CN108031336B - Paper pulp agitated vessel with synchronous two-way stirring - Google Patents

Abstract

The invention relates to paper pulp processing equipment, in particular to paper pulp stirring equipment with synchronous bidirectional stirring. The invention aims to provide a paper pulp stirring device with synchronous bidirectional stirring, which can thoroughly stir lower-layer paper pulp. In order to solve the technical problem, the bidirectional stirring device comprises a fourth gear, a fixed rod, a rotating shaft, a fifth gear, a second bearing seat and the like; be equipped with two-way agitating unit on the left side mounting panel, the left second motor output shaft of second motor has the fourth gear through the coupling joint, and the fourth gear is located the third gear left, and the right-hand dead lever that is connected with through the welded mode in fixed plate upside middle part, dead lever left side top rotation type is connected with the pivot, and the pivot left side is connected with the fifth gear, fifth gear downside and fourth gear engagement. The invention achieves the effect of thoroughly stirring the lower layer paper pulp.

Description

Paper pulp agitated vessel with synchronous two-way stirring

Technical Field

The invention relates to paper pulp processing equipment, in particular to paper pulp stirring equipment with synchronous bidirectional stirring.

Background

The paper pulp is a fibrous substance prepared by using plant fibers as raw materials through different processing methods. Mechanical pulp, chemical pulp and chemimechanical pulp can be classified according to the processing method; the fiber raw materials can also be divided into wood pulp, straw pulp, hemp pulp, reed pulp, cane pulp, bamboo pulp, rag pulp and the like according to the used fiber raw materials. And can be divided into refined pulp, bleached pulp, unbleached pulp, high-yield pulp, semi-chemical pulp and the like according to different purities. Are commonly used in the manufacture of paper and paperboard.

At present, when the pulp is stirred, most of the defects exist, the pulp is precipitated in water slurry, only surface pulp and shallow pulp can be stirred in the stirring process, if the stirring is carried out to a lower layer for stirring, the specific depth of the descending is not clear, and the existing stirring of the pulp has the defect that the lower layer pulp cannot be stirred thoroughly.

Therefore, it is necessary to develop a pulp stirring apparatus with synchronous bidirectional stirring, which can thoroughly stir the lower layer pulp, so as to overcome the defect that it is difficult to thoroughly stir the lower layer pulp when stirring the pulp.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defect that the lower layer paper pulp is difficult to be thoroughly stirred in the conventional paper pulp stirring process, and the technical problem to be solved by the invention is to provide the paper pulp stirring equipment with synchronous bidirectional stirring, which can thoroughly stir the lower layer paper pulp.

(2) Technical scheme

In order to solve the technical problems, the invention provides a paper pulp stirring device with synchronous bidirectional stirring, which comprises supports, a bottom plate, fixed blocks, a placing box, a discharging pipe, a valve, a mounting sleeve, a guide rail, a guide sleeve, a first motor, a first gear, a first rack, a fixed plate, a connecting plate, a first bearing seat, a first rotating rod, a connecting rod, a first stirring blade, a second gear, a second motor and a third gear, wherein the upper ends of the two supports are provided with the bottom plate in a welding manner, the middle part of the upper side of the bottom plate is connected with the fixed blocks in a welding manner, the upper end of the fixed block is provided with the placing box in a bolt connection manner, the mounting sleeve is arranged in the middle part of the placing box in a welding manner, the lower side of the middle part of the mounting sleeve is connected with the guide rail in a welding manner, the guide sleeve is connected with the, the first motor output shaft of first motor front side has first gear through the coupling joint, the guide rail right side is connected with first rack through bolted connection's mode, first rack and first gear engagement, guide pin bushing front side top is connected with the fixed plate through the welded mode, the left and right sides is connected with the connecting plate through the welded mode on the fixed plate, first bearing frame is installed through bolted connection's mode to the upside in the connecting plate of right side, first bull stick is connected with in the first bearing frame, first bull stick right-hand member is connected with the connecting rod through the welded mode, the connecting rod downside is connected with first stirring leaf through bolted connection's mode, first bull stick left end is connected with the second gear, the right-hand second motor of installing through bolted connection's mode of fixed plate upside, the left second motor output shaft of second motor has the third gear through the coupling joint, the third gear meshes with the second gear.

Preferably, the installation sleeve further comprises a sloping plate, and the lower part of the outer side of the installation sleeve is connected with the sloping plate in a welding mode.

Preferably, the device also comprises a bidirectional stirring device, the bidirectional stirring device comprises a fourth gear, a fixed rod and a rotating shaft, the fifth gear, the second bearing seat, second bull stick and sixth gear, be equipped with two-way agitating unit on the left side mounting panel, the left second motor output shaft of second motor has the fourth gear through the coupling joint, the fourth gear is located the third gear left, the right-hand dead lever that is connected with through the welded mode in fixed plate upside middle part, dead lever left side top rotation type is connected with the pivot, the pivot left side is connected with the fifth gear, fifth gear downside and fourth gear engagement, install the second bearing seat through bolted connection's mode in the left side connecting plate, second bull stick in-connection has the second bull stick, the second bull stick left end is connected with connecting rod and first stirring leaf through the welded mode, the second bull stick right-hand member is connected with the sixth gear, sixth gear rear side and fifth gear engagement.

Preferably, still including telescopic link, first screw rod and first briquetting, the downside is opened in the connecting rod has first dead slot, has placed the telescopic link in the first dead slot, and the telescopic link downside is connected with first stirring leaf through bolted connection's mode, and it has first screw hole to open connecting rod right side below, and first screw hole is internal to revolve there is first screw rod, first screw rod and the cooperation of first screw hole, and first screw rod left end rotation type is connected with first briquetting.

Preferably, the lower-layer stirring device is also included, the lower-layer stirring device comprises a third bearing seat, a first rotating ring and a second rotating ring, the lower-layer stirring device is arranged on the mounting sleeve, the upper side of the mounting sleeve is connected with a third bearing seat in a bolt connection mode, the outer side of the third bearing seat is connected with a first rotating ring in a bolt connection mode, the lower side of the outer side of the first rotating ring is connected with a second rotating ring in a welding mode, the left side and the right side of the lower side of the outer side of the second rotating ring are connected with a second stirring blade in a bolt connection mode, the seventh gear is connected to the upper side of the inner side of the first rotating ring, the third motor is installed on the upper side of the inner side of the mounting sleeve in a bolt connection mode, a third motor output shaft on the upper side of the third motor is connected with an eighth gear through a coupling, and the eighth gear is meshed with the seventh.

Preferably, still including movable block, second screw rod and second briquetting, the upside is opened in the fixed block has the second dead slot, has placed the movable block in the second dead slot, and the movable block upside is connected through the welded mode and is being placed the case downside, and it has the second screw hole to open above the fixed block right side, and the second screw has screwed in the second screw hole, and the second screw rod cooperates with the second screw hole, and second screw rod left side rotation type is connected with the second briquetting.

Preferably, the rubber stirring device further comprises an accompanying rotating device, the accompanying rotating device comprises a second rack, a fourth bearing seat, a third rotating rod, a ninth gear and a rubber block, the accompanying rotating device is arranged below the second rotating ring, a second empty groove is formed in the lower portion of the outer side of the mounting sleeve, a second rack is connected to the upper side of the third empty groove, the fourth bearing seat is mounted on the lower side of the second rotating ring in a bolt connection mode, the third rotating rod is connected to the inside of the fourth bearing seat, the outer side of the third rotating rod is connected to the inner side of the second stirring blade, the ninth gear is connected to the inner side of the third rotating rod, the ninth gear is meshed with the second rack, the lower side of the second rotating ring is connected with the rubber block, and the rubber block is tightly attached to the.

Preferably, the gear sleeve, the fourth screw and the third pressing block are further included, the gear sleeve is connected to the outer side of the third rotating rod in a welding mode, the second stirring blade is placed in the gear sleeve, a third threaded hole is formed in the upper side of the gear sleeve, the fourth screw is screwed in the third threaded hole and matched with the third threaded hole, and the lower end of the fourth screw is rotatably connected with the third pressing block.

The working principle is as follows: when a user needs to stir paper pulp, the user can put the paper pulp into the placing box to enable the mounting sleeve to separate the paper pulp, then the first motor can be opened later, the first motor drives the first gear to rotate clockwise, the first gear rotates on the first rack to drive the guide sleeve to move downwards on the guide rail, so as to drive the fixed plate and the connecting plate to move downwards, so as to drive the connecting rod and the first stirring blade to move downwards, so that the first stirring blade enters the placing box, then the user can close the first motor, then the second motor is opened, the second motor drives the third gear to rotate forwards, the third gear drives the second gear to rotate backwards, the second gear drives the first rotating rod to rotate backwards in the first bearing seat, so as to drive the connecting rod and the first stirring blade to rotate backwards around the first bearing seat, so as to enable the first stirring blade to stir and flap the paper pulp in the placing box, after the stirring is finished, the user can open first motor to drive first stirring leaf rebound and break away from and place the case, then the user opens the valve, makes the paper pulp that stirs flow out from the unloading pipe, then the user is collected it.

Because still including the swash plate, the installation cover outside below is connected with the swash plate through the welded mode, and when paper pulp was from placing incasement to the unloading intraductal, the swash plate can make paper pulp can not place incasement siltation again, makes paper pulp slide down from the swash plate.

Because the stirring device also comprises a bidirectional stirring device, the bidirectional stirring device comprises a fourth gear, a fixed rod, a rotating shaft, a fifth gear, a second bearing seat, a second rotating rod and a sixth gear, the left mounting plate is provided with the bidirectional stirring device, a second motor output shaft on the left side of a second motor is connected with the fourth gear through a coupler, the fourth gear is positioned on the left side of the third gear, the right side of the middle part of the upper side of the fixed plate is connected with the fixed rod in a welding mode, the upper part of the left side of the fixed rod is rotatably connected with the rotating shaft, the left side of the rotating shaft is connected with the fifth gear, the lower side of the fifth gear is meshed with the fourth gear, the second bearing seat is arranged in the left connecting plate in a bolt connection mode, the second rotating rod is connected in the second bearing seat, the left end of the second rotating rod is connected with a connecting rod and a first, when the user need carry out two-way stirring to the paper pulp of placing the incasement so that when accelerating its stirring speed, the user can open the second motor, the second motor will drive fourth gear corotation when driving third gear corotation, fourth gear corotation will drive the reversal of fifth gear, the reversal of fifth gear will drive the corotation of sixth gear, thereby drive the corotation of second bull stick, the second bull stick is rotatory in the second bearing frame, the corotation of second bull stick drives left side connecting rod and first stirring leaf and around corotation in the second bearing frame, thereby realize that the first stirring leaf in left side and the first stirring leaf in right side are two-way reversal each other, thereby make stirring and speed obtain improving, and can carry out not equidirectional stirring of patting to the paper pulp of placing the incasement.

Because still including the telescopic link, first screw rod and first briquetting, the downside is opened there is first dead slot in the connecting rod, the telescopic link has been placed in the first dead slot, the telescopic link downside is connected with first stirring leaf through bolted connection's mode, it has first screw hole to open connecting rod right side below, first screw hole internal rotation has first screw rod, first screw rod and the cooperation of first screw hole, first screw rod left end rotation type is connected with first briquetting, when the user need lift first stirring leaf off so that change and when wasing, the user can rotate first screw rod, first screw rod is through the cooperation back-out with first screw hole, first screw rod drives first briquetting and moves right, thereby make first briquetting no longer fix the telescopic link, then the user can remove first stirring leaf downwards, first stirring leaf breaks away from first dead slot and lifts off through the telescopic link.

Because the lower-layer stirring device is also included, the lower-layer stirring device comprises a third bearing seat, a first rotating ring, a second stirring blade, a seventh gear, a third motor and an eighth gear, the lower-layer stirring device is arranged on the mounting sleeve, the upper side of the mounting sleeve is connected with the third bearing seat in a bolt connection mode, the outer side of the third bearing seat is connected with the first rotating ring in a bolt connection mode, the lower side of the outer side of the first rotating ring is connected with the second rotating ring in a welding mode, the left side and the right side of the lower side of the outer side of the second rotating ring are connected with the second stirring blade in a bolt connection mode, the seventh gear is connected with the upper side of the inner side of the first rotating ring, the third motor is installed on the upper side of the mounting sleeve in a bolt connection mode, the output shaft of the third motor on the upper side, when the user need stir the paper pulp of placing case lower floor, the user can open the third motor, and the third motor drives eighth gear corotation, and the eighth gear rotation drives the seventh gear reversal, and the seventh gear rotation drives the first rotatory ring reversal, and first rotatory ring is rotatory through third bearing frame, and the rotatory ring reversal of second that drives of first rotatory ring to drive the second stirring leaf reversal, thereby make the second stirring leaf stir the paper pulp of placing case lower floor.

Because still including the movable block, second screw rod and second briquetting, the upside is opened there is the second dead slot in the fixed block, the movable block has been placed in the second dead slot, the movable block upside is connected through the welded mode and is being placed the case downside, it has the second screw hole to open above the fixed block right side, the downthehole second screw rod that has revolved of second screw, second screw rod and the cooperation of second screw hole, second screw rod left side rotation type is connected with the second briquetting, when the user need lift off place the case and the mechanism that the top is connected maintains or washs, the user can rotate the second screw rod, the second screw rod is through the cooperation with the second screw hole back-out, the second screw rod drives the second briquetting and moves right, make the second briquetting no longer fix the movable block, then the user can the rebound place the case, it breaks away from the second dead slot and lifts off to place the case through driving the movable.

Because the paper pulp stirring box also comprises an accompanying rotating device which comprises a second rack, a fourth bearing seat, a third rotating rod, a ninth gear and a rubber block, the accompanying rotating device is arranged below the second rotating ring, a second empty groove is arranged below the outer side of the mounting sleeve, the upper side in the third empty groove is connected with the second rack, the fourth bearing seat is arranged at the lower side in the second rotating ring in a bolt connection mode, the third rotating rod is connected in the fourth bearing seat, the outer side of the third rotating rod is connected to the inner side of the second stirring blade, the inner side of the third rotating rod is connected with the ninth gear, the ninth gear is meshed with the second rack, the rubber block is connected at the lower side of the second rotating ring, the rubber block is tightly attached to the lower side of the mounting sleeve, when a user needs to completely stir the paper pulp placed at the lower layer of the box, when the second rotating ring rotates reversely, the second rotating ring drives the fourth bearing seat, the third rotating rod and the second stirring blade, make the ninth gear revolve on the second rack to make the ninth gear rotate, the ninth gear drives the third bull stick at fourth bearing internal rotation, thereby self will rotate when driving the rotatory ring rotation of second stirring leaf around the second, and the rubber block will plug up the space between the rotatory ring of second and the installation cover, makes paper pulp can not ooze into, avoids causing the jam.

Because still including the gear cover, fourth screw rod and third briquetting, the third bull stick outside is connected with the gear cover through the welded mode, second stirring leaf has been placed in the gear cover, gear cover upside is opened has the third screw hole, third screw hole internal rotation has the fourth screw rod, fourth screw rod and the cooperation of third screw hole, fourth screw rod lower extreme rotation type is connected with the third briquetting, when the user need change wash second stirring leaf, the user can upwards screw out the fourth screw rod, the fourth screw rod through with the cooperation rebound of third screw hole, the fourth screw rod drives the rebound of third briquetting, make the third briquetting no longer fix the second stirring leaf, thereby make the second stirring leaf can break away from the gear cover, thereby lift off.

(3) Advantageous effects

The invention achieves the effect of thoroughly stirring the lower layer paper pulp, and not only can thoroughly stir the paper pulp in all directions, but also the lower layer stirring mode can not cause the splashing of the paper pulp in the stirring process by adopting the mode that the left side and the right side of the second motor are driven to mutually reverse to stir the shallow layer of the paper pulp and the second stirring blade is driven by the third motor to stir the lower layer paper pulp.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a second front view structure diagram of the present invention.

FIG. 3 is a schematic front view of the bidirectional stirring apparatus of the present invention.

Fig. 4 is a schematic front view of the telescopic rod of the present invention.

FIG. 5 is a schematic front view of the lower layer stirring device of the present invention.

Fig. 6 is a schematic front view of the fixing block according to the present invention.

FIG. 7 is a front view of the accompanying rotating device of the present invention.

Fig. 8 is a front view structural schematic diagram of the shift cover of the present invention.

The labels in the figures are: 811-bracket, 101-bottom plate, 201-fixed block, 615-placing box, 807-blanking pipe, 614-valve, 805-mounting sleeve, 704-guide rail, 703-guide sleeve, 1601-first motor, 1708-first gear, 1709-first rack, 102-fixed plate, 106-connecting plate, 1607-first bearing seat, 1308-first rotating rod, 301-connecting rod, 1617-first stirring blade, 2078-second gear, 2601-second motor, 3708-third gear, 113-sloping plate, 91-bidirectional stirring device, 4708-fourth gear, 302-fixed rod, 401-rotating shaft, 5708-fifth gear, 2607-second bearing seat, 2308-second rotating rod, 6708-sixth gear, 1507-first empty slot, 309-telescopic rod, 1508-first threaded hole, 1701-first screw rod, 1211-first pressing block, 92-lower layer stirring device, 3607-third bearing seat, 1410-first rotating ring, 2410-second rotating ring, 2617-second stirring blade, 7708-seventh gear, 3601-third motor, 8708-eighth gear, 2507-second hollow groove, 205-movable block, 2508-second threaded hole, 2701-second screw rod, 2211-second pressing block, 93-accompanying rotating device, 3507-third hollow groove, 2709-second rack, 4607-fourth bearing seat, 3308-third rotating rod, 9708-ninth gear, 212-rubber block, 804-gear sleeve, 3508-third threaded hole, 4701-fourth screw rod and 3211-third pressing block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

1-8, comprising a bracket 811, a bottom plate 101, a fixed block 201, a placing box 615, a blanking pipe 807, a valve 614, a mounting sleeve 805, a guide rail 704, a guide sleeve 703, a first motor 1601, a first gear 1708, a first rack 1709, a fixed plate 102, a connecting plate 106, a first bearing block 1607, a first rotating rod 1308, a connecting rod 301, a first stirring blade 1617, a second gear 2078, a second motor 2601 and a third gear 3708, wherein the bottom plate 101 is installed at the upper ends of the two brackets 811 by welding, the fixed block 201 is connected to the upper middle part of the bottom plate 101 by welding, the placing box 615 is installed at the upper end of the fixed block 201 by bolting, the mounting sleeve 805 is installed at the middle part in the placing box 615 by welding, the guide rail 704 is connected to the lower side of the middle part in the mounting sleeve 805 by welding, the guide rail 704 is connected to slide and is connected to the guide sleeve 703, a first motor 1601 is installed on the right side of the lower side of the guide sleeve 703 through a bolt connection mode, an output shaft of the first motor 1601 on the front side of the first motor 1601 is connected with a first gear 1708 through a coupling, the right side of the guide rail 704 is connected with a first rack 1709 through a bolt connection mode, the first rack 1709 is meshed with the first gear 1708, a fixing plate 102 is connected with the upper side of the front side of the guide sleeve 703 through a welding mode, the left side and the right side of the fixing plate 102 are connected with a connecting plate 106 through a welding mode, a first bearing block 1607 is installed on the upper side in the connecting plate 106 on the right side through a bolt connection mode, a first rotating rod 1308 is connected in the first bearing block 1607, the right end of the first rotating rod 1308 is connected with a connecting rod 301 through a welding mode, a first stirring blade 1617 is connected on the lower side of the connecting rod 301 through a bolt connection mode, a second gear 207, the output shaft of the second motor 2601 on the left side of the second motor 2601 is coupled to a third gear 3708 through a coupling, and the third gear 3708 is engaged with a second gear 2078.

Example 2

1-8, comprising a bracket 811, a bottom plate 101, a fixed block 201, a placing box 615, a blanking pipe 807, a valve 614, a mounting sleeve 805, a guide rail 704, a guide sleeve 703, a first motor 1601, a first gear 1708, a first rack 1709, a fixed plate 102, a connecting plate 106, a first bearing block 1607, a first rotating rod 1308, a connecting rod 301, a first stirring blade 1617, a second gear 2078, a second motor 2601 and a third gear 3708, wherein the bottom plate 101 is installed at the upper ends of the two brackets 811 by welding, the fixed block 201 is connected to the upper middle part of the bottom plate 101 by welding, the placing box 615 is installed at the upper end of the fixed block 201 by bolting, the mounting sleeve 805 is installed at the middle part in the placing box 615 by welding, the guide rail 704 is connected to the lower side of the middle part in the mounting sleeve 805 by welding, the guide rail 704 is connected to slide and is connected to the guide sleeve 703, a first motor 1601 is installed on the right side of the lower side of the guide sleeve 703 through a bolt connection mode, an output shaft of the first motor 1601 on the front side of the first motor 1601 is connected with a first gear 1708 through a coupling, the right side of the guide rail 704 is connected with a first rack 1709 through a bolt connection mode, the first rack 1709 is meshed with the first gear 1708, a fixing plate 102 is connected with the upper side of the front side of the guide sleeve 703 through a welding mode, the left side and the right side of the fixing plate 102 are connected with a connecting plate 106 through a welding mode, a first bearing block 1607 is installed on the upper side in the connecting plate 106 on the right side through a bolt connection mode, a first rotating rod 1308 is connected in the first bearing block 1607, the right end of the first rotating rod 1308 is connected with a connecting rod 301 through a welding mode, a first stirring blade 1617 is connected on the lower side of the connecting rod 301 through a bolt connection mode, a second gear 207, the output shaft of the second motor 2601 on the left side of the second motor 2601 is coupled to a third gear 3708 through a coupling, and the third gear 3708 is engaged with a second gear 2078.

The installation sleeve 805 is characterized by further comprising a sloping plate 113, and the sloping plate 113 is connected to the lower portion of the outer side of the installation sleeve 805 in a welding mode.

Example 3

1-8, comprising a bracket 811, a bottom plate 101, a fixed block 201, a placing box 615, a blanking pipe 807, a valve 614, a mounting sleeve 805, a guide rail 704, a guide sleeve 703, a first motor 1601, a first gear 1708, a first rack 1709, a fixed plate 102, a connecting plate 106, a first bearing block 1607, a first rotating rod 1308, a connecting rod 301, a first stirring blade 1617, a second gear 2078, a second motor 2601 and a third gear 3708, wherein the bottom plate 101 is installed at the upper ends of the two brackets 811 by welding, the fixed block 201 is connected to the upper middle part of the bottom plate 101 by welding, the placing box 615 is installed at the upper end of the fixed block 201 by bolting, the mounting sleeve 805 is installed at the middle part in the placing box 615 by welding, the guide rail 704 is connected to the lower side of the middle part in the mounting sleeve 805 by welding, the guide rail 704 is connected to slide and is connected to the guide sleeve 703, a first motor 1601 is installed on the right side of the lower side of the guide sleeve 703 through a bolt connection mode, an output shaft of the first motor 1601 on the front side of the first motor 1601 is connected with a first gear 1708 through a coupling, the right side of the guide rail 704 is connected with a first rack 1709 through a bolt connection mode, the first rack 1709 is meshed with the first gear 1708, a fixing plate 102 is connected with the upper side of the front side of the guide sleeve 703 through a welding mode, the left side and the right side of the fixing plate 102 are connected with a connecting plate 106 through a welding mode, a first bearing block 1607 is installed on the upper side in the connecting plate 106 on the right side through a bolt connection mode, a first rotating rod 1308 is connected in the first bearing block 1607, the right end of the first rotating rod 1308 is connected with a connecting rod 301 through a welding mode, a first stirring blade 1617 is connected on the lower side of the connecting rod 301 through a bolt connection mode, a second gear 207, the output shaft of the second motor 2601 on the left side of the second motor 2601 is coupled to a third gear 3708 through a coupling, and the third gear 3708 is engaged with a second gear 2078.

The installation sleeve 805 is characterized by further comprising a sloping plate 113, and the sloping plate 113 is connected to the lower portion of the outer side of the installation sleeve 805 in a welding mode.

The two-way stirring device 91 is further included, the two-way stirring device 91 comprises a fourth gear 4708, a fixed rod 302, a rotating shaft 401, a fifth gear 5708, a second bearing block 2607, a second rotating rod 2308 and a sixth gear 6708, the two-way stirring device 91 is arranged on a left mounting plate, an output shaft of a second motor 2601 on the left side of the second motor 2601 is connected with the fourth gear 4708 through a coupler, the fourth gear 4708 is positioned on the left side of a third gear 3708, the fixed rod 302 is connected to the right side of the middle part of the upper side of the fixed plate 102 in a welding mode, the rotating shaft 401 is rotatably connected to the upper side of the left side of the fixed rod 302, the fifth gear 5708 is connected to the left side of the rotating shaft 401, the lower side of the fifth gear 5708 is meshed with the fourth gear 4708, the second bearing block 2607 is installed in a left connecting plate 106 in a bolt connection mode, the second rotating rod 2308 is connected in the second, the right end of the second rotating rod 2308 is connected with a sixth gear 6708, and the rear side of the sixth gear 6708 is meshed with a fifth gear 5708.

Example 4

1-8, comprising a bracket 811, a bottom plate 101, a fixed block 201, a placing box 615, a blanking pipe 807, a valve 614, a mounting sleeve 805, a guide rail 704, a guide sleeve 703, a first motor 1601, a first gear 1708, a first rack 1709, a fixed plate 102, a connecting plate 106, a first bearing block 1607, a first rotating rod 1308, a connecting rod 301, a first stirring blade 1617, a second gear 2078, a second motor 2601 and a third gear 3708, wherein the bottom plate 101 is installed at the upper ends of the two brackets 811 by welding, the fixed block 201 is connected to the upper middle part of the bottom plate 101 by welding, the placing box 615 is installed at the upper end of the fixed block 201 by bolting, the mounting sleeve 805 is installed at the middle part in the placing box 615 by welding, the guide rail 704 is connected to the lower side of the middle part in the mounting sleeve 805 by welding, the guide rail 704 is connected to slide and is connected to the guide sleeve 703, a first motor 1601 is installed on the right side of the lower side of the guide sleeve 703 through a bolt connection mode, an output shaft of the first motor 1601 on the front side of the first motor 1601 is connected with a first gear 1708 through a coupling, the right side of the guide rail 704 is connected with a first rack 1709 through a bolt connection mode, the first rack 1709 is meshed with the first gear 1708, a fixing plate 102 is connected with the upper side of the front side of the guide sleeve 703 through a welding mode, the left side and the right side of the fixing plate 102 are connected with a connecting plate 106 through a welding mode, a first bearing block 1607 is installed on the upper side in the connecting plate 106 on the right side through a bolt connection mode, a first rotating rod 1308 is connected in the first bearing block 1607, the right end of the first rotating rod 1308 is connected with a connecting rod 301 through a welding mode, a first stirring blade 1617 is connected on the lower side of the connecting rod 301 through a bolt connection mode, a second gear 207, the output shaft of the second motor 2601 on the left side of the second motor 2601 is coupled to a third gear 3708 through a coupling, and the third gear 3708 is engaged with a second gear 2078.

The installation sleeve 805 is characterized by further comprising a sloping plate 113, and the sloping plate 113 is connected to the lower portion of the outer side of the installation sleeve 805 in a welding mode.

The two-way stirring device 91 is further included, the two-way stirring device 91 comprises a fourth gear 4708, a fixed rod 302, a rotating shaft 401, a fifth gear 5708, a second bearing block 2607, a second rotating rod 2308 and a sixth gear 6708, the two-way stirring device 91 is arranged on a left mounting plate, an output shaft of a second motor 2601 on the left side of the second motor 2601 is connected with the fourth gear 4708 through a coupler, the fourth gear 4708 is positioned on the left side of a third gear 3708, the fixed rod 302 is connected to the right side of the middle part of the upper side of the fixed plate 102 in a welding mode, the rotating shaft 401 is rotatably connected to the upper side of the left side of the fixed rod 302, the fifth gear 5708 is connected to the left side of the rotating shaft 401, the lower side of the fifth gear 5708 is meshed with the fourth gear 4708, the second bearing block 2607 is installed in a left connecting plate 106 in a bolt connection mode, the second rotating rod 2308 is connected in the second, the right end of the second rotating rod 2308 is connected with a sixth gear 6708, and the rear side of the sixth gear 6708 is meshed with a fifth gear 5708.

The telescopic rod 309, the first screw 1701 and the first pressing block 1211 are further included, a first empty groove 1507 is formed in the inner lower side of the connecting rod 301, the telescopic rod 309 is placed in the first empty groove 1507, the lower side of the telescopic rod 309 is connected with the first stirring blade 1617 in a bolt connection mode, a first threaded hole 1508 is formed in the lower portion of the right side of the connecting rod 301, the first screw 1701 is screwed in the first threaded hole 1508, the first screw 1701 is matched with the first threaded hole 1508, and the first pressing block 1211 is rotatably connected to the left end of the first screw 1701.

The lower-layer stirring device 92 comprises a third bearing seat 3607, a first rotating ring 1410, a second rotating ring 2410, a second stirring blade 2617, a seventh gear 7708, a third motor 3601 and an eighth gear 8708, the lower-layer stirring device 92 is arranged on the mounting sleeve 805, the third bearing seat 3607 is connected with the upper side of the mounting sleeve 805 in a bolt connection mode, the first rotating ring 1410 is connected with the outer side of the third bearing seat 3607 in a bolt connection mode, the second rotating ring 2410 is connected with the lower side of the outer side of the first rotating ring 1410 in a welding mode, the second stirring blade 2617 is connected with the left side and the right side of the outer side of the second rotating ring 2410 in a bolt connection mode, the seventh gear 7708 is connected with the upper side of the inner side of the first rotating ring 1410, the third motor 3601 is installed with the upper side of the inner side of the mounting sleeve 805 in a bolt connection mode, the output shaft of the third motor 3601 on the upper side of the third motor 1 is connected with, the eighth gear 8708 meshes with the seventh gear 7708.

The movable block 201 is internally provided with a second hollow groove 2507 at the upper side, the movable block 205 is placed in the second hollow groove 2507, the upper side of the movable block 205 is connected to the lower side of the placing box 615 in a welding mode, a second threaded hole 2508 is formed in the upper side of the right side of the fixed block 201, the second threaded hole 2508 is internally screwed with the second threaded rod 2701, the second threaded rod 2701 is matched with the second threaded hole 2508, and the second pressing block 2211 is rotatably connected to the left side of the second threaded rod 2701.

The auxiliary rotating device 93 is further included, the auxiliary rotating device 93 comprises a second rack 2709, a fourth bearing block 4607, a third rotating rod 3308, a ninth gear 9708 and a rubber block 212, the auxiliary rotating device 93 is arranged below the second rotating ring 2410, a second hollow groove 2507 is formed below the outer side of the mounting sleeve 805, the second rack 2709 is connected to the inner upper side of the third hollow groove 3507, the fourth bearing block 4607 is arranged below the inner side of the second rotating ring 2410 in a bolt connection mode, the third rotating rod 3308 is connected to the inner side of the second stirring blade 2617, the ninth gear 9708 is connected to the inner side of the third rotating rod 3308, the ninth gear 9708 is meshed with the second rack 2709, the rubber block 212 is connected to the lower side of the second rotating ring 2410, and the rubber block 212 is tightly attached to the lower side of the outer side of the mounting sleeve 805.

The gear sleeve 804, the fourth screw 4701 and the third pressing block 3211 are further included, the gear sleeve 804 is connected to the outer side of the third rotating rod 3308 in a welding mode, the second stirring blade 2617 is placed in the gear sleeve 804, a third threaded hole 3508 is formed in the upper side of the gear sleeve 804, the fourth screw 4701 is screwed in the third threaded hole 3508, the fourth screw 4701 is matched with the third threaded hole 3508, and the third pressing block 3211 is rotatably connected to the lower end of the fourth screw 4701.

The working principle is as follows: when a user needs to stir the pulp, the user can put the pulp into the placing box 615 to enable the mounting sleeve 805 to separate the pulp, and then can turn on the first motor 1601, the first motor 1601 rotates clockwise with the first gear 1708, the first gear 1708 rotates on the first rack 1709 to drive the guide sleeve 703 to move downwards on the guide rail 704 to drive the fixing plate 102 and the connecting plate 106 to move downwards to drive the connecting rod 301 and the first stirring blade 1617 to move downwards to enable the first stirring blade 1617 to enter the placing box 615, then the user can turn off the first motor 1601, then turn on the second motor 2601, drive the second motor 2601 to drive the third gear 3708 to rotate forwards, drive the third gear 3708 to rotate backwards, drive the second gear 2078 to drive the first rotating rod 1308 to rotate backwards in the first bearing block 1607 to drive the connecting rod 301 and the first stirring blade 1617 to rotate backwards around the first bearing block 1607, so that the first stirring blade 1617 stirs the pulp in the placing box 615 in a beating manner, after the stirring is completed, the user can turn on the first motor 1601 to drive the first stirring blade 1617 to move upward to be separated from the placing box 615, and then the user opens the valve 614 to allow the stirred pulp to flow out of the discharging pipe 807, and then the user collects the pulp.

Because the paper pulp storage box further comprises the inclined plate 113, the inclined plate 113 is connected to the lower portion of the outer side of the mounting sleeve 805 in a welding mode, when the paper pulp flows into the discharging pipe 807 from the inside of the storage box 615, the inclined plate 113 can prevent the paper pulp from being deposited in the storage box 615, and the paper pulp can slide down from the inclined plate 113.

Because the bidirectional stirring device 91 is further included, the bidirectional stirring device 91 comprises a fourth gear 4708, a fixed rod 302, a rotating shaft 401, a fifth gear 5708, a second bearing block 2607, a second rotating rod 2308 and a sixth gear 6708, the bidirectional stirring device 91 is arranged on a left mounting plate, an output shaft of a second motor 2601 on the left side of the second motor 2601 is connected with the fourth gear 4708 through a coupling, the fourth gear 4708 is positioned on the left side of a third gear 3708, the fixed rod 302 is connected with the right side of the middle part of the upper side of the fixed plate 102 in a welding manner, the rotating shaft 401 is rotatably connected with the upper side of the left side of the fixed rod 302, the fifth gear 5708 is connected with the left side of the rotating shaft 401, the lower side of the fifth gear 5708 is meshed with the fourth gear 4708, the second bearing block 2607 is installed in a left connecting plate 106 in a bolt connection manner, the second rotating rod 2308 is connected in the second bearing block 2607, the, the right end of the second rotating rod 2308 is connected with a sixth gear 6708, the rear side of the sixth gear 6708 is meshed with a fifth gear 5708, when the user needs to stir the pulp in the holding tank 615 in both directions in order to increase its stirring speed, the user can turn on the second motor 2601, when the second motor 2601 drives the third gear 3708 to rotate forward, the fourth gear 4708 is driven to rotate forward, the fourth gear 4708 rotates forward to drive the fifth gear 5708 to rotate backward, the fifth gear 5708 rotates backward to drive the sixth gear 6708 to rotate forward, thereby driving the second rotating rod 2308 to rotate forward, the second rotating rod 2308 rotates in the second bearing block 2607, the second rotating rod 2308 rotates forward to drive the left connecting rod 301 and the first stirring blade 1617 to rotate forward around the second bearing block 2607, thereby realizing that the left first stirring vane 1617 and the right first stirring vane 1617 are reversely rotated in two directions, so that the agitation and speed can be improved and beating agitation in different directions can be performed on the pulp in the holding tank 615.

Because the telescopic rod 309, the first screw 1701 and the first pressing block 1211 are further included, the first hollow groove 1507 is formed in the inner lower side of the connecting rod 301, the telescopic rod 309 is placed in the first hollow groove 1507, the first stirring blade 1617 is connected to the lower side of the telescopic rod 309 in a bolt connection manner, the first threaded hole 1508 is formed in the lower right side of the connecting rod 301, the first screw 1701 is screwed into the first threaded hole 1508, the first screw 1701 is matched with the first threaded hole 1508, the first pressing block 1211 is rotatably connected to the left end of the first screw 1701, when the user needs to detach the first stirring blade 1617 for replacement and cleaning, the user may rotate the first screw 1701, the first screw 1701 may be rotated out by engaging with the first screw hole 1508, the first screw 1701 may drive the first pressing block 1211 to move rightward, so that the first pressing block 1211 no longer fixes the telescopic rod 309, the user may then move the first mixing blade 1617 downward, and the first mixing blade 1617 is detached from the first empty slot 1507 by the retractable rod 309.

Because the lower-layer stirring device 92 is further included, the lower-layer stirring device 92 comprises a third bearing seat 3607, a first rotating ring 1410, a second rotating ring 2410, a second stirring blade 2617, a seventh gear 7708, a third motor 3601 and an eighth gear 8708, the lower-layer stirring device 92 is arranged on the mounting sleeve 805, the upper side of the mounting sleeve 805 is connected with the third bearing seat 3607 in a bolt connection mode, the outer side of the third bearing seat 3607 is connected with the first rotating ring 1410 in a bolt connection mode, the lower side of the outer side of the first rotating ring 1410 is connected with the second rotating ring 2410 in a welding mode, the left side and the right side of the lower side of the outer side of the second rotating ring 2410 are connected with the second stirring blade 2617 in a bolt connection mode, the seventh gear 7708 is connected above the inner side of the first rotating ring 1410, the third motor 3601 is arranged above the inner side of the mounting sleeve 805 in a bolt connection mode, the output shaft 1 of the third motor 3601 is connected with the, the eighth gear 8708 is engaged with the seventh gear 7708, when a user needs to stir the pulp in the lower layer of the storage box 615, the user can turn on the third motor 3601, the third motor 3601 drives the eighth gear 8708 to rotate forward, the eighth gear 8708 rotates to drive the seventh gear 7708 to rotate backward, the seventh gear 7708 rotates to drive the first rotating ring 1410 to rotate backward, the first rotating ring 1410 rotates through the third bearing block 3607, the first rotating ring 1410 rotates to drive the second rotating ring 2410 to rotate backward, so as to drive the second stirring blades 2617 to rotate backward, and the second stirring blades 2617 stir the pulp in the lower layer of the storage box 615.

Because the device also comprises the movable block 205, the second screw 2701 and the second pressing block 2211, the upper side in the fixed block 201 is provided with the second hollow slot 2507, the movable block 205 is placed in the second hollow slot 2507, the upper side of the movable block 205 is connected with the lower side of the placing box 615 in a welding way, the upper side of the right side of the fixed block 201 is provided with the second threaded hole 2508, the second screw 2701 is screwed in the second threaded hole 2508, the second screw 2701 is matched with the second threaded hole 2508, the left side of the second screw 2701 is rotatably connected with the second pressing block 2211, when a user needs to remove the holding box 615 and the mechanism attached above it for maintenance or cleaning, the user can rotate the second screw 2701, the second screw 2701 is screwed out to the right by the cooperation with the second threaded hole 2508, the second screw 2701 drives the second pressing block 2211 to move to the right, so that the second pressing block 2211 does not fix the movable block 205 any more, the user may then move the placement box 615 upward and the placement box 615 may be removed by bringing the movable block 205 out of the second slot 2507.

Because the accompanying rotating device 93 is also included, the accompanying rotating device 93 comprises a second rack 2709, a fourth bearing 4607, a third rotating rod 3308, a ninth gear 9708 and a rubber block 212, the accompanying rotating device 93 is arranged below the second rotating ring 2410, a second empty slot 2507 is arranged below the outer side of the mounting sleeve 805, the second rack 2709 is connected with the inner upper side of the third empty slot 3507, the fourth bearing 4607 is arranged below the inner side of the second rotating ring 2410 by a bolt connection, the third rotating rod 3308 is connected with the inner side of the second stirring blade 2617, the ninth gear 9708 is connected with the inner side of the third rotating rod 3308, the ninth gear 9708 is meshed with the second rack 2709, the rubber block 212 is connected with the lower side of the second rotating ring 2410, the rubber block 212 is tightly attached below the outer side of the mounting sleeve 805, when a user needs to thoroughly stir the pulp placed at the lower layer of the box 615, the second rotating ring 2410 is reversely rotated, the second rotating ring 2410 will drive the fourth bearing housing 4607, the third rotating rod 3308 and the second stirring blade 2617 to rotate, so that the ninth gear 9708 will rotate on the second rack 2709, and the ninth gear 9708 will rotate, and the ninth gear 9708 will drive the third rotating rod 3308 to rotate in the fourth bearing housing 4607, so as to drive the second stirring blade 2617 to rotate around the second rotating ring 2410, and the rubber block 212 will block the gap between the second rotating ring 2410 and the mounting sleeve 805, so that the pulp will not leak into, and the blockage will not be caused.

Because the gear sleeve 804, the fourth screw 4701 and the third pressing block 3211 are further included, the gear sleeve 804 is connected to the outer side of the third rotating rod 3308 by welding, the second stirring blade 2617 is placed in the gear sleeve 804, the third screw hole 3508 is formed in the upper side of the gear sleeve 804, the fourth screw 4701 is screwed in the third screw hole 3508, the fourth screw 4701 is matched with the third screw hole 3508, and the third pressing block 3211 is rotatably connected to the lower end of the fourth screw 4701.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (2)

1. A pulp stirring device with synchronous bidirectional stirring is characterized by comprising supports (811), a bottom plate (101), a fixed block (201), a placing box (615), a blanking pipe (807), a valve (614), an installation sleeve (805), a guide rail (704), a guide sleeve (703), a first motor (1601), a first gear (1708), a first rack (1709), a fixed plate (102), a connecting plate (106), a first bearing seat (1607), a first rotating rod (1308), a connecting rod (301), a first stirring blade (1617), a second gear (2078), a second motor (2601) and a third gear (3708), wherein the bottom plate (101) is installed at the upper ends of the two supports (811) in a welding mode, the fixed block (201) is connected to the middle part of the upper side of the bottom plate (101) in a welding mode, the placing box (615) is installed at the upper end of the fixed block (201) in a bolt connection mode, the middle part in the placing box (615) is provided with a mounting sleeve (805) in a welding mode, the lower side of the middle part in the mounting sleeve (805) is connected with a guide rail (704) in a welding mode, the guide rail (704) is connected with a guide sleeve (703) in a sliding mode, the right side of the lower side of the guide sleeve (703) is provided with a first motor (1601) in a bolt connection mode, the output shaft of the first motor (1601) at the front side of the first motor (1601) is connected with a first gear (1708) through a coupler, the right side of the guide rail (704) is connected with a first rack (1709) in a bolt connection mode, the first rack (1709) is meshed with the first gear (1708), the upper part at the front side of the guide sleeve (703) is connected with a fixing plate (102) in a welding mode, the left side and the right side of the fixing plate (102) are connected with connecting plates (, a first rotating rod (1308) is connected in the first bearing seat (1607), the right end of the first rotating rod (1308) is connected with a connecting rod (301) in a welding mode, the lower side of the connecting rod (301) is connected with a first stirring blade (1617) in a bolt connection mode, the left end of the first rotating rod (1308) is connected with a second gear (2078), a second motor (2601) is installed on the right side of the upper side of the fixed plate (102) in a bolt connection mode, an output shaft of the second motor (2601) on the left side of the second motor (2601) is connected with a third gear (3708) through a coupler, and the third gear (3708) is meshed with the second gear (2078); the lower part of the outer side of the mounting sleeve (805) is connected with the inclined plate (113) in a welding way; the double-direction stirring device comprises a first gear (4708), a fixed rod (302), a rotating shaft (401), a second gear (5708), a second bearing block (2607), a second rotating rod (2308) and a sixth gear (6708), wherein the left mounting plate is provided with the double-direction stirring device (91), an output shaft of the second motor (2601) on the left side of the second motor (2601) is connected with the fourth gear (4708) through a coupler, the fourth gear (4708) is positioned on the left side of the third gear (3708), the right side of the middle part on the upper side of the fixed plate (102) is connected with the fixed rod (302) in a welding mode, the rotating shaft (401) is rotatably connected on the upper side of the left side of the fixed rod (302), the fifth gear (5708) is connected on the left side of the rotating shaft (401), the lower side of the fifth gear (5708) is meshed with the fourth gear (4708), the second bearing block (2607) is installed in a, a second rotating rod (2308) is connected in the second bearing seat (2607), the left end of the second rotating rod (2308) is connected with a connecting rod (301) and a first stirring blade (1617) in a welding mode, the right end of the second rotating rod (2308) is connected with a sixth gear (6708), and the rear side of the sixth gear (6708) is meshed with a fifth gear (5708); the novel stirring device is characterized by further comprising a telescopic rod (309), a first screw rod (1701) and a first pressing block (1211), wherein a first empty groove (1507) is formed in the lower side of the connecting rod (301), the telescopic rod (309) is placed in the first empty groove (1507), a first stirring blade (1617) is connected to the lower side of the telescopic rod (309) in a bolt connection mode, a first threaded hole (1508) is formed in the lower right side of the connecting rod (301), the first screw rod (1701) is screwed in the first threaded hole (1508), the first screw rod (1701) is matched with the first threaded hole (1508), and the first pressing block (1211) is rotatably connected to the left end of the first screw rod (1701); the lower-layer stirring device (92) comprises a third bearing seat (3607), a first rotating ring (1410), a second rotating ring (2410), second stirring blades (2617), a seventh gear (7708), a third motor (3601) and an eighth gear (8708), the lower-layer stirring device (92) is arranged on the mounting sleeve (805), the third bearing seat (3607) is connected to the upper side of the mounting sleeve (805) in a bolt connection mode, the first rotating ring (1410) is connected to the outer side of the third bearing seat (3607) in a bolt connection mode, the second rotating ring (2410) is connected to the lower side of the outer side of the first rotating ring (1410) in a welding mode, the second stirring blades (2617) are connected to the left side and the right side of the outer side of the second rotating ring (2410) in a bolt connection mode, the seventh gear (7708) is connected to the upper side of the inner side of the first rotating ring (1410), and the third motor (3601) is installed on the upper side of the mounting sleeve (805) in a bolt, an output shaft of the third motor (3601) at the upper side of the third motor (3601) is connected with an eighth gear (8708) through a coupler, and the eighth gear (8708) is meshed with a seventh gear (7708); the movable block (205), a second screw rod (2701) and a second pressing block (2211) are further included, a second hollow groove (2507) is formed in the upper side in the fixed block (201), the movable block (205) is placed in the second hollow groove (2507), the upper side of the movable block (205) is connected to the lower side of the placing box (615) in a welding mode, a second threaded hole (2508) is formed in the upper portion of the right side of the fixed block (201), the second screw rod (2701) is screwed in the second threaded hole (2508), the second screw rod (2701) is matched with the second threaded hole (2508), and the second pressing block (2211) is rotatably connected to the left side of the second screw rod (2701); the accompanying rotating device (93) comprises a second rack (2709), a fourth bearing seat (4607), a third rotating rod (3308), a ninth gear (9708) and a rubber block (212), a concomitant rotating device (93) is arranged below the second rotating ring (2410), a second hollow groove (2507) is formed in the lower portion of the outer side of the mounting sleeve (805), a second rack (2709) is connected to the inner upper side of the third hollow groove (3507), a fourth bearing seat (4607) is installed on the inner lower side of the second rotating ring (2410) in a bolt connection mode, a third rotating rod (3308) is connected to the inner side of the fourth bearing seat (4607), the outer side of the third rotating rod (3308) is connected to the inner side of the second stirring blade (2617), a ninth gear (9708) is connected to the inner side of the third rotating rod (3308), the ninth gear (9708) is meshed with the second rack (2709), a rubber block (212) is connected to the lower side of the second rotating ring (2410), and the rubber block (212) is tightly attached to the lower portion of the outer side.

2. The pulp stirring device with synchronous bidirectional stirring function according to claim 1, further comprising a gear sleeve (804), a fourth screw (4701) and a third pressing block (3211), wherein the gear sleeve (804) is connected to the outer side of the third rotating rod (3308) in a welding manner, a second stirring blade (2617) is placed in the gear sleeve (804), a third threaded hole (3508) is formed in the upper side of the gear sleeve (804), the fourth screw (4701) is screwed in the third threaded hole (3508), the fourth screw (4701) is matched with the third threaded hole (3508), and the third pressing block (3211) is rotatably connected to the lower end of the fourth screw (4701).

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