CN109687227A - A kind of high ammonia-nitrogen wastewater processing unit - Google Patents

Abstract

The invention discloses a kind of high ammonia-nitrogen wastewater processing units, including seat and the waste waster processor to be cooperatively connected with the seat that is loaded of being loaded, the company's of inserting slot is equipped in the right end face that is loaded, the first sliding storehouse is equipped in the seat that is loaded on the downside of the slotting even slot, described first sliding storehouse inner bottom wall communications and liaison are equipped with the sliding storehouse of extended to the left second, the first port is arranged in communications and liaison in part between the slotting even slot and the first sliding storehouse, the sliding storehouse of third is equipped in the seat that is loaded on the left of the slotting even slot, the 4th sliding storehouse for extending downwardly setting is equipped in the seat that is loaded on the left of the sliding storehouse of the third, the top communications and liaison of extended segment are arranged on the left of described 4th sliding orlop portion extending end and the second sliding storehouse, transmitting chamber extended to the right is equipped in the seat that is loaded on the upside of described 4th sliding storehouse, extend section on the right side of the transmitting chamber It is loaded in seat described in being slided on the upside of storehouse in the third.

Description

A kind of high ammonia-nitrogen wastewater processing unit

Technical field

The present invention relates to technical field of waste water processing, specially a kind of high ammonia-nitrogen wastewater processing unit.

Background technique

Currently, when handling high ammonia-nitrogen wastewater, being needed using waste water for high ammonia-nitrogen wastewater processing equipment using extensively Processor, waste waster processor need to install when in use on the base, and traditional mounting means complex steps need to expend a large amount of Manpower, moreover, being not easy to daily demolition and maintenance, and traditional waste waster processor needs additionally to connect electricity, plug using plug It is easy to loosen and generate security risk.

Summary of the invention

The purpose of the present invention is to provide a kind of high ammonia-nitrogen wastewater processing units, in the prior art above-mentioned scarce for overcoming It falls into.

A kind of high ammonia-nitrogen wastewater processing unit according to the present invention, including be loaded seat and to it is described be loaded seat cooperation The waste waster processor of connection, described be loaded in a right end face are equipped with the company's of inserting slot, and described on the downside of the slotting even slot is loaded in seat Equipped with the first sliding storehouse, the described first sliding storehouse inner bottom wall communications and liaison are equipped with the sliding storehouse of extended to the left second, the slotting even slot with The first port is arranged in communications and liaison in part between described first sliding storehouse, is equipped with third in the seat that is loaded on the left of the slotting even slot Sliding storehouse, the third, which is slided, is equipped with the 4th sliding storehouse for extending downwardly setting in the seat that is loaded on the left of storehouse, the described 4th slides orlop The top communications and liaison of extended segment are arranged on the left of portion's extending end and the second sliding storehouse, the seat that is loaded on the upside of the described 4th sliding storehouse Interior to be equipped with transmitting chamber extended to the right, extended segment is located at the dress on the upside of the sliding storehouse of the third on the right side of the transmitting chamber In deck, it is slidably connected with the first gliding mass in the described first sliding storehouse, the first gliding mass top end is installed with ramp, institute It states the first gliding mass screw-internal thread fit and is connected with the first extended screw rod of left and right, extending end on the left of first screw rod It is cooperatively connected with the first generator power, is slidably connected with right hand top and first gliding mass bottom in the described second sliding storehouse Second gliding mass of portion end secure fit connection, is equipped in the top end surface of remote first gliding mass side of the second gliding mass Slope chamber is slidably connected with locking bar in first port, and guide groove is equipped in the first port inner left wall, described to lead The slide guiding body connecting with the locking bar secure fit is slidably connected in slot, top in the guide groove on the upside of the slide guiding body Pressure is slidably connected with the first elastic slice, the locking bar bottom end be installed with pierce into the described first sliding storehouse and to it is described The slope block of ramp press sliding connection, communications and liaison are equipped with the in the part between the sliding storehouse of the third and the slotting even slot Two ports, the third are slided and are slidably connected with third gliding mass in storehouse, are slidably connected with the 4th in the described 4th sliding storehouse Gliding mass is installed with the second generator in the 4th gliding mass top end surface, and the second generator top end, which has been connected by power, stretches External splines bar outside the 4th gliding mass top end surface out, the 4th gliding mass bottom end are installed with that pierce into the slope intracavitary Slope board, the external splines bar wraps around equipped with the second elastic slice, second elastic slice and the 4th sliding storehouse inner roof wall with And the 4th gliding mass top end surface press is slidably matched, the transmitting is intracavitary to be equipped with transfer device.

Further technical solution, first generator outer surface are embedded in admittedly in the described first sliding storehouse inner left wall, institute It states extending end on the right side of the first screw rod and is rotatably assorted with the described first sliding storehouse right side inner wall and connect.

Further technical solution is installed with power transmission block in the second gliding mass left end face, and the power transmission block is opposite It is equipped with power transmission slot in described second sliding storehouse inner left wall, the power transmission block is electrically connected with second generator.

Further technical solution, the transfer device include being rotatably assorted connection setting in the transmitting chamber and described the Four slide the transmission axle in the part between storehouses and are rotatably assorted connection setting between the transmitting chamber and the sliding storehouse of the third Part in the second screw rod, second screw rod is extended up and down, and extending end is worn at the top of second screw rod Into the transmitting, extending end is installed with the first toe joint wheel, second screw rod bottom at the top of intracavitary and described second screw rod Extending end is pierced into the sliding storehouse of the third and is threadedly engaged with the third gliding mass top end surface and connect, the transmission axle bottom Be equipped with the internal splined hole that is oppositely arranged with the external splines bar in end face, the external splines bar top end be installed with pierce into it is described It transmits intracavitary and moves in turn the second toe joint wheel that force-fitting connect with first toe joint, it is fixed in the third gliding mass right end face Have and plays shape contact.

Further technical solution, the waste waster processor include processing rack and are fixed on the left of the processing rack Shank on end face, the shank left end face, which is installed with, plays shape contact, is equipped in the shank bottom end face recessed Chamber.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, waste waster processor be moved to be loaded first The right positions of seat, meanwhile, so that shank and the company's of inserting slot is in relative position, at this point, shank is fully inserted into the company's of inserting slot, Meanwhile making recessed cavity and the first port top end is in relative position, at this point, utmostly being worn by shank band shape contact of moving Into in the second port, meanwhile, make to play shape contact and the sliding press sliding connection of third gliding mass right end face, at this point, passing through First generator controls the rotation of the first screw rod, drives the first gliding mass to slide into the leftmost side in the first sliding storehouse by the first screw rod Position, at this point, making slope block that locking bar top end be driven utmostly to wear by ramp and slope block press sliding cooperating Into in recessed cavity, to realize that steady lock works, the second gliding mass is driven to slide by the first gliding mass most left in the second sliding storehouse Side position, at this point, make power transmission block and the fully mated connection of power transmission slot, meanwhile, the work that is slidably matched is pressed by slope chamber and slope board Make, make slope board that the 4th gliding mass be driven utmostly to slide into the top position in the 4th sliding storehouse, at this point, keeping external splines bar maximum Degree pierces into internal splined hole, then drives the rotation of external splines bar by the second generator of control, and then driven and passed by external splines bar Axis, the second toe joint wheel, the first toe joint wheel and the rotation of the second screw rod are passed, meanwhile, drive third gliding mass sliding by the second screw rod It moves to the lowest position in the sliding storehouse of third, at this point, bullet shape contact and the second port is made to be in relative position, meanwhile, make to play shape Contact slides at bullet shape contact and elastic top press-fit connects, to realize automatic control locking connection work, reduction worker Operating quantity substantially increases installation effectiveness, meanwhile, be able to achieve automatic control for be electrically connected work, greatly improve for electrical plug Safety.

Detailed description of the invention

Fig. 1 is a kind of high ammonia-nitrogen wastewater processing unit outside overall structure diagram in the present invention；

Fig. 2 is the schematic diagram of internal structure that is loaded in the present invention；

Fig. 3 is waste waster processor overall structure diagram in the present invention.

Specific embodiment

Below with reference to Fig. 1-3, the present invention is described in detail.

Referring to Fig.1-3, a kind of high ammonia-nitrogen wastewater processing unit of embodiment according to the present invention, including be loaded seat 6 and To the waste waster processor 7 with the mating connection of seat 6 that is loaded, the company's of inserting slot 63 is equipped in 6 right end face of seat that is loaded, it is described The first sliding storehouse 64 is equipped in the seat 6 that is loaded of 63 downside of the company's of inserting slot, the described first sliding 64 inner bottom wall communications and liaison of storehouse are equipped with to the left Extended second slides storehouse 65, and the first port is arranged in communications and liaison in the part between the slotting even slot 63 and the first sliding storehouse 64 68, the seat 6 that is loaded in slotting 63 left side of even slot is interior to be equipped with the sliding storehouse 69 of third, being loaded described in sliding 69 left side of storehouse of the third The 4th sliding storehouse 66 for extending downwardly setting, the described 4th sliding 66 bottom extending end of storehouse and the second sliding storehouse 65 are equipped in seat 6 The top communications and liaison of left side extended segment are arranged, and are equipped in the seat 6 that is loaded of the described 4th sliding 66 upside of storehouse and are extended to the right Transmitting chamber 67, the transmitting 67 right side extended segment of chamber be located at sliding 69 upside of storehouse of the third described in being loaded in seat 6, described the It is slidably connected with the first gliding mass 641 in one sliding storehouse 64,641 top end of the first gliding mass is installed with ramp 644, described First gliding mass, 641 screw-internal thread fit is connected with the first extended screw rod 642 of left and right, 642 left side of the first screw rod Extending end and 643 power of the first generator are cooperatively connected, be slidably connected in the described second sliding storehouse 65 right hand top with Second gliding mass 651 of 641 bottom end secure fit of the first gliding mass connection, second gliding mass 651 remote described first It is equipped with slope chamber 652 in the top end surface of 641 side of gliding mass, is slidably connected with locking bar 681, institute in first port 68 It states and is equipped with guide groove 682 in 68 inner left wall of the first port, be slidably connected in the guide groove 682 solid with the locking bar 681 Surely the interior press of the guide groove 682 of the slide guiding body 684 being cooperatively connected, 684 upside of slide guiding body is slidably connected with first Elastic slice 683,681 bottom end of locking bar, which is installed with, to be pierced into the described first sliding storehouse 64 and to push up with the ramp 644 The slope block 685 of sliding connection is pressed, communications and liaison are equipped with the in the part between the sliding storehouse 69 of the third and the slotting even slot 63 Two ports 631, the third are slided and are slidably connected with third gliding mass 691 in storehouse 69, are slidably matched in the described 4th sliding storehouse 66 It is connected with the 4th gliding mass 661, the second generator 663, second generator are installed in 661 top end surface of the 4th gliding mass 663 top ends are connected by power the external splines bar 664 stretched out outside 661 top end surface of the 4th gliding mass, the 4th gliding mass 661 Bottom end is installed with the slope board 662 pierced into the slope chamber 652, and the external splines bar 664 is wrapped around equipped with second Elastic slice 665, second elastic slice 665 are pressed with the described 4th sliding 66 inner roof wall of storehouse and 661 top end surface of the 4th gliding mass It is slidably matched, is equipped with transfer device in the transmitting chamber 67.

Valuably or illustratively, 643 outer surface of the first generator is embedded in the described first sliding 64 inner left wall of storehouse admittedly Interior, the 642 right side extending end of the first screw rod is rotatably assorted with the described first sliding 64 right side inner wall of storehouse and connect.

Valuably or illustratively, power transmission block 653, the power transmission block are installed in 651 left end face of the second gliding mass Power transmission slot 654, the power transmission block 653 and second generator are equipped in 653 the described second opposite sliding 65 inner left walls of storehouse 663 electrically connect, to improve the Supply Security of the second generator 663.

Valuably or illustratively, the transfer device include be rotatably assorted connection setting the transmitting chamber 67 with it is described Transmission axle 671 in part and the connection setting that is rotatably assorted between 4th sliding storehouse 66 is in the transmitting chamber 67 and the third The second screw rod 675 in part between sliding storehouse 69, about 675 second screw rod are extended, second spiral 675 top extending end of bar pierces into the transmitting chamber 67 and the 675 top extending end of the second screw rod is installed with first Toe joint wheel 674, the 675 bottom extending end of the second screw rod pierce into the sliding storehouse 69 of the third and with the third gliding mass 691 top end surfaces are threadedly engaged connection, are equipped in 671 bottom end face of transmission axle and are oppositely arranged with the external splines bar 664 Internal splined hole 673,664 top end of external splines bar be installed with pierce into the transmitting chamber 67 and with first toe joint The second toe joint wheel 672 of 674 power mating connection is taken turns, is installed in 691 right end face of third gliding mass and plays shape contact 692, The work that slides up and down of third gliding mass 691 is driven by the control transfer device work of the second generator 663 to realize, and then is realized Shape contact 712 is played with bullet shape contact 692 for the driving work that is electrically connected and disconnects.

Valuably or illustratively, the waste waster processor 7 including processing rack 72 and is fixed on the processing rack Shank 71 in 72 left end faces, 71 left end face of shank, which is installed with, plays shape contact 712,71 bottom of shank Recessed cavity 711, the convenience and safety of the installation greatly improved are equipped in end face.

When original state, the first gliding mass 641 is located at the right-most position in the first sliding storehouse 64, at this point, by the first gliding mass 641 The second gliding mass 651 is driven to be located at the right-most position in the second sliding storehouse 65, meanwhile, slide guiding body 684 is pressed by the first elastic slice 683 Power makes slide guiding body 684 slide into the lowest position in guide groove 682, at this point, driving the oblique of 681 bottom of locking bar by slide guiding body 684 Slope block 685 utmostly pierces into the first sliding storehouse 64 and utmostly presses sliding with connection with ramp 644, meanwhile, make to lock 681 top end surface of bar and the company's of inserting 63 inner bottom wall of slot are in same level, at this point, slope chamber 652 is located at the 4th sliding 66 bottom of storehouse Relative position, meanwhile, the 4th gliding mass 661 is made the 4th gliding mass 661 drive slope board 662 complete by 665 pressure on top surface of the second elastic slice In slope chamber 652, at this point, making the utmostly remote internal splined hole of external splines bar 664 of the 4th gliding mass 661 drive top end In 673, meanwhile, third gliding mass 691 is located at the top position in the sliding storehouse 69 of third, at this point, being moved shape by 691 band of third gliding mass Utmostly remote second port 631 of contact 692.

When needing Fast Installation, waste waster processor 7 is moved to the right positions for the seat 6 that is loaded first, meanwhile, make grafting Bar 71 and the company's of inserting slot 63 are in relative position, at this point, shank 71 is fully inserted into the company's of inserting slot 63, meanwhile, make recessed cavity 71 It is in relative position with 68 top end of the first port, at this point, utmostly piercing into second by 71 band of shank shape contact 712 of moving In port 631, meanwhile, make to play shape contact 712 and the sliding press sliding connection of 691 right end face of third gliding mass, at this point, logical It crosses the first generator 643 and controls the rotation of the first screw rod 642, drive the first gliding mass 641 to slide into first by the first screw rod 642 Left-most position in sliding storehouse 64, at this point, making slope block 685 by ramp 644 and the press sliding cooperating of slope block 685 681 top end of locking bar is driven utmostly to pierce into recessed cavity 711, to realize that steady lock works, by the first gliding mass 641 The second gliding mass 651 is driven to slide into the left-most position in the second sliding storehouse 65, at this point, keeping power transmission block 653 and power transmission slot 654 complete It is cooperatively connected, meanwhile, by slope chamber 652 and the press sliding cooperating of slope board 662, slope board 662 is made to drive the 4th gliding mass 661 utmostly slide into the top position in the 4th sliding storehouse 66, at this point, external splines bar 664 is made utmostly to pierce into internal spline Then hole 673 drives external splines bar 664 to rotate, and then is driven and transmitted by external splines bar 664 by the second generator 663 of control Axis 671, the second toe joint wheel 672, the first toe joint wheel 674 and the rotation of the second screw rod 675, meanwhile, by 675 band of the second screw rod Dynamic third gliding mass 691 slides into the lowest position in the sliding storehouse 69 of third, at this point, making to play at shape contact 692 and the second port 631 In relative position, meanwhile, make play shape contact 712 slide into play shape contact 692 at and elastic top press-fit connect.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, waste waster processor be moved to be loaded first The right positions of seat, meanwhile, so that shank and the company's of inserting slot is in relative position, at this point, shank is fully inserted into the company's of inserting slot, Meanwhile making recessed cavity and the first port top end is in relative position, at this point, utmostly being worn by shank band shape contact of moving Into in the second port, meanwhile, make to play shape contact and the sliding press sliding connection of third gliding mass right end face, at this point, passing through First generator controls the rotation of the first screw rod, drives the first gliding mass to slide into the leftmost side in the first sliding storehouse by the first screw rod Position, at this point, making slope block that locking bar top end be driven utmostly to wear by ramp and slope block press sliding cooperating Into in recessed cavity, to realize that steady lock works, the second gliding mass is driven to slide by the first gliding mass most left in the second sliding storehouse Side position, at this point, make power transmission block and the fully mated connection of power transmission slot, meanwhile, the work that is slidably matched is pressed by slope chamber and slope board Make, make slope board that the 4th gliding mass be driven utmostly to slide into the top position in the 4th sliding storehouse, at this point, keeping external splines bar maximum Degree pierces into internal splined hole, then drives the rotation of external splines bar by the second generator of control, and then driven and passed by external splines bar Axis, the second toe joint wheel, the first toe joint wheel and the rotation of the second screw rod are passed, meanwhile, drive third gliding mass sliding by the second screw rod It moves to the lowest position in the sliding storehouse of third, at this point, bullet shape contact and the second port is made to be in relative position, meanwhile, make to play shape Contact slides at bullet shape contact and elastic top press-fit connects, to realize automatic control locking connection work, reduction worker Operating quantity substantially increases installation effectiveness, meanwhile, be able to achieve automatic control for be electrically connected work, greatly improve for electrical plug Safety.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (5)

1. a kind of high ammonia-nitrogen wastewater processing unit, including seat and the wastewater treatment to be cooperatively connected with the seat that is loaded of being loaded Machine, it is characterised in that: be equipped with the company's of inserting slot in the right end face that is loaded, be equipped in the seat that is loaded on the downside of the slotting even slot First sliding storehouse, the described first sliding storehouse inner bottom wall communications and liaison are equipped with the sliding storehouse of extended to the left second, the slotting even slot with it is described The first port is arranged in communications and liaison in part between first sliding storehouse, and it is sliding to be equipped with third in the seat that is loaded on the left of the slotting even slot Storehouse, the third, which is slided, is equipped with the 4th sliding storehouse for extending downwardly setting in the seat that is loaded on the left of storehouse, the described 4th slides orlop portion The top communications and liaison of extended segment are arranged on the left of extending end and the second sliding storehouse, and described on the upside of the described 4th sliding storehouse is loaded in seat Equipped with transmitting chamber extended to the right, on the right side of the transmitting chamber extended segment be located on the upside of the sliding storehouse of the third described in be loaded In seat, it is slidably connected with the first gliding mass in the described first sliding storehouse, the first gliding mass top end is installed with ramp, described First gliding mass screw-internal thread fit is connected with the first extended screw rod of left and right, on the left of first screw rod extending end with First generator power is cooperatively connected, and is slidably connected with right hand top and first gliding mass bottom in the described second sliding storehouse Second gliding mass of end secure fit connection, the top end surface of remote first gliding mass side of the second gliding mass is interior to be equipped with tiltedly Slope chamber is slidably connected with locking bar in first port, is equipped with guide groove, the guide groove in the first port inner left wall It is inside slidably connected with the slide guiding body connecting with the locking bar secure fit, press in the guide groove on the upside of the slide guiding body Be slidably connected with the first elastic slice, the locking bar bottom end be installed with pierce into the described first sliding storehouse and to it is described oblique The slope block of slope portion press sliding connection, communications and liaison are equipped with the in the part stated between the sliding storehouse of third and the slotting even slot Two ports, the third are slided and are slidably connected with third gliding mass in storehouse, are slidably connected with the 4th in the described 4th sliding storehouse Gliding mass is installed with the second generator in the 4th gliding mass top end surface, and the second generator top end, which has been connected by power, stretches External splines bar outside the 4th gliding mass top end surface out, the 4th gliding mass bottom end are installed with that pierce into the slope intracavitary Slope board, the external splines bar wraps around equipped with the second elastic slice, second elastic slice and the 4th sliding storehouse inner roof wall with And the 4th gliding mass top end surface press is slidably matched, the transmitting is intracavitary to be equipped with transfer device.

2. a kind of high ammonia-nitrogen wastewater processing unit according to claim 1, it is characterised in that: the first generator appearance Face is embedded in admittedly in the described first sliding storehouse inner left wall, on the right side of first screw rod in extending end and the first sliding storehouse right side Wall is rotatably assorted connection.

3. a kind of high ammonia-nitrogen wastewater processing unit according to claim 1, it is characterised in that: the second gliding mass left-hand end It is installed with power transmission block on face, is equipped with power transmission slot, the power transmission block in the described second opposite sliding storehouse inner left wall of the power transmission block It is electrically connected with second generator.

4. a kind of high ammonia-nitrogen wastewater processing unit according to claim 1, it is characterised in that: the transfer device includes turning Transmission axle and the connection that is rotatably assorted in the part between the transmitting chamber and the 4th sliding storehouse is arranged in dynamic mating connection The second screw rod in part between the transmitting chamber and the sliding storehouse of the third is set, and second screw rod extends up and down Setting, the second screw rod top extending end pierce into the intracavitary and described second screw rod top extending end that transmits and consolidate Equipped with the first toe joint wheel, second screw rod bottom extending end pierce into the sliding storehouse of the third and with third gliding mass top End surface is threadedly engaged connection, is equipped with the internal splined hole being oppositely arranged with the external splines bar in the transmission axle bottom end face, The external splines bar top end be installed with pierce into the transmitting it is intracavitary and move in turn that force-fitting connect with first toe joint the Two toe joint wheels are installed in the third gliding mass right end face and play shape contact.

5. a kind of high ammonia-nitrogen wastewater processing unit according to claim 1, it is characterised in that: the waste waster processor includes Processing rack and the shank being fixed in the processing rack left end face, the shank left end face are installed with bullet shape Contact, the shank bottom end face is interior to be equipped with recessed cavity.