CN116678474B - Printing ink consumption monitoring device and application method thereof - Google Patents

Abstract

The utility model discloses a printing ink consumption monitoring device and a using method thereof, and belongs to the field of ink detection. A printing ink consumption monitoring device comprising a detector; the detector comprises a vertically arranged detecting outer tube and a detecting inner tube longitudinally and hermetically connected in a sliding manner in the detecting outer tube; the lower part of the outer wall of the detection outer tube is rotationally connected with a swinging rod of which the rotating shaft is arranged along the horizontal direction; one end of the swing rod, which is far away from the axis, is fixedly connected with an elastic air bag; a rotating rod in transmission connection with the swinging rod is rotationally connected with the detecting outer tube; the upper end of the rotating rod extends to the upper part of the detecting inner tube; the upper end of the detection inner tube is fixedly connected with a dial; the upper end of the rotating rod is provided with an indicating plate which is matched with the dial plate so as to determine the rotating angle of the swinging rod; the whole volume of detector is little, and portable to the detector can insert the less ink tank of case mouth under accomodating the state, can not lead to the detector unable to put into the ink tank owing to the oversized volume of float.

Description

Printing ink consumption monitoring device and application method thereof

Technical Field

The utility model belongs to the field of ink detection, and particularly relates to a printing ink consumption monitoring device and a using method thereof.

Background

The patent number CN 212871396U discloses a gravure printing water-based ink consumption monitoring device, belongs to the technical field of printing equipment, and solves the problems of complex structure and high cost in the prior art. The ink box comprises an ink box, wherein an observation box is arranged on the ink box, the observation box is communicated with the ink box, a moving mechanism capable of converting lifting motion into horizontal motion is arranged between the observation box and the ink box, one end of the moving mechanism, which carries out lifting motion, is connected with a floating block, and one end of the moving mechanism, which carries out horizontal motion, is connected with a scale block for indicating ink consumption. According to the utility model, the liquid level is changed according to the ink consumption process, so that the floating block which can be changed along with the change of the liquid level is arranged, and then the lifting movement of the floating block is converted into the horizontal movement of the scale block by arranging the moving mechanism, so that the ink consumption is monitored; linear motion of the floating block and the scale block is guaranteed through the vertical limiting column and the horizontal limiting column, and large-amplitude bouncing cannot occur.

The detection device of the above patent is directly installed in the observation box, is inconvenient to clean the internal structure, and the observation box is large in size, inconvenient to carry and incapable of detecting different ink boxes.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a printing ink consumption monitoring device and a using method thereof, which can realize convenient carrying and storage and can be used for different ink boxes.

The utility model relates to a printing ink consumption monitoring device, which comprises a detector for detecting the ink liquid level; the detector comprises a vertically arranged detecting outer tube and a detecting inner tube longitudinally and hermetically connected in a sliding manner in the detecting outer tube; the lower part of the outer wall of the detection outer tube is rotationally connected with a swinging rod of which the rotating shaft is arranged along the horizontal direction; and one end, far away from the axis, of the swinging rod is fixedly connected with an elastic air bag.

The detection outer tube is rotationally connected with a rotating rod in transmission connection with the swinging rod; the upper end of the rotating rod extends to the upper part of the detecting inner tube; the upper end of the detection inner tube is fixedly connected with a dial; the upper end of the rotating rod is provided with an indicating plate which is matched with the dial plate so as to determine the rotating angle of the swinging rod.

The lower part of the outer wall of the detection outer tube is provided with a detection connecting column which is rotationally connected with the swinging rod; an air bag one-way valve which is communicated with the elastic air bag in one way from the outer detection pipe is arranged in the detection connecting column; and a detection air inlet valve which is communicated in one way from the outside to the inside of the detection inner pipe is arranged at the upper part of the outer wall of the detection inner pipe.

As a further improvement of the utility model, the swing rod is provided with a swing vent pipe communicated with the elastic air bag; a connecting column vent pipe for installing an air bag one-way valve is arranged on the detection connecting column; the side wall of the vent pipe is provided with an upward vent hole which is used for communicating the swing vent pipe with the air bag one-way valve; when the swing rod is vertically placed, the swing breather pipe is communicated with the air vent.

And an air leakage port which can be communicated with the outside and the swing vent pipe is arranged below the air vent on the outer wall of the detection connecting column.

When the air leakage opening is communicated with the swing breather pipe, the lower end of the elastic air bag is positioned below the air leakage opening, and the liquid level of the ink is lower than the air leakage opening.

As a further improvement of the utility model, a cleaning tank for cleaning the detector is also included; the cleaning box is internally provided with a cleaning mechanism for brushing the detector, a water spraying mechanism for spraying water to the detector and a reset mechanism for driving the detector to move to a storage state.

The reset mechanism comprises a sliding seat which is longitudinally connected in the cleaning box in a sliding way and is used for pressing down the detection inner tube.

The front side of the cleaning box is opened; the front side of the cleaning box is detachably connected with a cover plate for closing the opening; one end of the cover plate, which is close to the center of the cleaning box, is provided with elastic bulges which are vertically distributed and are used for extruding the detection air inlet valve so as to enable the detection inner pipe to be communicated with the outside.

As a further improvement of the utility model, a detection air inlet pipe is arranged at the upper part of the outer wall of the detection inner pipe; the detection air inlet valve comprises a valve pipe fixedly connected in the detection air inlet pipe in a sealing way, an air inlet valve ball which is connected in the valve pipe in a sliding way and can be in sealing contact with one end of the valve pipe far away from the center of the detection inner pipe, and an air inlet valve spring which is arranged between the air inlet valve ball and one end of the valve pipe close to the center of the detection inner pipe; the air inlet valve ball is provided with a valve ball supporting column extending to the outer side of the detection air inlet pipe; the elastic bulge can drive the valve ball to prop against the column to move towards the direction of the inner detection tube.

As a further improvement of the utility model, the cleaning mechanism comprises two coaxially arranged cleaning brushes rotatably connected in the cleaning tank; the cleaning brush rotating shaft is longitudinally arranged; one cleaning brush is rotatably connected to the inner wall of the lower side of the cleaning box, and the other cleaning brush is rotatably connected to the lower part of the sliding seat.

A plurality of brush plates which are uniformly distributed along the circumferential direction are arranged on the cleaning brush; a splicing groove is arranged between two adjacent brush plates; the brush plate of one cleaning brush is inserted into the inserting groove of the other cleaning brush.

The inner wall of the cleaning box is provided with a mounting seat for placing the detector; a synchronizing ring is coaxially arranged on the cleaning brush connected with the cleaning box; the cover plate is rotatably connected with a synchronizing wheel which can be propped against the synchronizing ring and the detector; the upper part of the rear side of the cleaning box is provided with a mounting box; and a motor for driving the cleaning brush to rotate is fixedly connected in the mounting box.

As a further improvement of the utility model, the mounting box is fixedly connected with a pump body for inflating the inner detection tube; the pump body comprises a pump shell fixedly connected in the mounting box, a piston longitudinally and hermetically connected in the pump shell in a sliding manner, and a driving turntable rotationally connected in the mounting box and used for driving the piston to move up and down.

The output shaft of the motor is longitudinally connected with a sliding gear in a sliding manner; the outer wall of the driving turntable is coaxially provided with a piston gear which can be meshed with the sliding gear; the cleaning gear which is in transmission connection with the cleaning brush is rotationally connected below the piston gear in the mounting box.

A longitudinal connecting plate driven by the gravity of the detector is longitudinally and slidably connected in the cleaning box; the longitudinal connecting plate and the cleaning gear longitudinally synchronously move.

The sliding gear is engaged with the piston gear when the probe is not installed in the cleaning tank.

When the detector is installed in the cleaning box, the sliding gear is meshed with the cleaning gear.

As a further improvement of the utility model, the reset mechanism also comprises a driving turntable which is rotatably connected with the rotating shaft of the inner wall of the cleaning box and is arranged along the front-back direction, a driven turntable which is rotatably connected with the inner wall of the cleaning box and is positioned below the driving turntable, and a driving belt which is sleeved between the driving turntable and the driven turntable.

The sliding seat is provided with driving sliding grooves distributed along the horizontal direction; the driving belt is provided with a driving column which is connected in the driving chute in a sliding way.

A speed change gear box in transmission connection with the motor is fixedly connected in the mounting box; the cleaning box is rotationally connected with a cleaning rotating shaft which is coaxially arranged with the cleaning brush and used for driving the cleaning brush to rotate; the cleaning rotating shaft is in transmission connection with the speed change gear box through a synchronous belt; the driving turntable is in transmission connection with the speed change gear box.

As a further improvement of the utility model, the water spraying mechanism comprises a water spraying pipe which is fixedly connected in the cleaning box and is longitudinally distributed, a lower sealing pipe which is fixedly connected in the cleaning box, and an upper sealing pipe which is hermetically and slidingly connected in the lower sealing pipe and is fixedly connected with the sliding seat.

A clear water tank is arranged at the rear side of the cleaning tank; the lower part of the outer wall of the lower sealing pipe is provided with a liquid inlet pipe one-way valve which is communicated with the inside of the lower sealing pipe in a one-way from the water tank; the upper part of the side wall of the upper sealing tube is provided with a liquid outlet tube one-way valve which is communicated with the water spraying tube in one way from the inside of the upper sealing tube; the side wall of the water spraying pipe is uniformly provided with water spraying ports along the longitudinal direction.

As a further improvement of the utility model, the lower end of the side wall of the water spray pipe is provided with a water inlet pipe communicated with a liquid outlet pipe one-way valve; a water baffle disc is longitudinally and hermetically connected in the water spray pipe in a sliding manner; the water spraying port above the water blocking disc can not spray water.

The outer wall of the water spraying pipe is longitudinally and slidably connected with a water blocking driving ring which longitudinally moves synchronously with the water blocking disk through magnetic force; the water blocking driving ring is positioned below the sliding seat; the outer wall of the water retaining driving ring is provided with a water retaining abutment plate extending to the upper part of the detector.

The upper part of the outer wall of the water spraying pipe is provided with a friction bulge for preventing the water retaining driving ring from moving downwards.

A method for using a printing ink consumption monitoring device is provided.

The detector is placed in the ink box, and the air outlet one-way valve is communicated with the detection air inlet pipe.

The motor drives the pump body to work and charges the detecting inner tube.

After the detection outer tube moves downwards relative to the detection inner tube to prop against the inner bottom of the ink box, the air bag one-way valve is conducted, and the elastic air bag is inflated.

The elastic air bag floats on the liquid level of the ink and displays the current liquid level through the dial and the indication plate;

after the ink liquid level is too low, the gas in the elastic air bag is discharged from the air leakage port;

the indicator plate is reversely rotated, the swinging rod moves to be vertical, and then the detector is placed into the cleaning box for cleaning.

Compared with the prior art, the utility model has the beneficial effects that: under the storage state, the inner detection tube is inserted into the outer detection tube, so that the overall height of the detector is lower, the swinging rod is vertically arranged, the elastic air bag is in a contracted state, the volume of the elastic air bag is small, the occupied space is reduced, the overall volume of the detector is small, the detector is convenient to store and carry, and the detector can be inserted into the ink box with a small box opening under the storage state, so that the detector cannot be placed into the ink box due to the overlarge volume of the floater.

According to the utility model, the detector is small in size in the storage state and convenient to store and carry by relatively sliding the detection outer tube and the detection inner tube, and the overall height of the detector is increased when the detection outer tube moves downwards relative to the detection inner tube, so that the detector can be adapted to ink tanks with different depths.

The utility model can increase the overall height of the detector by inflating the inner part of the detecting inner tube and move to the bottom in the ink box, and can inflate the elastic air bag so that the elastic air bag floats on the ink liquid surface.

The surface of the used detector is adhered with ink, and the detector can be cleaned by the cleaning box, so that the detector is convenient for secondary use.

The gravity of detector self is utilized to this scheme for when placing the detector in the clean incasement, motor drive cleaning mechanism and water spray mechanism work, clean the detector, when there is not the detector in the clean incasement, motor drive pump body work, aerify the detector.

According to the scheme, the sliding seat slides up and down, so that the sliding seat can drive the water spraying mechanism to spray water to the detector, and the inner detection pipe can be driven to move downwards, so that the detector is restored to the storage state.

The cleaning brush can clean the detector, and can also drive the detector to rotate together through the synchronous wheel to clean the detector deeply.

Drawings

FIG. 1 is a schematic diagram of a detector according to the present utility model;

FIG. 2 is a schematic diagram of an exploded view of the detector of the present utility model;

FIG. 3 is a schematic cross-sectional view of the elastic balloon of the present utility model as it expands;

fig. 4 is a schematic view of the structure of the present utility model when the venting port is in communication with the swing vent pipe.

Fig. 5 and 6 are schematic structural views of the cleaning tank of the present utility model.

FIG. 7 is a schematic view of a cleaning mechanism according to the present utility model.

Fig. 8 is a schematic structural view of the reset mechanism of the present utility model.

FIG. 9 is a schematic view of a water spraying mechanism according to the present utility model.

Fig. 10 is a schematic view of the structure of the present utility model when the elastic protrusion pushes the detecting air intake valve to open.

Fig. 11 is a schematic structural view of the air pump of the present utility model.

Fig. 12 is a schematic structural diagram of the synchronous ring of the present utility model when the synchronous ring drives the detector to rotate.

Fig. 13 is a schematic view of the structure of the sliding gear of the present utility model in the lower limit position.

The reference numerals in the figures illustrate:

A. a detector; 11. detecting an outer tube; 111. detecting a connecting column; 112. a vent; 113. an air vent; 12. detecting an inner tube; 121. a dial; 122. detecting an air inlet pipe; 13. detecting an air inlet valve; 131. a valve tube; 132. an intake valve spring; 133. an intake valve ball; 134. the valve ball is propped against the column; 14. an air bag valve ball; 141. an air bag spring; 21. an upper rotating rod; 211. an indication board; 22. a lower rotating rod; 221. face gears; 222. a lower support column; 23. a swinging rod; 231. a swing gear; 232. swinging the vent pipe; 24. an elastic air bag; 31. a storage box; 32. a sewage tank; 33. a cleaning tank; 331. a mounting base; 34. a mounting box; 35. a clean water tank; 36. a cover plate; 361. a synchronizing wheel; 362. an elastic protrusion; 4. a cleaning mechanism; 41. a cleaning brush; 411. brushing a plate; 412. brushing; 413. a synchronizing ring; 42. cleaning the rotating shaft; 43. a speed change gear box; 44. a synchronous belt; 45. cleaning the gear; 5. a water spraying mechanism; 51. an upper sealing tube; 511. a liquid outlet pipe one-way valve; 52. a lower sealing tube; 521. a liquid inlet pipe one-way valve; 53. a water spray pipe; 531. a water jet; 532. a water inlet pipe; 533. friction protrusions; 534. a stop protrusion; 54. a water blocking disc; 55. a water blocking drive ring; 551. a water retaining and resisting plate; 6. a reset mechanism; 61. a sliding seat; 611. driving the chute; 62. a drive belt; 621. a drive column; 63. a driving turntable; 64. a driven turntable; 71. a pump housing; 711. an air outlet one-way valve; 712. an air inlet one-way valve; 72. a piston; 721. a piston push rod; 73. a piston spring; 74. driving a turntable; 741. a driving inclined plane; 742. a piston gear; 81. a motor; 82. a sliding gear; 821. a gear connecting plate; 83. a longitudinal connecting plate; 831. a gear synchronization rack; 832. a lower pressing plate; 84. and a return spring.

Detailed Description

First embodiment: referring to fig. 1-13, a printing ink consumption monitoring device includes a detector a for detecting an ink level; the detector comprises a vertically arranged detecting outer tube 11 and a detecting inner tube 12 longitudinally and hermetically connected inside the detecting outer tube in a sliding manner; the lower part of the outer wall of the detection outer tube is rotatably connected with a swinging rod 23 with a rotating shaft arranged along the horizontal direction; the end of the swinging rod far away from the axis is fixedly connected with an elastic air bag 24.

The detection outer tube is rotationally connected with a rotating rod in transmission connection with the swinging rod; the upper end of the rotating rod extends to the upper part of the detecting inner tube; the upper end of the detection inner tube is fixedly connected with a dial 121; the upper end of the rotating rod is provided with an indicating plate 211 which is matched with the dial plate so as to determine the rotating angle of the swinging rod.

The lower part of the outer wall of the detection outer tube is provided with a detection connecting column 111 which is rotationally connected with the swinging rod; an air bag one-way valve which is communicated with the elastic air bag in one way from the outer detection pipe is arranged in the detection connecting column; the upper part of the outer wall of the detection inner tube is provided with a detection air inlet valve 13 which is communicated in a unidirectional way from the outside to the inside of the detection inner tube.

Under the storage state, the inner detection tube is inserted into the outer detection tube, so that the overall height of the detector is lower, the swinging rod is vertically arranged, the elastic air bag is in a contracted state, the volume of the elastic air bag is small, the occupied space is reduced, the overall volume of the detector is small, the detector is convenient to store and carry, and the detector can be inserted into the ink box with a small box opening under the storage state, so that the detector cannot be placed into the ink box due to the overlarge volume of the floater.

When external air enters the inner detecting tube through the air inlet detecting valve, the pressure between the inner detecting tube and the outer detecting tube increases, and the outer detecting tube is forced to move downwards relative to the inner detecting tube; after the outer detection tube is propped against the inner bottom of the ink box, the outer detection tube does not move any more, the pressure between the inner detection tube and the outer detection tube is continuously increased at the moment, the air bag one-way valve is further communicated, gas enters the elastic air bag, the elastic air bag expands, the drainage volume of the elastic air bag is further increased, the buoyancy of the ink on the elastic air bag is increased, and the expanded elastic air bag can float at the upper end of the ink liquid level.

Along with the reduction of the ink liquid level, the height of the elastic air bag is also reduced, so that the swinging rod rotates to the lower side, and the swinging rod drives the rotating rod to synchronously rotate, so that the indicating plate points to the corresponding scale on the dial.

The rotating rod comprises a lower rotating rod 22 rotatably connected to the lower end of the inner part of the detecting outer tube and an upper rotating rod 21 rotatably connected to the upper end of the inner part of the detecting inner tube; the upper rotating rod is internally provided with a rotating rod slot with a non-circular cross section sleeved with the lower rotating rod, so that the upper rotating rod and the lower rotating rod synchronously rotate in the circumferential direction and axially slide relatively.

The lower end of the lower rotating rod is positioned at the lower end of the detection outer tube and is connected with an end face gear 221 in a sealing and rotating manner; the swing lever outer circumference is coaxially provided with a swing gear 231 engaged with the face gear.

A swing vent pipe communicated with the elastic air bag is arranged on the swing rod; a connecting column vent pipe for installing an air bag one-way valve is arranged on the detection connecting column; the side wall of the vent pipe is provided with a vent 112 which is used for communicating the swing vent pipe with the opening of the air bag one-way valve upwards; when the swing rod is vertically placed, the swing breather pipe is communicated with the air vent.

The outer wall of the detection connecting column is positioned below the vent hole, and a gas leakage port 113 which can be communicated with the outside and the swing vent pipe is formed; the lower end of the lower rotating rod is provided with a lower support 222 extending to the lower part of the detection outer tube.

When the air leakage port is communicated with the swing breather pipe, the lower end of the elastic air bag is positioned below the air leakage port, the liquid level of the ink is lower than the air leakage port, at the moment, the air in the elastic air bag is discharged from the air leakage port under the elastic action of the elastic air bag, the elastic air bag is contracted, at the moment, the liquid level in the ink box is low, and the ink needs to be added into the ink box.

The air bag check valve comprises an air bag valve ball 14 positioned in the connecting column vent pipe and an air bag spring 141 arranged at one end of the air bag valve ball and the connecting column vent pipe far away from the center of the detection outer pipe; the air bag spring enables the air bag valve ball to be in sealing contact with one end, close to the center of the detection outer tube, of the connecting column vent pipe.

This scheme can be in the too low back automatic exhaust elasticity gasbag of printing ink liquid level gas, is convenient for take out the detector from the printing ink case in, avoids the detector to the follow-up operation of adding printing ink of printing ink case to produce the influence, also need not the gas in the extra action exhaust elasticity gasbag simultaneously.

A cleaning tank 33 for cleaning the detector; a storage box 31 for storing a plurality of detectors is arranged at one side of the cleaning box; the cleaning box is internally provided with a cleaning mechanism 4 for brushing the detector, a water spraying mechanism 5 for spraying water to the detector and a reset mechanism 6 for driving the detector to move to a storage state.

The reset mechanism comprises a sliding seat 61 which is longitudinally and slidably connected in the cleaning box and is used for pressing down the inner detection tube.

The front side of the cleaning box is opened; a cover plate 36 for closing the opening is detachably connected to the front side of the cleaning box; one end of the cover plate, which is close to the center of the cleaning box, is provided with elastic protrusions 362 which are vertically distributed and used for extruding the detection air inlet valve so as to enable the detection inner pipe to be communicated with the outside.

A detection air inlet pipe 122 is arranged at the upper part of the outer wall of the detection inner pipe; the detection air inlet valve comprises a valve pipe 131 which is fixedly connected in the detection air inlet pipe in a sealing way, an air inlet valve ball 133 which is connected in the valve pipe in a sliding way and can be in sealing contact with one end of the valve pipe far away from the center of the detection inner pipe, and an air inlet valve spring 132 which is arranged between the air inlet valve ball and one end of the valve pipe near the center of the detection inner pipe; the air inlet valve ball is provided with a valve ball supporting column 134 extending to the outer side of the detection air inlet pipe; the elastic bulge can drive the valve ball to prop against the column to move towards the direction of the inner detection tube.

When the used detector is placed in the cleaning box and the cover plate is mounted on the cleaning box, the elastic bulge abuts against the valve ball on the detection air inlet valve, so that the inside of the detection inner pipe is communicated with the outside, the sliding seat moves downwards at the moment, the sliding seat extrudes the detection inner pipe and drives the detection inner pipe to move downwards, and finally the detector is restored to a storage state.

The cleaning mechanism comprises two coaxially arranged cleaning brushes 41 rotatably connected in the cleaning tank; the cleaning brush rotating shaft is longitudinally arranged; one cleaning brush is rotatably connected to the inner wall of the lower side of the cleaning box, and the other cleaning brush is rotatably connected to the lower part of the sliding seat.

A plurality of brush plates 411 which are uniformly distributed along the circumferential direction are arranged on the cleaning brush; a splicing groove is arranged between two adjacent brush plates; the brush plate on one cleaning brush is inserted into the inserting groove on the other cleaning brush, so that the two cleaning brushes synchronously rotate along the circumferential direction and axially slide relatively; the brush plate is uniformly provided with bristles 412.

The sliding seat drives the two cleaning brushes to move axially relatively, so that the inner pipe moves downwards along with the driving of the sliding seat, one cleaning brush moves downwards synchronously, and then the two cleaning brushes are staggered, so that the surface of the detector is clean and more comprehensive, and the dead angle of cleaning is effectively reduced.

The inner wall of the cleaning box is provided with a mounting seat 331 for placing a detector; a synchronizing ring 413 is coaxially arranged on the cleaning brush connected with the cleaning box; the cover plate is rotatably connected with a synchronous wheel 361 which can be abutted against the synchronous ring and the detector; the upper part of the rear side of the cleaning box is provided with a mounting box 34; a motor 81 for driving the cleaning brush to rotate is fixedly connected in the mounting box.

And one end, close to the center of the cleaning box, of the cover plate is provided with a synchronous wheel rotating seat which is rotationally connected with the synchronous wheel.

Through setting up the synchronizing wheel for the cleaning brush rotates and can drive the synchronous rotation of detector, cleans each position of detector, and the rotation direction of detector and cleaning brush is the same simultaneously, and then the speed tangential direction of the position of detector and brush board contact is opposite, and the brush board is bigger to the cleaning dynamics of detector.

The mounting box is internally fixedly connected with a pump body for inflating the inner detection tube; the pump body comprises a pump shell 71 fixedly connected in a mounting box, a piston 72 longitudinally and hermetically connected in the pump shell in a sliding manner, and a driving turntable 74 rotatably connected in the mounting box and used for driving the piston to move up and down.

The upper end of the pump body is provided with an air outlet check valve 711 and an air inlet check valve 712 respectively; a piston spring 73 for driving the piston to move downwards is arranged between the pump body and the upper end of the piston; the periphery of the upper end of the driving turntable is provided with driving inclined planes 741 which are distributed in an inclined way; the lower end of the piston is provided with a piston push rod 721 which abuts against the driving inclined plane; the air outlet one-way valve is connected with a detection air inlet pipe of the detector through a hose; the hose is detachably connected with the detection air inlet pipe; when the driving turntable rotates, the piston push rod moves up and down along the driving inclined plane, so that the piston moves up and down synchronously, and outside air enters the pump shell through the air inlet one-way valve and is discharged from the air outlet one-way valve.

The output shaft of the motor is longitudinally and slidably connected with a sliding gear 82; the outer wall of the driving turntable is coaxially provided with a piston gear 742 capable of being meshed with the sliding gear; a cleaning gear 45 which is in transmission connection with the cleaning brush is rotatably connected below the piston gear in the mounting box; the sliding gear synchronously rotates along the circumferential direction relative to the output shaft of the motor and axially slides relatively.

A longitudinal connecting plate 83 driven by the gravity of the detector is longitudinally and slidably connected in the cleaning box; the longitudinal connecting plate and the cleaning gear longitudinally synchronously move; the upper end of the cleaning gear is provided with a cleaning clamping plate; the upper part of the longitudinal connecting plate is provided with a gear synchronous frame 831 which extends into the mounting box and is clamped with the cleaning clamping plate, so that the gear synchronous frame and the sliding gear longitudinally synchronously move and circumferentially and relatively slide; a lower pressing plate 832 which is propped against the lower end of the detector and moves downwards is arranged at the lower part of the longitudinal connecting plate; a return spring 84 for driving the lower pressure plate to move upwards is arranged between the lower pressure plate and the cleaning box.

When the detector is not installed in the cleaning box, the sliding gear is positioned at the upper limit position under the action of the return spring, and the sliding gear is meshed with the piston gear.

When the detector is arranged in the cleaning box, the detector enables the lower pressing plate to be located at the lower limit position, and then the sliding gear is located at the lower limit position and meshed with the cleaning gear.

The reset mechanism further comprises a driving turntable 63 which is rotatably connected with the rotating shaft of the inner wall of the cleaning box and arranged along the front-back direction, a driven turntable 64 which is rotatably connected with the inner wall of the cleaning box and is positioned below the driving turntable, and a driving belt 62 which is sleeved between the driving turntable and the driven turntable.

The sliding seat is provided with driving sliding grooves 611 distributed along the horizontal direction; the driving belt is provided with a driving column 621 which is connected in the driving chute in a sliding way.

A speed change gear box 43 in transmission connection with the motor is fixedly connected in the mounting box; a cleaning rotating shaft 42 which is coaxially arranged with the cleaning brush and used for driving the cleaning brush to rotate is rotationally connected to the cleaning box; the cross section of the cleaning rotating shaft is non-circular, and one end of the cleaning brush is provided with a rotating shaft slot which axially and relatively slides with the circumferential synchronous rotation of the cleaning rotating shaft; the cleaning rotating shaft is in transmission connection with the speed change gear box through a synchronous belt 44; the driving turntable is in transmission connection with the speed change gear box; a rotary table rotating shaft which is spliced with the speed change gear box is arranged in the center of the rear end of the driving rotary table; the cleaning gear is arranged at the lower end of the speed change gear box, when the cleaning gear rotates, the cleaning rotating shaft and the driving rotating disc rotate together through the speed change gear box, and the rotating speed of the driving rotating disc is smaller than that of the cleaning rotating shaft.

When the driving turntable drives the driving belt to move unidirectionally, the driving column drives the sliding seat to reciprocate up and down in the range of the driving belt.

The cleaning brush is rotated, so that the cleaning brush can drive the sliding seat to reciprocate up and down, and an additional power source is not needed to drive the sliding seat to move.

The water spraying mechanism comprises a water spraying pipe 53 which is fixedly connected in the cleaning box and longitudinally distributed, a lower sealing pipe 52 which is fixedly connected in the cleaning box, and an upper sealing pipe 51 which is hermetically and slidingly connected in the lower sealing pipe and fixedly connected with the sliding seat.

A clear water tank 35 is arranged at the rear side of the clear water tank; the lower part of the outer wall of the lower sealing pipe is provided with a liquid inlet pipe one-way valve 521 which is communicated with the inside of the lower sealing pipe in a one-way from the water tank; the upper part of the side wall of the upper sealing tube is provided with a drain tube one-way valve 511 which is communicated with the water spraying tube in one way from the inside of the upper sealing tube; the side wall of the spray pipe is uniformly provided with spray nozzles 531 along the longitudinal direction.

When the sliding seat drives the upper sealing pipe to move upwards, the volume between the upper sealing pipe and the lower sealing pipe is increased, and water in the clear water tank enters the lower sealing pipe through the liquid inlet pipe one-way valve; when the sliding seat drives the upper sealing pipe to move downwards, the volume between the upper sealing pipe and the lower sealing pipe is reduced, and water in the upper sealing pipe enters the water spraying pipe through the liquid outlet pipe one-way valve and is sprayed out of the water spraying pipe.

A water inlet pipe 532 communicated with the liquid outlet pipe one-way valve is arranged at the lower end of the side wall of the water spraying pipe; a water retaining disc 54 is longitudinally and hermetically connected in the water spraying pipe in a sliding manner; the water spraying port above the water blocking disc can not spray water.

The outer wall of the water spraying pipe is longitudinally and slidably connected with a water blocking driving ring 55 which longitudinally moves synchronously with the water blocking disk through magnetic force; the water blocking driving ring is positioned below the sliding seat; a first magnet is arranged in the water baffle disc; the inner wall of the water retaining driving ring is provided with a second magnet which is mutually attracted with the first magnet; the outer wall of the water retaining driving ring is provided with a water retaining abutment 551 extending to the upper part of the detector.

The upper part of the outer wall of the water spraying pipe is provided with a friction protrusion 533 for preventing the water blocking driving ring from moving downwards.

When the water retaining driving ring is contacted with the friction bulge, the water retaining driving ring cannot move downwards due to the friction force of the friction bulge, the water retaining driving ring is located at the upper limit position, the sliding seat moves downwards at the moment, the sliding seat abuts against the upper end of the water retaining driving ring and forces the water retaining driving ring to move downwards, after the water retaining driving ring moves downwards to be separated from the friction bulge, the water retaining driving ring moves to the water retaining abutting plate to abut against the detector under the action of self gravity, and then water spraying holes higher than the detector are free from spraying water, so that the waste of water is reduced, and the water utilization rate is improved.

A storage box 31 for storing the cleaned detector is arranged on one side of the cleaning box; the lower end of the cleaning tank is detachably connected with a sewage tank 32; a sewage outlet communicated with the sewage tank is arranged on the inner wall of the lower end of the cleaning tank; the upper part of the outer wall of the clean water tank is provided with a water injection port for adding clean water.

In the initial state of the cleaning tank, the sliding seat 61 is located at the upper limit position, clean water is arranged between the upper sealing pipe 51 and the lower sealing pipe 52, the water retaining driving ring 55 is contacted with the friction protrusion 533, and the water retaining disc is located at the upper limit position.

When detecting the ink level in the ink tank, a detector A is taken out from the storage tank 31, then the detection air inlet pipe 122 is connected with the air outlet check valve 711 through a hose, and the detector is inserted into the ink tank, and the dial is kept above the ink tank.

At this time, there is no detector in the cleaning tank 33, so the sliding gear 82 is located at the upper limit position, and the sliding gear is meshed with the piston gear 742; when the corresponding button is pressed, the motor 81 is operated, and drives the piston gear to rotate, and the piston 72 is reciprocated up and down by the driving inclined plane 741, and the outside air enters the inner tube 12 through the pump housing 71.

As the gas enters the detecting inner tube, the gas pressure between the detecting inner tube and the detecting outer tube is increased, and then the detecting outer tube gradually moves downwards; when the detecting outer tube moves to the position that the lower support 222 supports against the bottom in the ink box, the detecting outer tube does not move, and an operator still holds the detecting inner tube at the moment, so that the detecting inner tube does not move, the pressure in the detecting inner tube increases again, the air bag valve ball 14 is forced to move in the direction away from the center of the detecting outer tube, the detecting outer tube is communicated with the elastic air bag 24, and gas enters the elastic air bag through the swing vent pipe and the elastic air bag expands; when an operator senses that the detecting outer tube touches the bottom of the ink box for a certain time, the corresponding button is pressed, the motor stops working, and the elastic air bag is inflated.

Then the indicator plate is rotated forward by a certain angle, so that the upper rotating rod 21 and the lower rotating rod 22 synchronously rotate, and then the face gear 221 drives the swing gear 231 to rotate by a certain angle, and the swing rod drives the elastic air bag to deflect and float on the ink liquid surface under the action of gravity.

Along with the use of printing ink, printing ink liquid level offsets gradually, and the synchronous downward movement of elasticity gasbag along with the reduction of printing ink liquid level to drive face gear through the swing gear and rotate, and then the instruction board will rotate forward gradually along with the reduction of printing ink liquid level, and the different scale mark on the directional calibrated scale, and then indicate the height of current printing ink liquid level.

When the ink liquid level is lower than the set value, the corresponding indication plate points to the corresponding early warning position on the dial, the swing rod rotates to the swing breather pipe 232 to be communicated with the air leakage port 113, the air in the elastic air bag is discharged through the air leakage port, and the elastic air bag contracts.

After the operator observes that the indicator plate points to the early warning position, the operator reversely rotates the indicator plate, so that the swinging rod rotates to be vertical, and then the detector is taken out of the ink box.

Then, the cover plate 36 is opened, the used detector is placed on the mounting seat 331, the detector drives the lower pressing plate 832 to move to the lower limit position, and the longitudinal connecting plate drives the sliding gear to move downwards to the limit position, and the sliding gear is meshed with the cleaning gear 45.

The cover plate is reinstalled on the cleaning box, and the synchronous wheel 361 is respectively abutted against the synchronous ring 413 and the outer wall of the detector.

Then the corresponding button is pressed down, the motor works for a set time, in the process, the motor drives the cleaning gear 45 to rotate, and the cleaning gear drives the cleaning brush 41 and the driving turntable 63 to rotate through the speed change gear box; when the cleaning brush rotates, the brush hair rubs the surface of the detector to clean the detector, and meanwhile, the cleaning brush drives the detector to synchronously rotate along the circumferential direction through the synchronous ring 413 and the synchronous wheel 361 to further clean the detector; at the same time, the driving turntable rotates, the driving belt 62 works, and the driving post 621 drives the sliding seat 61 to gradually move downwards.

In the downward movement process of the sliding seat, the sliding seat presses down the water retaining driving ring 55 to separate the water retaining driving ring from the friction protrusion, and then the water retaining driving ring moves to the water retaining butt plate 551 to abut against the upper end of the detector under the action of self gravity, so that a water spray port higher than the detector is positioned above the water retaining disc, and water cannot be sprayed; simultaneously, the sliding seat drives the upper sealing pipe 51 to move downwards, so that the space between the upper sealing pipe and the lower sealing pipe 52 is reduced, and water between the upper sealing pipe and the lower sealing pipe 52 flows into the water spraying pipe 53 from the liquid outlet pipe one-way valve 511 and is sprayed out from the water spraying port 531 on the water spraying pipe to wet the detector; the sliding seat also drives a cleaning brush 41 to move downwards, so that the surface of the detector is further cleaned.

The cleaning brush and the water spraying pipe clean the detector along with the downward movement of the sliding seat, and the sliding seat drives the inner detecting pipe 12 of the detector to synchronously move downwards after the sliding seat moves downwards to be contacted with the upper end of the detector; when the inner detecting tube moves downwards, the space between the inner detecting tube and the outer detecting tube is reduced, the internal pressure is increased, but when the detector rotates circumferentially, the valve ball supporting column 134 is supported against the elastic bulge 362, so that the air inlet detecting valve is opened, and then the air in the inner detecting tube flows from the air inlet detecting valve to the outside due to the pressure, so that the air pressure in the inner detecting tube is restored to the standard atmospheric pressure; the above-mentioned process takes place repeatedly when the sliding seat drives the detection inner tube and moves down, finally makes the detection inner tube move down to accomodate the rotation, and the sliding seat is located below extreme position this moment.

Then the driving turntable continues to rotate, the sliding seat moves upwards to the upper limit position, and meanwhile, the upper sealing pipe moves upwards relative to the lower sealing pipe, so that water in the clean water tank 35 enters the lower sealing pipe from the liquid inlet pipe one-way valve 521, then the motor stops working, and after the detector is cleaned, sewage generated in the process flows into the sewage tank 32.

Then the cover plate is opened, the water retaining driving ring is slid upward to contact with the friction protrusions, the detector is taken out of the cleaning tank and placed in the storage tank, and simultaneously the return spring 84 drives the lower pressure plate 832 to move upward to the upper limit position, the sliding gear is meshed with the piston gear 742, and the cleaning tank is restored to the original state.

Claims (6)

1. A printing ink consumption monitoring device comprises a detector for detecting the ink liquid level; the method is characterized in that: the detector comprises a vertically arranged detecting outer tube and a detecting inner tube longitudinally and hermetically connected in a sliding manner in the detecting outer tube; the lower part of the outer wall of the detection outer tube is rotationally connected with a swinging rod of which the rotating shaft is arranged along the horizontal direction; an elastic air bag is fixedly connected to one end, far away from the axis, of the swing rod;

the detection outer tube is rotationally connected with a rotating rod in transmission connection with the swinging rod; the upper end of the rotating rod extends to the upper part of the detecting inner tube; the upper end of the detection inner tube is fixedly connected with a dial; the upper end of the rotating rod is provided with an indicating plate which is matched with the dial plate so as to determine the rotating angle of the swinging rod;

the lower part of the outer wall of the detection outer tube is provided with a detection connecting column which is rotationally connected with the swinging rod; an air bag one-way valve which is communicated with the elastic air bag in one way from the outer detection pipe is arranged in the detection connecting column; the upper part of the outer wall of the detection inner tube is provided with a detection air inlet valve which is communicated in one way from the outside to the inside of the detection inner tube;

the cleaning box is used for cleaning the detector; the cleaning box is internally provided with a cleaning mechanism for brushing the detector, a water spraying mechanism for spraying water to the detector and a reset mechanism for driving the detector to move to a storage state;

the reset mechanism comprises a sliding seat which is longitudinally connected in the cleaning box in a sliding way and is used for pressing down the detection inner tube;

the front side of the cleaning box is opened; the front side of the cleaning box is detachably connected with a cover plate for closing the opening; an elastic bulge which is vertically distributed and used for extruding the detection air inlet valve and further enabling the detection inner pipe to be communicated with the outside is arranged at one end, close to the center of the cleaning box, of the cover plate;

the cleaning mechanism comprises two coaxially arranged cleaning brushes which are rotatably connected in the cleaning box; the cleaning brush rotating shaft is longitudinally arranged; one cleaning brush is rotatably connected to the inner wall of the lower side of the cleaning box, and the other cleaning brush is rotatably connected to the lower part of the sliding seat;

a plurality of brush plates which are uniformly distributed along the circumferential direction are arranged on the cleaning brush; a splicing groove is arranged between two adjacent brush plates; the brush plate of one cleaning brush is inserted into the inserting groove of the other cleaning brush;

the inner wall of the cleaning box is provided with a mounting seat for placing the detector; a synchronizing ring is coaxially arranged on the cleaning brush connected with the cleaning box; the cover plate is rotatably connected with a synchronizing wheel which can be propped against the synchronizing ring and the detector; the upper part of the rear side of the cleaning box is provided with a mounting box; a motor for driving the cleaning brush to rotate is fixedly connected in the mounting box;

the mounting box is internally fixedly connected with a pump body for inflating the inner detection tube; the pump body comprises a pump shell fixedly connected in the mounting box, a piston longitudinally and hermetically connected in the pump shell in a sliding manner, and a driving turntable rotationally connected in the mounting box and used for driving the piston to move up and down;

the output shaft of the motor is longitudinally connected with a sliding gear in a sliding manner; the outer wall of the driving turntable is coaxially provided with a piston gear which can be meshed with the sliding gear; a cleaning gear in transmission connection with the cleaning brush is rotationally connected below the piston gear in the mounting box;

a longitudinal connecting plate driven by the gravity of the detector is longitudinally and slidably connected in the cleaning box; the longitudinal connecting plate and the cleaning gear longitudinally synchronously move;

when the detector is not installed in the cleaning box, the sliding gear is meshed with the piston gear;

when the detector is installed in the cleaning box, the sliding gear is meshed with the cleaning gear.

2. A printing ink consumption monitoring apparatus according to claim 1, wherein: a swing vent pipe communicated with the elastic air bag is arranged on the swing rod; a connecting column vent pipe for installing an air bag one-way valve is arranged on the detection connecting column; the side wall of the vent pipe is provided with an upward vent hole which is used for communicating the swing vent pipe with the air bag one-way valve; when the swing rod is vertically placed, the swing vent pipe is communicated with the vent port;

the outer wall of the detection connecting column is positioned below the vent hole, and a gas leakage port capable of communicating the outside with the swing vent pipe is formed;

when the air leakage opening is communicated with the swing breather pipe, the lower end of the elastic air bag is positioned below the air leakage opening, and the liquid level of the ink is lower than the air leakage opening.

3. A printing ink consumption monitoring apparatus according to claim 1, wherein: the upper part of the outer wall of the detection inner tube is provided with a detection air inlet tube; the detection air inlet valve comprises a valve pipe fixedly connected in the detection air inlet pipe in a sealing way, an air inlet valve ball which is connected in the valve pipe in a sliding way and can be in sealing contact with one end of the valve pipe far away from the center of the detection inner pipe, and an air inlet valve spring which is arranged between the air inlet valve ball and one end of the valve pipe close to the center of the detection inner pipe; the air inlet valve ball is provided with a valve ball supporting column extending to the outer side of the detection air inlet pipe; the elastic bulge can drive the valve ball to prop against the column to move towards the direction of the inner detection tube.

4. A printing ink consumption monitoring apparatus according to claim 1, wherein: the reset mechanism further comprises a driving turntable which is rotatably connected with a rotating shaft on the inner wall of the cleaning box and arranged along the front-back direction, a driven turntable which is rotatably connected with the inner wall of the cleaning box and is positioned below the driving turntable, and a driving belt which is sleeved between the driving turntable and the driven turntable;

the sliding seat is provided with driving sliding grooves distributed along the horizontal direction; the driving belt is provided with a driving column which is connected in the driving chute in a sliding way;

a speed change gear box in transmission connection with the motor is fixedly connected in the mounting box; the cleaning box is rotationally connected with a cleaning rotating shaft which is coaxially arranged with the cleaning brush and used for driving the cleaning brush to rotate; the cleaning rotating shaft is in transmission connection with the speed change gear box through a synchronous belt; the driving turntable is in transmission connection with the speed change gear box.

5. A printing ink consumption monitoring apparatus according to claim 1, wherein: the water spraying mechanism comprises a water spraying pipe fixedly connected in the cleaning box and longitudinally distributed, a lower sealing pipe fixedly connected in the cleaning box, and an upper sealing pipe fixedly connected with the sliding seat and hermetically and slidably connected in the lower sealing pipe;

a clear water tank is arranged at the rear side of the cleaning tank; the lower part of the outer wall of the lower sealing pipe is provided with a liquid inlet pipe one-way valve which is communicated with the inside of the lower sealing pipe in a one-way from the water tank; the upper part of the side wall of the upper sealing tube is provided with a liquid outlet tube one-way valve which is communicated with the water spraying tube in one way from the inside of the upper sealing tube; the side wall of the water spraying pipe is uniformly provided with water spraying ports along the longitudinal direction.

6. A printing ink consumption monitoring apparatus according to claim 5, wherein: a water inlet pipe communicated with the liquid outlet pipe one-way valve is arranged at the lower end of the side wall of the water spraying pipe; a water baffle disc is longitudinally and hermetically connected in the water spray pipe in a sliding manner; the water spraying port above the water blocking disc can not spray water;

the outer wall of the water spraying pipe is longitudinally and slidably connected with a water blocking driving ring which longitudinally moves synchronously with the water blocking disk through magnetic force; the water blocking driving ring is positioned below the sliding seat; the outer wall of the water retaining driving ring is provided with a water retaining abutment plate extending to the upper part of the detector;

the upper part of the outer wall of the water spraying pipe is provided with a friction bulge for preventing the water retaining driving ring from moving downwards.