CN216551328U - Energy-concerving and environment-protective pulping equipment for papermaking printing - Google Patents

Abstract

The utility model discloses an energy-saving and environment-friendly pulping device for papermaking printing, which comprises a base, wherein a hydraulic cylinder is arranged on one side of the upper surface of the base, a hydraulic telescopic rod is arranged at the top of the hydraulic cylinder, a top plate is arranged at the top end of the hydraulic telescopic rod, a speed reduction motor is arranged on one side of the upper surface of the top plate, an output shaft of the speed reduction motor penetrates through a through hole in the top plate and is connected with a rotating shaft through a coupler, the bottom end of the rotating shaft penetrates through a first sealing bearing on a top cover and is connected with a second sealing bearing on a circular connecting plate, the outer wall of the circular connecting plate is connected with the inner wall of a hollow annular scraper through a connecting rod, and a shell is arranged right below the top cover. The utility model can effectively scrape the residual slurry on the inner wall of the utility model, is convenient for cleaning the stirring structure, avoids the situation that the residual slurry is polluted when the slurry is crushed next time because the residual slurry is not cleaned completely for a long time, and has strong practicability.

Description

Energy-concerving and environment-protective pulping equipment for papermaking printing

Technical Field

The utility model relates to the technical field of papermaking printing production equipment, in particular to energy-saving and environment-friendly pulping equipment for papermaking printing.

Background

Paper is the most common article in our daily life, and is in contact with paper when reading books and newspapers, or writing and drawing. Paper is also not available in industrial, agricultural and defense industry. Today, it is simply unthinkable without paper. Paper is a powerful tool and material in communicating ideas, propagating culture, developing scientific technology and production. Reviewing the history, the important substance is invented by people of ancient Chinese laborers. The paper making technology, compass, gunpowder and printing technology are also called as four inventions of ancient Chinese science and technology, and are excellent contributions of Chinese people to the development of world scientific culture; paper making is an important invention for ancient Chinese workers. The method is divided into a mechanism mode and a manual mode. The mechanism is continuously carried out on a paper machine, pulp suitable for paper quality is diluted to certain concentration by water, and is primarily dewatered at a wire part of the paper machine to form a wet paper sheet, and then the wet paper sheet is pressed for dewatering and then dried to form paper. Manually, the fibers dispersed and suspended in water are made into wet paper sheets by a frame with a bamboo curtain, a polyester net or a copper net, and the wet paper sheets are pressed, dehydrated and dried in the sun or dried to form paper; at present, pulping is one of essential procedures in the production and processing process of a papermaking process.

However, the existing energy-saving and environment-friendly pulping equipment for papermaking printing cannot effectively scrape residual slurry on the inner wall, is inconvenient for cleaning and stirring structures, is not cleaned completely for a long time, is easy to cause the slurry to be polluted when the slurry is crushed next time, and has poor crushing effect on materials; therefore, the existing use requirements are not satisfied.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide energy-saving and environment-friendly pulping equipment for papermaking printing, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an energy-saving and environment-friendly pulping device for papermaking printing comprises a base, wherein a hydraulic cylinder is installed on one side of the upper surface of the base, a hydraulic telescopic rod is arranged at the top of the hydraulic cylinder, a top plate is installed at the top end of the hydraulic telescopic rod, a speed reduction motor is installed on one side of the upper surface of the top plate, an output shaft of the speed reduction motor penetrates through a through hole in the top plate and is connected with a rotating shaft through a coupler, a first sealing bearing on a top cover is penetrated through the bottom end of the rotating shaft and is connected with a second sealing bearing on a circular connecting plate, the outer wall of the circular connecting plate is connected with the inner wall of a hollow annular scraper blade through a connecting rod, an outer shell is arranged under the top cover, the vertical center line of the top cover coincides with the vertical center position of the outer shell, a heat insulation layer is coated on the inner wall of the outer shell, an inner shell is arranged on the inner side of the heat insulation layer, and an electric heating coil is arranged between the inner wall of the heat insulation layer and the outer wall of the inner shell, and a temperature sensor is arranged on the lower surface of the top cover.

Preferably, the through hole is formed in one side of the surface of the top plate, the first sealing bearing is arranged in the center of the surface of the top cover, and the second sealing bearing is arranged in the center of the surface of the circular connecting plate.

Preferably, the side plates are mounted above the outer walls of the two sides of the shell, the positioning holes are formed in the surface center positions of the side plates, the positioning columns are mounted on the two sides of the lower surface of the top cover, the positioning columns on the top cover are mounted in the positioning holes in the side plates, and the outer walls of the positioning columns are in clearance connection with the hole walls of the positioning holes.

Preferably, the outer wall of the rotating shaft is provided with crushing blades.

Preferably, the control box is installed to the preceding terminal surface of shell, the inside of control box is provided with the controller, the preceding terminal surface of control box is provided with display screen and controller panel, and the display screen is located the top of controller face, the preceding terminal surface of controller panel is provided with control button.

Preferably, the support column is all installed to four corners in the bottom of shell, the upper surface at the base is installed to the bottom of support column, the bottom central point of inner shell puts and is provided with the discharging pipe, and the bottom of discharging pipe runs through insulating layer and shell in proper order, be provided with the bleeder valve on the discharging pipe, and the bleeder valve is located the outside of shell, the feed inlet has all been seted up to the top central point of shell, insulating layer and inner shell.

Compared with the prior art, the utility model has the beneficial effects that: the utility model pours the material into the inner shell from the feed inlet through the matching arrangement of a series of structures, the hydraulic cylinder is started, the hydraulic telescopic rod is telescopic, the hydraulic telescopic rod can indirectly drive the top cover to do upward or downward linear motion, the worker enables the positioning column on the top cover to be arranged in the positioning hole on the side plate, the worker starts the speed reducing motor and the electric heating coil, the speed reducing motor drives the crushing blade on the rotating shaft to rotate, the crushing blade crushes and stirs the material, the electric heating coil heats the material in the inner shell, the temperature sensor monitors the temperature in the inner shell in real time, when the temperature data value detected by the temperature sensor is larger than the preset temperature data value range, the controller closes the electric heating coil, when the temperature detected by the temperature sensor is smaller than the preset temperature data value range, the controller controls the electric heating coil to be opened, the material in the inner shell is crushed within a preset temperature data value range, and the crushing effect of the material can be effectively improved by crushing the material within a certain temperature data value range, so that the material is crushed more fully; after the materials are crushed, the hydraulic cylinder is started by the worker, so that the hollow annular scraper moves back and forth on the inner wall of the inner shell, the residual slurry on the inner wall of the inner shell can be conveniently scraped, the hollow annular scraper is moved out of the device by the worker, and the rotating shaft, the crushing blade and the hollow annular scraper can be cleaned by the worker.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the hollow annular flight of the present invention.

In the figure: 1. a top plate; 2. a temperature sensor; 3. a first sealed bearing; 4. a reduction motor; 5. a through hole; 6. a coupling; 7. a feed inlet; 8. a top cover; 9. positioning holes; 10. a side plate; 11. a positioning column; 12. crushing the blade; 13. a rotating shaft; 14. a second sealed bearing; 15. a circular connecting plate; 16. a housing; 17. a thermal insulation layer; 18. an electric heating coil; 19. an inner shell; 20. a hydraulic telescopic rod; 21. a hydraulic cylinder; 22. a base; 23. a support pillar; 24. a hollow annular scraper; 25. a discharge valve; 26. a discharge pipe; 27. a control box; 28. a display screen; 29. a control button; 30. a controller panel; 31. a connecting rod.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-3, an embodiment of the present invention is shown: an energy-saving and environment-friendly pulping device for papermaking printing comprises a base 22, a hydraulic cylinder 21 is installed on one side of the upper surface of the base 22, a hydraulic telescopic rod 20 is arranged at the top of the hydraulic cylinder 21, a top plate 1 is installed at the top end of the hydraulic telescopic rod 20, a speed reduction motor 4 is installed on one side of the upper surface of the top plate 1, an output shaft of the speed reduction motor 4 penetrates through a through hole 5 in the top plate 1 and is connected with a rotating shaft 13 through a coupler 6, the bottom end of the rotating shaft 13 penetrates through a first sealing bearing 3 on a top cover 8 and is connected with a second sealing bearing 14 on a circular connecting plate 15, the outer wall of the circular connecting plate 15 is connected with the inner wall of a hollow annular scraper 24 through a connecting rod 31, an outer shell 16 is arranged right below the top cover 8, the vertical central line of the top cover 8 is coincident with the vertical central position of the outer shell 16, a heat insulation layer 17 is coated on the inner wall of the outer shell 16, and an inner shell 19 is arranged on the inner side of the heat insulation layer 17, an electric heating coil 18 is arranged between the inner wall of the heat insulation layer 17 and the outer wall of the inner shell 19, the lower surface of the top cover 8 is provided with a temperature sensor 2, a through hole 5 is arranged on one side of the surface of the top plate 1, a first sealing bearing 3 is arranged on the central position of the surface of the top cover 8, a second sealing bearing 14 is arranged on the central position of the surface of the circular connecting plate 15, side plates 10 are arranged above the outer walls on two sides of the outer shell 16, a positioning hole 9 is arranged on the central position of the surface of each side plate 10, positioning columns 11 are arranged on two sides of the lower surface of the top cover 8, the positioning columns 11 on the top cover 8 are arranged in the positioning holes 9 on the side plates 10, the outer walls of the positioning columns 11 are in clearance connection with the hole walls of the positioning holes 9, crushing blades 12 are arranged on the outer wall of the rotating shaft 13, a control box 27 is arranged on the front end face of the outer shell 16, a controller is arranged in the control box 27, a display 28 and a controller panel 30 are arranged on the front end face of the control box 27, and display screen 28 is located the top of controller face, the preceding terminal surface of controller panel 30 is provided with control button 29, support column 23 is all installed to four corners in the bottom of shell 16, the upper surface at base 22 is installed to the bottom of support column 23, the bottom central point of inner shell 19 puts and is provided with discharging pipe 26, and insulating layer 17 and shell 16 are run through in proper order to the bottom of discharging pipe 26, be provided with bleeder valve 25 on the discharging pipe 26, and bleeder valve 25 is located the outside of shell 16, feed inlet 7 has all been seted up to the top central point of insulating layer 17 and inner shell 19.

The working principle is as follows: when the temperature sensor is used, an external power supply is switched on, materials are poured into the inner shell 19 from the feeding hole 7, the hydraulic cylinder 21 is started, the hydraulic telescopic rod 20 is telescopic, the hydraulic telescopic rod 20 can indirectly drive the top cover 8 to do upward or downward linear motion, a worker enables the positioning column 11 on the top cover 8 to be installed in the positioning hole 9 on the side plate 10, the worker starts the speed reduction motor 4 and the electric heating coil 18, the speed reduction motor 4 drives the crushing blade 12 on the rotating shaft 13 to rotate, the crushing blade 12 crushes and stirs the materials, the electric heating coil 18 heats the materials inside the inner shell 19, the temperature sensor 2 monitors the temperature inside the inner shell 19 in real time, when the temperature data value detected by the temperature sensor 2 is larger than a preset temperature data value range, the controller closes the electric heating coil 18, and when the temperature detected by the temperature sensor 2 is smaller than the preset temperature data value range, the controller controls the electric heating coil 18 to be opened, so that the material in the inner shell 19 is crushed within a preset temperature data value range, and the crushing effect of the material can be effectively improved by crushing the material within a certain temperature data value range, so that the material is crushed more fully; after the materials are crushed, the hydraulic cylinder 21 is started by a worker, so that the hollow annular scraper 24 moves back and forth on the inner wall of the inner shell 19, the residual slurry on the inner wall of the inner shell 19 can be conveniently scraped, the hollow annular scraper 24 is moved out of the device by the worker, and the rotating shaft 13, the crushing blade 12 and the hollow annular scraper 24 can be cleaned by the worker, so that the device can effectively scrape the residual slurry on the inner wall of the device, is convenient for cleaning a stirring structure, avoids the situation that the slurry is polluted when the residual slurry is not cleaned completely for a long time, and has strong practicability.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an energy-concerving and environment-protective papermaking is pulping equipment for printing, includes base (22), its characterized in that: the upper surface of the base (22) is provided with a hydraulic cylinder (21), the top of the hydraulic cylinder (21) is provided with a hydraulic telescopic rod (20), the top end of the hydraulic telescopic rod (20) is provided with a top plate (1), one side of the upper surface of the top plate (1) is provided with a speed reducing motor (4), an output shaft of the speed reducing motor (4) penetrates through a through hole (5) on the top plate (1) and is connected with a rotating shaft (13) through a coupler (6), the bottom end of the rotating shaft (13) penetrates through a first sealing bearing (3) on a top cover (8) and is connected with a second sealing bearing (14) on a circular connecting plate (15), the outer wall of the circular connecting plate (15) is connected with the inner wall of a hollow annular scraper blade (24) through a connecting rod (31), a shell (16) is arranged under the top cover (8), and the vertical center line of the top cover (8) coincides with the vertical center position of the shell (16), the inner wall of shell (16) is gone up the cladding and is had insulating layer (17), the inboard of insulating layer (17) is provided with inner shell (19), be provided with electric heating coil (18) between the inner wall of insulating layer (17) and the outer wall of inner shell (19), the lower surface of top cap (8) is provided with temperature sensor (2).

2. The energy-saving and environment-friendly pulping equipment for papermaking printing according to claim 1, characterized in that: the through hole (5) is formed in one side of the surface of the top plate (1), the first sealing bearing (3) is arranged in the center of the surface of the top cover (8), and the second sealing bearing (14) is arranged in the center of the surface of the circular connecting plate (15).

3. The energy-saving and environment-friendly pulping equipment for papermaking printing according to claim 1, characterized in that: curb plate (10) are all installed to the both sides outer wall top of shell (16), locating hole (9) have been seted up to the surperficial central point of curb plate (10) puts, reference column (11) are all installed to the lower surface both sides of top cap (8), reference column (11) on top cap (8) are installed in locating hole (9) on curb plate (10), and the outer wall of reference column (11) and the pore wall clearance connection of locating hole (9).

4. The energy-saving and environment-friendly pulping equipment for papermaking printing according to claim 1, characterized in that: the outer wall of the rotating shaft (13) is provided with a crushing blade (12).

5. The energy-saving and environment-friendly pulping equipment for papermaking printing according to claim 1, characterized in that: control box (27) are installed to the preceding terminal surface of shell (16), the inside of control box (27) is provided with the controller, the preceding terminal surface of control box (27) is provided with display screen (28) and controller panel (30), and display screen (28) are located the top of controller face, the preceding terminal surface of controller panel (30) is provided with control button (29).

6. The energy-saving and environment-friendly pulping equipment for papermaking printing according to claim 1, characterized in that: support column (23) are all installed to four corners in the bottom of shell (16), the upper surface at base (22) is installed to the bottom of support column (23), the bottom central point of inner shell (19) puts and is provided with discharging pipe (26), and insulating layer (17) and shell (16) are run through in proper order to the bottom of discharging pipe (26), be provided with bleeder valve (25) on discharging pipe (26), and bleeder valve (25) are located the outside of shell (16), feed inlet (7) have all been seted up to the top central point of shell (16), insulating layer (17) and inner shell (19) position.

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