CN113186758A

CN113186758A - Slurry preparation device for processing and producing multi-stage paper pulp molding tableware

Info

Publication number: CN113186758A
Application number: CN202110567413.8A
Authority: CN
Inventors: 杨建平; 黄建新; 卢益雷; 赖正妃
Original assignee: Zhejiang Bote Biotechnology Co ltd
Current assignee: Zhejiang Bote Biotechnology Co ltd
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-07-30

Abstract

The invention discloses a multi-stage pulp mixing device for processing and producing pulp molding tableware, relates to the technical field of pulp processing, and solves the problems that the conventional pulp mixing device does not have a quantitative adjusting structure convenient for quick adjustment and cannot quickly adjust the discharge capacity of a mold according to the capacity requirement of the mold. A multi-stage pulp distribution device for processing and producing pulp molding tableware comprises a base, wherein the top of the base is rotatably provided with a transmission belt through a vertical column; the loading die, the both sides of loading die are all fixed and are provided with the rotation axis, and the rotation axis is rotatory to be set up in the top of drive belt, through being provided with the screw slider, for joining in marriage the thick liquid device and provide the function according to the capacity needs quick adjustment mould discharge capacity of mould, drive the worm gear rotation through the worm gear drive, the lead screw passes through screw transmission and drives the screw slider and remove, further adjusts the portable scope of outer axle, adjusts the range of motion of piston rod simultaneously, adjusts the ration of joining in marriage thick liquid.

Description

Slurry preparation device for processing and producing multi-stage paper pulp molding tableware

Technical Field

The invention relates to the technical field of paper pulp processing, in particular to a pulp mixing device for processing and producing multi-stage paper pulp molding tableware.

Background

The paper-plastic tableware is made up by using mould to make paper pulp undergo the processes of vacuum adsorption forming and drying treatment, then making deep-processing treatment, and can be substituted for metal and plastic tableware.

Through retrieval, for example, patent No. CN213013696U discloses an automatic control quantitative slurry discharging device, which comprises a slurry tank and a slurry inlet pipe, wherein the slurry inlet pipe is provided with a slurry inlet, the slurry inlet pipe is communicated with a slurry inlet hose, the slurry inlet hose is communicated with a pneumatic control slurry discharging valve, the pneumatic control slurry discharging valve is communicated with a measuring cup in the slurry tank, the lower end of the pneumatic control slurry discharging valve is provided with a slurry discharging port, the pneumatic control slurry discharging valve is controlled by an external time relay controller to be switched on and off for time, the measuring cup is provided with a measuring cup adjusting plug board, and the measuring cup adjusting plug board is used for adjusting the height of the measuring cup. The utility model has the advantages that: the on-off time of the pneumatic control pulp discharging valve is controlled through the time relay, the height of the measuring cup is adjusted through the measuring cup adjusting insertion plate, the accurate quantification is achieved through the cooperation of the measuring cup adjusting insertion plate and the amount of paper pulp, the production efficiency is improved, the overflow port is arranged, the paper pulp overflowing from the measuring cup flows back to the good pulp pool through the overflow hole, the paper pulp is recycled, and the waste of production resources is reduced.

Similar to the pulp preparation device of the above application, the following disadvantages exist:

firstly, the currently used slurry preparation device does not have a quantitative adjustment structure convenient for quick adjustment, and can not quickly adjust the discharge capacity of a mold according to the capacity requirement of the mold; secondly, the driven auxiliary function is not provided, and the mould can not be conveyed in the process of conveying the slurry; thirdly, the suction function of active filling is not provided, and the slurry preparation and the mould conveying can not be controlled respectively through the control of a mechanical structure.

Therefore, the existing requirements are not met, and a multi-stage pulp molding tableware processing and producing pulp mixing device is provided for the pulp molding tableware processing and producing pulp.

Disclosure of Invention

Problem (A)

The invention aims to provide a multi-stage pulp mixing device for processing and producing pulp molding tableware, which aims to solve the problems that the prior pulp mixing device does not have a quantitative adjusting structure convenient for quick adjustment and cannot quickly adjust the discharge capacity of a mold according to the capacity requirement of the mold; secondly, the driven auxiliary function is not provided, and the mould can not be conveyed in the process of conveying the slurry; and thirdly, the suction function of active filling is not achieved, and the slurry preparation and the mould conveying cannot be controlled respectively through the control of a mechanical structure.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a multi-stage pulp distribution device for processing and producing pulp molding tableware comprises a base, wherein the top of the base is rotatably provided with a transmission belt through a vertical column;

the loading mould is provided with rotating shafts at two sides, and the rotating shafts are rotatably arranged at the top of the transmission belt;

the outer frame is fixedly arranged at the top of the base, and a vertical shaft frame is integrally arranged in the middle of the rear side of the top of the outer frame;

the center shaft is arranged in the middle of the rear side of the center aligning rotary disc in an integrated mode, and the center shaft is rotatably arranged in the middle of the top of the vertical shaft bracket.

Preferably, the loading die further comprises:

the main body of the loading die is of a U-shaped structure, the middle of the bottom of the loading die is of a hollow structure, three groups of partition plates are fixedly arranged on the inner side of the loading die, and both sides of the partition plates and both sides of the loading die are of a trapezoidal structure; two groups of moulds are inserted into the inner side of the top of the loading mould, and an injection opening is formed in the middle of the top of the mould.

Preferably, the outer frame further comprises:

the front side of the top of the outer frame is provided with a slot structure, and two groups of filling devices are fixedly arranged in the slot structure;

the middle of the top of the filling device is connected with a piston cylinder, the inner side of the top of the piston cylinder is provided with piston rods in a sliding manner, and the tops of the two groups of piston rods are fixedly provided with strip frames;

the front sides of the filling devices are respectively connected with two groups of one-way valves, and the directions of the two groups of one-way valves are opposite; the front end of the one-way valve in the same direction is respectively connected with an input pipe and an output part.

Preferably, the outer frame further comprises:

the top of the left side of the outer frame is fixedly provided with a motor plate, and the outer side of the motor plate is fixedly provided with a motor; a transmission shaft and a driven shaft A are rotatably arranged between the vertical shaft frame and the motor plate.

Preferably, the outer frame further comprises:

the driven shaft B is vertically and rotatably arranged in the middle of the left side of the outer frame and is in transmission connection with the driven shaft A through a bevel gear;

the driven shaft C is rotatably arranged at the bottom of the left side of the outer frame and is in transmission connection with the driven shaft B through a bevel gear; the driven shaft C and the transmission belt are in belt transmission.

Preferably, the outer frame further comprises:

the top of the vertical shaft frame is provided with an opening structure, and the top of the opening structure is integrally provided with the U-shaped frame;

the speed reducing block is arranged in an opening structure at the top of the vertical shaft frame in a sliding manner, a spring rod is fixedly arranged at the top of the speed reducing block, and the spring rod is sleeved with a spring and is connected with the U-shaped frame in a sliding manner; the bottom of the speed reducing block is attached to the central shaft.

Preferably, the outer frame further comprises:

the middle of the rear end of the central shaft is fixedly provided with the linkage shaft A; the top of the vertical shaft frame is rotatably provided with a linkage shaft B and a linkage shaft C; the linkage shaft B is in transmission connection with a transmission shaft provided with a bevel gear; the linkage shaft C is in transmission connection with the driven shaft A through a bevel gear.

Preferably, the outer frame further comprises:

the linkage gear is fixedly arranged at the rear end of the linkage shaft B and is a half gear;

driven gears are fixedly arranged at the rear ends of the linkage shaft A and the linkage shaft C, the number of the driven gears is the same as that of the linkage gears, and the two groups of linkage gears can be meshed with the driven gears.

Preferably, the aligning rotary table further comprises:

the rear side of the aligning turntable is rotatably provided with a worm;

the worm gear rod is eccentrically and rotatably arranged in the aligning rotary disc, and a worm gear is arranged outside the worm gear rod and is in transmission connection with the worm;

the front side of the aligning rotary disc is eccentrically and fixedly provided with a sliding groove group, a lead screw is rotatably arranged in the sliding groove group, and the sliding groove group is in transmission connection with a worm gear rod through a bevel gear.

Preferably, the aligning rotary table further comprises:

the screw sliding block is arranged in the sliding groove group in a sliding mode, an outer shaft is fixedly arranged in the middle of the front end of the sliding groove group, an H-shaped sliding block is rotatably arranged outside the outer shaft, and the H-shaped sliding block is connected with the strip-shaped frame in a sliding mode.

(III) advantageous effects

The invention provides a multistage pulp mixing device for processing and producing pulp molded tableware, which is provided with a nut slide block to provide the pulp mixing device with a function of quickly adjusting the discharge capacity of a mold according to the capacity requirement of the mold.

Secondly, the setting of universal driving shaft C has realized the in-process of carrying the thick liquids and has realized the transport to the mould, and universal driving shaft C drives driven shaft A through bevel gear at rotatory in-process and rotates, and driven shaft A drives driven shaft B through bevel gear and rotates, and driven shaft B drives driven shaft C through bevel gear and rotates, and driven shaft C drives the drive belt rotation through belt drive, utilizes the drive belt to load the rotatory station of mould and accomplish and feed.

And moreover, the setting of the linkage gear provides a function of realizing respective control of slurry preparation and a conveying mould through the control of a mechanical structure, the linkage gear is matched with two groups of driven gears to respectively drive the linkage shaft A and the linkage shaft C to rotate, the linkage shaft A drives the aligning turntable to rotate in the rotating process, the aligning turntable drives the outer shaft and the H-shaped slider to rotate, the H-shaped slider drives the strip-shaped frame to rotate, the strip-shaped frame drives the piston rod to continuously reciprocate, the pressure is repeatedly changed in the piston cylinder, slurry is sucked into the piston cylinder and then is discharged from the one-way valve, and the slurry is discharged into the mould from the bottom of the output part.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic axial side view of an embodiment of the present invention;

FIG. 3 is a schematic perspective view of an outer frame according to an embodiment of the present invention;

FIG. 4 is a schematic side view of an outer frame according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of an aligning turntable according to an embodiment of the present invention;

FIG. 6 is a schematic axial side structure diagram of the aligning turntable according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a loading die according to an embodiment of the present invention;

FIG. 8 is an enlarged partial structural view of part A in the embodiment of the present invention;

in fig. 1 to 8, the correspondence between the part names or lines and the reference numbers is:

1. a base; 2. a transmission belt; 3. loading a mold; 301. a partition plate; 302. a rotating shaft; 4. an outer frame; 401. a vertical shaft bracket; 402. a filling device; 403. a piston cylinder; 404. a piston rod; 405. a strip-shaped frame; 406. a one-way valve; 407. an output member; 408. a motor plate; 409. a motor; 410. a drive shaft; 411. a driven shaft A; 412. a driven shaft B; 413. a driven shaft C; 414. a U-shaped frame; 415. a deceleration block; 416. a spring lever; 417. a linkage shaft A; 418. a linkage shaft B; 419. a linkage shaft C; 420. a linkage gear; 421. a driven gear; 5. an aligning rotary table; 501. a central shaft; 502. a worm; 503. a worm gear; 504. a chute group; 505. a lead screw; 506. a nut slide block; 507. an outer shaft; 508. an H-shaped slider.

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.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. 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 to 8, an embodiment of the present invention includes: a multi-stage pulp distribution device for processing and producing pulp molding tableware comprises a base 1, wherein the top of the base 1 is rotatably provided with a transmission belt 2 through a vertical column; the loading mold 3 is provided with rotating shafts 302 fixedly arranged on two sides of the loading mold 3, and the rotating shafts 302 are rotatably arranged on the top of the transmission belt 2; the loading mould 3 further comprises: the main body of the loading die 3 is of a U-shaped structure, the middle of the bottom of the loading die 3 is of a hollow structure, three groups of partition plates 301 are fixedly arranged on the inner side of the loading die 3, and both sides of the partition plates 301 and both sides of the loading die 3 are of trapezoidal structures; two groups of moulds are inserted into the inner side of the top of the loading mould 3, and an injection opening is formed in the middle of the top of each mould; the outer frame 4 is fixedly arranged at the top of the base 1, and a vertical shaft frame 401 is integrally arranged in the middle of the rear side of the top of the outer frame 4; the outer frame 4 also comprises: the front side of the top of the outer frame 4 is provided with a slot structure, and two groups of filling devices 402 are fixedly arranged in the slot structure; the middle of the top of the filling device 402 is provided with a piston cylinder 403, the inner side of the top of the piston cylinder 403 is provided with a piston rod 404 in a sliding manner, and the tops of the two groups of piston rods 404 are fixedly provided with a strip-shaped frame 405; the front sides of the filling devices 402 are respectively provided with two groups of check valves 406 in a connecting way, and the directions of the two groups of check valves 406 are opposite; the front end of the equidirectional one-way valve 406 is respectively connected with an input pipe and an output member 407; the motor plate 408 is fixedly arranged at the top of the left side of the outer frame 4, and a motor 409 is fixedly arranged on the outer side of the motor plate 408; a transmission shaft 410 and a driven shaft A411 are rotatably arranged between the vertical shaft frame 401 and the motor plate 408, and the motor 409 and the transmission shaft 410 are in bevel gear transmission connection; the center shaft 501 is integrally arranged in the middle of the rear side of the center adjusting rotary disc 5, and the center shaft 501 is rotatably arranged in the middle of the top of the vertical shaft frame 401; the driven shaft B412 is vertically and rotatably arranged in the middle of the left side of the outer frame 4, and the driven shaft B412 is in bevel gear transmission connection with the driven shaft A411; the driven shaft C413 is rotatably arranged at the bottom of the left side of the outer frame 4, and the driven shaft C413 is in bevel gear transmission connection with the driven shaft B412; the driven shaft C413 and the transmission belt 2 are in belt transmission; the top of the vertical shaft frame 401 is provided with an opening structure, and the top of the opening structure is integrally provided with the U-shaped frame 414; the speed reducing block 415 is arranged in the top opening structure of the vertical shaft frame 401 in a sliding mode, the top of the speed reducing block 415 is fixedly provided with a spring rod 416, and the spring rod 416 is sleeved with a spring and is connected with the U-shaped frame 414 in a sliding mode; the bottom of the speed reducing block 415 is attached to the central shaft 501; the linkage shaft A417 is fixedly arranged in the middle of the rear end of the central shaft 501; the top of the vertical shaft frame 401 is rotatably provided with a linkage shaft B418 and a linkage shaft C419; the linkage shaft B418 is in bevel gear transmission connection with the transmission shaft 410; the linkage shaft C419 is in bevel gear transmission connection with the driven shaft A411; the linkage gear 420 is fixedly arranged at the rear end of the linkage shaft B418, and the linkage gear 420 is a half gear; driven gears 421 are fixedly arranged at the rear ends of the driven gears 421, the linkage shaft A417 and the linkage shaft C419, the number of teeth of the driven gears 421 is the same as that of the linkage gears 420, and the two groups of linkage gears 420 can be meshed with the driven gears 421.

Wherein, aligning carousel 5 is still including: a worm 502 is rotatably arranged on the rear side of the aligning turntable 5; a worm gear rod 503 is eccentrically and rotatably arranged in the self-aligning rotary disc 5, and a worm gear is arranged outside the worm gear rod 503 and is in transmission connection with the worm 502; the sliding groove group 504 is eccentrically and fixedly arranged on the front side of the aligning rotary disc 5, a lead screw 505 is rotatably arranged in the sliding groove group 504, and the sliding groove group 504 and a worm gear 503 are in bevel gear transmission connection.

Wherein, aligning carousel 5 is still including: the screw sliding block 506 is arranged in the sliding groove group 504 in a sliding mode, an outer shaft 507 is fixedly arranged in the middle of the front end of the sliding groove group 504, an H-shaped sliding block 508 is rotatably arranged outside the outer shaft 507, the H-shaped sliding block 508 is connected with the strip-shaped frame 405 in a sliding mode, and the pulp mixing amplitude and range can be adjusted through the arrangement of the screw sliding block 506.

The working principle is as follows: when in use, the molds are placed in the loading mold 3, and the injection ports of one group of molds are ensured to be aligned with the output member 407 through preset adjustment; the motor 409 is started, the motor 409 drives the transmission shaft 410 to rotate through a bevel gear, the transmission shaft 410 drives the linkage shaft B418 to rotate through the bevel gear, the linkage shaft B418 drives the linkage gear 420 to rotate, and the linkage gear 420 is matched with the two groups of driven gears 421 to respectively drive the linkage shaft A417 and the linkage shaft C419 to rotate.

The linkage shaft C419 drives the driven shaft A411 to rotate through a bevel gear in the rotating process, the driven shaft A411 drives the driven shaft B412 to rotate through the bevel gear, the driven shaft B412 drives the driven shaft C413 to rotate through the bevel gear, the driven shaft C413 drives the transmission belt 2 to rotate through belt transmission, and the loading mold 3 is rotated to one station by the transmission belt 2 to complete feeding.

The universal driving shaft A417 drives the aligning rotary disc 5 to rotate in the rotating process, the aligning rotary disc 5 drives the outer shaft 507 and the H-shaped sliding block 508 to rotate, the H-shaped sliding block 508 drives the strip-shaped frame 405 to rotate, the strip-shaped frame 405 drives the piston rod 404 to continuously reciprocate, pressure is repeatedly changed in the piston cylinder 403, slurry is sucked into the piston cylinder 403, then discharged from the one-way valve 406, and discharged into a mold from the bottom of the output part 407.

The worm 502 is rotated, the worm gear 503 is driven to rotate through the worm gear and worm driving belt, the worm gear 503 drives the lead screw 505 to rotate through the bevel gear, the lead screw 505 drives the nut slider 506 to move through thread transmission, the movable range of the outer shaft 507 is further adjusted, meanwhile, the motion amplitude of the piston rod 404 is adjusted, and the quantitative distribution of the slurry is adjusted.

It will be evident to those skilled in the art that the invention 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 invention 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

1. A multi-stage pulp molding tableware processing production pulp distribution device is characterized by comprising:

the top of the base is rotatably provided with a transmission belt through an upright post;

2. The apparatus of claim 1, wherein said loading module further comprises:

3. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

4. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

5. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

6. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

7. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

8. The multi-stage pulp molding tableware processing and producing and distributing apparatus as claimed in claim 1, wherein said outer frame further comprises:

9. The multi-stage pulp molding tableware processing and producing pulp distribution device according to claim 1, wherein said center-adjusting turntable further comprises:

the rear side of the aligning turntable is rotatably provided with a worm;

10. The multi-stage pulp molding tableware processing and producing pulp distribution device according to claim 1, wherein said center-adjusting turntable further comprises: