CN115435658B - Rubber dam bag height radian measuring device - Google Patents

Abstract

The invention discloses a rubber dam bag height radian measuring device which comprises a rubber dam, a mechanical height measuring device, an optical signal radian measuring device and an electrical signal radian measuring device, wherein the rubber dam is arranged on the electrical signal radian measuring device, the mechanical height measuring device is arranged on the rubber dam, the optical signal radian measuring device is arranged on the rubber dam, the rubber dam is arranged between the mechanical height measuring device and the optical signal radian measuring device, and the electrical signal radian measuring device is arranged between the mechanical height measuring device and the optical signal radian measuring device. The invention belongs to the technical field of rubber dam bag measurement, and particularly provides a rubber dam bag height radian measurement device which can check the height of a dam body at any time, can directly feed back when the height of the dam body is abnormal, and can measure and calculate the radian of the dam body to ensure the overflow rate.

Description

Rubber dam bag height radian measuring device

Technical Field

The invention belongs to the technical field of rubber dam bag measurement, and particularly relates to a height radian measurement device for a rubber dam bag.

Background

The rubber dam is a bag-type water-retaining dam made up by using high-strength synthetic fibre fabric as stress skeleton, coating rubber layer as protective layer, making it into adhesive tape, anchoring it on the base plate to form a closed dam bag and using water (gas) to inflate it by means of charging and discharging pipeline. The top of the dam can overflow, the height of the dam can be adjusted according to needs, and the upstream water level is controlled, so that the benefits of irrigation, power generation, shipping, flood control, moisture blocking and the like can be achieved.

However, in the prior art, the dam height measurement is still in the blank field, and only the comparison and estimation can be performed through the peripheral objects with known sizes, so that the accuracy is extremely poor, and thus, the difference between the working personnel and the size limit cannot be estimated, and the inestimable result is caused.

Disclosure of Invention

In order to solve the existing problems, the invention provides the rubber dam bag height radian measuring device which can check the height of the dam body at any time, can directly feed back when the height of the dam body is abnormal, and can measure the radian of the dam body to ensure the overflow rate, and the invention enables the weight of the rubber dam to be fed back through a reading display screen at the first time of change by arranging the electric signal radian measuring device, thereby solving the contradictory technical problem that workers cannot stand in water for a long time while monitoring the rubber dam at any time; the radian of the rubber dam can be easily measured by adopting an optical signal radian measuring device, and the radian of the rubber dam can be easily measured by matching with data such as mass, height and the like; the mechanical height measuring device is adopted, a firm mechanical structure is used, the lifting of the rubber dam is quantized, and workers can obtain the height size of the rubber dam through the device at any time.

The technical scheme adopted by the invention is as follows: the utility model provides a rubber dam bag height radian measuring device, includes rubber dam, mechanical type height measuring device, light signal radian measuring device and signal of telecommunication radian measuring device, the rubber dam is located on the signal of telecommunication radian measuring device, mechanical type height measuring device locates on the rubber dam, light signal radian measuring device locates on the rubber dam, the rubber dam is located between mechanical type height measuring device and the light signal radian measuring device, signal of telecommunication radian measuring device locates between mechanical type height measuring device and the light signal radian measuring device.

Further, signal of telecommunication radian measuring device includes rubber dam bearing base, positive electricity polar plate, negative electrode plate, light signal reception touch panel an and light signal reception touch panel b, rubber dam bearing base is located between mechanical type height measuring device and the light signal radian measuring device, inside rubber dam bearing base was located to the positive electricity polar plate, inside rubber dam bearing base was located to the negative electricity polar plate, light signal reception touch panel an is located on the rubber dam bearing base, light signal reception touch panel b is located on the rubber dam bearing base, on positive electricity polar plate located the negative electricity polar plate, positive electricity polar plate and negative electricity polar plate had constituted the parallel plate condenser.

Further, light signal radian measuring device includes rubber dam baffle, the fixed ear of motor, the fixed ear of lead screw, motor, lead screw, gag lever post c and laser emitter, the rubber dam baffle is located on the rubber dam, the fixed ear of motor is located on the rubber dam baffle, the fixed ear of lead screw is located on the rubber dam baffle, be equipped with the hole on the fixed ear of motor, the motor block is located in the hole, the lead screw is located on the output shaft of motor, the lead screw is located on the fixed ear of lead screw, gag lever post c is located between the fixed ear of motor and the fixed ear of lead screw, the laser emitter cover is located on lead screw and gag lever post c.

Further, mechanical type height measurement device includes baffle and height measurement main part, the baffle is located on the rubber dam, the height measurement main part is located on the baffle, be equipped with spacing hole of stroke and apopore on the baffle, the spacing hole of stroke is used for restricting the home range of height measurement main part, and the apopore is used for giving the inside water injection of rubber dam.

Further, the height measuring main body comprises a height device shell, a water pump, a voltmeter, a single chip microcomputer, a rubber dam pressing sheet, a limiting rod a, a limiting rod b, a limiting rod fixing frame, a washboard gear a, a pinion, a rotating shaft a, a gearwheel, a rotating shaft b, a washboard gear b and a pointer, the height device shell is arranged on a partition plate, the water pump is arranged inside the height device shell, the voltmeter is arranged inside the height device shell, the single chip microcomputer is arranged inside the height device shell, the rubber dam pressing sheet is arranged on the height device shell, the limiting rod fixing frame is arranged on the inner side wall of the height device shell, the limiting rod a is arranged inside the height device shell, the limiting rod a is arranged on the limiting rod fixing frame, and the limiting rod b is arranged inside the height device shell, the rubber dam pressure piece is characterized in that the limiting rod b is arranged on the limiting rod fixing frame, the washboard gear a is arranged on the rubber dam pressure piece, the pinion is arranged on the washboard gear a, the rotating shaft a is sleeved inside the pinion, the bull gear is arranged on the pinion, the rotating shaft b is sleeved inside the bull gear, the washboard gear b is arranged on the bull gear, the pointer is arranged on the washboard gear b, the rubber dam pressure piece is provided with a limiting hole a and a limiting hole b, the limiting rod a penetrates through the limiting hole a, the limiting rod b penetrates through the limiting hole b, the washboard gear a is provided with teeth a, the washboard gear b is provided with teeth b and a raised head, the teeth a, the pinion, the bull gear and the teeth b are meshed with each other, the pointer is arranged on the raised head, and the single chip microcomputer is Intel 80C51.

Further, be equipped with scale, pointer spout, reading display screen, light signal display screen and inlet opening on the high device shell, the scale is located on the high device shell lateral wall, the pointer spout is located on the high device shell, pointer spout below is located to the reading display screen, reading display screen below is located to the light signal display screen, the inlet opening is located on the high device shell, positive electrode plate, negative electrode plate, voltmeter, singlechip and reading display screen electricity are connected, and the voltmeter is used for detecting the voltage variation of electric capacity and presents on the reading display screen after the singlechip calculates, light signal reception touch panel an, light signal reception touch panel b and light signal display screen electricity are connected, and light signal reception touch panel an or light signal reception touch panel b can show corresponding numerical value on the light signal display screen after receiving the light signal, rubber dam, apopore, water pump and inlet opening pipe connection give the height of the inside water filling of rubber dam or drainage control rubber dam of rubber dam through water pump and business turn over water hole.

The invention with the structure has the following beneficial effects:

(1) Through setting up signal of telecommunication radian measuring device, make the weight of rubber dam just can feed back through reading display screen at the very first time of change, solved and had not only monitored the rubber dam at any time but also can not let the long-time contradictory technical problem who stands in the aquatic of staff.

(2) The radian of the rubber dam can be easily measured by adopting the optical signal radian measuring device, and the radian of the rubber dam can be easily measured by matching with data such as mass, height and the like.

(3) The mechanical height measuring device is adopted, a firm mechanical structure is used, the lifting of the rubber dam is quantized, and workers can obtain the height size of the rubber dam through the device at any time.

Drawings

FIG. 1 is a schematic structural diagram of a device for measuring the height and radian of a rubber dam bag according to the present invention;

FIG. 2 is a front view of a device for measuring the height and radian of a rubber dam bag according to the present invention;

FIG. 3 is an exploded view of a device for measuring the height and radian of a rubber dam bag according to the present invention;

FIG. 4 is a schematic structural diagram of the mechanical height measuring device of the present invention;

FIG. 5 is an exploded view of the mechanical height measuring device of the present invention;

FIG. 6 is an exploded view of the height measuring body of the present invention;

FIG. 7 is an exploded view of a portion of the height measuring body of the present invention;

FIG. 8 is a schematic view of the operation of the bull gear and the washboard gear b of the present invention;

FIG. 9 is an exploded view of the electrical signal arc measuring device of the present invention;

FIG. 10 is a schematic structural diagram of an optical signal radian measuring device of the present invention;

fig. 11 is an exploded view of the optical signal radian measuring device of the present invention.

Wherein, 1, a rubber dam, 2, a mechanical height measuring device, 3, an optical signal radian measuring device, 4, an electric signal radian measuring device, 5, a clapboard, 6, a height measuring main body, 7, a rubber dam baffle, 8, a motor fixing lug, 9, a screw rod fixing lug, 10, a motor, 11, a screw rod, 12, a limiting rod c,13, a laser transmitter, 14, a rubber dam bearing base, 15, a positive electrode plate, 16, a negative electrode plate, 17, optical signal receiving contact plates a,18, optical signal receiving contact plates b,19, a stroke limiting hole, 20 and a water outlet hole, 21, a height device shell, 22, a water pump, 23, a voltmeter, 24, a single chip microcomputer, 25, a rubber dam pressing sheet, 26, limiting rods a,27, limiting rods b,28, a limiting rod fixing frame, 29, washboard gears a,30, a pinion, 31, rotating shafts a,32, a bull gear, 33, rotating shafts b,34, washboard gears b,35, pointers, 36, holes, 37, scales, 38, pointer chutes, 39, a reading display screen, 40, an optical signal display screen, 41, a water inlet hole, 42, limiting holes a,43, limiting holes b,44, teeth a,45, a raised head, 46 and teeth b.

Detailed Description

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

As shown in fig. 1, fig. 2, fig. 3, a rubber dam bag height radian measuring device, including rubber dam 1, mechanical type height measuring device 2, light signal radian measuring device 3 and signal of telecommunication radian measuring device 4, rubber dam 1 is located on signal of telecommunication radian measuring device 4, mechanical type height measuring device 2 is located on rubber dam 1, light signal radian measuring device 3 is located on rubber dam 1, rubber dam 1 is located between mechanical type height measuring device 2 and the light signal radian measuring device 3, signal of telecommunication radian measuring device 4 is located between mechanical type height measuring device 2 and the light signal radian measuring device 3.

As shown in fig. 4 and 5, the mechanical height measuring device 2 includes a partition plate 5 and a height measuring main body 6, the partition plate 5 is disposed on the rubber dam 1, the height measuring main body 6 is disposed on the partition plate 5, and the partition plate 5 is provided with a stroke limiting hole 19 and a water outlet hole 20.

As shown in fig. 6, 7 and 8, the height measuring body 6 includes a height device housing 21, a water pump 22, a voltmeter 23, a single chip microcomputer 24, a rubber dam pressing sheet 25, a limiting rod a26, a limiting rod b27, a limiting rod fixing frame 28, a washboard gear a29, a pinion 30, a rotating shaft a31, a large gear 32, a rotating shaft b33, a washboard gear b34 and a pointer 35, the height device housing 21 is disposed on the partition board 5, the water pump 22 is disposed inside the height device housing 21, the voltmeter 23 is disposed inside the height device housing 21, the single chip microcomputer 24 is disposed inside the height device housing 21, the rubber dam pressing sheet 25 is disposed on the height device housing 21, the limiting rod fixing frame 28 is disposed on the inner side wall of the height device housing 21, the limiting rod a26 is disposed inside the height device housing 21, the limiting rod a26 is disposed on the limiting rod fixing frame 28, the limiting rod b27 is arranged inside the height device shell 21, the limiting rod b27 is arranged on a limiting rod fixing frame 28, the washboard gear a29 is arranged on the rubber dam pressing sheet 25, the pinion 30 is arranged on the washboard gear a29, the rotating shaft a31 is sleeved inside the pinion 30, the bull gear 32 is arranged on the pinion 30, the rotating shaft b33 is sleeved inside the bull gear 32, the washboard gear b34 is arranged on the bull gear 32, the pointer 35 is arranged on the washboard gear b34, a limiting hole a42 and a limiting hole b43 are arranged on the rubber dam pressing sheet 25, the limiting rod a26 penetrates through the limiting hole a42, the limiting rod b27 penetrates through the limiting hole b43, the washboard gear a29 is provided with teeth a44, the washboard gear b34 is provided with teeth b46 and a raised head 45, the teeth a44, the pinion 30, the bull gear 32 and the teeth b46 are mutually engaged, and the pointer 35 is arranged on the raised head 45.

As shown in fig. 6, the height device shell 21 is provided with a scale 37, a pointer chute 38, a reading display screen 39, an optical signal display screen 40 and a water inlet 41, the scale 37 is arranged on the outer side wall of the height device shell 21, the pointer chute 38 is arranged on the height device shell 21, the reading display screen 39 is arranged below the pointer chute 38, the optical signal display screen 40 is arranged below the reading display screen 39, the water inlet 41 is arranged on the height device shell 21, and the rubber dam 1, the water outlet 20, the water pump 22 and the water inlet 41 are connected through pipelines.

As shown in fig. 10 and fig. 11, the optical signal radian measuring device 3 includes a rubber dam baffle 7, a motor fixing lug 8, a screw fixing lug 9, a motor 10, a screw 11, a limiting rod c12 and a laser emitter 13, the rubber dam baffle 7 is disposed on the rubber dam 1, the motor fixing lug 8 is disposed on the rubber dam baffle 7, the screw fixing lug 9 is disposed on the rubber dam baffle 7, a hole 36 is disposed on the motor fixing lug 8, the motor 10 is engaged with and disposed in the hole 36, the screw 11 is disposed on an output shaft of the motor 10, the screw 11 is disposed on the screw fixing lug 9, the limiting rod c12 is disposed between the motor fixing lug 8 and the screw fixing lug 9, and the laser emitter 13 is sleeved on the screw 11 and the limiting rod c 12.

As shown in fig. 9, the electrical signal radian measuring device 4 includes a rubber dam bearing base 14, a positive electrode plate 15, a negative electrode plate 16, an optical signal receiving touch plate a17 and an optical signal receiving touch plate b18, the rubber dam bearing base 14 is disposed between the mechanical height measuring device 2 and the optical signal radian measuring device 3, the positive electrode plate 15 is disposed inside the rubber dam bearing base 14, the negative electrode plate 16 is disposed inside the rubber dam bearing base 14, the optical signal receiving touch plate a17 is disposed on the rubber dam bearing base 14, the optical signal receiving touch plate b18 is disposed on the rubber dam bearing base 14, the positive electrode plate 15 is disposed on the negative electrode plate 16, the positive electrode plate 15, the negative electrode plate 16, the voltmeter 23, the single chip microcomputer 24 and the reading display screen 39 are electrically connected, and the optical signal receiving touch plate a17, the optical signal receiving touch plate b18 and the optical signal display screen 40 are electrically connected.

When the device is used specifically, the device is installed in place, the rubber dam pressing sheet 25 is placed above the rubber dam 1, water is injected into the rubber dam 1 through the water inlet 41, the water pump 22 and the water outlet 20, therefore, the height of the rubber dam 1 can be changed as required, the water pump 22 is turned off after the rubber dam 1 reaches the required height, at the moment, the weight of the rubber dam 1 is pressed on the rubber dam bearing base 14, the positive electrode plate 15 moves downwards, the distance between the positive electrode plate 15 and the negative electrode plate 16 changes, as the formed capacitor is a circuit-breaking circuit, the charge quantity carried by the positive electrode plate 15 and the negative electrode plate 16 does not change, and as the distance between the positive electrode plate 15 and the negative electrode plate 16 is reduced, the relative dielectric constant, the relative area and the electrostatic force constant are not changed, the capacitance is increased, the voltage is reduced, at the moment, the singlechip 24 records the reading of the voltmeter 23, and displays the value on the reading display screen 39; the rubber dam 1 jacks up the rubber dam pressing sheet 25, the rubber dam pressing sheet 25 drives the washboard gear a29 to move upwards, the washboard gear a29 drives the pinion 30 to rotate, the pinion 30 drives the bull gear 32 to rotate in the opposite direction, the bull gear 32 drives the washboard gear b34 to move upwards, the washboard gear b34 drives the pointer 35 to move upwards similarly, and at the moment, the height of the rubber dam 1 is the reading of the scale 37 pointed by the pointer 35, so that the height value of the rubber dam 1 is obtained; the method comprises the steps of supplying energy to a laser emitter 13, starting a motor 10, driving a screw rod 11 to rotate by the motor 10, driving the laser emitter 13 to move horizontally by the screw rod 11, indicating that the laser emitter 13 is above the rubber dam 1 if laser emitted by the laser emitter 13 cannot be received by a light signal receiving touch panel a17 or a light signal receiving touch panel b18, indicating that the laser emitter 13 is on a vertical tangent line of the rubber dam 1 if the laser emitted by the laser emitter 13 is just received by the light signal receiving touch panel a17 or the light signal receiving touch panel b18, indicating that the laser emitter 13 is at the edge of the rubber dam 1, repeating the steps to calculate the width of the rubber dam 1, calculating the radian value of the rubber dam by using the width value and the height value, and finally displaying the radian value on a light signal display screen 40; the measurement of the height and curvature of the rubber dam 1 is completed at this time. If the rubber dam 1 is broken and water leakage occurs, the weight of the rubber dam 1 is reduced, the distance between the positive electrode plate 15 and the negative electrode plate 16 is increased, the formed capacitor is a circuit-breaking circuit, the charge quantity carried by the positive electrode plate 15 and the charge quantity carried by the negative electrode plate 16 are unchanged, the distance between the positive electrode plate 15 and the negative electrode plate 16 is increased, the relative dielectric constant, the relative area and the electrostatic force constant of a dielectric medium are unchanged, the capacitance is reduced, the voltage is increased, the singlechip 24 records the reading of the voltmeter 23 and displays the reading on the reading display screen 39, and therefore a worker can be warned that the rubber dam 1 is abnormal at the first time. Repeating the above steps when using the product for the second time.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should be able to conceive of the present invention without creative design of the similar structural modes and embodiments without departing from the spirit of the present invention, and all such modifications should fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a rubber dam bag height radian measuring device which characterized in that: including rubber dam (1), mechanical type height measurement device (2), light signal radian measurement device (3) and electric signal radian measurement device (4), rubber dam (1) is located on electric signal radian measurement device (4), mechanical type height measurement device (2) is located on rubber dam (1), light signal radian measurement device (3) is located on rubber dam (1), rubber dam (1) is located between mechanical type height measurement device (2) and light signal radian measurement device (3), electric signal radian measurement device (4) includes rubber dam bearing base (14), positive electrode plate (15), negative electrode plate (16), light signal reception touch panel a (17) and light signal reception touch panel b (18), rubber dam bearing base (14) is located between mechanical type height measurement device (2) and light signal measurement device (3), locate between rubber dam bearing base (14) and light signal reception touch panel (3), locate rubber dam bearing base (14) inside light signal radian measurement device (14) and light signal reception touch panel (14) on rubber dam bearing base (14) the light signal radian measurement device (14) is located between rubber dam bearing base (14) and light signal reception touch panel (14) is located on the rubber dam bearing base (14), on negative electrode plate (16) is located in positive electrode plate (15), light signal radian measuring device (3) includes rubber dam baffle (7), motor fixed ear (8), the fixed ear of lead screw (9), motor (10), lead screw (11), gag lever post c (12) and laser emitter (13), rubber dam baffle (7) are located on rubber dam (1), rubber dam baffle (7) is located in motor fixed ear (8), rubber dam baffle (7) is located in lead screw fixed ear (9), be equipped with hole (36) on the fixed ear of motor (8), hole (36) are located to motor (10) block, on the output shaft of motor (10) is located in lead screw (11), on lead screw fixed ear (9) is located in lead screw (11), between fixed ear of motor (8) and the fixed ear of lead screw (9) are located in gag lever post c (12), laser emitter (13) cover is located on lead screw (11) and gag lever post c (12), mechanical type height measuring device (2) includes that 5) and height measuring baffle (5) are equipped with on dam main part dam (5) and height measuring diaphragm (5) and dam main part (5), and height measuring diaphragm (20) are located in apopore (5) and dam (20) .

2. The device for measuring the height and radian of the rubber dam bag according to claim 1, wherein: the height measuring main body (6) comprises a height device shell (21), a water pump (22), a voltmeter (23), a single chip microcomputer (24), a rubber dam pressing sheet (25), a limiting rod a (26), a limiting rod b (27), a limiting rod fixing frame (28), a washboard gear a (29), a pinion (30), a rotating shaft a (31), a gear wheel (32), a rotating shaft b (33), a washboard gear b (34) and a pointer (35), wherein the height device shell (21) is arranged on a partition board (5), the water pump (22) is arranged inside the height device shell (21), the voltmeter (23) is arranged inside the height device shell (21), the single chip microcomputer (24) is arranged inside the height device shell (21), the rubber dam pressing sheet (25) is arranged on the height device shell (21), the limiting rod fixing frame (28) is arranged on the inner side wall of the height device shell (21), the limiting rod a (26) is arranged inside the height device shell (21), the limiting rod a (26) is arranged on the limiting rod b (27) and the limiting rod b (27) is arranged on the limiting rod pressing sheet (29 a) and the limiting rod b) is arranged on the rubber dam fixing frame (29 a, the improved washboard device is characterized in that the small gear (30) is arranged on a washboard gear a (29), the rotating shaft a (31) is sleeved inside the small gear (30), the large gear (32) is arranged on the small gear (30), the rotating shaft b (33) is sleeved inside the large gear (32), the washboard gear b (34) is arranged on the large gear (32), and the pointer (35) is arranged on the washboard gear b (34).

3. The device for measuring the height and radian of the rubber dam bag according to claim 2, wherein: the rubber dam pressure sheet (25) is provided with a limiting hole a (42) and a limiting hole b (43), the limiting rod a (26) penetrates through the limiting hole a (42), and the limiting rod b (27) penetrates through the limiting hole b (43).

4. The device for measuring the height and radian of the rubber dam bag according to claim 3, wherein: the washboard gear a (29) is provided with teeth a (44), the washboard gear b (34) is provided with teeth b (46) and a raised head (45), the teeth a (44), the pinion (30), the large gear (32) and the teeth b (46) are meshed with each other, and the pointer (35) is arranged on the raised head (45).

5. The device for measuring the height and radian of the rubber dam bag according to claim 4, wherein: be equipped with scale (37), pointer spout (38), reading display screen (39), light signal display screen (40) and inlet opening (41) on height device shell (21), scale (37) are located on height device shell (21) lateral wall, pointer spout (38) are located on height device shell (21), pointer spout (38) below is located in reading display screen (39), reading display screen (39) below is located in light signal display screen (40), inlet opening (41) are located on height device shell (21).

6. The device for measuring the height and radian of the rubber dam bag according to claim 5, wherein: positive electrode plate (15), negative electrode plate (16), voltmeter (23), singlechip (24) and reading display screen (39) electricity are connected, light signal reception touch panel a (17), light signal reception touch panel b (18) and light signal display screen (40) electricity are connected, rubber dam (1), apopore (20), water pump (22) and inlet opening (41) pipe connection.

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