CN114370745A - Image data processing mechanism for industrial automatic processing - Google Patents

Abstract

The invention provides an image data processing mechanism for industrial automatic processing, which comprises: dampproofing subassembly, both ends position fixed mounting has the dampproofing subassembly that can prevent the humidity about the left and right sides surface of main part, and dampproofing subassembly is including: the water-absorbing device comprises a left shell, a right shell, a flow guide component capable of guiding the flow direction of water and a discharging component capable of discharging water-absorbing materials; the left shell is fixedly installed at the upper end and the lower end of the outer surface of the left side and the right side of the main body, the appearance of the left shell is in an internal hollow inverted letter 'F' shape on a longitudinal section, an opening is formed in the top end of the left shell, and the front end and the rear end of the left shell are in a fully-closed shape. The image data processing mechanism for industrial automatic processing can enable the main body to have a moisture-proof function, so that even when the image data processing mechanism is placed in a humid environment for use, water vapor in the air is not easy to condense and flow down between the transmission shaft and the coupler below the main body, the water can be timely cleaned, and the normal operation of the image data processing mechanism is guaranteed.

Description

Image data processing mechanism for industrial automatic processing

Technical Field

The invention relates to the technical field of industrial automation, in particular to an image data processing mechanism for industrial automation processing.

Background

The business turn over of product is considered in traditional image data processing mechanism when the design, often adopt top and left and right sides shading to handle, however because the angle and the intensity of sunshine are different at different time quantum, the both sides of not carrying out shading and handling when being shone by sunlight, cause the influence to image data processing mechanism's self light source easily, make it take place the not clear phenomenon of image data processing when using, cause the influence to subsequent automated processing, simultaneously because the regional dust of partial automated processing is great and personnel can't get into when equipment uses, lead to the unable clearance of a large amount of dust of image data processing mechanism's image collection mechanism amasss, make image data processing take place the deviation.

Aiming at the problems, regarding the technical problems that the traditional image data processing mechanism generates processing deviation due to sunshine and cannot clean dust of an image collecting mechanism in time to cause deviation, through a large amount of search, the image data processing mechanism for industrial automatic processing with the patent number of CN202010913448.8 is inquired, and comprises a coupler, wherein the left side of the coupler is movably connected with a transmission shaft, the top of the transmission shaft is movably connected with a rotating shaft, the middle of the rotating shaft is fixedly connected with a cleaning gear, the left side of the cleaning gear is movably connected with a rotating gear, the left side of the rotating gear is fixedly connected with a brush, the top of the cleaning gear is movably connected with a shading shaft, the outer part of the shading shaft is movably connected with shading cloth, a compression jacking cylinder is moved leftwards through a pressure block, air in the jacking cylinder is compressed to generate pressure to enable the coupler to ascend, and the coupler is ejected out of a roller and the meshing area of the transmission shaft, at the moment, the transmission shaft does not rotate any more, and after the transmission shaft stops rotating, the shading cloth stretches downwards due to the gravity of the transmission shaft, so that the effect of automatically shading when a product enters the image data processing mechanism is achieved.

However, the technical scheme provided by the patent does not have a moisture-proof function for the main body, when the image data processing mechanism is placed in a humid environment for use, water vapor in the air is easy to adhere to the surface of the main body, is easy to condense and flow down between the transmission shaft and the coupler under the main body after being accumulated for a long time, and can also influence the operation of the image data processing mechanism if the image data processing mechanism is not cleaned in time, so that the technical problem of unclear image data processing is further caused.

Disclosure of Invention

The present invention is directed to solve the technical problems of the background art, and provides an image data processing mechanism for industrial automation processing.

In order to achieve the purpose, the invention provides the following technical scheme: an image data processing mechanism for industrial automated processing, comprising:

the lifting device comprises a main body, wherein closed cylinders are fixedly arranged in the middle positions of two ends of the top and the bottom of the main body, pneumatic blocks are movably connected to the left side and the right side of each closed cylinder, a lifting mechanism is fixedly arranged in the center position of the main body, springs are fixedly connected to the outer surface of one side of each pneumatic block, couplers are fixedly arranged at the four corners of the main body, one side of each coupler is movably connected with a transmission shaft, and one end of each transmission shaft is movably connected with a rotating shaft;

dampproofing subassembly, both ends position fixed mounting has the dampproofing subassembly that can prevent the humidity about the left and right sides surface of main part, dampproofing subassembly is including: the water-absorbing device comprises a left shell, a right shell, a flow guide component capable of guiding the flow direction of water and a discharging component capable of discharging water-absorbing materials;

the left shell is fixedly arranged at the upper end and the lower end of the outer surface of the left side and the right side of the main body, the appearance of the left shell is in an inverted letter 'F' shape with a hollow interior on a longitudinal section, an opening is formed in the top end of the left shell, the front end and the rear end of the left shell are in a fully closed state, and the left shell is made of copper;

the left shell is fixedly provided with a right shell at the tail end, the appearance of the right shell is in an oval shape with a hollow interior on a longitudinal section, the top end and the middle lower part of the left end of the right shell are respectively provided with an inlet and an outlet in an inclined manner, the outer surface of the left middle end of the right shell is fixedly connected with the outer surface of the right middle end of the left shell, the outer surface of the left middle end of the bottom side of the right shell is fixedly connected with the outer surface of the right bottom end of the left shell, the front end and the rear end of the right shell are also in a fully closed shape, the middle part of the bottom end of the right shell is provided with an outlet hole which penetrates up and down, a sealing block is movably arranged at the outlet hole, the appearance of the sealing block is in a shape of inverted letter 'T' on a longitudinal section, and the sealing block is in a state of tightly blocking the outlet hole under normal conditions;

a flow guide assembly is movably arranged from the upper left end to the middle inner end of the right shell;

and a discharging assembly is movably arranged at the right upper end inside the right shell.

Further preferred embodiments: the water conservancy diversion subassembly including:

go up the chute, the left side upper end surface fixed mounting of right side shell has last chute, the outward appearance of going up the chute is inside cavity, the arc strip shape that runs through end to end on a longitudinal section, the bottom side surface of going up the chute with the left side upper end surface fixed connection of right side shell, the left end bottom entry of going up the chute is in the horizontal direction middle-end inner wall right-hand member top position of left side shell, the right-hand member top export of going up the chute is closely adjacent the top entry position of right side shell.

Further preferred embodiments: the water conservancy diversion subassembly is still including:

the lower chute, the right-hand member top tail end position who goes up the chute runs through fixed mounting and has the chute, the outward appearance of chute is inside cavity, end to end run through and personally submits the long straight plate shape of 61 contained angles with the level on a longitudinal section, the right-hand member prelude entry of chute with the mutual butt joint of the right-hand member top export of going up the chute runs through, the right-hand member top fixed mounting of chute in the top entry of right side shell, the left end afterbody export of chute is located the left inner wall middle-end position of right side shell.

Further preferred embodiments: the water conservancy diversion subassembly is still including:

the rotating shaft is rotatably arranged at the left position of the center inside the right shell in the front-back horizontal direction, and the front end and the back end of the rotating shaft are rotatably arranged at the left position of the center of the front inner wall and the back inner wall of the right shell;

the board turns on a left side, the left side surface of pivot encircles fixed mounting and has the board of turning on a left side, the left side surface of the board of turning on a left side under normal conditions with the static laminating of end surface in the left inner wall of right side shell, the top side left end tail surface of the board of turning on a left side under normal conditions with the static laminating of left end tail export of underflow groove.

Further preferred embodiments: the water conservancy diversion subassembly is still including:

the board turns to the right side, the right side surface of pivot encircles fixed mounting and has the board that turns to the right side, the board that turns to the right side with the board that turns to the left side is in the static balanced state of level under the normal condition, the right side surface of the board that turns to the right side under the normal condition with the static laminating of end surface in the right inner wall of right side shell, the board that turns to the right side about length be longer than the board that turns to the left side length about, the board that turns to the right side has magnetism.

Further preferred embodiments: the water conservancy diversion subassembly is still including:

the outer surface of the tail part of the right end of the top side of the right rotating plate is fixedly provided with an inserting block.

Further preferred embodiments: the ejection of compact subassembly including:

the fixed plate, the right inner wall upper end position slant fixed mounting of right side shell has the fixed plate, the contained angle of fixed plate with the horizontal plane is 30, the fixed plate have with the different magnetism of board is changeed to the right side, the well inclined to the right-hand member position slant of fixed plate is seted up the jack that runs through from top to bottom, the jack can with the inserted block butt joint, the fixed plate thickness is less than the upper and lower height of inserted block.

Further preferred embodiments: the discharging component also comprises:

the limiting plate, the oblique right-hand member position slant fixed mounting in the top inner wall of right side shell has the limiting plate, the outward appearance of limiting plate is left protruding right concave arc strip shape on a longitudinal section, the bottom afterbody orientation of limiting plate there is the interval between the top side left end afterbody internal surface of fixed plate and the two.

Further preferred embodiments: the discharging component also comprises:

the air bag is embedded between the inner surface of the right side of the limiting plate from the top to the bottom, the inner surface of the tail part of the left end to the right end of the top side of the fixing plate and the upper end surface of the right inner wall of the right shell, a distance exists between the outer surface of the top side of the air bag and the included angle position of the right inner wall of the right shell and the top end of the inner surface of the limiting plate under the normal condition, and quicklime powder is pre-installed in the inner position of the air bag.

Further preferred embodiments: the discharging component also comprises:

the point awl, the right side internal surface top of limiting plate with the right inner wall contained angle position fixed mounting of right side shell has the point awl, the outward appearance of point awl is the four pyramid cones that fall, the bottom point portion of point awl with under normal conditions there is the distance between the top side surface of gasbag.

Has the advantages that:

1. according to the image data processing mechanism for industrial automatic processing, by arranging the moisture-proof assembly and utilizing the siphon, lever and negative pressure principles, after condensed water vapor adhered to the outer sides of the left side and the right side of the main body flows down, the water vapor firstly falls into the upper end area inside the main shell of the moisture-proof assembly and is successively collected in advance, and then under the action of the siphon principle, the pre-collected water is guided into the right shell through the flow guide assembly of the moisture-proof assembly; then under the action of a lever principle, the flow guide assembly moves, so that the introduced water is led out to the bottom end of the right shell and the lower end of the left shell and collected; then under the action of a negative pressure principle, a discharging component of the moisture-proof component deforms, water-absorbing materials pre-installed in the discharging component are led out and then are distributed into the bottom end of the right shell and the lower end of the left shell through the flow guide component, water previously falling and collected is absorbed, high-temperature heat is released at the same time, and water vapor adhered to the left side and the right side of the main body is dried through the left shell made of copper; therefore, under the continuous cooperation action of the plurality of moisture-proof components, moisture can be prevented;

2. according to the image data processing mechanism for industrial automatic processing, by arranging the flow guide assembly and utilizing the siphon and lever principles, when water vapor is not adhered to the outer sides of the left side and the right side of the main body, the outer surface of the left side of the left rotating plate of the flow guide assembly is statically attached to the middle end surface of the left inner wall of the right shell, and the outer surface of the left end and the tail part of the top side of the flow guide assembly is statically attached to the outlet of the left end and the tail part of the lower flow groove; the right rotating plate and the left rotating plate of the flow guide assembly are in a horizontal static balance state, and the outer surface of the right side of the flow guide assembly is statically attached to the middle end surface of the right inner wall of the right shell; when water vapor adheres to the outside of the left side and the right side of the main body, the state can be gradually broken, namely, when the water vapor adhered and condensed falls into the upper end area inside the main shell and is successively collected in advance, the water vapor can overflow the left end bottom inlet of the upper launder of the diversion assembly, and under the action of the siphon principle, the water vapor is guided to the right end head inlet of the lower launder of the diversion assembly from bottom to top and from left to right through the left end bottom inlet of the upper launder and then guided out from right to left and from top to bottom through the left end tail outlet of the lower launder; under the action of a lever principle, the guided water falls to the tail area of the left end of the left rotating plate, so that the water rotates anticlockwise downwards, and then part of the water is guided to the bottom end of the inside of the right shell to be collected, and the other part of the water is guided to the lower end of the left shell to be collected through an outlet at the lower middle part of the left end of the right shell; simultaneously, the right rotating plate is driven to rotate upwards anticlockwise so that the insertion block on the right rotating plate is upwards and gradually close to the discharging assembly, and the discharging assembly is triggered to release the water absorbing material to absorb water in the subsequent process; therefore, the water flow direction is guided, and moisture resistance is facilitated;

3. according to the image data processing mechanism for industrial automatic processing, the discharging assembly is arranged, and by utilizing a negative pressure principle, when water vapor is not adhered to the outer sides of the left side and the right side of the main body, the vertically-penetrating insertion hole obliquely formed in the middle-to-right end of the fixing plate of the discharging assembly is not butted with the insertion block of the flow guide assembly; the air bag of the discharging assembly is in a natural expansion undeformed state, the top side outer surface of the air bag is spaced between the top end of the right side inner surface of the limiting plate of the discharging assembly and the included angle position of the right inner wall of the right shell, and the water-absorbing material with quicklime powder as the component in the air bag does not overflow; a distance exists between the tip part of the bottom end of the pointed cone of the discharging assembly and the outer surface of the top side of the air bag; but when water vapor is adhered to the left side and the right side of the main body, the state can be gradually broken, namely when the inserting block on the right rotating plate is upwards and gradually close to the discharging assembly as described above, the inserting block can be finally inserted into the inserting hole of the fixing plate, at the moment, the top end of the inserting block extrudes the bottom end of the air bag, under the action of the negative pressure principle, the top end of the air bag is contacted with the tip part at the bottom end of the pointed cone and is punctured by the pointed cone, so that the quicklime powder in the air bag flows out to the right rotating plate through the interval between the tail part at the bottom end of the limiting plate and the inner surface at the tail part at the left end at the top side of the fixing plate, and is divided into the bottom end of the right shell and the lower end of the left shell through the tail part of the left end of the left rotating plate after sliding down from right to left and from top to bottom, absorbing the previously fallen water to enable the water in the left shell to contact with the quicklime powder to generate high-temperature heat, and drying the water on the left side and the right side of the main body through the left shell; therefore, the water absorption materials are discharged, and moisture resistance is facilitated;

4. in conclusion, this kind of an image data processing mechanism for industrial automation processing through the combined action of dampproofing subassembly, water conservancy diversion subassembly and ejection of compact subassembly etc. can make the main part possess dampproofing function, and when this image data processing mechanism was arranged in the humid environment and is used, the steam in the air was also difficult for condensing and flows down to between transmission shaft and the shaft coupling under the main part, can in time clear up moisture, has guaranteed image data processing mechanism's normal operating.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional perspective view of the moisture barrier assembly of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 2B according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 at C according to the present invention;

FIG. 6 is a schematic perspective cross-sectional view of the moisture barrier assembly of the present invention with the diversion assembly and the exit assembly in an active position;

FIG. 7 is an exploded perspective cut-away view of the moisture barrier assembly of the present invention;

in FIGS. 1-7: 1-a body; 2-sealing the cylinder; 3-a pneumatic block; 4-a lifting mechanism; 5-a spring; 6-a coupler; 7-a transmission shaft; 8-a rotating shaft; 9-a moisture barrier component; 10-left shell; 11-right shell; 12-a sealing block; 13-a flow guide assembly; 14-a discharge assembly; 15-an upper launder; 16-a downcomer; 17-a rotating shaft; 18-left turn plate; 19-a right turn plate; 20-inserting blocks; 21-fixing the plate; 22-a limiting plate; 23-air bag; 24-pointed cone.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiment of the present invention.

Example 1

Referring to fig. 1-2, in an embodiment of the present invention, an image data processing mechanism for industrial automation processing includes:

the device comprises a main body 1, wherein closed cylinders 2 are fixedly arranged in the middle positions of the top and bottom ends of the main body 1, pneumatic blocks 3 are movably connected to the left and right sides of each closed cylinder 2, a lifting mechanism 4 is fixedly arranged in the center position of the main body 1, springs 5 are fixedly connected to the outer surfaces of one sides of the pneumatic blocks 3, couplers 6 are fixedly arranged at the four corners of the main body 1, a transmission shaft 7 is movably connected to one side of each coupler 6, and a rotating shaft 8 is movably connected to one end of each transmission shaft 7;

dampproofing subassembly 9, both ends position fixed mounting has the dampproofing subassembly 9 that can prevent the humidity about the left and right sides surface of main part 1, and dampproofing subassembly 9 is including: the device comprises a left shell 10, a right shell 11, a flow guide component 13 capable of guiding the flow direction of water and a discharging component 14 capable of discharging water-absorbing materials;

the moisture-proof assembly 9 is used for receiving water vapor adhered and falling from the left side and the right side of the main body 1 through the left shell 10, guiding water flow into the right shell 11 from the upper end of the left shell 10 through the flow guide assembly 13, guiding the injected water flow into the lower end of the inside of the right shell 11 through the flow guide assembly 13 for collection, guiding part of the water flow into the lower end area of the left shell 10 for collection, releasing water-absorbing materials to absorb the collected water flow through the movement of the discharging assembly 14, releasing high-temperature heat at the same time, and drying water outside the left side and the right side of the main body 1 through the left shell 10;

the left shell 10 is fixedly installed at the upper end and the lower end of the outer surface of the left side and the right side of the main body 1, the appearance of the left shell 10 is in an inverted letter 'F' shape with a hollow interior on a longitudinal section, an opening is formed at the top end of the left shell 10, the front end and the rear end of the left shell 10 are in a fully closed state, and the left shell 10 is made of copper;

the left shell 10 is provided with an inverted letter 'F' shape with a hollow inner part on a longitudinal section, and the material is selected to be copper, so that the upper end area of the inverted letter 'F' is conveniently used for temporarily storing water, the pre-collected water is guided into the right shell 11 through the flow guide assembly 13 for collection, then the guided part of the water is injected into the lower end area of the inverted letter 'F' for collection, the water absorbing material released by the discharging assembly 14 is also guided to the lower end area of the inverted letter 'F' to be mixed with the water and then absorbs the water to generate heat, and the generated high-temperature heat dries the water on the left side and the right side of the main body 1 through the left shell 10 made of copper;

the tail end position of the left shell 10 is fixedly provided with a right shell 11, the appearance of the right shell 11 is in an oval shape with a hollow interior on a longitudinal section, the top end and the middle lower part of the left end of the right shell 11 are respectively provided with an inlet and an outlet in an inclined manner, the outer surface of the left middle end of the right shell 11 is fixedly connected with the outer surface of the right middle end of the left shell 10, the outer surface of the left middle end of the bottom side of the right shell 11 is fixedly connected with the outer surface of the right bottom end of the left shell 10, the front end and the rear end of the right shell 11 are also in a fully closed state, the middle position of the bottom end of the right shell 11 is provided with an outlet hole which penetrates up and down, a sealing block 12 is movably arranged in the outlet hole, the appearance of the sealing block 12 is in a shape of inverted letter 'T' on a longitudinal section, and the sealing block 12 is in a state of tightly blocking the outlet hole under normal conditions;

the right shell 11 is provided with an oval shape with a hollow inner part on a longitudinal section, so that the right shell is convenient to be matched with the left shell 10, after the diversion assembly 13 and the discharging assembly 14 are accommodated, water adhered and falling outside the left side and the right side of the main body 1 is introduced into the right shell 11 for collection, and the water collected in the right shell 11 and water absorbing materials after water absorption are released and cleaned by pulling out the sealing block 12 in the later stage of water collection;

a flow guide assembly 13 is movably arranged from the left upper end of the right shell 11 to the middle end of the inside;

the flow guide component 13 is used for guiding water when the water flows into the upper end area of the left shell 10 and is pre-collected by utilizing the siphon and lever principle, guiding the water from bottom to top, downwards and from outside to inside into the right shell 11 for collection, and triggering the discharging component 14 to release water-absorbing materials to absorb water in the subsequent process;

a discharging component 14 is movably arranged at the right upper end inside the right shell 11;

the discharging assembly 14 is for utilizing the negative pressure principle, and in the process of collecting the movable water guide generated by the flow guide assembly 13, the discharging assembly can be triggered to release the water absorbing material pre-installed by the discharging assembly from inside to outside to the bottom end of the right shell 11 and the lower end area of the left shell 10, so that the water falling into the area is absorbed, and meanwhile, high-temperature heat is released, and the water on the left side and the right side of the main body 1 is dried through the left shell 10.

According to the image data processing mechanism for industrial automatic processing, the moisture-proof component 9 is arranged, and by utilizing the siphon, lever and negative pressure principles, after condensed water vapor adhered to the outer sides of the left side and the right side of the main body 1 flows down, the water vapor firstly falls into the upper end area inside the main shell 10 of the moisture-proof component 9 to be successively collected in advance, and then under the action of the siphon principle, the pre-collected water is guided into the right shell 11 through the flow guide component 13 of the moisture-proof component 9; then, under the action of a lever principle, the flow guide assembly 13 is enabled to move, so that the introduced water is sequentially guided out to the bottom end of the right shell 11 and the lower end of the left shell 10 to be collected; then under the action of a negative pressure principle, a discharging component 14 of the moisture-proof component 9 is deformed, water absorbing materials pre-installed in the discharging component are led out and then are shunted to the bottom end of the right shell 11 and the lower end of the left shell 10 through a diversion component 13, water which is previously drained and collected is absorbed, high-temperature heat is released, and water vapor which is adhered to the left side and the right side of the main body 1 is dried through the left shell 10 made of copper; this prevents moisture under the continuous cooperation of the moisture barrier members 9.

Example 2

Referring to fig. 2-3 and fig. 6-7, the embodiment of the present invention differs from embodiment 1 in that: the flow guide assembly 13 includes:

an upper chute 15 is fixedly installed on the outer surface of the upper end of the left side of the right shell 11, the outer surface of the upper side of the left side of the right shell 11 is in an arc strip shape with a hollow interior and a through end, the outer surface of the bottom side of the upper chute 15 is fixedly connected with the outer surface of the upper end of the left side of the right shell 11, the bottom inlet of the left end of the upper chute 15 is positioned above the right end of the inner wall of the middle end of the left shell 10 in the horizontal direction, and the top outlet of the right end of the upper chute 15 is close to the inlet of the top end of the right shell 11;

the upper chute 15 is formed in a hollow arc shape in one longitudinal section and penetrates from the front to the rear, and is guided from the bottom to the top of the lower chute 16 of the right casing 11 by the siphon principle in order to guide the moisture which is pre-collected and flows from the left and right sides of the main body 1 to the upper end of the left casing 10.

In the embodiment of the present invention, the flow guiding assembly 13 further includes:

the tail end of the top of the right end of the upper chute 15 is fixedly provided with the lower chute 16 in a penetrating manner, the appearance of the lower chute 16 is in a long straight plate shape which is hollow in the interior, penetrates through the head and the tail of the right end of the upper chute 15 and forms an included angle of 61 degrees with the horizontal plane on a longitudinal section, a head inlet of the right end of the lower chute 16 is in butt joint with an outlet of the top of the right end of the upper chute 15 for penetrating, the top of the right end of the lower chute 16 is fixedly arranged in an inlet of the top end of the right shell 11, and a tail outlet of the left end of the lower chute 16 is positioned at the middle end of the left inner wall of the right shell 11;

the lower chute 16 and the outer appearance are in a shape of a long straight plate which is hollow in the inside, penetrates through the end to end and forms an included angle of 61 degrees with the horizontal plane on one longitudinal section, so that water guided by the upper chute 15 is guided into the bottom end in the right shell 11 and the lower end of the left shell 10 from right to left and from top to bottom for collection by utilizing the siphon principle in order to be convenient for continuous guidance.

In the embodiment of the present invention, the flow guiding assembly 13 further includes:

the rotating shaft 17 is rotatably installed at the left position of the center inside the right shell 11 in the front-back horizontal direction, and the front end and the back end of the rotating shaft 17 are rotatably installed at the left position of the center of the front inner wall and the back inner wall of the right shell 11;

a left rotating plate 18, wherein the left outer surface of the rotating shaft 17 is fixedly provided with the left rotating plate 18 in a surrounding manner, the left outer surface of the left rotating plate 18 is statically attached to the middle end surface of the left inner wall of the right shell 11 under normal conditions, and the top left end tail outer surface of the left rotating plate 18 is statically attached to the left end tail outlet of the lower chute 16 under normal conditions;

the left rotating plate 18 is provided to facilitate the utilization of the lever principle, and is pressed by the moisture to rotate counterclockwise and downward when the introduced moisture is guided out from the tail end of the left end of the down flow groove 16, so that the moisture falls into the bottom end of the right housing 11 and the lower end of the left housing 10 to be collected.

In the embodiment of the present invention, the flow guiding assembly 13 further includes:

a right rotating plate 19, wherein the right outer surface of the rotating shaft 17 is fixedly provided with the right rotating plate 19 in a surrounding manner, the right rotating plate 19 and the left rotating plate 18 are in a horizontal static balance state under normal conditions, the right outer surface of the right rotating plate 19 is in static fit with the middle end surface of the right inner wall of the right shell 11 under normal conditions, the left length and the right length of the right rotating plate 19 are longer than those of the left rotating plate 18, and the right rotating plate 19 has magnetism;

the right turn plate 19 is here for the purpose of facilitating leverage, as the left turn plate 18 rotates, it rotates upwards counter-clockwise to gradually approach the discharge assembly 14 for subsequent release of the absorbent material.

In the embodiment of the present invention, the flow guiding assembly 13 further includes:

the outer surface of the tail part of the right end of the top side of the right rotating plate 19 is fixedly provided with an inserting block 20;

the insert block 20 is used to facilitate the contact of the discharging component 14 driven by the rotation of the right rotating plate 19, so that the discharging component 14 releases the water-absorbing material to absorb water.

According to the image data processing mechanism for industrial automatic processing, by arranging the flow guide assembly 13 and utilizing the siphon and lever principle, when water vapor is not adhered to the outer sides of the left side and the right side of the main body 1, the outer surface of the left side of the left rotating plate 18 of the flow guide assembly 13 is statically attached to the middle end surface of the left inner wall of the right shell 11, and the outer surface of the left end and the tail part of the top side of the flow guide assembly is statically attached to the outlet of the left end and the tail part of the lower flow groove 16; the right rotating plate 19 and the left rotating plate 18 of the flow guide assembly 13 are in a horizontal static balance state, and the outer surface of the right side of the flow guide assembly is statically attached to the middle end surface of the right inner wall of the right shell 11; however, when water vapor adheres to the left and right sides of the main body 1, the state is gradually broken, that is, when the water vapor adhered and condensed falls into the upper end area inside the main shell 10 and is successively collected in advance as described above, the water vapor flows through the left end bottom inlet of the upper chute 15 of the flow guide assembly 13, and is guided from bottom to top and from left to right to the right end head inlet of the lower chute 16 of the flow guide assembly 13 through the left end bottom inlet of the upper chute 15 and then from right to left and from top to bottom through the left end tail outlet of the lower chute 16 under the action of the siphon principle; under the action of the lever principle, the led-out water falls to the tail area of the left end of the left rotating plate 18, so that the water rotates anticlockwise downwards, and then a part of water is led to the bottom end inside the right shell 11 to be collected, and the other part of water is led to the lower end of the left shell 10 to be collected through an outlet at the lower middle part of the left end of the right shell 11; simultaneously, the right rotating plate 19 is driven to rotate upwards and anticlockwise so that the insert block 20 on the right rotating plate is gradually close to the discharging assembly 14 upwards, and the discharging assembly 14 is triggered to release the water absorbing material to absorb water in the following process; so in order to realize the guide to the moisture flow direction, be convenient for dampproofing.

Example 3

Referring to fig. 2 and fig. 4-7, the embodiment of the present invention differs from embodiment 1 in that: the discharging component 14 comprises:

a fixing plate 21 is obliquely and fixedly installed at the upper end of the right inner wall of the right shell 11, the included angle between the fixing plate 21 and the horizontal plane is 30 degrees, the fixing plate 21 has magnetism different from that of the right rotating plate 19, a middle-bias right end of the fixing plate 21 is obliquely provided with an insertion hole which penetrates up and down, the insertion hole can be in butt joint with the insertion block 20, and the thickness of the fixing plate 21 is smaller than the vertical height of the insertion block 20;

the fixed plate 21 has a magnetic property different from that of the right rotating plate 19, so that after the right rotating plate 19 rotates towards the close position, the magnetic attraction occurs to the right rotating plate 19 and the left rotating plate 18, the right rotating plate 19 and the left rotating plate 18 are in a left-low right-high inclined static state, and the insertion block 20 on the right rotating plate 19 is inserted into the insertion hole of the fixed plate 21 to enable the air bag 23 to smoothly guide out the water absorbing material.

In the embodiment of the present invention, the discharging assembly 14 further includes:

the limiting plate 22 is obliquely and fixedly installed at the position, slightly to the right, of the top inner wall of the right shell 11, the appearance of the limiting plate 22 is in an arc strip shape with a convex left part and a concave right part on one longitudinal section, the tail part of the bottom end of the limiting plate 22 faces the inner surface of the tail part of the left end of the top side of the fixing plate 21, and a gap is reserved between the limiting plate 22 and the inner surface;

the limiting plate 22 is provided with a left convex and right concave arc shape on a longitudinal section, so that the air bag 23 is limited by the fixing plate 21 and the inner wall of the right shell 11, the inserting block 20 is inserted into the inserting hole of the fixing plate 21, the air bag 23 is extruded to release the water absorbing material in the air bag, the water absorbing material flows out from the inside to the outside through the interval between the tail ends of the limiting plate 22 and the fixing plate 21 and continuously slides down through the right turning plate 19 and the left turning plate 18 to absorb the introduced water.

In the embodiment of the present invention, the discharging assembly 14 further includes:

an air bag 23 is embedded between the inner surface from the right side to the bottom end of the limiting plate 22, the inner surface of the tail part from the left side to the right side of the top side of the fixing plate 21 and the upper end surface of the right inner wall of the right shell 11, the outer surface of the top side of the air bag 23 is separated from the included angle position between the top end of the inner surface of the right side of the limiting plate 22 and the right inner wall of the right shell 11 under normal conditions, and quicklime powder is pre-installed in the inner position of the air bag 23;

the air bag 23 is so designed that the top end of the insert block 20 is inserted into the insertion hole of the fixing plate 21 and then the bottom end of the air bag 23 is pressed to make the top end of the air bag 23 contact with the bottom end of the pointed cone 24 and be punctured, so that the water-absorbing material containing quicklime powder as a component is led out for absorbing water.

In the embodiment of the present invention, the discharging assembly 14 further includes:

the pointed cone 24 is fixedly installed at the included angle position between the top end of the inner surface of the right side of the limiting plate 22 and the right inner wall of the right shell 11, the appearance of the pointed cone 24 is in the shape of an inverted quadrangular pyramid, and the tip of the bottom end of the pointed cone 24 is separated from the outer surface of the top side of the air bag 23 under normal conditions;

the pointed cone 24 is a reversed quadrangular pyramid in appearance, so that the air bag 23 can be contacted with the air bag 23 to puncture the air bag to lead out the water absorbing material to absorb water after being extruded.

According to the image data processing mechanism for industrial automatic processing, the discharging assembly 14 is arranged, and by utilizing the negative pressure principle, when water vapor is not adhered to the outer sides of the left side and the right side of the main body 1, the vertically-penetrating insertion holes obliquely formed in the middle-to-right end positions of the fixing plate 21 of the discharging assembly 14 are not butted with the insertion blocks 20 of the flow guide assembly 13; the air bag 23 of the discharging component 14 is in a natural expansion undeformed state, the top side outer surface of the air bag is at a distance between the top end of the right side inner surface of the limiting plate 22 of the discharging component 14 and the included angle position of the right inner wall of the right shell 11, and the water absorbing material with quicklime powder as the component in the air bag does not overflow; the bottom end tip of the pointed cone 24 of the discharging assembly 14 is spaced from the top outer surface of the air bag 23; however, when water vapor adheres to the left and right sides of the main body 1, the state is gradually broken, that is, as mentioned above, when the insert 20 on the right rotating plate 19 gradually approaches the discharging assembly 14, the insert 20 is finally inserted into the insertion hole of the fixing plate 21, and at this time, the top end of the insert 20 presses the bottom end of the air bag 23, under the action of the negative pressure principle, the top end of the air bag 23 contacts with and is punctured by the bottom end tip of the pointed cone 24, so that the quicklime powder in the air bag 23 flows out to the right rotating plate 19 through the interval between the tail portion of the bottom end of the limiting plate 22 and the inner surface of the tail portion of the left end of the top side of the fixing plate 21, and is shunted to the bottom end of the right shell 11 and the lower region of the left shell 10 through the tail portion of the left rotating plate 18 after sliding from right to left and top to bottom, the moisture falling into the previous end region is absorbed, so that the moisture in the left shell 10 contacts with the quicklime powder to generate high temperature heat, drying the moisture on the left and right sides of the main body 1 through the left case 10; so as to realize the discharge to the material that absorbs water, be convenient for dampproofing.

Claims (10)

1. An image data processing mechanism for industrial automated processing, characterized by: the method comprises the following steps:

the pneumatic device comprises a main body (1), wherein closed cylinders (2) are fixedly arranged in the middle positions of two top and bottom ends of the main body (1), pneumatic blocks (3) are movably connected to the left and right sides of each closed cylinder (2), a lifting mechanism (4) is fixedly arranged in the center of the main body (1), a spring (5) is fixedly connected to the outer surface of one side of each pneumatic block (3), couplers (6) are fixedly arranged at four corners of the main body (1), a transmission shaft (7) is movably connected to one side of each coupler (6), and a rotating shaft (8) is movably connected to one end of each transmission shaft (7);

dampproofing subassembly (9), both ends position fixed mounting has dampproofing subassembly (9) that can prevent the humidity about the left and right sides surface of main part (1), dampproofing subassembly (9) including: the device comprises a left shell (10), a right shell (11), a flow guide component (13) capable of guiding the flow direction of water and a discharging component (14) capable of discharging water-absorbing materials;

the left shell (10) is fixedly installed at the upper end and the lower end of the outer surface of the left side and the right side of the main body (1), the appearance of the left shell (10) is in an inverted letter 'F' shape with a hollow interior on a longitudinal section, an opening is formed in the top end of the left shell (10), the front end and the rear end of the left shell (10) are in a fully-closed shape, and the left shell (10) is made of copper;

a right shell (11) is fixedly arranged at the tail end of the left shell (10), the appearance of the right shell (11) is in a hollow elliptical shape on one longitudinal section, the middle lower part of the top end and the left end of the right shell (11) is respectively provided with an inlet and an outlet in an inclined way, the outer surface of the left middle end of the right shell (11) is fixedly connected with the outer surface of the right middle end of the left shell (10), the outer surface of the left end of the bottom side of the right shell (11) is fixedly connected with the outer surface of the bottom end of the right side of the left shell (10), the front end and the rear end of the right shell (11) are also in a totally closed shape, the middle part of the bottom end of the right shell (11) is provided with an outlet hole which penetrates up and down, the outlet hole is movably provided with a sealing block (12), the appearance of the sealing block (12) is in a shape of inverted letter T on a longitudinal section, the sealing block (12) is normally in a state of tightly blocking the outlet hole;

a flow guide assembly (13) is movably arranged from the left upper end of the right shell (11) to the middle end of the inside;

and a discharging assembly (14) is movably arranged at the right upper end inside the right shell (11).

2. The image data processing mechanism for industrial automation processing according to claim 1, characterized in that: the flow guide assembly (13) comprises:

go up chute (15), the left side upper end outer fixed surface of right side shell (11) installs chute (15), the outward appearance of going up chute (15) is inside cavity, the arc strip shape that runs through end to end on a longitudinal section, the bottom side surface of going up chute (15) with the left side upper end outer fixed surface of right side shell (11) is connected, the left end bottom entry of going up chute (15) is in the horizontal direction middle-end inner wall right-hand member top position of left side shell (10), the right-hand member top export next-door neighbour of going up chute (15) the top entry position of right side shell (11).

3. The image data processing mechanism for industrial automation processing according to claim 2, characterized in that: the flow guide assembly (13) further comprises:

lower chute (16), the right-hand member top tail end position of going up chute (15) runs through fixed mounting and has lower chute (16), the outward appearance of lower chute (16) is inside cavity, end to end on a longitudinal section and runs through and personally submits the long straight plate shape of 61 contained angles with the level, the right-hand member prelude entry of lower chute (16) with the right-hand member top export of going up chute (15) is docked each other and runs through, the right-hand member top fixed mounting of lower chute (16) in the top entry of right side shell (11), the left end tail portion export of lower chute (16) is located the left inner wall middle-end position of right side shell (11).

4. The image data processing mechanism for industrial automation processing according to claim 3, characterized in that: the flow guide assembly (13) further comprises:

the rotating shaft (17) is rotatably mounted at the left position of the inner center of the right shell (11) in the front-back horizontal direction, and the front end and the rear end of the rotating shaft (17) are rotatably mounted at the left position of the center of the front inner wall and the rear inner wall of the right shell (11);

the left-hand board (18), the left side surface of pivot (17) encircles fixed mounting and has left-hand board (18), the left side surface of left-hand board (18) is with under normal conditions the static laminating of end surface in the left inner wall of right side shell (11), the top side left end afterbody surface of left-hand board (18) is with under normal conditions the static laminating of left end afterbody export of underflow groove (16).

5. The image data processing mechanism for industrial automation processing according to claim 4, characterized in that: the flow guide assembly (13) further comprises:

the board (19) turns to the right side, the right side surface of pivot (17) encircles fixed mounting and has board (19) turns to the right side, board (19) turns to the right side with board (18) turns to the left side is in the static balanced state of level under the normal conditions, the right side surface of board (19) turns to the right side under the normal conditions with the static laminating of end surface in the right inner wall of right side shell (11), length is longer than about board (19) turns to the right side length about board (18), board (19) turns to the right side has magnetism.

6. The image data processing mechanism for industrial automation processing according to claim 5, characterized in that: the flow guide assembly (13) further comprises:

the outer surface of the tail part of the right end of the top side of the right rotating plate (19) is fixedly provided with an inserting block (20).

7. An image data processing mechanism for industrial automation processing according to any one of claims 1 to 6, characterized in that: the discharging component (14) comprises:

fixed plate (21), the right inner wall upper end position slant fixed mounting of right side shell (11) has fixed plate (21), fixed plate (21) is 30 with the contained angle on horizontal plane, fixed plate (21) have with board (19) the different magnetism of turning to the right side, the well inclined right-hand member position slant of fixed plate (21) is seted up the jack that runs through from top to bottom, the jack can with inserted block (20) dock, the thickness of fixed plate (21) is less than the upper and lower height of inserted block (20).

8. The image data processing mechanism for industrial automation processing according to claim 7, characterized in that: the discharging component (14) also comprises:

limiting plate (22), inclined fixed mounting has limiting plate (22) to the right-hand member position in the top inner wall of right side shell (11), the outward appearance of limiting plate (22) is the protruding concave arc strip shape in the right side in a left side on a longitudinal section, the bottom afterbody orientation of limiting plate (22) there is the interval between the top side left end afterbody internal surface of fixed plate (21) and the two.

9. The image data processing mechanism for industrial automation processing according to claim 8, characterized in that: the discharging component (14) also comprises:

the air bag (23) is embedded between the inner surface of the tail part of the left end to the right end of the top side of the fixing plate (21) and the upper end surface of the right inner wall of the right shell (11), the outer surface of the top side of the air bag (23) is spaced from the top end of the inner surface of the right side of the limiting plate (22) and the included angle position of the right inner wall of the right shell (11) under normal conditions, and quicklime powder is pre-installed in the air bag (23).

10. The image data processing mechanism for industrial automation processing according to claim 9, characterized in that: the discharging component (14) also comprises:

pointed cone (24), the right side internal surface top of limiting plate (22) with right side inner wall contained angle position fixed mounting of right side shell (11) has pointed cone (24), the outward appearance of pointed cone (24) is the four pyramid shape of falling, the bottom point portion of pointed cone (24) with under normal conditions there is the distance between the top side surface of gasbag (23).

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