CN115235198A

CN115235198A - Washing and drying device based on waste glass fiber recovery

Info

Publication number: CN115235198A
Application number: CN202210813764.7A
Authority: CN
Inventors: 倪雄枫; 辛素美
Original assignee: Jiangxi Tianlang Non Metallic New Materials Co ltd
Current assignee: Jiangxi Tianlang Non Metallic New Materials Co ltd
Priority date: 2022-07-12
Filing date: 2022-07-12
Publication date: 2022-10-25
Anticipated expiration: 2042-07-12
Also published as: CN115235198B

Abstract

The invention relates to a washing and drying device, in particular to a washing and drying device based on waste glass fiber recovery. The utility model provides a can retrieve through the screen cloth to the glass fiber who filters out, prevent the extravagant washing drying device based on useless glass fiber retrieves of material. The utility model provides a wash drying device based on useless glass fiber retrieves, is including washing frame, electronic conveying component, water injection pipe, stoving mechanism and recovery mechanism, washes the frame top and is connected with electronic conveying component, and electronic conveying component top is connected with three water injection pipes, washes the frame left side and is equipped with the stoving mechanism that is used for drying to glass fiber, washes and is equipped with the recovery mechanism that is used for carrying out the collection to the waste material on the frame. According to the invention, the air pump is used for guiding the heat air flow generated in the air heater into the drying box, so that the effect of recovering and drying is achieved, the screen is used for further collecting the glass fiber, and the material waste is prevented.

Description

Washing and drying device based on waste glass fiber recovery

Technical Field

The invention relates to a washing and drying device, in particular to a washing and drying device based on waste glass fiber recovery.

Background

The glass fiber is an artificial inorganic fiber, natural ores such as quartz sand, limestone and dolomite are used as main raw materials, chemical raw materials such as soda ash and borax are matched to be melted into glass, and in a melting state, the glass fiber is blown into flocculent fine fibers by means of external force blowing, so the glass fiber can be regarded as a porous material and has good heat insulation, sound absorption and sound insulation performances.

Therefore now develop one kind and can retrieve the glass fiber who filters out through the screen cloth, prevent the extravagant washing drying device based on useless glass fiber retrieves of material.

Disclosure of Invention

In order to overcome the defect that most of the treatment modes of the conventional device are used as solid wastes for burying treatment, the invention aims to provide the washing and drying device based on waste glass fiber recovery, which can recover filtered glass fibers through a screen and prevent material waste.

The technical scheme is as follows: the utility model provides a wash drying device based on useless glass fiber retrieves, is including washing frame, electronic conveyor components, water injection pipe, stoving mechanism and recovery mechanism, washes a top and is connected with electronic conveyor components, and electronic conveyor components top is connected with three water injection pipes, washes a left side and is equipped with the stoving mechanism that is used for drying to glass fiber, washes and is equipped with the recovery mechanism that is used for carrying out the collection to the waste material on the frame.

As the improvement of above-mentioned scheme, stoving mechanism is including stoving case, air guide pipe support, air pump, air heater and take out the board, washes a welding of left part and has the stoving case, is connected with the air guide pipe support between the stoving case left and right sides, and stoving bottom of the case portion slidingtype is connected with takes out the board, and stoving case rear side has the air pump through bolted connection, and stoving case rear side is connected with air heater.

As the improvement of above-mentioned scheme, retrieve the mechanism and all be connected with first sliding sleeve including first sliding sleeve, support frame, screen cloth and first compression spring around washing the frame inside, both sides are connected with first sliding sleeve around the sliding connection has the support frame between the first sliding sleeve, and the support frame top is connected with the screen cloth, is connected with the first compression spring of longitudinal symmetry between first sliding sleeve and the support frame, and first compression spring all winds on the support frame.

As an improvement of the scheme, the drying oven further comprises a material distribution mechanism, wherein the material distribution mechanism comprises material distribution rods, rotating rods, transmission wheels and belts, the three material distribution rods are rotatably connected to the upper portion of the drying oven, the transmission wheels are connected to the front portions of the material distribution rods, the rotating rods are connected to the front sides of the lower side transmission wheels, and the belts are wound among the transmission wheels.

As the improvement of above-mentioned scheme, still including quantitative mechanism, quantitative mechanism is including electric putter, rotating turret, apron and torsion spring, and there is electric putter electric conveyor assembly left part upside through bolted connection, and the welding of electric conveyor assembly left part upside has the rotating turret, and the last rotation type of rotating turret is connected with the apron, is connected with the torsion spring of longitudinal symmetry between apron and the rotating turret, and torsion spring all winds on the rotating turret.

As an improvement of the scheme, the washing rack further comprises a circulating mechanism, the circulating mechanism comprises guide rails, a water pump, a backflow pipe and a flow distribution plate, the bottom in the washing rack is connected with the guide rails which are symmetrical front and back, the flow distribution plate is connected between the guide rails in a sliding mode, the upper side of the right part in the washing rack is connected with the water pump through bolts, and the backflow pipe is connected between the water pump and the electric conveying assembly.

As the improvement of the scheme, the anti-blocking device comprises an anti-blocking mechanism, wherein the anti-blocking mechanism comprises a second sliding sleeve, a scraping rod, an ejector rod and a second compression spring, the second sliding sleeve is connected to the front part of the washing frame, the scraping rod is connected to the second sliding sleeve in a sliding mode, the ejector rod is connected to the left side of the scraping rod, the second compression spring is connected between the ejector rod and the second sliding sleeve, and the second compression spring is wound on the scraping rod.

As the improvement of the scheme, the material distributing rods are distributed in an inverted triangle shape, so that the material is conveniently fed in batches.

The invention has the advantages that: 1. according to the invention, the air pump is used for guiding the heat air flow generated in the air heater into the drying box, so that the effect of recovering and drying is achieved, the screen is used for further collecting the glass fiber, and the material waste is prevented.

2. According to the invention, the three material distributing rods are rotated by rotating the rotating rods, so that the effect of drying glass fibers in batches is achieved, and the problem that the drying efficiency is reduced due to the fact that all the glass fibers are accumulated and dried is avoided.

3. According to the invention, the opening at the left side of the electric conveying assembly is blocked by the cover plate, so that people can control the amount of the glass fiber entering the drying box every time, and the drying and recycling efficiency is further improved.

4. According to the invention, the water at the bottom in the washing rack is recycled by the water pump, so that excessive waste of water resources is avoided, and the utilization efficiency of the water resources is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first drying mechanism according to the present invention.

Fig. 3 is a schematic perspective view of a second drying mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a first recycling mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second embodiment of the recycling mechanism of the present invention.

Fig. 6 is a schematic perspective view of the material distributing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the dosing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the circulation mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first anti-clogging mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second anti-clogging mechanism according to the present invention.

Number designation in the figure: 1. the device comprises a washing frame, a 2 electric conveying assembly, a 3 water injection pipe, a 4 drying mechanism, a 41 drying box, a 42 air guide pipe frame, a 43 air pump, a 44 air heater, a 45 drawing plate, a 5 recycling mechanism, a 51 first sliding sleeve, a 52 supporting frame, a 53 screen, a 54 first compression spring, a 6 material distributing mechanism, a 61 material distributing rod, a 62 rotating rod, a 63 driving wheel, a 64 belt, a 7 quantifying mechanism, a 71 electric pushing rod, a 72 rotating frame, a 73 cover plate, a 74 torsion spring, a 8 circulating mechanism, a 81 guide rail, a 82 water pump, a 83 return pipe, a 84 flow distributing plate, a 9 anti-blocking mechanism, a 91 second sliding sleeve, a 92 scraping rod, a 93 ejector rod, a 94 and a second compression spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a wash drying device based on useless glass fiber retrieves, as shown in figure 1, including wash rack 1, electronic transport assembly 2, water injection pipe 3, stoving mechanism 4 and recovery mechanism 5, wash rack 1 top is connected with electronic transport assembly 2, be used for carrying useless glass fiber, electronic transport assembly 2 is including servo motor, screw thread conveying pole and conveyer pipe, duct connections is on wash rack 1 upper portion, screw thread conveying pole is connected with the conveyer pipe rotary type, servo motor connects on the conveyer pipe right side, the servo motor output shaft is connected with screw thread conveying pole, electronic transport assembly 2 top is connected with three water injection pipes 3, be used for introducing rivers, wash rack 1 left side is equipped with the stoving mechanism 4 that is used for drying to glass fiber, be equipped with on the wash rack 1 and be used for carrying out the recovery mechanism 5 of collecting to the waste material.

As shown in fig. 1-3 and fig. 6, the drying mechanism 4 includes a drying box 41, an air guide pipe frame 42, an air pump 43, an air heater 44 and a drawing plate 45, the drying box 41 is welded on the left portion of the washing frame 1, the air guide pipe frame 42 is connected between the left side and the right side of the drying box 41, the drawing plate 45 is connected to the bottom of the drying box 41 in a sliding manner, the air pump 43 is connected to the rear side of the drying box 41 through a bolt, the air pump 43 is connected to the air guide pipe frame 42, the air heater 44 is connected to the rear side of the drying box 41 for heating, the air heater 44 is located on the left side of the air pump 43, and the air heater 44 is connected to the air pump 43.

As shown in fig. 1, 4 and 5, the recovery mechanism 5 includes a first sliding sleeve 51, a supporting frame 52, a screen 53 and a first compression spring 54, the first sliding sleeve 51 is connected to the front and rear sides of the interior of the washing rack 1, the supporting frame 52 is connected between the first sliding sleeve 51 in a sliding manner, the screen 53 is connected to the top of the supporting frame 52 for collecting and filtering impurities, the first compression springs 54 which are symmetrical in the front and rear direction are connected between the first sliding sleeve 51 and the supporting frame 52, the first compression springs 54 are all wound on the supporting frame 52, and the first compression springs 54 all play a role in buffering and resetting to the supporting frame 52.

The method comprises the steps of pouring waste glass into an electric conveying assembly 2 in a limiting mode, adding clean water into the conveying pipe through a water injection pipe 3, starting a servo motor, enabling a threaded conveying rod to rotate, enabling the waste glass fibers to move leftwards continuously in a washing process, enabling small impurities and partial glass fibers to fall onto a screen 53 through the conveying pipe under the driving of water flow, enabling the glass fibers to flow out of an outlet at the left end of the conveying pipe along with the continuous rotation of the threaded conveying rod, enabling the glass fibers to fall into a drying box 41, starting an air heater 44 and an air pump 43, enabling the air pump 43 to enable hot air generated by the air heater 44 to enter the drying box 41 through an air guide pipe frame 42, enabling the glass fibers in the drying box 41 to be dried, closing the air heater 44 and the air pump 43 after drying is finished, then drawing out a drawing plate 45, taking out the dried glass fibers, pushing the drawing plate 45 back to reset after taking out, pushing the screen 53 left and right to slide a support frame 52, enabling a first compression spring 54 to be in a stressed compression state and reset state, removing the impurities on the screen 53, then enabling the residual glass fibers to be subjected to be discharged into the drying box, and further stopping the air from the drying box, and collecting the clean water by the air heater, and further collecting the air heater, and enabling the clean water to be collected by the air heater to be collected in the screen 53, and further collecting box to be further collecting box 41.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 6, the drying oven further includes a material distribution mechanism 6, the material distribution mechanism 6 includes material distribution rods 61, rotating rods 62, transmission wheels 63 and belts 64, three material distribution rods 61 are rotatably connected to the upper portion of the drying oven 41, and are used for enabling materials to drop in batches, the material distribution rods 61 are distributed in an inverted triangle shape, so that batch blanking is facilitated, the transmission wheels 63 are connected to the front portions of the material distribution rods 61, the rotating rods 62 are connected to the front sides of the lower transmission wheels 63, and the belts 64 are wound between the transmission wheels 63 and used for enabling the material distribution rods 61 to rotate synchronously.

After the air heater 44 is started, the glass fibers and the water flow are all dried under the action of hot air flow guided out by the air guide pipe frame 42, moisture is evaporated through the top of the drying box 41, then the rotating rod 62 is rotated, so that the lower-side distribution rod 61 is rotated, the lower-side driving wheel 63 is rotated, the three distribution rods 61 are rotated under the action of the driving wheel 63 and the belt 64, so that the dried glass fibers are thrown off, the drawing plate 45 can be drawn out after the glass fibers fall off, the dried glass fibers are taken out, the drawing plate 45 is pushed back to reset after the drawing plate is taken out, then the next batch of glass fibers fall off and then the rotating rod 62 is rotated continuously, and in conclusion, the three distribution rods 61 are rotated by rotating the rotating rod 62, and the effect of drying the glass fibers in batches is achieved.

As shown in fig. 1 and 7, the quantitative mechanism 7 is further included, the quantitative mechanism 7 includes an electric push rod 71, a rotating frame 72, a cover plate 73 and a torsion spring 74, the upper side of the left portion of the electric conveying assembly 2 is connected with the electric push rod 71 through a bolt, the rotating frame 72 is welded on the upper side of the left portion of the electric conveying assembly 2, the rotating frame 72 is located on the left side of the electric push rod 71, the rotating frame 72 is rotatably connected with the cover plate 73, the cover plate 73 can block the left opening of the electric conveying assembly 2, the electric push rod 71 can contact with the cover plate 73, the torsion springs 74 which are symmetrical in the front-back direction are connected between the cover plate 73 and the rotating frame 72, the torsion springs 74 are all wound on the rotating frame 72, and the torsion springs 74 all play a role in buffering and resetting the cover plate 73.

In order to avoid drying a large amount of glass fibers at one time, so that the drying efficiency is slowed down, therefore, the left opening of the electric conveying assembly 2 needs to be blocked, so that the glass fibers enter the drying box 41 in batches for drying, at the moment, people are required to accumulate a certain degree of the glass fibers, the electric push rod 71 is started, so that the electric push rod 71 pushes the cover plate 73 leftward, the cover plate 73 is pushed by the electric push rod 71 to rotate clockwise to open, the torsion springs 74 are stressed and deformed, at the moment, the glass fibers are not blocked any more, after a proper amount of the glass fibers enter the drying box, the electric push rod 71 is controlled to contract and reset, so that the cover plate 73 is reset counterclockwise under the action of the torsion springs 74.

As shown in fig. 1 and fig. 8, the washing rack further comprises a circulating mechanism 8, the circulating mechanism 8 comprises a guide rail 81, a water pump 82, a return pipe 83 and a splitter plate 84, the bottom of the washing rack 1 is connected with the guide rail 81 which is symmetrical front and back, the splitter plate 84 is connected between the guide rails 81 in a sliding manner and used for separating sundries, the upper side of the right part of the washing rack 1 is connected with the water pump 82 through a bolt, and the return pipe 83 is connected between the water pump 82 and the electric conveying assembly 2 and used for guiding water flow in the washing rack 1.

In order to improve the utilization rate of water resources, as a large amount of water flow enters the washing rack 1, people can start the water pump 82, the water pump 82 pumps the water flow in the washing rack 1 into the return pipe 83, then the water flow is sent into the electric conveying assembly 2 through the return pipe 83, the water resources are recycled, in the operation process of the water pump 82, in order to prevent sundries from blocking the water pump 82, people can push the flow distribution plate 84 leftwards, sundries around the water pump 82 are separated, after the operation is finished, the water pump 82 is closed, in sum, the water at the bottom in the washing rack 1 is recycled through the water pump 82, excessive waste of the water resources is avoided, and the utilization efficiency of the water resources is improved.

As shown in fig. 1, 9 and 10, the anti-blocking mechanism 9 is further included, the anti-blocking mechanism 9 includes a second sliding sleeve 91, a scraping rod 92, a push rod 93 and a second compression spring 94, the second sliding sleeve 91 is connected to the front portion of the washing rack 1, the scraping rod 92 is slidably connected to the second sliding sleeve 91 for preventing the electric conveying assembly 2 from being blocked, the push rod 93 is connected to the left side of the scraping rod 92, the push rod 93 can contact with both the support frame 52 and the cover plate 73, the second compression spring 94 is connected between the push rod 93 and the second sliding sleeve 91, the second compression spring 94 is wound on the scraping rod 92, and the second compression spring 94 plays a role in buffering and resetting for the scraping rod 92.

Along with the cover plate 73 rotates clockwise to open, the cover plate 73 can all push the ejector rods 93 to move leftwards, at the moment, the ejector rods 93 can all push the support frame 52 to slide leftwards, the first compression springs 54 are all compressed under stress, the support frame 52 drives the screen 53 to move leftwards, meanwhile, along with the leftward movement of the ejector rods 93, the scraper rods 92 can be driven to slide leftwards, the second compression springs 94 are compressed under stress, along with the leftward sliding of the scraper rods 92, the scraper rods 92 can scrape the bottom surface of the electric conveying assembly 2, impurity blockage accumulation is prevented, along with the counterclockwise rotating reset of the cover plate 73, the ejector rods 93 lose the thrust of the cover plate 73, under the action of the second compression springs 94, the scraper rods 92 slide rightwards to reset, meanwhile, the scraper rods 92 drive the ejector rods 93 to move rightwards to reset, along with the movement of the ejector rods 93, the support frame 52 loses the thrust, under the action of the first compression springs 54, the support frame 52 drives the screen 53 to move rightwards to reset, in the reciprocating process, the screen 53 can screen and filter borne impurities and glass fibers, and as described above, the electric conveying assembly 2 is scraped through the scraper rods 92, surface impurity scraping is scraped, and the effect of preventing the blockage of the electric conveying assembly 2 is achieved.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. The utility model provides a wash drying device based on useless glass fiber retrieves, including washing frame (1), electronic conveyor components (2) and water injection pipe (3), washing frame (1) top is connected with electronic conveyor components (2), electronic conveyor components (2) top is connected with three water injection pipes (3), the high-pressure heater is characterized by, still including stoving mechanism (4) and recovery mechanism (5), washing frame (1) left side is equipped with stoving mechanism (4) that are used for drying to glass fiber, be equipped with on washing frame (1) and be used for carrying out the recovery mechanism (5) of collecting to the waste material.

2. The washing and drying device based on waste glass fiber recovery as claimed in claim 1, characterized in that the drying mechanism (4) comprises a drying box (41), an air guide pipe frame (42), an air pump (43), an air heater (44) and a drawing plate (45), the drying box (41) is welded at the left part of the washing frame (1), the air guide pipe frame (42) is connected between the left side and the right side of the drying box (41), the drawing plate (45) is connected at the bottom of the drying box (41) in a sliding manner, the air pump (43) is connected at the rear side of the drying box (41) through a bolt, and the air heater (44) is connected at the rear side of the drying box (41).

3. The washing and drying device based on the recovery of the waste glass fibers as claimed in claim 2, wherein the recovery mechanism (5) comprises a first sliding sleeve (51), a support frame (52), a screen (53) and a first compression spring (54), the first sliding sleeve (51) is connected to the front side and the rear side inside the washing frame (1), the support frame (52) is connected between the first sliding sleeve (51) in a sliding manner, the screen (53) is connected to the top of the support frame (52), the first compression springs (54) which are symmetrical in the front and the rear direction are connected between the first sliding sleeve (51) and the support frame (52), and the first compression springs (54) are wound on the support frame (52).

4. The washing and drying device based on the recovery of the waste glass fibers as claimed in claim 3, characterized by further comprising a material distributing mechanism (6) for drying the glass fibers in batches, wherein the material distributing mechanism (6) comprises material distributing rods (61), rotating rods (62), driving wheels (63) and belts (64), three material distributing rods (61) are rotatably connected to the upper part in the drying box (41), the driving wheels (63) are respectively connected to the front parts of the material distributing rods (61), the rotating rods (62) are connected to the front sides of the lower driving wheels (63), and the belts (64) are wound between the driving wheels (63).

5. The washing and drying device based on waste glass fiber recovery as claimed in claim 4, characterized by further comprising a quantitative mechanism (7) for limiting the amount of discharged materials, wherein the quantitative mechanism (7) comprises an electric push rod (71), a rotating frame (72), a cover plate (73) and a torsion spring (74), the upper side of the left part of the electric conveying assembly (2) is connected with the electric push rod (71) through a bolt, the rotating frame (72) is welded on the upper side of the left part of the electric conveying assembly (2), the cover plate (73) is rotatably connected on the rotating frame (72), the torsion springs (74) which are symmetrical in the front-back direction are connected between the cover plate (73) and the rotating frame (72), and the torsion springs (74) are all wound on the rotating frame (72).

6. The washing and drying device based on waste glass fiber recovery as claimed in claim 5, characterized by further comprising a circulating mechanism (8) for recycling water resources, wherein the circulating mechanism (8) comprises guide rails (81), a water pump (82), a return pipe (83) and a flow distribution plate (84), the inner bottom of the washing rack (1) is connected with the guide rails (81) which are symmetrical front and back, the flow distribution plate (84) is connected between the guide rails (81) in a sliding manner, the upper side of the inner right part of the washing rack (1) is connected with the water pump (82) through a bolt, and the return pipe (83) is connected between the water pump (82) and the electric conveying assembly (2).

7. The washing and drying device based on waste glass fiber recovery as claimed in claim 6, characterized by further comprising an anti-clogging mechanism (9) for scraping off impurities, wherein the anti-clogging mechanism (9) comprises a second sliding sleeve (91), a scraping rod (92), a push rod (93) and a second compression spring (94), the second sliding sleeve (91) is connected to the front portion of the washing frame (1), the scraping rod (92) is slidably connected to the second sliding sleeve (91), the push rod (93) is connected to the left side of the scraping rod (92), the second compression spring (94) is connected between the push rod (93) and the second sliding sleeve (91), and the second compression spring (94) is wound on the scraping rod (92).

8. The washing and drying device based on the recycling of the waste glass fibers as claimed in claim 7, wherein the distributing rods (61) are distributed in an inverted triangle shape to facilitate the batch blanking.