CN108455806A - A kind of riverway sludge processing Heavy metal separation device - Google Patents

Abstract

A kind of separator of the present invention, in particular it is a kind of riverway sludge processing Heavy metal separation device, the heavy metal in sludge can be adsorbed using natural zeolite, and the ratio of natural zeolite can be controlled, natural zeolite and sludge can be detached in the heavy metal during natural zeolite has adsorbed sludge.A kind of riverway sludge processing Heavy metal separation device, including complete machine holder, actuating unit, sludge actuating unit, sludge transmission mechanism, promotion connecting rod I, sludge box, shift fork I, natural zeolite actuating unit, natural zeolite transmission mechanism, promotion connecting rod II, natural zeolite case, shift fork II, sliding floor mechanism, promotion transmission mechanism, promotion connecting rod III, long connecting rod I, short connecting rod I, short connecting rod II, long connecting rod II, short connecting rod III, long connecting rod III, shift fork III, push plate, propulsion power mechanism and containing box.

Description

A kind of riverway sludge processing Heavy metal separation device

Technical field

The present invention relates to a kind of separators, are in particular a kind of riverway sludge processing Heavy metal separation devices.

Background technology

Such as a kind of Heavy metal separation devices of patent No. CN201210536235.3 comprising waste-collecting barrel, heavy metal are collected Bottle and solid filter, the waste-collecting barrel are equipped with the sewage inlet being connected with dental care machine, and the heavy metal is collected Bottle is equipped with the sewage inlet being connected with the bottom of the waste-collecting barrel and the sewage effluent being connected with negative-pressure ward machine；Institute Solid filter is stated in heavy metal receiving flask, is made of filtering meshes and sand bed, for filtering the heavy metal in sewage In the heavy metal receiving flask, and by filtered sewage by negative-pressure ward machine suction-discharge；The shortcomings that utility model is The heavy metal that can only be gone in water removal cannot be used for the heavy metal in removal sludge.

Invention content

The object of the present invention is to provide a kind of riverway sludge processing Heavy metal separation device, can using natural zeolite come The heavy metal in sludge is adsorbed, and the ratio of natural zeolite can be controlled, in the heavy metal during natural zeolite has adsorbed sludge Natural zeolite and sludge can be detached.

The purpose of the present invention is achieved through the following technical solutions：

A kind of riverway sludge processing Heavy metal separation device, including complete machine holder, actuating unit, sludge actuating unit, Sludge transmission mechanism pushes connecting rod I, sludge box, shift fork I, natural zeolite actuating unit, natural zeolite transmission mechanism, the company of promotion Bar II, natural zeolite case, shift fork II, sliding floor mechanism, push transmission mechanism, push connecting rod III, long connecting rod I, short connecting rod I, Short connecting rod II, long connecting rod II, short connecting rod III, long connecting rod III, shift fork III, push plate, propulsion power mechanism and containing box, the sliding Floor mechanism includes sliding floor and bottom plate, and sliding groove, two hang plates are provided on sliding floor, push body I and push body Ⅱ；It pushes body I and pushes and be respectively arranged with rod slide slot I and rod slide slot II on body II, sliding groove is through setting in cunning On dynamic bottom plate, two hang plates are fixedly connected in the left and right sides of sliding floor, and two hang plates are obliquely installed, and push body I is arranged the right end in sliding floor, pushes body II to be arranged in the right end for pushing body I, sliding floor is slidably connected on bottom plate, bottom Compressed spring III is provided between plate and sliding floor, the both ends of sliding floor are slidably connected at respectively on complete machine holder, bottom plate It is fixedly connected on complete machine holder, the actuating unit is fixedly connected on complete machine holder, actuating unit and sludge actuating unit It is connected by V belt translation, sludge actuating unit is rotatably connected on complete machine holder, and sludge transmission mechanism is rotatably connected on complete machine branch On frame, sludge transmission mechanism and sludge actuating unit push one end of connecting rod I to be hinged on sludge transmission by gear engaged transmission In mechanism, the other end of connecting rod I is pushed to be hinged in sludge box, sludge box is slidably connected on complete machine holder, one end of shift fork I It is slidably connected on complete machine holder, the other end of shift fork I is rotatably connected on sludge actuating unit, actuating unit and natural zeolite Actuating unit is connected by V belt translation, and natural zeolite actuating unit is rotatably connected on complete machine holder, natural zeolite transmission mechanism It is rotatably connected on complete machine holder, natural zeolite transmission mechanism and natural zeolite actuating unit are pushed by gear engaged transmission One end of connecting rod II is hinged on natural zeolite transmission mechanism, pushes the other end of connecting rod II to be hinged on natural zeolite case, day Right zeolite case is slidably connected on complete machine holder, and one end of shift fork II is slidably connected on complete machine holder, the other end of shift fork II On natural zeolite actuating unit, sliding floor is slidably connected on complete machine holder clearance fit, actuating unit and propulsion power Mechanism is connected by V belt translation, and propulsion power mechanism is rotatably connected on complete machine holder, pushes transmission mechanism to be rotatably connected on whole On machine support, propulsion power mechanism and promotion transmission mechanism are pushed one end of connecting rod III to be hinged on and are pushed away by gear engaged transmission On dynamic transmission mechanism, the other end of connecting rod III is pushed to be hinged in push plate, push plate is slidably connected on complete machine holder, shift fork III One end clearance fit is on complete machine holder, and the other end of shift fork III is rotatably connected in propulsion power mechanism, the upper end of long connecting rod I It is hinged on shift fork I, the lower end of long connecting rod I is hinged on short connecting rod I, and the middle-end of short connecting rod I is slidably connected at complete machine branch On frame, the right end of short connecting rod I is slidably connected in the rod slide slot II pushed on body II, and the upper end of long connecting rod II, which is hinged on, dials The right end of fork II, the lower end of long connecting rod II are hinged on the left end of short connecting rod II, and the middle-end of short connecting rod II is slidably connected at complete machine branch On frame, the right end of short connecting rod II is slidably connected in the rod slide slot I pushed on body I, and the left end of short connecting rod III is hinged on cunning In dynamic floor mechanism, the middle-end of short connecting rod III is slidably connected on complete machine holder, and the right end of short connecting rod III is hinged on long connecting rod III Lower end, the upper end of long connecting rod III is hinged on shift fork III,

As advanced optimizing for the technical program, a kind of riverway sludge processing Heavy metal separation device of the present invention, institute It includes back plate I, back plate II, side plate I, runing rest, side plate II, sliding side plate I, sliding side plate II and sliding side to state complete machine holder Plate III is provided with helical mount on runing rest, zeolite entrance, sludge inlet, outlet, pushes mouth and bottom plate sliding groove, helical mount It is fixedly connected in runing rest, the upper end on the right side of runing rest is arranged in zeolite entrance, and sludge inlet is arranged in runing rest The upper end in left side exports the lower end being arranged on the left of runing rest, pushes mouth that the lower end on the right side of runing rest is arranged, and bottom plate is slided Dynamic slot is arranged on runing rest, slides and is provided with shift fork sliding groove I and spring stack sliding groove I on side plate I, slides on side plate II It is provided with shift fork sliding groove II and spring stack sliding groove II, slides and is provided with shift fork sliding groove III and spring stack sliding on side plate III Slot III, sliding side plate I and the both ends for sliding side plate II are respectively fixedly connected in back plate II and side plate II, the both ends point of side plate III It is not fixedly connected in back plate I and side plate I, the both ends of runing rest are respectively fixedly connected on side plate I and side plate II.

As advanced optimizing for the technical program, a kind of riverway sludge processing Heavy metal separation device of the present invention, institute It includes sludge line shaft I, sludge power belt wheel, sludge power cone tooth, sludge power sliding side tooth, sludge to state sludge actuating unit Power side tooth, sludge be connected by power key and sludge line shaft II, sludge power belt wheel are fixedly connected on a left side for sludge line shaft I End, sludge line shaft II are rotatably connected on the right end of sludge line shaft I, and sludge power side tooth and sludge power cone tooth are fixed respectively The both ends of sludge line shaft II are connected to, sludge power sliding side tooth is circumferentially connected to sludge power by sludge be connected by power key The right end of axis I, sludge line shaft I are rotatably connected in back plate I, and sludge power belt wheel is connected with actuating unit by V belt translation；

The sludge transmission mechanism includes that sludge transmission shaft, sludge driving crank and sludge transmission cone tooth, sludge transmission are bent Handle and sludge transmission cone tooth are respectively fixedly connected at the both ends of sludge transmission shaft, and sludge transmission shaft is rotatably connected on side plate I, dirty Mud power bores tooth and sludge transmission cone tooth engagement；

Described one end for pushing connecting rod I is hinged in sludge box, and the other end of connecting rod I is pushed to be hinged on sludge driving crank Eccentric position；

It is provided with sludge in the sludge box and falls mouth, sludge falls mouth and right end in sludge box is arranged, and sludge box sliding connects It is connected on side plate I；

Spring mounting post I is fixedly connected on the shift fork I, one end of shift fork I is slidably connected in shift fork sliding groove III, I other end of shift fork is rotatably connected on sludge power sliding side tooth, and compressed spring I, compressed spring are set in spring mounting post I I is located between shift fork I and sliding side plate III, and spring mounting post I is slidably connected in spring stack sliding groove III.

As advanced optimizing for the technical program, a kind of riverway sludge processing Heavy metal separation device of the present invention, institute State natural zeolite actuating unit include natural zeolite line shaft I, it is natural zeolite line shaft II, natural zeolite power cone tooth, natural Zeolite power belt wheel, natural zeolite power side tooth, natural zeolite power sliding side tooth and natural zeolite be connected by power key, it is natural to boil Stone power bores tooth and natural zeolite power side tooth is respectively fixedly connected in the both ends of natural zeolite power II, natural zeolite line shaft I is rotatably connected on the right end of natural zeolite line shaft II, and natural zeolite power belt wheel is fixedly connected on natural zeolite line shaft I Right end, natural zeolite power sliding side tooth are circumferentially connected to a left side for natural zeolite line shaft I by natural zeolite be connected by power key End, natural zeolite power belt wheel are connected with actuating unit by V belt translation, and natural zeolite line shaft I is rotatably connected on back plate II On；

The natural zeolite transmission mechanism includes natural zeolite transmission shaft, natural zeolite driving crank and natural zeolite transmission Tooth is bored, natural zeolite driving crank and natural zeolite transmission cone tooth are respectively fixedly connected in the both ends of natural zeolite transmission shaft, day Right zeolite transmission shaft is rotatably connected on side plate II, and natural zeolite transmission cone tooth and natural zeolite power bore tooth engagement；

Described one end for pushing connecting rod II is hinged on natural zeolite case, and the other end of connecting rod II is pushed to be hinged on natural boiling The eccentric position of stone driving crank；

It is provided with natural zeolite on the natural zeolite case and falls mouth, natural zeolite falls mouth and is arranged on the right side of natural zeolite case End, natural zeolite case are slidably connected on side plate II；

Spring mounting post II is fixedly connected on the shift fork II, one end of shift fork II is slidably connected at shift fork sliding groove I Interior, the other end of shift fork II is rotatably connected on natural zeolite power sliding side tooth, and compression bullet is set in spring mounting post II Spring II, compressed spring II are located between shift fork II and sliding side plate I, and spring mounting post II is slidably connected at spring stack sliding groove I It is interior.

As advanced optimizing for the technical program, a kind of riverway sludge processing Heavy metal separation device of the present invention, institute It includes pushing transmission shaft, push driving crank and pushing transmission cone tooth to state and push transmission mechanism, pushes driving crank and push passing Mantle tooth is respectively fixedly connected at the both ends for pushing transmission shaft, and transmission shaft is pushed to be rotatably connected on side plate II；

It is described that one end of connecting rod III is pushed to be hinged on the eccentric position for pushing driving crank, push the other end hinge of connecting rod III It is connected in push plate；

It has been fixedly connected with spring mounting post III on the shift fork III, compressed spring IV is set in spring mounting post III, Compressed spring IV is located between shift fork III and sliding side plate II, and the right end of shift fork III is slidably connected in shift fork sliding groove II；

The lower end of the push plate is obliquely installed, and push plate is slidably connected on side plate II；

The propulsion power mechanism includes propulsion power axis I, propulsion power axis II, propulsion power cone tooth, propulsion power band Wheel, propulsion power side tooth, propulsion power sliding side tooth and propulsion power connecting key, propulsion power belt wheel and propulsion power side tooth point It is not fixedly connected on the both ends of propulsion power axis I, propulsion power axis II is rotatably connected on the right end of propulsion power axis I, pushes dynamic Power cone tooth is fixedly connected on the left end of propulsion power axis II, and propulsion power slides side tooth and circumferentially connected by propulsion power connecting key In the right end of propulsion power axis II, propulsion power bores tooth and pushes transmission cone tooth engagement, propulsion power belt wheel and actuating unit logical V belt translation connection is crossed, the left end of shift fork III is rotatably connected on propulsion power sliding side tooth.

As advanced optimizing for the technical program, a kind of riverway sludge processing Heavy metal separation device of the present invention, institute It states and is provided with multiple circular apertures on containing box, the right end of containing box is obliquely installed upwards, and the left end in outlet is arranged in containing box.

A kind of riverway sludge processing Heavy metal separation device of the invention has the beneficial effect that：

A kind of riverway sludge processing Heavy metal separation device of the present invention, a certain amount of sludge and natural zeolite are put respectively Enter in sludge box and natural zeolite case, can be pushed away when actuating unit drives sludge actuating unit and natural zeolite actuating unit rotates Dynamic sludge box and natural zeolite case travel forward, and sludge and natural zeolite are respectively fallen in runing rest, by spiral helicine spiral Frame utilizes gravitational agitation, and the heavy metal in sludge is adsorbed by natural zeolite, when the sludge and natural zeolite in sliding floor mechanism Push long connecting rod I, short connecting rod I, short connecting rod II, long connecting rod II, short connecting rod III and long connecting rod III by sludge when reaching constant weight Actuating unit and natural zeolite actuating unit power cut, by propulsion power mechanism power ON by the dirt in sliding floor mechanism Mud and natural zeolite push-in separate sludge and natural zeolite in the containing box with multiple apertures.

Description of the drawings

The present invention will be further described in detail with specific implementation method below in conjunction with the accompanying drawings.

Fig. 1 is the riverway sludge processing Heavy metal separation device overall structure diagram of the present invention；

Fig. 2 is the riverway sludge processing Heavy metal separation device drive mechanism schematic diagram of the present invention；

Fig. 3 is the complete machine supporting structure schematic diagram of the present invention；

Fig. 4 is the rotary bracket structure schematic diagram of the present invention；

Fig. 5 is the runing rest section view figure structure schematic representation of the present invention；

Fig. 6 is I structural schematic diagram of sliding side plate of the present invention；

Fig. 7 is II structural schematic diagram of sliding side plate of the present invention；

Fig. 8 is III structural schematic diagram of sliding side plate of the present invention；

Fig. 9 is the sludge actuating unit structural schematic diagram of the present invention；

Figure 10 is the sludge transmission mechanism structural schematic diagram of the present invention；

Figure 11 is the sludge box structural schematic diagram of the present invention；

Figure 12 is I structural schematic diagram of shift fork of the present invention；

Figure 13 is the natural zeolite actuating unit structural schematic diagram of the present invention；

Figure 14 is the natural zeolite transmission mechanism structural schematic diagram of the present invention；

Figure 15 is the natural zeolite box structure schematic diagram of the present invention；

Figure 16 is II structural schematic diagram of shift fork of the present invention；

Figure 17 is the basal sliding mechanism structure schematic diagram of the present invention；

Figure 18 is the bottom slide structural schematic diagram of the present invention；

Figure 19 is the promotion transmission mechanism structural schematic diagram of the present invention；

Figure 20 is III structural schematic diagram of shift fork of the present invention；

Figure 21 is the propulsion power mechanism structure schematic diagram of the present invention；

Figure 22 is the housing box structure schematic diagram of the present invention.

In figure：Complete machine holder 1；I 1-1 of back plate；II 1-2 of back plate；I 1-3 of side plate；Runing rest 1-4；Helical mount 1-4-1；Boiling Stone entrance 1-4-2；Sludge inlet 1-4-3；Export 1-4-4；Push mouth 1-4-5；Bottom plate sliding groove 1-4-6；II 1-5 of side plate；It is sliding I 1-6 of dynamic side plate；I 1-6-1 of shift fork sliding groove；I 1-6-2 of spring stack sliding groove；Slide II 1-7 of side plate；II 1-7- of shift fork sliding groove 1；II 1-7-2 of spring stack sliding groove；Slide III 1-8 of side plate；III 1-8-1 of shift fork sliding groove；III 1-8-2 of spring stack sliding groove；It is dynamic Force mechanisms 2；Sludge actuating unit 3；I 3-1 of sludge line shaft；Sludge power belt wheel 3-2；Sludge power bores tooth 3-3；Sludge power Slide side tooth 3-4；Sludge power side tooth 3-5；Sludge be connected by power key 3-6；II 3-7 of sludge line shaft；Sludge transmission mechanism 4； Sludge transmission shaft 4-1；Sludge driving crank 4-2；Sludge transmission cone tooth 4-3；Push connecting rod I 5；Sludge box 6；Sludge falls a mouthful 6-1； Shift fork I 7；I 7-1 of spring mounting post；Natural zeolite actuating unit 8；I 8-1 of natural zeolite line shaft；II 8- of natural zeolite line shaft 2；Natural zeolite power bores tooth 8-3；Natural zeolite power belt wheel 8-4；Natural zeolite power side tooth 8-5；Natural zeolite power is slided Dynamic side tooth 8-6；Natural zeolite be connected by power key 8-7；Natural zeolite transmission mechanism 9；Natural zeolite transmission shaft 9-1；Natural zeolite Driving crank 9-2；Natural zeolite transmission cone tooth 9-3；Push connecting rod II 10；Natural zeolite case 11；Natural zeolite falls a mouthful 11-1；It dials Pitch II 12；II 12-1 of spring mounting post；Sliding floor mechanism 13；Sliding floor 13-1；Sliding groove 13-1-1；Hang plate 13-1- 2；Push I 13-1-3 of body；Push II 13-1-4 of body；Bottom plate 13-2；Push transmission mechanism 14；Push transmission shaft 14-1；It pushes and passes Dynamic crank 14-2；Push transmission cone tooth 14-3；Push connecting rod III 15；Long connecting rod I 16；Short connecting rod I 17；Short connecting rod II 18；It is long to connect Bar II 19；Short connecting rod III 20；Long connecting rod III 21；Shift fork III 22；III 22-1 of spring mounting post；Push plate 23；Propulsion power mechanism 24； I 24-1 of propulsion power axis；II 24-2 of propulsion power axis；Propulsion power bores tooth 24-3；Propulsion power belt wheel 24-4；Propulsion power side Tooth 24-5；Propulsion power slides side tooth 24-6；Propulsion power connecting key 24-7；Containing box 25.

Specific implementation mode

Invention is further described in detail below in conjunction with the accompanying drawings.

Specific implementation mode one：

1. illustrate present embodiment with reference to Fig. 1-2 2, a kind of riverway sludge processing Heavy metal separation device, including Complete machine holder 1, sludge actuating unit 3, sludge transmission mechanism 4, pushes connecting rod I 5, sludge box 6, shift fork I 7, day at actuating unit 2 Right zeolite actuating unit 8, pushes connecting rod II 10, natural zeolite case 11, shift fork II 12, sliding floor at natural zeolite transmission mechanism 9 Mechanism 13, push transmission mechanism 14, push connecting rod III 15, long connecting rod I 16, short connecting rod I 17, short connecting rod II 18, long connecting rod II 19, Short connecting rod III 20, long connecting rod III 21, shift fork III 22, push plate 23, propulsion power mechanism 24 and containing box 25, it is characterised in that：Institute It includes sliding floor 13-1 and bottom plate 13-2 to state sliding floor mechanism 13, be provided on sliding floor 13-1 sliding groove 13-1-1, Two hang plate 13-1-2, it pushes I 13-1-3 of body and pushes II 13-1-4 of body；It pushes I 13-1-3 of body and pushes II 13-1-4 of body On be respectively arranged with rod slide slot I and rod slide slot II, sliding groove 13-1-1 is through being arranged on sliding floor 13-1, two A hang plate 13-1-2 is fixedly connected in the left and right sides of sliding floor 13-1, and two hang plate 13-1-2 are obliquely installed, It pushes I 13-1-3 of body that the right end in sliding floor 13-1 is set, II 13-1-4 of body is pushed to be arranged on the right side for pushing I 13-1-3 of body End, sliding floor 13-1 are slidably connected on bottom plate 13-2, and compressed spring is provided between bottom plate 13-2 and sliding floor 13-1 The both ends of III, sliding floor 13-1 are slidably connected at respectively on complete machine holder 1, and bottom plate 13-2 is fixedly connected on complete machine holder 1, The actuating unit 2 is fixedly connected on complete machine holder 1, and actuating unit 2 is connected with sludge actuating unit 3 by V belt translation, dirty Mud actuating unit 3 is rotatably connected on complete machine holder 1, and sludge transmission mechanism 4 is rotatably connected on complete machine holder 1, sludge transmission Mechanism 4 and sludge actuating unit 3 are pushed one end of connecting rod I 5 to be hinged on sludge transmission mechanism 4, are pushed away by gear engaged transmission The other end of dynamic connecting rod I 5 is hinged in sludge box 6, and sludge box 6 is slidably connected on complete machine holder 1, one end sliding of shift fork I 7 It is connected on complete machine holder 1, the other end of shift fork I 7 is rotatably connected on sludge actuating unit 3, actuating unit 2 and natural zeolite Actuating unit 8 is connected by V belt translation, and natural zeolite actuating unit 8 is rotatably connected on complete machine holder 1, natural zeolite driver Structure 9 is rotatably connected on complete machine holder 1, and natural zeolite transmission mechanism 9 and natural zeolite actuating unit 8 are engaged by gear and passed It is dynamic, it pushes one end of connecting rod II 10 to be hinged on natural zeolite transmission mechanism 9, the other end of connecting rod II 10 is pushed to be hinged on naturally On zeolite case 11, natural zeolite case 11 is slidably connected on complete machine holder 1, and one end of shift fork II 12 is slidably connected at complete machine holder On 1, for the other end clearance fit of shift fork II 12 on natural zeolite actuating unit 8, sliding floor 13-1 is slidably connected at complete machine On holder 1, actuating unit 2 is connected with propulsion power mechanism 24 by V belt translation, and propulsion power mechanism 24 is rotatably connected on complete machine On holder 1, transmission mechanism 14 is pushed to be rotatably connected on complete machine holder 1, propulsion power mechanism 24 and promotion transmission mechanism 14 are logical Gear engaged transmission is crossed, pushes one end of connecting rod III 15 to be hinged on and pushes on transmission mechanism 14, push the other end of connecting rod III 15 It is hinged in push plate 23, push plate 23 is slidably connected on complete machine holder 1, and one end clearance fit of shift fork III 22 is in complete machine holder 1 On, the other end of shift fork III 22 is rotatably connected in propulsion power mechanism 24, and the upper end of long connecting rod I 16 is hinged on shift fork I 7, The lower end of long connecting rod I 16 is hinged on short connecting rod I 17, and the middle-end of short connecting rod I 17 is slidably connected on complete machine holder 1, short The right end of connecting rod I 17 is slidably connected in the rod slide slot II pushed on II 13-1-4 of body, and the upper end of long connecting rod II 19 is hinged In the right end of shift fork II 12, the lower end of long connecting rod II 19 is hinged on the left end of short connecting rod II 18, the middle-end sliding of short connecting rod II 18 It is connected on complete machine holder 1, the right end of short connecting rod II 18 is slidably connected in the rod slide slot I pushed on I 13-1-3 of body, short The left end of connecting rod III 20 is hinged in sliding floor mechanism 13, and the middle-end of short connecting rod III 20 is slidably connected on complete machine holder 1, short The right end of connecting rod III 20 is hinged on the lower end of long connecting rod III 21, and the upper end of long connecting rod III 21 is hinged on shift fork III 22, will be certain The sludge and natural zeolite of amount are respectively put into sludge box 6 and natural zeolite case 11, when actuating unit 2 drives sludge actuating unit 3 and natural zeolite actuating unit 8 rotate when sludge box 6 and natural zeolite case 11 can be pushed to travel forward, sludge and natural zeolite It respectively falls in runing rest 1-4, utilizes gravitational agitation, the heavy metal in sludge natural by spiral helicine helical mount 1-4-1 Zeolite adsorbs, and long connecting rod I 15, short connecting rod are pushed when the sludge and natural zeolite arrival constant weight in sliding floor mechanism 13 I 16, short connecting rod II 17, long connecting rod II 18, short connecting rod III 19 and long connecting rod III 20 are by sludge actuating unit 3 and natural zeolite power 8 power cut of mechanism, by 24 power ON of propulsion power mechanism by sliding floor mechanism 13 sludge and natural zeolite be pushed into Sludge and natural zeolite are separated in containing box 25 with multiple apertures.

Specific implementation mode two：

Illustrate present embodiment with reference to Fig. 1-2 2, present embodiment is described further embodiment one, described Complete machine holder 1 include I 1-1 of back plate, II 1-2 of back plate, I 1-3 of side plate, runing rest 1-4, II 1-5 of side plate, sliding side plate I 1-6, It is provided with helical mount 1-4-1, zeolite entrance 1-4-2, dirt on sliding II 1-7 of side plate and sliding side plate III 1-8, runing rest 1-4 Mud entrance 1-4-3, outlet 1-4-4, mouth 1-4-5 and bottom plate sliding groove 1-4-6, helical mount 1-4-1 is pushed to be fixedly connected on rotation In holder 1-4, the upper end on the right side of runing rest 1-4 is arranged in zeolite entrance 1-4-2, and sludge inlet 1-4-3 settings are in rotation branch The lower end on the left of runing rest 1-4 is arranged in upper end on the left of frame 1-4, outlet 1-4-4, pushes mouth 1-4-5 settings in rotation branch Lower end on the right side of frame 1-4, bottom plate sliding groove 1-4-6 are arranged on runing rest 1-4, slide and are provided with shift fork cunning on I 1-6 of side plate It is provided with II 1-7-1 of shift fork sliding groove and spring stack on I 1-6-2 of dynamic I 1-6-1 of slot and spring stack sliding groove, II 1-7 of sliding side plate It is provided with III 1-8-2 of III 1-8-1 of shift fork sliding groove and spring stack sliding groove on II 1-7-2 of sliding groove, III 1-8 of sliding side plate, it is sliding Dynamic I 1-6 of side plate and the both ends for sliding II 1-7 of side plate are respectively fixedly connected on II 1-5 of II 1-2 of back plate and side plate, III 1-8 of side plate Both ends be respectively fixedly connected on I 1-3 of I 1-1 of back plate and side plate, the both ends of runing rest 1-4 are respectively fixedly connected in side plate I On II 1-5 of 1-3 and side plate；Helical mount 1-4-1, which is helical form, can utilize the dead weight of sludge and natural zeolite that the two is fully mixed It closes, natural zeolite is by the heavy metal adsorption in sludge.

Specific implementation mode three：

Illustrate present embodiment with reference to Fig. 1-2 2, present embodiment is described further embodiment two, described Sludge actuating unit 3 includes I 3-1 of sludge line shaft, sludge power belt wheel 3-2, sludge power cone tooth 3-3, the sliding of sludge power Side tooth 3-4, sludge power side tooth 3-5, II 3-7 of sludge be connected by power key 3-6 and sludge line shaft, sludge power belt wheel 3-2 are solid Surely it is connected to the left end of I 3-1 of sludge line shaft, II 3-7 of sludge line shaft is rotatably connected on the right end of I 3-1 of sludge line shaft, dirty Mud power side tooth 3-5 and sludge power cone tooth 3-3 are respectively fixedly connected at the both ends of II 3-7 of sludge line shaft, and sludge power is slided Dynamic side tooth 3-4 is circumferentially connected to the right end of I 3-1 of sludge line shaft by sludge be connected by power key 3-6, and I 3-1 of sludge line shaft turns Dynamic to be connected on I 1-1 of back plate, sludge power belt wheel 3-2 is connected with actuating unit 2 by V belt translation；

The sludge transmission mechanism 4 includes that tooth 4-3 is bored in sludge transmission shaft 4-1, sludge driving crank 4-2 and sludge transmission, Sludge driving crank 4-2 and sludge transmission cone tooth 4-3 are respectively fixedly connected in the both ends of sludge transmission shaft 4-1, sludge transmission shaft 4-1 is rotatably connected on I 1-3 of side plate, and sludge power bores tooth 3-3 and sludge transmission cone tooth 4-3 engagements；

Described one end for pushing connecting rod I 5 is hinged in sludge box 6, and the other end of connecting rod I 5 is pushed to be hinged on sludge transmission The eccentric position of crank 4-2；

It is provided with sludge in the sludge box 6 and falls a mouthful 6-1, sludge falls mouthful 6-1 and right end in sludge box 6, sludge is arranged Case 6 is slidably connected on I 1-3 of side plate；

I 7-1 of spring mounting post is fixedly connected on the shift fork I 7, one end of shift fork I 7 is slidably connected at shift fork sliding groove In III 1-8-1, I 7 other end of shift fork is rotatably connected on sludge power sliding side tooth 3-4, is set on I 7-1 of spring mounting post Compressed spring I, compressed spring I are located between III 1-8 of shift fork I 7 and sliding side plate, and I 7-1 of spring mounting post is slidably connected at spring In III 1-8-2 of column sliding groove；When actuating unit 2 provides power for sludge power belt wheel 3-2, compressed spring I pushes shift fork I 7 It being slided in III 1-8-1 of shift fork sliding groove, shift fork I 7 pushes the sliding side tooth 3-4 and sludge power side tooth 3-5 engagements of sludge power, II 3-7 of sludge line shaft can be rotated together with I 3-1 of sludge line shaft, and sludge power bores tooth 3-3 and drives sludge transmission cone tooth 4- 3 are rotated, and sludge transmission cone tooth 4-3 drives the 4-2 rotations of sludge driving crank, sludge driving crank 4-2 to push connecting rod I 5 movements push connecting rod I 5 that the radian on I 1-3 of side plate of sludge box 6 is pushed to work as sliding floor by sludge push-in runing rest 1-4 Sludge and natural zeolite on 13-1 push short connecting rod I 16 and short connecting rod II 17 by sludge actuating unit 3 when reaching constant weight Power power cut, push away sludge in 6 not left-hand tools holder 1-4 of sludge box.

Specific implementation mode four：

Illustrate present embodiment with reference to Fig. 1-2 2, present embodiment is described further embodiment two, described Natural zeolite actuating unit 8 includes I 8-1 of natural zeolite line shaft, II 8-2 of natural zeolite line shaft, natural zeolite power cone tooth 8-3, natural zeolite power belt wheel 8-4, natural zeolite power side tooth 8-5, natural zeolite power sliding side tooth 8-6 and natural zeolite Be connected by power key 8-7, natural zeolite power cone tooth 8-3 and natural zeolite power side tooth 8-5 are respectively fixedly connected in natural zeolite The both ends of II 8-2 of line shaft, I 8-1 of natural zeolite line shaft are rotatably connected on the right end of II 8-2 of natural zeolite line shaft, naturally Zeolite power belt wheel 8-4 is fixedly connected on the right end of I 8-1 of natural zeolite line shaft, and natural zeolite power sliding side tooth 8-6 passes through Natural zeolite be connected by power key 8-7 is circumferentially connected to the left end of I 8-1 of natural zeolite line shaft, natural zeolite power belt wheel 8-4 and Actuating unit 2 is connected by V belt translation, and I 8-1 of natural zeolite line shaft is rotatably connected on II 1-2 of back plate；

The natural zeolite transmission mechanism 9 is including natural zeolite transmission shaft 9-1, natural zeolite driving crank 9-2 and naturally Zeolite transmission cone tooth 9-3, natural zeolite driving crank 9-2 and natural zeolite transmission cone tooth 9-3 are respectively fixedly connected with and are naturally boiling The both ends of stone transmission shaft 9-1, natural zeolite transmission shaft 9-1 are rotatably connected on II 1-5 of side plate, natural zeolite transmission cone tooth 9-3 With the cone tooth 8-3 engagements of natural zeolite power；

Described one end for pushing connecting rod II 10 is hinged on natural zeolite case 11, and the other end of connecting rod II 10 is pushed to be hinged on The eccentric position of natural zeolite driving crank 9-2；

It is provided with natural zeolite on the natural zeolite case 11 and falls a mouthful 11-1, natural zeolite falls a mouthful 11-1 settings and naturally boiling The right end of stone case 11, natural zeolite case 11 are slidably connected on II 1-5 of side plate；

II 12-1 of spring mounting post is fixedly connected on the shift fork II 12, one end of shift fork II 12 is slidably connected at shift fork In I 1-6-1 of sliding groove, the other end of shift fork II 12 is rotatably connected on natural zeolite power sliding side tooth 8-6, spring mounting post Compressed spring II is set on II 12-1, compressed spring II is located between I 1-6 of shift fork II 12 and sliding side plate, spring mounting post II 12-1 is slidably connected in I 1-6-2 of spring stack sliding groove；When actuating unit 2 provides power for natural zeolite power belt wheel 8-4 When, compressed spring II pushes shift fork II 12 to be slided in I 1-6-1 of shift fork sliding groove, and shift fork II 12 pushes natural zeolite power to slide Dynamic side tooth 8-6 and natural zeolite power side tooth 8-5 engagements, I 8-1 of natural zeolite line shaft and II 8-2 of natural zeolite line shaft can To rotate together, natural zeolite power cone tooth 8-3 drives natural zeolite transmission cone tooth 9-3 to be rotated, natural zeolite transmission cone Tooth 9-3 drives the 9-2 rotations of natural zeolite driving crank, natural zeolite driving crank 9-2 to push connecting rod II 10 to move, push Connecting rod II 10 pushes the sliding on II 1-5 of side plate of natural zeolite case 11 that natural zeolite is pushed into runing rest 1-4, when sliding bottom Short connecting rod II 18 and long connecting rod II 19 is pushed to move natural zeolite when sludge and natural zeolite on plate 13-1 reach constant weight The power power cut of force mechanisms 8 pushes away natural zeolite in 11 not left-hand tools holder 1-4 of natural zeolite case.

Specific implementation mode five：

Illustrate present embodiment with reference to Fig. 1-2 2, present embodiment is described further embodiment two, described It includes pushing transmission shaft 14-1, push driving crank 14-2 and pushing transmission cone tooth 14-3 to push transmission mechanism 14, pushes transmission Crank 14-2 and promotion transmission cone tooth 14-3 are respectively fixedly connected at the both ends for pushing transmission shaft 14-1, push 14-1 turns of transmission shaft It is dynamic to be connected on II 1-5 of side plate；

It is described that one end of connecting rod III 15 is pushed to be hinged on the eccentric position for pushing driving crank 14-2, push connecting rod III 15 The other end is hinged in push plate 23；

It is fixedly connected with III 22-1 of spring mounting post on the shift fork III 22, compression is set on III 22-1 of spring mounting post Spring IV, compressed spring IV are located between II 1-7 of shift fork III 22 and sliding side plate, and the right end of shift fork III 22 is slidably connected at shift fork In II 1-7-1 of sliding groove；

The lower end of the push plate 23 is obliquely installed, and push plate 23 is slidably connected on II 1-5 of side plate；

The propulsion power mechanism 24 includes I 24-1 of propulsion power axis, II 24-2 of propulsion power axis, propulsion power cone tooth 24-3, propulsion power belt wheel 24-4, propulsion power side tooth 24-5, propulsion power sliding side tooth 24-6 and propulsion power connecting key 24-7, propulsion power belt wheel 24-4 and propulsion power side tooth 24-5 are respectively fixedly connected at the both ends of I 24-1 of propulsion power axis, are pushed away Dynamic II 24-2 of line shaft is rotatably connected on the right end of I 24-1 of propulsion power axis, and propulsion power cone tooth 24-3 is fixedly connected on promotion The left end of II 24-2 of line shaft, it is dynamic that propulsion power sliding side tooth 24-6 is circumferentially connected to promotion by propulsion power connecting key 24-7 The right end of II 24-2 of power axis, propulsion power bore tooth 24-3 and push transmission cone tooth 14-3 engagement, propulsion power belt wheel 24-4 and dynamic Force mechanisms 2 are connected by V belt translation, and the left end of shift fork III 22 is rotatably connected on propulsion power sliding side tooth 24-6；Work as engine When structure 2 provides power for propulsion power belt wheel 24-4, propulsion power belt wheel 24-4 can drive I 24-1 of propulsion power axis to rotate, and push away Dynamic I 24-1 of line shaft and II 24-2 of propulsion power axis will not be rotated together, when the sludge and natural zeolite on sliding floor 13-1 Short connecting rod III 20 and long connecting rod III 21 is pushed to push shift fork III 22 when reaching constant weight, shift fork III 22 can make propulsion power side Tooth 24-5 and propulsion power sliding side tooth 24-6 engagements, I 24-1 of propulsion power axis and II 24-2 of propulsion power axis can turn together Dynamic, propulsion power bores tooth 24-3 drives and pushes transmission cone tooth 14-3 movements, and promotion transmission cone tooth 14-3, which drives, pushes driving crank 14-2 movements push driving crank 14-2 promotions to push connecting rod III 15, and the promotion push plate 23 of promotion connecting rod III 15 is by sludge and naturally In the mixture push-in containing box 25 of zeolite.

Specific implementation mode six：

Illustrate present embodiment with reference to Fig. 1-2 2, present embodiment is described further embodiment two, described Multiple circular apertures are provided on containing box 25, the right end of containing box 25 is obliquely installed upwards, and the setting of containing box 25 is in outlet 1- The left end of 4-4, the right end of containing box 25 are obliquely installed upwards under the mixture of sludge and natural zeolite can be allowed to generate centainly Impulse force, when the mixture of sludge and natural zeolite passes through the multiple circular apertures being arranged on containing box 25, sludge can pass through receipts The multiple circular apertures being arranged on case 25 of receiving, which drop out, to be come, and natural zeolite then will not be by multiple circles for being arranged on containing box 25 Aperture is contained the collection of case 25.

A kind of riverway sludge processing Heavy metal separation device of the present invention, its working principle is that：

A certain amount of sludge and natural zeolite are put into proportion in sludge box 6 and natural zeolite case 11 when use, opened Dynamic actuating unit 2, when actuating unit 2 provides power for sludge power belt wheel 3-2, compressed spring I pushes shift fork I 7 in shift fork Sliding in III 1-8-1 of sliding groove, shift fork I 7 push the sliding side tooth 3-4 and sludge power side tooth 3-5 engagements of sludge power, sludge dynamic II 3-7 of power axis can be rotated together with I 3-1 of sludge line shaft, and sludge power bores tooth 3-3 and sludge transmission cone tooth 4-3 is driven to carry out Rotation, sludge transmission cone tooth 4-3 drive the 4-2 rotations of sludge driving crank, sludge driving crank 4-2 that connecting rod I 5 is pushed to transport It is dynamic, push connecting rod I 5 to push the radian on I 1-3 of side plate of sludge box 6 that sludge is pushed into runing rest 1-4, as sliding floor 13- Sludge and natural zeolite on 1 push short connecting rod I 16 and short connecting rod II 17 by the dynamic of sludge actuating unit 3 when reaching constant weight Power power cut pushes away sludge in 6 not left-hand tools holder 1-4 of sludge box；When actuating unit 2 is natural zeolite power belt wheel 8-4 When providing power, compressed spring II pushes shift fork II 12 to be slided in I 1-6-1 of shift fork sliding groove, and shift fork II 12 pushes natural boiling Stone power slides side tooth 8-6 and natural zeolite power side tooth 8-5 engagements, I 8-1 of natural zeolite line shaft and natural zeolite line shaft II 8-2 can be rotated together, and natural zeolite power cone tooth 8-3 drives natural zeolite transmission cone tooth 9-3 to be rotated, natural zeolite Transmission cone tooth 9-3 drives the 9-2 rotations of natural zeolite driving crank, natural zeolite driving crank 9-2 that connecting rod II 10 is pushed to transport It is dynamic, push connecting rod II 10 to push the radian on II 1-5 of side plate of natural zeolite case 11 that natural zeolite is pushed into runing rest 1-4, When on sliding floor 13-1 sludge and natural zeolite reach constant weight when push short connecting rod II 18 and long connecting rod II 19 by day The power power cut of right zeolite actuating unit 8 pushes away natural zeolite in 11 not left-hand tools holder 1-4 of natural zeolite case；Spiral Frame 1-4-1, which is helical form, to utilize the dead weight of sludge and natural zeolite to be sufficiently mixed the two, and natural zeolite will be in sludge Heavy metal adsorption；When actuating unit 2 provides power for propulsion power belt wheel 24-4, propulsion power belt wheel 24-4 can drive promotion Line shaft I 24-1 rotations, I 24-1 of propulsion power axis and II 24-2 of propulsion power axis will not be rotated together, as sliding floor 13-1 On sludge and natural zeolite push short connecting rod III 20 and long connecting rod III 21 to push shift fork III 22 when reaching constant weight, shift fork III 22 can make propulsion power side tooth 24-5 and propulsion power slide side tooth 24-6 engagements, I 24-1 of propulsion power axis and propulsion power II 24-2 of axis can be rotated together, and propulsion power bores tooth 24-3 and drives promotion transmission cone tooth 14-3 movements, pushes and is driven cone tooth 14- 3 drive the 14-2 movements of promotion driving crank, push driving crank 14-2 that connecting rod III 15, promotion connecting rod III 15 is pushed to push away The mixture of sludge and natural zeolite is pushed into containing box 25 by plate 23；When the mixture of sludge and natural zeolite passes through containing box When the multiple circular apertures being arranged on 25, sludge can be dropped out by the multiple circular apertures being arranged on containing box 25 come and natural Zeolite will not then be contained the collection of case 25 by the multiple circular apertures being arranged on containing box 25.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made in the essential scope of the present invention also belong to the guarantor of the present invention Protect range.

Claims (6)

1. a kind of riverway sludge processing Heavy metal separation device, including complete machine holder (1), actuating unit (2), sludge engine Structure (3), pushes connecting rod I (5), sludge box (6), shift fork I (7), natural zeolite actuating unit (8), day at sludge transmission mechanism (4) Right zeolite transmission mechanism (9), push connecting rod II (10), natural zeolite case (11), shift fork II (12), sliding floor mechanism (13), It pushes transmission mechanism (14), push connecting rod III (15), long connecting rod I (16), short connecting rod I (17), short connecting rod II (18), long connecting rod II (19), short connecting rod III (20), long connecting rod III (21), shift fork III (22), push plate (23), propulsion power mechanism (24) and containing box (25), it is characterised in that：The sliding floor mechanism (13) includes sliding floor (13-1) and bottom plate (13-2), sliding floor It is provided with sliding groove (13-1-1), two hang plates (13-1-2) on (13-1), push body I (13-1-3) and pushes II (13- of body 1-4)；It pushes body I (13-1-3) and pushes and be respectively arranged with rod slide slot I and rod slide slot II on body II (13-1-4), Through being arranged on sliding floor (13-1), two hang plates (13-1-2) are fixedly connected at sliding bottom sliding groove (13-1-1) The left and right sides of plate (13-1), two hang plates (13-1-2) are obliquely installed, and body I (13-1-3) is pushed to be arranged in sliding floor The right end of (13-1) pushes body II (13-1-4) to be arranged in the right end for pushing body I (13-1-3), and sliding floor (13-1) sliding connects It is connected on bottom plate (13-2), compressed spring III, sliding floor (13- is provided between bottom plate (13-2) and sliding floor (13-1) 1) both ends are slidably connected at respectively on complete machine holder (1), and bottom plate (13-2) is fixedly connected on complete machine holder (1), described dynamic Force mechanisms (2) are fixedly connected on complete machine holder (1), and actuating unit (2) is connected with sludge actuating unit (3) by V belt translation, Sludge actuating unit (3) is rotatably connected on complete machine holder (1), and sludge transmission mechanism (4) is rotatably connected on complete machine holder (1) On, sludge transmission mechanism (4) and sludge actuating unit (3) push one end of connecting rod I (5) to be hinged on by gear engaged transmission On sludge transmission mechanism (4), the other end of connecting rod I (5) is pushed to be hinged in sludge box (6), sludge box (6) is slidably connected at whole On machine support (1), one end of shift fork I (7) is slidably connected on complete machine holder (1), and the other end of shift fork I (7) is rotatably connected on On sludge actuating unit (3), actuating unit (2) is connected with natural zeolite actuating unit (8) by V belt translation, natural zeolite power Mechanism (8) is rotatably connected on complete machine holder (1), and natural zeolite transmission mechanism (9) is rotatably connected on complete machine holder (1), day Right zeolite transmission mechanism (9) and natural zeolite actuating unit (8) push one end hinge of connecting rod II (10) by gear engaged transmission It is connected on natural zeolite transmission mechanism (9), the other end of connecting rod II (10) is pushed to be hinged on natural zeolite case (11), it is natural to boil Stone case (11) is slidably connected on complete machine holder (1), and one end of shift fork II (12) is slidably connected on complete machine holder (1), shift fork For the other end clearance fit of II (12) on natural zeolite actuating unit (8), sliding floor (13-1) is slidably connected at complete machine branch On frame (1), actuating unit (2) is connected with propulsion power mechanism (24) by V belt translation, propulsion power mechanism (24) rotation connection On complete machine holder (1), pushes transmission mechanism (14) to be rotatably connected on complete machine holder (1), propulsion power mechanism (24) and push away Dynamic transmission mechanism (14) is pushed one end of connecting rod III (15) to be hinged on and is pushed on transmission mechanism (14) by gear engaged transmission, The other end of connecting rod III (15) is pushed to be hinged in push plate (23), push plate (23) is slidably connected on complete machine holder (1), shift fork III (22) for one end clearance fit on complete machine holder (1), the other end of shift fork III (22) is rotatably connected on propulsion power mechanism (24) on, the upper end of long connecting rod I (16) is hinged on shift fork I (7), and the lower end of long connecting rod I (16) is hinged on short connecting rod I (17) On, the middle-end of short connecting rod I (17) is slidably connected on complete machine holder (1), and the right end of short connecting rod I (17), which is slidably connected at, to be pushed away In rod slide slot II on kinetoplast II (13-1-4), the upper end of long connecting rod II (19) is hinged on the right end of shift fork II (12), long The lower end of connecting rod II (19) is hinged on the left end of short connecting rod II (18), and the middle-end of short connecting rod II (18) is slidably connected at complete machine holder (1) on, the right end of short connecting rod II (18) is slidably connected in the rod slide slot I pushed on body I (13-1-3), short connecting rod III (20) left end is hinged in sliding floor mechanism (13), and the middle-end of short connecting rod III (20) is slidably connected on complete machine holder (1), The right end of short connecting rod III (20) is hinged on the lower end of long connecting rod III (21), and the upper end of long connecting rod III (21) is hinged on shift fork III (22) On.

2. a kind of riverway sludge processing Heavy metal separation device according to claim 1, it is characterised in that：The complete machine Holder (1) includes back plate I (1-1), back plate II (1-2), side plate I (1-3), runing rest (1-4), side plate II (1-5), sliding side Plate I (1-6), sliding side plate II (1-7) and slide side plate III (1-8), be provided on runing rest (1-4) helical mount (1-4-1), Zeolite entrance (1-4-2), outlet (1-4-4), pushes mouth (1-4-5) and bottom plate sliding groove (1-4-6) at sludge inlet (1-4-3), Helical mount (1-4-1) is fixedly connected in runing rest (1-4), and zeolite entrance (1-4-2) setting is on the right side of runing rest (1-4) Upper end, upper end on the left of runing rest (1-4) is arranged in sludge inlet (1-4-3), and outlet (1-4-4) is arranged in runing rest Lower end on the left of (1-4), the lower end for pushing mouth (1-4-5) to be arranged on the right side of runing rest (1-4), bottom plate sliding groove (1-4-6) It is arranged on runing rest (1-4), slides and be provided with shift fork sliding groove I (1-6-1) and spring stack sliding groove I on side plate I (1-6)

(1-6-2) is slided and is provided with II (1-7- of shift fork sliding groove II (1-7-1) and spring stack sliding groove on side plate II (1-7) 2) it, is provided with shift fork sliding groove III (1-8-1) and spring stack sliding groove III (1-8-2) on sliding side plate III (1-8), slides side plate The both ends of I (1-6) and sliding side plate II (1-7) are respectively fixedly connected in back plate II (1-2) and side plate II (1-5), side plate III The both ends of (1-8) are respectively fixedly connected in back plate I (1-1) and side plate I (1-3), and the both ends of runing rest (1-4) are fixed respectively It is connected on side plate I (1-3) and side plate II (1-5).

3. a kind of riverway sludge processing Heavy metal separation device according to claim 2, it is characterised in that：The sludge Actuating unit (3) includes sludge line shaft I (3-1), sludge power belt wheel (3-2), sludge power cone tooth (3-3), sludge power Side tooth (3-4), sludge power side tooth (3-5), sludge be connected by power key (3-6) and sludge line shaft II (3-7) are slided, sludge is dynamic Power belt wheel (3-2) is fixedly connected on the left end of sludge line shaft I (3-1), and it is dynamic that sludge line shaft II (3-7) is rotatably connected on sludge The right end of power axis I (3-1), sludge power side tooth (3-5) and sludge power cone tooth (3-3) are respectively fixedly connected in sludge line shaft The both ends of II (3-7), sludge power sliding side tooth (3-4) are circumferentially connected to sludge power by sludge be connected by power key (3-6) The right end of axis I (3-1), sludge line shaft I (3-1) are rotatably connected in back plate I (1-1), sludge power belt wheel (3-2) and power Mechanism (2) is connected by V belt translation；

The sludge transmission mechanism (4) includes sludge transmission shaft (4-1), sludge driving crank (4-2) and sludge transmission cone tooth (4- 3), sludge driving crank (4-2) and sludge transmission cone tooth (4-3) are respectively fixedly connected at the both ends of sludge transmission shaft (4-1), dirty Mud transmission shaft (4-1) is rotatably connected on side plate I (1-3), and sludge power bores tooth (3-3) and sludge transmission cone tooth (4-3) engages；

Described one end for pushing connecting rod I (5) is hinged in sludge box (6), and the other end of connecting rod I (5) is pushed to be hinged on sludge biography The eccentric position of dynamic crank (4-2)；

Be provided with sludge on the sludge box (6) and fall mouth (6-1), sludge fall mouth (6-1) setting sludge box (6) right end, Sludge box (6) is slidably connected on side plate I (1-3)；

Spring mounting post I (7-1) is fixedly connected on the shift fork I (7), one end of shift fork I (7) is slidably connected at shift fork sliding In slot III (1-8-1), shift fork I (7) other end is rotatably connected on sludge power sliding side tooth (3-4), I (7- of spring mounting post 1) compressed spring I is set on, compressed spring I is located between shift fork I (7) and sliding side plate III (1-8), I (7- of spring mounting post 1) it is slidably connected in spring stack sliding groove III (1-8-2).

4. a kind of riverway sludge processing Heavy metal separation device according to claim 2, it is characterised in that：It is described natural Zeolite actuating unit (8) includes natural zeolite line shaft I (8-1), natural zeolite line shaft II (8-2), natural zeolite power cone Tooth (8-3), natural zeolite power belt wheel (8-4), natural zeolite power side tooth (8-5), natural zeolite power sliding side tooth (8-6) With natural zeolite be connected by power key (8-7), it is solid respectively that natural zeolite power bores tooth (8-3) and natural zeolite power side tooth (8-5) Surely the both ends of natural zeolite power II (8-2) are connected to, natural zeolite line shaft I (8-1) is rotatably connected on natural zeolite power The right end of axis II (8-2), natural zeolite power belt wheel (8-4) are fixedly connected on the right end of natural zeolite line shaft I (8-1), day Right zeolite power sliding side tooth (8-6) is circumferentially connected to natural zeolite line shaft I by natural zeolite be connected by power key (8-7) The left end of (8-1), natural zeolite power belt wheel (8-4) and actuating unit (2) are connected by V belt translation, natural zeolite line shaft I (8-1) is rotatably connected in back plate II (1-2)；

The natural zeolite transmission mechanism (9) includes natural zeolite transmission shaft (9-1), natural zeolite driving crank (9-2) and day Right zeolite transmission cone tooth (9-3), natural zeolite driving crank (9-2) and natural zeolite transmission cone tooth (9-3) are respectively fixedly connected with At the both ends of natural zeolite transmission shaft (9-1), natural zeolite transmission shaft (9-1) is rotatably connected on side plate II (1-5), natural to boil Stone transmission cone tooth (9-3) and natural zeolite power cone tooth (8-3) engage；

Described one end for pushing connecting rod II (10) is hinged on natural zeolite case (11), pushes the other end of connecting rod II (10) hinged In the eccentric position of natural zeolite driving crank (9-2)；

It is provided with natural zeolite on the natural zeolite case (11) and falls mouth (11-1), natural zeolite falls mouth (11-1) and is arranged natural The right end of zeolite case (11), natural zeolite case (11) are slidably connected on side plate II (1-5)；

Spring mounting post II (12-1) is fixedly connected on the shift fork II (12), one end of shift fork II (12), which is slidably connected at, dials It pitches in sliding groove I (1-6-1), the other end of shift fork II (12) is rotatably connected on natural zeolite power sliding side tooth (8-6), bullet Be set with compressed spring II in spring mounting post II (12-1), compressed spring II be located at shift fork II (12) and sliding side plate I (1-6) it Between, spring mounting post II (12-1) is slidably connected in spring stack sliding groove I (1-6-2).

5. a kind of riverway sludge processing Heavy metal separation device according to claim 2, it is characterised in that：The promotion Transmission mechanism (14) includes pushing transmission shaft (14-1), push driving crank (14-2) and pushing transmission cone tooth (14-3), is pushed Driving crank (14-2) and promotion transmission cone tooth (14-3) are respectively fixedly connected at the both ends for pushing transmission shaft (14-1), push biography Moving axis (14-1) is rotatably connected on side plate II (1-5)；

It is described that one end of connecting rod III (15) is pushed to be hinged on the eccentric position for pushing driving crank (14-2), push connecting rod III (15) The other end be hinged in push plate (23)；

It has been fixedly connected with spring mounting post III (22-1) on the shift fork III (22), has been set in spring mounting post III (22-1) Compressed spring IV, compressed spring IV are located between shift fork III (22) and sliding side plate II (1-7), and the right end of shift fork III (22) slides It is connected in shift fork sliding groove II (1-7-1)；

The lower end of the push plate (23) is obliquely installed, and push plate (23) is slidably connected on side plate II (1-5)；

The propulsion power mechanism (24) includes propulsion power axis I (24-1), propulsion power axis II (24-2), propulsion power cone tooth (24-3), propulsion power belt wheel (24-4), propulsion power side tooth (24-5), propulsion power sliding side tooth (24-6) and propulsion power Connecting key (24-7), propulsion power belt wheel (24-4) and propulsion power side tooth (24-5) are respectively fixedly connected in propulsion power axis I The both ends of (24-1), propulsion power axis II (24-2) are rotatably connected on the right end of propulsion power axis I (24-1), and propulsion power bores tooth (24-3) is fixedly connected on the left end of propulsion power axis II (24-2), and propulsion power sliding side tooth (24-6) is connected by propulsion power The right end that key (24-7) is circumferentially connected to propulsion power axis II (24-2) is connect, propulsion power bores tooth (24-3) and pushes transmission cone tooth (14-3) is engaged, and propulsion power belt wheel (24-4) is connected with actuating unit (2) by V belt translation, the left end rotation of shift fork III (22) It is connected on propulsion power sliding side tooth (24-6).

6. a kind of riverway sludge processing Heavy metal separation device according to claim 2, it is characterised in that：The storage Multiple circular apertures are provided on case (25), the right end of containing box (25) is obliquely installed upwards, and containing box (25) setting is exporting The left end of (1-4-4).