.

Accordingly, there is a need for improvements in existing toilet testing techniques based on the aforementioned deficiencies of existing toilet testing techniques.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a closestool bath detects automatic bowling device to prior art's not enough, the device has solved that current device exists: low production efficiency and the like.

In order to achieve the purpose, the utility model is realized by the following technical scheme: the automatic ball throwing device for toilet flushing detection is characterized in that a ball suction pipe is connected to one end of a throwing ball blocking valve, the other end of the throwing ball blocking valve is connected with a suction end of a throwing pneumatic fluid generating device, an outlet end of the throwing pneumatic fluid generating device is connected with a ball throwing pipe, and the ball throwing pipe is connected with a ball inlet of a ball throwing tank.

The ball suction pipe is connected with the suction end of the pneumatic fluid generating device for conveying, the outlet end of the pneumatic fluid generating device for conveying is connected with the measuring ball blocking valve through a first pipeline, and the other end of the measuring ball blocking valve for conveying is connected with one end of the measuring ball blocking valve for throwing through a metering pipeline.

The inner diameter of the metering pipeline is matched with the inner diameter of the test ball.

The first pipeline is provided with a plurality of hollow holes.

The ball inlet of the ball throwing tank is provided with a ball inlet upper inserting plate; the bottom of the ball throwing tank is provided with a ball inlet lower inserting plate.

The beneficial effects of the utility model reside in that: the test ball enters from the ball suction pipe, is sent into the ball throwing pipeline by the pneumatic fluid generating device and then is sent into the ball throwing tank through the ball throwing pipe, so that the ball throwing is realized very quickly, and the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of a partially enlarged structure of the present invention.

Fig. 3 is a schematic diagram of a partially enlarged structure of the present invention.

Fig. 4 is a schematic view of the structure of the ball-inlet upper plug board of the present invention.

Fig. 5 is a schematic view of the structure of the ball measuring tube inserting plate of the present invention.

Fig. 6 is a schematic view of the structure of the ball measuring tube of the present invention.

Fig. 7 is a schematic structural view of the stop valve of the measuring ball of the present invention.

Description of reference numerals: the device comprises a station panel 1, a ball dropping groove 2, a ball throwing pipe 3, a ball throwing tank 4, a ball throwing groove 5, a ball inlet lower insertion plate 6, a ball measuring pipe 7, a ball turnover box 8, a ball suction pipe 9, a pneumatic fluid generating device 10, a ball measuring blocking valve 11, a ball measuring pipe insertion plate 12, a blocking plate 13, a connecting pipe 14, a ball passing hole 15, an air vent 16, a fixing plate 17, an upper circular pipe 18, a lower circular pipe 19, a ball inlet pipe 20, a ball measuring cylinder 21, a ball inlet upper insertion plate 22, a measuring pipeline 23 and a first pipeline 24.

Detailed Description

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

See fig. 1-7, the utility model provides a closestool bath detects automatic bowling device, including throwing bulb 3, the ball suction pipe 9, pneumatic fluid generating device 10, the ball check valve 11, the suction end of pneumatic fluid generating device 10 is connected to ball suction pipe 9, pneumatic fluid generating device 10 connects the ball check valve 11, the ball check valve 11 is connected to the ball check valve 11, the measurement pipeline 23 other end still is connected with the ball check valve 11, the internal diameter of measurement pipeline 23 is slightly big with the diameter of test ball, when making the test ball get into in the measurement pipeline 23, can be close to adjacent arrangement, thereby realize the test ball of quick measurement standard quantity. The metering tube 23 may be a straight tube or a bent tube, as long as the test ball does not become misaligned in the tube.

As shown in fig. 1, the present invention has two pneumatic fluid generators 10, one pneumatic fluid generator 10 is used for conveying the feeding material, and the other pneumatic fluid generator 10 is used for throwing the selected fixed number of test balls. The utility model has two measuring ball blocking valves 11, one measuring ball blocking valve 11 is used for conveying feeding materials, and the other measuring ball blocking valve 11 is used for throwing.

The suction end of pneumatic fluid generating device 10 for transport connects bulb suction pipe 9, the exit end is through the one end of first pipe connection transport dosage ball stop valve 11, the other end of transport dosage ball stop valve 11 is connected the one end of input dosage ball stop valve 11 through metering tube 23, the other end of input dosage ball stop valve 11 is connected the suction end of pneumatic fluid generating device 10 for input, bulb throwing pipe 3 is connected with pneumatic fluid generating device 10's for input exit end, first pipe 24, metering tube 23, bulb suction pipe 9, the internal diameter of bulb throwing pipe 3 is the same, first pipe 24 has a plurality of fretwork holes.

The utility model discloses a check valve 11 is blockked including blockking up piece, barrier plate 13, and barrier plate 13 is vertical passes from the barrier block middle part, blocks up the piece level and has seted up the test ball passageway, and the test ball passageway is used for the test ball to pass through. The barrier plate 13 comprises a vertical main body, a connecting pipe 14 is arranged at the top of the vertical main body, the connecting pipe 14 is connected with a driving cylinder, a ball hole 15 is formed in the vertical main body, a test ball can pass through the ball hole 15 from a test ball channel, and air holes 16 are formed in the vertical main body. When the measuring ball blocking valve 11 is closed, the air hole 16 of the blocking plate 13 is opposite to the test ball channel, and when the measuring ball blocking valve 11 is opened, the ball passing hole 15 of the blocking plate 13 is opposite to the test ball channel.

The length between the blocking plates 13 of the two measuring ball blocking valves 11 is exactly equal to the diameter of 100 test balls required by the standard test. Further, it is easier to insert the metering tube 23 into the test ball channel of the ball check valve 11 adjacent to the check plate 13, so that the length of the metering tube 23 is exactly equal to the diameter of 100 test balls required by the standard test.

The number of test balls used in the production process is sufficient. The front end of the ball throwing pipe 3 of the utility model is connected with a ball throwing tank 4, and a ball inlet of the ball throwing tank 4 is provided with a ball inlet upper inserting plate 22; the bottom of the pitching tank 4 is provided with a pitching lower inserting plate 6, the pitching lower inserting plate 6 is closed, the pitching upper inserting plate 22 is opened, the pneumatic fluid generating device 10 puts 100 selected test balls into the pitching tank 4, the pitching upper inserting plate 22 is closed and waits for the test ball of the next round. As shown in fig. 3, the lower ball-inlet inserting plate 6 is opened and moved from the position B to the position A, 100 test balls in the ball-throwing tank 4 fall into the toilet to be tested, and the flushing detection is carried out, so that the automatic ball throwing is realized.

The utility model discloses picture peg 6, the equal level setting of picture peg 22 on the goal under the goal are furnished with respectively and drive actuating cylinder. The goal lower inserting plate 6 comprises a horizontal main body, a vertical fixing plate 17 is arranged at the rear end of the horizontal main body, a mounting hole is formed in the vertical fixing plate 17 and used for being connected with an air cylinder, air holes are formed in the horizontal main body, and the structure of the goal upper inserting plate 22 is the same as that of the goal lower inserting plate 6.

The utility model discloses a bowling theory of operation is:

the first step is as follows: closing the throwing measuring ball blocking valve 11, and opening the conveying measuring ball blocking valve 11;

the second step is that: the pneumatic fluid generating device 10 for conveying works, test balls in the ball body turnover box 8 enter the metering pipeline 23 through the ball suction pipe 9, the first pipeline 24 and the measuring ball conveying blocking valve 11, the test balls are linearly arranged in the metering pipeline 23 and are filled in the metering pipeline 23, and meanwhile, adjacent test balls cannot be dislocated;

the third step: closing the delivery dosage ball blocking valve 11, opening the throwing dosage ball blocking valve 11, closing the goal lower insertion plate 6 of the pitching tank 4 and opening the goal upper insertion plate 22;

the fourth step: the throwing pneumatic fluid generating device 10 works, and a test ball in the metering pipeline 23 is thrown into the ball throwing tank 4 through the ball throwing pipe 3;

the fifth step: the blocking valve 11 for the thrown measuring ball is closed, the upper ball inlet inserting plate 22 is closed, the lower ball inlet inserting plate 6 is opened, the testing ball in the ball inlet tank 4 falls into the ball inlet trough 5 and then falls into the toilet to be tested, and the automatic metering and ball inlet actions of the testing ball are completed.

The utility model discloses throw spherical tank 4 and be located the 1 tops of station panel of detection achievement, throw the below of spherical tank 4 and dispose bowling silo 5. The station panel 1 is provided with a ball falling groove 2, and the ball falling groove 2 is provided with a plurality of water leakage holes.

The utility model discloses the export one end of ball groove 2 that falls is connected to spheroid turnover case 8, and in ball suction pipe 9 connected spheroid turnover case 8, just so can realize testing ball recycles. The sphere turnover box 8 is funnel-shaped, the lowest position of the sphere turnover box 8 is connected with a sphere sucking pipe 9, and the sphere turnover box 8 is provided with a vibrator for vibrating and feeding materials.

The utility model discloses can be as shown in figure 1's assembly line, the ball groove 2 that falls of a plurality of stations can be considered to be connected to the same spheroid turnover case 8, and according to the space size and set up, figure 1 shows that spheroid turnover case 8 of two adjacent station configurations, and simultaneously, two adjacent closestool bath station configurations closestool bowling station, a bowling jar 4 promptly.

The utility model also provides a method for rapidly judging whether the quantity of the test balls is qualified after the closestool is flushed. The test ball that the closestool was washed out goes into volume bulb 7, volume bulb cylinder 21 is furnished with in the top of volume bulb 7, the bottom of volume bulb cylinder 21 is connected with the clamp plate, set up the qualified high line of standard in advance to volume bulb 7, the bottom of volume bulb 7 is furnished with volume bulb picture peg 12, volume bulb picture peg 12 activity is sealed volume bulb 7, the test ball that the closestool was washed out gets into in the volume bulb 7, volume bulb cylinder 21 drive clamp plate moves down, it offsets with the test ball to reach the clamp plate, cross the qualified high line of standard when the clamp plate, then judge "unqualified", cross the qualified high line of standard when the clamp plate, judge "qualified".

The inner diameter of the burette 7 is preset, and the measuring is carried out by measuring 100 test balls in standard number, for example, if 90% is qualified, the height of the 90 test balls when stacked is the standard qualified height of the burette 7.

The inner diameter of the measuring bulb tube 7 can be measured and calculated according to the diameter of the test balls and the number of the test balls qualified in the test, and the shape of the measuring bulb tube 7 is not limited.

The ball measuring tube 7 comprises an upper round tube 18 and a lower round tube 19, the side surface of the upper round tube 18 is connected with a ball inlet tube 20, and the ball inlet tube 20 is connected with the ball falling groove 2. Wherein, the inner diameter of the upper round tube 18 is 58mm, the height is 150.5mm, the inner diameter of the lower round tube 19 is 93mm, the height is 97.5mm, and the included angle between the ball inlet tube 20 and the vertical line is 101 degrees. The height from the lowest point of the ball inlet pipe 20 to the bottom end of the ball measuring pipe 7 is 156 mm.

The utility model discloses a spheroid turnover case 8 is furnished with to volume bulb 7 below. The utility model discloses volume bulb picture peg 12 level sets up, by the cylinder drive, as shown in FIG. 4, after the test of the test ball quantity that dashes out is accomplished, volume bulb picture peg 12 is located by D and is removed C when locating, and volume bulb 7 is opened, and the test ball falls into spheroid turnover case 8.

The ball measuring tube inserting plate 12 comprises a horizontal main body, a vertical fixing plate 17 is arranged at the rear end of the horizontal main body, a mounting hole is formed in the vertical fixing plate 17 and used for being connected with a cylinder, and a water leakage hole is formed in the horizontal main body.

The utility model discloses other automatically controlled part, box, support part etc. belong to general structure, the utility model discloses still include corresponding control procedure, do not describe here any more.

The utility model discloses a with the quality testing of physics detection method application closestool, be inexistent on the existing market.

The diameter of the test ball is 19mm, the maximum accumulated error in the pitching pipe 3 is less than 5mm, so by utilizing the error, high-speed airflow is generated by the pneumatic fluid generating device 10, and in less than one second, one hundred balls can be driven into the pitching tank 4, the ball measuring blocking valve 11 is closed, air is supplied again, and the balls are quickly pitched and counted.

When the test ball is flushed out of the closestool, the test ball does not need to be dried, and the distance for the pressing plate to move downwards is larger than the preset standard qualified height by driving the magnetic induction switch of the air cylinder, so that the test ball is unqualified, and the influence of the water environment on production equipment is avoided.

The utility model discloses can realize selecting one hundred test balls automatically, drop into one hundred balls automatically, whether the test ball quantity of judging fast and rushing out is qualified, the quality of judging the product fast improves production efficiency.

Of course, the above-mentioned embodiments are only preferred examples of the present invention, and not intended to limit the scope of the present invention, so that all equivalent changes or modifications made by the structure, features and principles described in the claims of the present invention should be included in the claims of the present invention.

Claims (5)

1. Closestool bath detects automatic bowling device, its characterized in that: the ball suction pipe is connected to one end of the throwing-in measuring ball blocking valve, the other end of the throwing-in measuring ball blocking valve is connected with the suction end of the throwing-in pneumatic fluid generating device, the outlet end of the throwing-in pneumatic fluid generating device is connected with the ball throwing pipe, and the ball throwing pipe is connected with the ball inlet of the ball throwing tank.

2. The automatic ball-throwing device for toilet flushing detection according to claim 1, wherein: the ball suction pipe is connected with the suction end of the pneumatic fluid generating device for conveying, the outlet end of the pneumatic fluid generating device for conveying is connected with the measuring ball blocking valve through a first pipeline, and the other end of the measuring ball blocking valve for conveying is connected with one end of the measuring ball blocking valve for throwing through a metering pipeline.

3. The automatic ball-throwing device for toilet flushing detection according to claim 2, wherein: the inner diameter of the metering pipeline is matched with the inner diameter of the test ball.

4. The automatic ball-throwing device for toilet flushing detection according to claim 2, wherein: the first pipeline is provided with a plurality of hollow holes.

5. The automatic ball-throwing device for toilet flushing detection according to claim 2, wherein: the ball inlet of the ball throwing tank is provided with a ball inlet upper inserting plate; the bottom of the ball throwing tank is provided with a ball inlet lower inserting plate.

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