CN108503180A - A kind of riverway sludge circulation recycling device - Google Patents

Abstract

A kind of circulator of the present invention, in particular it is a kind of riverway sludge circulation recycling device, power can be transmitted for dewatering device and transmission mechanism simultaneously by actuating unit, dewatering device can be carried out dehydrating sludge, the sludge for being dehydrated processing is pushed on sliding floor, the power of dewatering device is automatically cut off when the sludge weight on sliding floor reaches demand, the clay brick with constant weight in the sludge push-in containing box on sliding floor is mixed and made into ecological brick by the power on engagement transmission mechanism.A kind of riverway sludge circulation recycling device of the present invention, including complete machine holder, actuating unit, dewatering device, transmission mechanism, dehydration support, charging support, crank mechanism, connecting rod, push plate, long connecting rod I, short connecting rod I, long connecting rod II, short connecting rod II, sliding floor, shift fork I, shift fork II and containing box, actuating unit is fixedly connected on complete machine holder, and actuating unit, dewatering device and transmission mechanism are rotatably connected on complete machine holder.

Description

A kind of riverway sludge circulation recycling device

Technical field

The present invention relates to a kind of circulator, are in particular a kind of riverway sludge circulation recycling devices.

Background technology

Such as a kind of dredging mud Utilization plans of patent No. CN201210526032.6, by dykes and dams, gate, mud, stack-up-yard, Coaming plate, water inlet composition, dredging mud with using tying up, treating both manifestation and root cause of disease, it is comprehensive profit that mud, which carries out physicochemical analysis, With science data are provided, dredging mud uses the antiwind propeller dredger of independent research, and the sundries in water, mud sliding are thrown It opens, to the mud digging operation of deepwater field or shallow water area, there is navigation, positioning, sonar system on ship, monitor underwater sludge and construction Progress, the mud of ground surface and uncommon mud are constructed on the uncommon mud for be covered with alloy pressing plate and are made using the form of repacking hook machine crawler belt Industry, and mud is transported to stack-up-yard, there is metal fence on the peripheries Qi Chang, have holder in fence, fence has sieve sand cloth, mud Energy conservation and environmental protection multipurpose function brick is made after air-drying in drainage；The shortcomings that invention is cannot to be controlled to the weight of dewatered sludge System.

Invention content

The object of the present invention is to provide a kind of riverway sludge circulation recycling devices, can be carried out to the weight of dewatered sludge Control is automatically stopped dehydration when total amount reaches mixing demand and the sludge being dehydrated is pushed into constant weight clay brick, Sludge and clay brick carry out ratio and are mixed and made into ecological brick.

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

A kind of riverway sludge circulation recycling device, including it is complete machine holder, actuating unit, dewatering device, transmission mechanism, de- Water holder, charging support, crank mechanism, connecting rod, push plate, long connecting rod I, short connecting rod I, long connecting rod II, short connecting rod II, sliding bottom Plate, shift fork I, shift fork II and containing box, actuating unit are fixedly connected on complete machine holder, and dehydration support is fixedly connected on complete machine branch On frame, charging support is fixedly connected on dehydration support, and one end of dewatering device is rotatably connected on complete machine holder, dewatering device The other end be rotatably connected in dehydration support, one end of shift fork I is slidably connected on complete machine holder, and the other end of shift fork I is solid Surely it is connected on dewatering device, dewatering device is connected with actuating unit by V belt translation, and transmission mechanism is rotatably connected on complete machine branch On frame, one end of shift fork II is slidably connected on complete machine holder, and the other end of shift fork II is fixedly connected on transmission mechanism, transmission Mechanism is connected with actuating unit by V belt translation, and crank mechanism is rotatably connected on complete machine holder, crank mechanism and transmission mechanism By gear engaged transmission, one end of connecting rod is hinged on the eccentric position of crank mechanism, and the other end of connecting rod is hinged in push plate, Push plate is slidably connected on complete machine holder, and sliding floor is slidably connected on complete machine holder, and the upper end of long connecting rod I is hinged on shift fork I right end, the lower end of long connecting rod I are hinged on the lower end of short connecting rod I, and the middle-end of short connecting rod I is slidably connected on complete machine holder, short The upper end of connecting rod I is contacted with sliding floor, and the upper end of long connecting rod II is hinged on the right end of shift fork II, and the lower end of long connecting rod II is hinged In the lower end of short connecting rod II, the middle-end of short connecting rod II is slidably connected on complete machine holder, and the upper end of short connecting rod II is hinged on sliding The right end of bottom plate, containing box are arranged on the right side of complete machine holder.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the complete machine Holder includes holder back plate, two side plates, I, two side plate II, sliding side plate I, sliding side plate II, bottom plate I, hang plate and bottom plate II, it is respectively arranged with sliding groove on two side plates II, slides and is provided with shift fork sliding groove I and shift fork through-hole I on side plate I, slide It is provided with shift fork sliding groove II and shift fork through-hole II on side plate II, water receiving tank is provided on bottom plate I, circle is provided on bottom plate II Through-hole, two side plates I and two side plates II are symmetrical arranged, and the both ends of bottom plate I are respectively fixedly connected on two side plates I, bottom The both ends of plate II are respectively fixedly connected on two side plates II, and one end of hang plate is fixedly connected between two side plates I, are tilted The other end of plate is fixedly connected between two side plates II, and hang plate is obliquely installed, and the both ends of sliding side plate I are respectively fixedly connected with On the side plate I on holder back plate and right side, the both ends of sliding side plate II are respectively fixedly connected with the side plate I on holder back plate and right side On, sliding side plate II is arranged in the lower end of sliding side plate I.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the power Mechanism includes motor and power belt wheel, and power belt wheel is fixedly connected on the output shaft of motor, and motor is fixedly connected on right side On side plate I.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the dehydration Mechanism includes dehydrating shaft I, dehydration belt wheel, sliding side tooth I, side tooth I, connecting key I and dehydrating shaft II, the right end spiral of dehydrating shaft II Setting, dehydrating shaft II are rotatably connected on the right end of dehydrating shaft I, dehydration belt wheel be fixedly connected how the left end of dehydrating shaft I, slide side tooth I is circumferentially fixed on dehydrating shaft I by connecting key I, and side tooth I is fixedly connected on dehydrating shaft II, and the setting of side tooth I is in sliding side tooth I right end, dehydrating shaft I are rotatably connected in holder back plate, and dehydrating shaft II is rotatably connected in dehydration support, the left end of shift fork I It is rotatably connected on sliding side tooth I.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the transmission Mechanism includes transmission shaft I, transmission cone tooth, drive pulley, side tooth II, sliding side tooth II, connecting key II and transmission shaft II, transmission belt Wheel is fixedly connected on the left end of transmission shaft II, and transmission cone tooth is fixedly connected on the right end of transmission shaft I, the left end rotation of transmission shaft I It is connected to the right end of transmission shaft II, side tooth II is fixedly connected on the right end of transmission shaft II, and sliding side tooth II passes through connecting key II week To being fixed on transmission shaft I, the right end in side tooth II is arranged in sliding side tooth II, and transmission shaft II is rotatably connected in holder back plate, Drive pulley is connected with power belt wheel by V belt translation, and the left end of shift fork II is rotatably connected on sliding side tooth II, transmission cone tooth It is engaged by gear drive with crank mechanism.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the dehydration Holder includes dehydration shell and dehydration inner casing, is dehydrated on shell and is provided with feed inlet I and water outlet, and the setting of feed inlet I is being dehydrated Upper end on the left of shell, water outlet are arranged the lower end on the right side of dehydration shell, are dehydrated on inner casing and are provided with feed inlet II and multiple Aperture, feed inlet II are arranged the upper end on the left of dehydration inner casing, are dehydrated in multiple apertures of inner casing and are provided with filter device, be dehydrated Inner casing is fixedly connected in dehydration shell, and feed inlet I is connected to feed inlet II by charging support, dehydration inner casing and dehydration shell Water conservancy channel is formed, dehydrating shaft II is rotatably connected in dehydration inner casing, and the both ends for being dehydrated shell are respectively fixedly connected with two sides On plate I.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the crank Mechanism includes crank axle, crank and cone tooth, and crank and cone tooth are respectively fixedly connected in the both ends of crank axle, crankshaft rotation connection On the side plate I on right side, cone tooth and transmission cone tooth engagement, one end of connecting rod are hinged on the eccentric position of crank, connecting rod it is another End is hinged in push plate.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the push plate Lower end be obliquely installed, push plate is slidably connected between the side plate I of both sides.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the sliding Bottom plate includes sliding floor body, slide post and body, slide post is pushed to be welded on the lower end of sliding floor body, and body is pushed to be welded on cunning The right end of dynamic bottom-plate body, the both ends of sliding floor body are slidably connected at respectively in the sliding groove being arranged on two side plates II, are slided Column is slidably connected in the circular through hole being arranged on bottom plate II, and compressed spring I is set on slide post, and compressed spring I, which is located at, to be slided It moves between bottom-plate body and bottom plate II, the upper end of short connecting rod II is hinged on the right end of sliding floor body, the upper end of short connecting rod I and promotion Body fits.

As advanced optimizing for the technical program, a kind of riverway sludge circulation recycling device of the present invention, the shift fork I Including shift fork body I and spring mounting post I, shift fork body I is welded in spring mounting post I, and the left end of shift fork body I is rotatably connected on cunning On dynamic side tooth I, the right end of shift fork body I is slidably connected in shift fork sliding groove I, and compressed spring II is set in spring mounting post I, Between shift fork body I and dynamic side plate I, spring mounting post I is slidably connected in shift fork through-hole I compressed spring II, long connecting rod I Upper end is hinged on the right end of shift fork body I；

The shift fork II includes shift fork body II and spring mounting post II, and spring mounting post II is welded on shift fork body II, is dialled The left end of fork body II is rotatably connected on sliding side tooth II, and the right end of shift fork body II is slidably connected in shift fork sliding groove II, bullet Compressed spring III is set in spring mounting post II, compressed spring III is located between shift fork body II and sliding side plate II, long connecting rod II Upper end be hinged on the right end of shift fork body II.

A kind of riverway sludge circulation recycling device of the invention has the beneficial effect that：

A kind of riverway sludge circulation recycling device of the present invention is dewatering device and transmission mechanism simultaneously by actuating unit Power is transmitted, dewatering device can be carried out dehydrating sludge, and the sludge for being dehydrated processing is pushed on sliding floor, when Sludge weight on sliding floor automatically cuts off the power of dewatering device when reaching demand, the power on engagement transmission mechanism will be slided In sludge push-in containing box on dynamic bottom plate ecological brick is mixed and made into the clay brick of constant weight.

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 circulation recycling device overall structure diagram of the present invention；

Fig. 2 is the riverway sludge circulation recycling 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 I structural schematic diagram of sliding side plate of the present invention；

Fig. 5 is II structural schematic diagram of sliding side plate of the present invention；

Fig. 6 is the actuating unit structural schematic diagram of the present invention；

Fig. 7 is the dewatering device structural schematic diagram of the present invention；

Fig. 8 is the dewatering device section view figure structure schematic representation of the present invention；

Fig. 9 is the transmission mechanism structural schematic diagram of the present invention；

Figure 10 is the transmission mechanism section view figure structure schematic representation of the present invention；

Figure 11 is the dehydration support structural schematic diagram of the present invention；

Figure 12 is the dehydration shell mechanism schematic diagram of the present invention；

Figure 13 be the present invention dehydration shell under view structure schematic diagram；

Figure 14 is the dehydration inner casing configuration schematic diagram of the present invention；

Figure 15 is the crank mechanism structural schematic diagram of the present invention；

Figure 16 is the plate pushing structure schematic diagram of the present invention；

Figure 17 is the sliding floor structural schematic diagram of the present invention；

Figure 18 is I structural schematic diagram of shift fork of the present invention；

Figure 19 is II structural schematic diagram of shift fork of the present invention.

In figure：Complete machine holder 1；Holder back plate 1-1；I 1-2 of side plate；II 1-3 of side plate；Slide I 1-4 of side plate；Shift fork sliding groove Ⅰ1-4-1；I 1-4-2 of shift fork through-hole；Slide II 1-5 of side plate；II 1-5-1 of shift fork sliding groove；II 1-5-2 of shift fork through-hole；I 1- of bottom plate 6；Hang plate 1-7；II 1-8 of bottom plate；Actuating unit 2；Motor 2-1；Power belt wheel 2-2；Dewatering device 3；I 3-1 of dehydrating shaft；Dehydration Belt wheel 3-2；Slide I 3-3 of side tooth；I 3-4 of side tooth；I 3-5 of connecting key；II 3-6 of dehydrating shaft；Transmission mechanism 4；I 4-1 of transmission shaft；It passes Mantle tooth 4-2；Drive pulley 4-3；II 4-4 of side tooth；Slide II 4-5 of side tooth；II 4-6 of connecting key；II 4-7 of transmission shaft；Dehydration branch Frame 5；It is dehydrated shell 5-1；I 5-1-1 of feed inlet；Water outlet 5-1-2；It is dehydrated inner casing 5-2；II 5-2-1 of feed inlet；Charging support 6； Crank mechanism 7；Crank axle 7-1；Crank 7-2；Bore tooth 7-3；Connecting rod 8；Push plate 9；Long connecting rod I 10；Short connecting rod I 11；Long connecting rod II 12；Short connecting rod II 13；Sliding floor 14；Sliding floor body 14-1；Slide post 14-2；Push body 14-3；Shift fork I 15；Shift fork body I 15-1；I 15-2 of spring mounting post；Shift fork II 16；II 16-1 of shift fork body；II 16-2 of spring mounting post；Containing box 17.

Specific implementation mode

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

Specific implementation mode one：

Illustrate present embodiment, a kind of riverway sludge circulation recycling device, including complete machine holder with reference to Fig. 1-19 1, actuating unit 2, dewatering device 3, transmission mechanism 4, dehydration support 5, charging support 6, crank mechanism 7, connecting rod 8, push plate 9, length Connecting rod I 10, short connecting rod I 11, long connecting rod II 12, short connecting rod II 13, sliding floor 14, shift fork I 15, shift fork II 16 and containing box 17, actuating unit 2 is fixedly connected on complete machine holder 1, and dehydration support 5 is fixedly connected on complete machine holder 1, and charging support 6 is solid Surely it is connected on dehydration support 5, one end of dewatering device 3 is rotatably connected on complete machine holder 1, and the other end of dewatering device 3 turns Dynamic to be connected in dehydration support 5, one end of shift fork I 15 is slidably connected on complete machine holder 1, and the other end of shift fork I 15, which is fixed, to be connected It is connected on dewatering device 3, dewatering device 3 is connected with actuating unit 2 by V belt translation, and transmission mechanism 4 is rotatably connected on complete machine branch On frame 1, one end of shift fork II 16 is slidably connected on complete machine holder 1, and the other end of shift fork II 16 is fixedly connected on transmission mechanism 4 On, transmission mechanism 4 is connected with actuating unit 2 by V belt translation, and crank mechanism 7 is rotatably connected on complete machine holder 1, crank mechanism 7 and transmission mechanism 4 by gear engaged transmission, one end of connecting rod 8 is hinged on the eccentric position of crank mechanism 7, connecting rod 8 it is another End is hinged in push plate 9, and push plate 9 is slidably connected on complete machine holder 1, and sliding floor 14 is slidably connected on complete machine holder 1, long The upper end of connecting rod I 10 is hinged on the right end of shift fork I 15, and the lower end of long connecting rod I 10 is hinged on the lower end of short connecting rod I 11, short connecting rod I 11 middle-end is slidably connected on complete machine holder 1, and the upper end of short connecting rod I 11 is contacted with sliding floor 14, long connecting rod II 12 it is upper End is hinged on the right end of shift fork II 16, and the lower end of long connecting rod II 12 is hinged on the lower end of short connecting rod II 13, in short connecting rod II 13 End is slidably connected on complete machine holder 1, and the upper end of short connecting rod II 13 is hinged on the right end of sliding floor 14, and containing box 17 is placed on The right side of complete machine holder 1；Power is transmitted for dewatering device 3 and transmission mechanism 4, dewatering device 3 can be with simultaneously by actuating unit 2 Sludge is carried out dehydrating, the sludge for being dehydrated processing is pushed on sliding floor 14, the sludge on sliding floor 14 When sliding floor 14 moves downward to a certain extent when weight reaches demand, sliding floor 14 is to dynamic short connecting rod I 11 and short connecting rod II 13 movements, short connecting rod I 11 and short connecting rod II 13 push long connecting rod I 10 and long connecting rod II 12 to be moved respectively, long connecting rod I 10 Shift fork I 15 and shift fork II 16 is pushed to move respectively with long connecting rod II 12, the power cut on dewatering device 3 is dehydrated by shift fork I 15 Mechanism 3 is not pushing sludge, II 16 engagement transmission mechanism 4 of shift fork to sliding floor 14, and transmission mechanism 4 drives crank mechanism 7 to push away A certain amount of sludge is pushed into containing box 17 by dynamic push plate 9, in the clay brick of constant weight be mixed and made into ecological brick.

Specific implementation mode two：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment one, described Complete machine holder 1 includes holder back plate 1-1, two I 1-2 of side plate, two II 1-3 of side plate, I 1-4 of sliding side plate, II 1- of sliding side plate 5, sliding groove, I 1-4 of sliding side plate are respectively arranged on I 1-6 of bottom plate, hang plate 1-7 and bottom plate II 1-8, two II 1-3 of side plate On be provided with I 1-4-2 of I 1-4-1 of shift fork sliding groove and shift fork through-hole, be provided with II 1- of shift fork sliding groove on II 1-5 of sliding side plate It is provided with water receiving tank on 5-1 and shift fork through-hole II 1-5-2, I 1-6 of bottom plate, circular through hole, two sides are provided on II 1-8 of bottom plate I 1-2 and two II 1-3 of side plate of plate is symmetrical arranged, and the both ends of I 1-6 of bottom plate are respectively fixedly connected on two I 1-2 of side plate, bottom The both ends of II 1-8 of plate are respectively fixedly connected on two II 1-3 of side plate, and one end of hang plate 1-7 is fixedly connected on two side plates I On 1-2, the other end of hang plate 1-7 is fixedly connected on two II 1-3 of side plate, and hang plate 1-7 is obliquely installed, and slides side plate I The both ends of 1-4 are respectively fixedly connected on I 1-2 of side plate on holder back plate 1-1 and right side, the both ends difference of II 1-5 of sliding side plate It is fixedly connected on holder back plate 1-1 and I 1-2 of side plate on right side, II 1-5 of sliding side plate is located at the lower end of I 1-4 of sliding side plate.

Specific implementation mode three：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment two, described Actuating unit 2 includes motor 2-1 and power belt wheel 2-2, and power belt wheel 2-2 is fixedly connected on the output shaft of motor 2-1, motor 2-1 is fixedly connected on I 1-2 of side plate on right side, and power belt wheel 2-2 is connected with dewatering device 3 by V belt translation, power belt wheel 2- 2 are connected with transmission mechanism 4 by V belt translation, and power belt wheel 2-2 can be that transmission mechanism 4 and dewatering device 3 transmit power simultaneously.

Specific implementation mode four：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment three, described Dewatering device 3 includes I 3-1 of dehydrating shaft, dehydration belt wheel 3-2, I 3-3 of sliding side tooth, I 3-4 of side tooth, I 3-5 of connecting key and dehydrating shaft The right end spiral of II 3-6, II 3-6 of dehydrating shaft are arranged, and II 3-6 of dehydrating shaft is rotatably connected on the right end of I 3-1 of dehydrating shaft, dewatering bands Wheel 3-2 be fixedly connected how the left end of I 3-1 of dehydrating shaft, sliding I 3-3 of side tooth it is circumferentially fixed in I 3- of dehydrating shaft by I 3-5 of connecting key On 1, tooth I 3-4 in side is fixedly connected on II 3-6 of dehydrating shaft, and tooth I 3-4 in side is located at the right end of I 3-3 of sliding side tooth, I 3-1 of dehydrating shaft It is rotatably connected on holder back plate 1-1, II 3-6 of dehydrating shaft is rotatably connected in dehydration support 5, and the left end rotation of shift fork I 15 connects It is connected on I 3-3 of sliding side tooth, dehydration belt wheel 3-2 is connected with power belt wheel 2-2 by V belt translation；When dehydration belt wheel 3-2 is by dynamic When power starts rotation, dehydration belt wheel 3-2 can drive sliding I 3-3 of side tooth to be rotated, and II 3-6 of dehydrating shaft is rotatably connected on dehydration The right end of I 3-1 of axis, II 3-6 of dehydrating shaft will not be rotated, and when shift fork I 15 pushes sliding I 3-3 of side tooth and the I 3-4 engagements of side tooth, be taken off I 3-1 of water axis starts that II 3-6 of dehydrating shaft is driven to be rotated sludge dewatering.

Specific implementation mode five：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment four, described Transmission mechanism 4 includes I 4-1 of transmission shaft, transmission cone tooth 4-2, drive pulley 4-3, II 4-4 of side tooth, II 4-5 of sliding side tooth, connection II 4-6 of key and transmission shaft II 4-7, drive pulley 4-3 are fixedly connected on the left end of II 4-7 of transmission shaft, and transmission cone tooth 4-2, which is fixed, to be connected It is connected on the right end of I 4-1 of transmission shaft, the left end of I 4-1 of transmission shaft is rotatably connected on the right end of II 4-7 of transmission shaft, and tooth II 4-4 in side is solid Surely it is connected to the right end of II 4-7 of transmission shaft, sliding II 4-5 of side tooth is circumferentially fixed on I 4-1 of transmission shaft by II 4-6 of connecting key, Sliding II 4-5 of side tooth is located at the right end of II 4-4 of side tooth, and II 4-7 of transmission shaft is rotatably connected on holder back plate 1-1, drive pulley 4-3 is connected with power belt wheel 2-2 by V belt translation, and the left end of shift fork II 16 is rotatably connected on II 4-5 of sliding side tooth, transmission cone Tooth 4-2 and crank mechanism 7 are engaged by gear drive；When drive pulley 4-3 is by power, drive pulley 4-3 drives transmission shaft II 4-7 and the II 4-4 rotations of side tooth, I 4-1 of transmission shaft are rotatably connected on the right end of II 4-7 of transmission shaft, and I 4-1 of transmission shaft will not turn Dynamic, when shift fork II 16 pushes sliding II 4-5 of side tooth and the II 4-4 engagements of side tooth, II 4-7 of transmission shaft drives I 4-1 of transmission shaft to carry out Rotation.

Specific implementation mode six：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment five, described Dehydration support 5 includes dehydration shell 5-1 and dehydration inner casing 5-2, and I 5-1-1 of feed inlet and water outlet are provided on dehydration shell 5-1 The upper end on the left of dehydration shell 5-1 is arranged in 5-1-2, I 5-1-1 of feed inlet, and water outlet 5-1-2 settings are right in dehydration shell 5-1 The lower end of side is dehydrated on inner casing 5-2 and is provided with II 5-2-1 of feed inlet and multiple apertures, and II 5-2-1 of feed inlet is arranged in dehydration Upper end on the left of shell 5-2 is dehydrated in multiple apertures of inner casing 5-2 and is provided with filter device, and dehydration inner casing 5-2 is fixedly connected on de- In water shell 5-1, I 5-1-1 of feed inlet is connected to II 5-2-1 of feed inlet by charging support 6, and dehydration inner casing 5-2 and dehydration are outer Shell 5-1 forms water conservancy channel, and II 3-6 of dehydrating shaft is rotatably connected in dehydration inner casing 5-2, and the both ends of dehydration shell 5-1 are solid respectively Surely it is connected on two I 1-2 of side plate；Be rotatably connected on dehydration inner casing 5-2 II 3-6 of dehydrating shaft can push sludge carry out rotation and Advance, water is filled into dehydration by the moisture in sludge by the filter device being dehydrated in the multiple apertures being arranged on inner casing 5-2 Shell 5-2 and dehydration shell 5-1 are formed in water conservancy channel and are dropped into the water receiving tank being arranged on I 1-6 of bottom plate by water outlet 5-1-2 Interior, the sludge that cannot be filtered is pushed on sliding floor 14.

Specific implementation mode seven：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment six, described Crank mechanism 7 includes that crank axle 7-1, crank 7-2 and cone tooth 7-3, crank 7-2 and cone tooth 7-3 are respectively fixedly connected in crank axle The both ends of 7-1, crank axle 7-1 are rotatably connected on I 1-2 of side plate on right side, cone tooth 7-3 and transmission cone tooth 4-2 engagements, connecting rod 8 One end be hinged on the eccentric position of crank 7-2, the other end of connecting rod 8 is hinged in push plate 9, when transmission cone tooth 4-2 is by dynamic When pushing mantle tooth 7-3 and being rotated, push cone tooth 7-3 that crank 7-2 is driven to start to rotate, crank 7-2 pushes connecting rod 8 to be transported Dynamic, connecting rod 8 pushes push plate 9 to be slided between I 1-2 of side plate of both sides.

Specific implementation mode eight：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment seven, described The lower end of push plate 9 is obliquely installed, and push plate 9 is slidably connected between I 1-2 of side plate of both sides；The lower end of push plate 9 is obliquely installed can be with Ensure that sludge can smoothly drop on sliding floor 14 when pushing sludge.

Specific implementation mode nine：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment eight, described Sliding floor 14 includes sliding floor body 14-1, slide post 14-2 and body 14-3, slide post 14-2 is pushed to be welded on sliding floor The lower end of body 14-1 pushes body 14-3 to be welded on the right end of sliding floor body 14-1, and the both ends of sliding floor body 14-1 are slided respectively Dynamic to be connected in the sliding groove being arranged on two II 1-3 of side plate, slide post 14-2 is slidably connected at the circle being arranged on II 1-8 of bottom plate In shape through-hole, be set with compressed spring I on slide post 14-2, compressed spring I be located at sliding floor body 14-1 and II 1-8 of bottom plate it Between, the upper end of short connecting rod II 13 is hinged on the right end of sliding floor body 14-1, and the upper end of short connecting rod I 11 connects with body 14-3 is pushed It touches；Short connecting rod I 11 is pushed to be moved dewatering device 3 at once when pushing body 14-3 that can be moved downward to avoid bottom-plate body 14-1 Power cut, only when bottom-plate body 14-1 moves to the position of demand push short connecting rod I 11 power of dewatering device 3 is cut It is disconnected.

Specific implementation mode ten：

Illustrate present embodiment with reference to Fig. 1-19, present embodiment is described further embodiment nine, described Shift fork I 15 is welded on including I 15-2 of I 15-1 of shift fork body and spring mounting post, I 15-1 of shift fork body on I 15-2 of spring mounting post, is dialled The left end of I 15-1 of fork body is rotatably connected on I 3-3 of sliding side tooth, and the right end of I 15-1 of shift fork body is slidably connected at shift fork sliding groove In I 1-4-1, compressed spring II is set on I 15-2 of spring mounting post, compressed spring II is located at I 15-1 of shift fork body and dynamic side plate I Between 1-4, I 15-2 of spring mounting post is slidably connected in I 1-4-2 of shift fork through-hole, and the upper end of long connecting rod I 10 is hinged on shift fork body The right end of I 15-1；So that compressed spring II is pressed I 15-1 of shift fork body pushes sliding I 3-3 of side tooth and I 3-4 of side tooth to nibble It closing, dewatering device 3 can move, and be opened when I 15-1 of shift fork body pushes sliding I 3-3 of side tooth and I 3-4 of side tooth to divide by long connecting rod I 10, Dewatering device 3 cannot move；

The shift fork II 16 is welded on including II 16-2 of II 16-1 of shift fork body and spring mounting post, II 16-2 of spring mounting post On II 16-1 of shift fork body, the left end of II 16-1 of shift fork body is rotatably connected on II 4-5 of sliding side tooth, the right end of II 16-1 of shift fork body It is slidably connected in II 1-5-1 of shift fork sliding groove, compressed spring III, compressed spring III is set on II 16-2 of spring mounting post Between II 1-5 of II 16-1 of shift fork body and sliding side plate, the upper end of long connecting rod II 12 is hinged on the right end of II 16-1 of shift fork body；Just So that compressed spring III is pressed II 16-1 of shift fork body pushes II 4-4 points of sliding II 4-5 of side tooth and side tooth to open, I 4-1 of transmission shaft It will not rotate, when II 16-1 of shift fork body pushes sliding II 4-5 of side tooth and the II 4-4 engagements of side tooth, transmission shaft I 4-1 rotations, which drive, pushes away Plate 9 slides between I 1-2 of side plate of both sides.

A kind of riverway sludge circulation recycling device of the present invention, its working principle is that：

Practicality makes a certain amount of clay brick being placed into containing box 17, and sludge is placed in charging support 6, starts electricity Machine 2-1；Power belt wheel 2-2 is fixedly connected on the output shaft of motor 2-1, and motor 2-1 drives power belt wheel 2-2 to start to rotate, Power belt wheel 2-2 is connected with dehydration belt wheel 3-2 by V belt translation, and power belt wheel 2-2 and drive pulley 4-3 are connected by V belt translation It connects, power belt wheel 2-2 drives dehydration belt wheel 3-2 and drive pulley 4-3 to start to rotate simultaneously, when dehydration belt wheel 3-2 is by power When starting rotation, compressed spring II when state is just made to press shift fork body I 15-1 promotions sliding I 3-3 of side tooth and the I 3-4 engagements of side tooth, Dewatering device 3 can move, and dehydration belt wheel 3-2 can drive sliding I 3-3 of side tooth to be rotated, and II 3-6 of dehydrating shaft is rotatably connected on The right end of I 3-1 of dehydrating shaft, II 3-6 of dehydrating shaft will not be rotated, when shift fork I 15 pushes sliding I 3-3 of side tooth and the I 3-4 engagements of side tooth When, I 3-1 of dehydrating shaft starts that II 3-6 of dehydrating shaft is driven to be rotated sludge dewatering；It is rotatably connected on the de- of dehydration inner casing 5-2 II 3-6 of water axis can push sludge to be rotated and advanced, and the moisture in sludge is by being dehydrated the multiple apertures being arranged on inner casing 5-2 Water is filled into dehydration inner casing 5-2 with interior filter device and dehydration shell 5-1 is formed in water conservancy channel and fallen by water outlet 5-1-2 Enter into the water receiving tank being arranged on I 1-6 of bottom plate, the sludge that cannot be filtered is pushed on sliding floor 14；Work as sliding floor When sliding floor 14 moves downward to a certain extent when sludge weight on 14 reaches demand, sliding floor 14 is to dynamic short connecting rod I 11 and short connecting rod II 13 move, short connecting rod I 11 and short connecting rod II 13 push long connecting rod I 10 and long connecting rod II 12 to be transported respectively Dynamic, long connecting rod I 10 and long connecting rod II 12 push shift fork I 15 and shift fork II 16 to move respectively, push body 14-3 can be to avoid bottom plate It pushes short connecting rod I 11 to be moved the power cut of dewatering device 3 at once when body 14-1 is moved downward, only works as bottom-plate body 14-1 pushes short connecting rod I 11 by the power cut of dewatering device 3 when moving to the position of demand；Drive pulley 4-3 is by power When, drive pulley 4-3 drives II 4-7 of transmission shaft and the II 4-4 rotations of side tooth, I 4-1 of transmission shaft to be rotatably connected on II 4-7 of transmission shaft Right end, I 4-1 of transmission shaft will not rotate, when shift fork II 16 pushes sliding II 4-5 of side tooth and the II 4-4 engagements of side tooth, transmission shaft II 4-7 drives I 4-1 of transmission shaft to be rotated；Compressed spring III when state is just set to press shift fork body II 16-1 promotion sliding side teeth II 4-4 points of II 4-5 and side tooth are opened, and I 4-1 of transmission shaft will not be rotated, when II 16-1 of shift fork body pushes sliding II 4-5 of side tooth and side tooth I 4-1 of transmission shaft rotations drive push plate 9 to be slided between I 1-2 of side plate of both sides when II 4-4 is engaged, and push push plate 9 will be a certain amount of Sludge push-in containing box 17 in the clay brick of constant weight be mixed and made into ecological brick.

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 (10)

1. a kind of riverway sludge circulation recycling device, including complete machine holder (1), actuating unit (2), dewatering device (3), transmission Mechanism (4), dehydration support (5), charging support (6), crank mechanism (7), connecting rod (8), push plate (9), long connecting rod I (10), short company Bar I (11), long connecting rod II (12), short connecting rod II (13), sliding floor (14), shift fork I (15), shift fork II (16) and containing box (17), it is characterised in that：Actuating unit (2) is fixedly connected on complete machine holder (1), and dehydration support (5) is fixedly connected on complete machine On holder (1), charging support (6) is fixedly connected on dehydration support (5), and one end of dewatering device (3) is rotatably connected on complete machine On holder (1), the other end of dewatering device (3) is rotatably connected in dehydration support (5), and one end of shift fork I (15) is slidably connected On complete machine holder (1), the other end of shift fork I (15) is fixedly connected on dewatering device (3), dewatering device (3) and engine Structure (2) is connected by V belt translation, and transmission mechanism (4) is rotatably connected on complete machine holder (1), and one end sliding of shift fork II (16) connects It is connected on complete machine holder (1), the other end of shift fork II (16) is fixedly connected on transmission mechanism (4), transmission mechanism (4) and power Mechanism (2) is connected by V belt translation, and crank mechanism (7) is rotatably connected on complete machine holder (1), crank mechanism (7) and driver For structure (4) by gear engaged transmission, one end of connecting rod (8) is hinged on the eccentric position of crank mechanism (7), connecting rod (8) it is another End is hinged in push plate (9), and push plate (9) is slidably connected on complete machine holder (1), and sliding floor (14) is slidably connected at complete machine branch On frame (1), the upper end of long connecting rod I (10) is hinged on the right end of shift fork I (15), and the lower end of long connecting rod I (10) is hinged on short connecting rod I (11) middle-end of lower end, short connecting rod I (11) is slidably connected on complete machine holder (1), upper end and the sliding bottom of short connecting rod I (11) Plate (14) contacts, and the upper end of long connecting rod II (12) is hinged on the right end of shift fork II (16), and the lower end of long connecting rod II (12) is hinged on The middle-end of the lower end of short connecting rod II (13), short connecting rod II (13) is slidably connected on complete machine holder (1), short connecting rod II (13) it is upper End is hinged on the right end of sliding floor (14), and containing box (17) is arranged on the right side of complete machine holder (1).

2. a kind of riverway sludge circulation recycling device according to claim 1, it is characterised in that：The complete machine holder (1) include holder back plate (1-1), two side plates I (1-2), two side plates II (1-3), sliding side plate I (1-4), sliding side plate II (1-5), bottom plate I (1-6), hang plate (1-7) and bottom plate II (1-8) are respectively arranged with sliding groove on two side plates II (1-3), It is provided with shift fork sliding groove I (1-4-1) and shift fork through-hole I (1-4-2) on sliding side plate I (1-4), slides on side plate II (1-5) It is provided with shift fork sliding groove II (1-5-1) and shift fork through-hole II (1-5-2), water receiving tank, bottom plate II are provided on bottom plate I (1-6) Circular through hole is provided on (1-8), two side plates I (1-2) and two side plates II (1-3) are symmetrical arranged, bottom plate I (1-6) Both ends are respectively fixedly connected on two side plates I (1-2), and the both ends of bottom plate II (1-8) are respectively fixedly connected in two side plates II On (1-3), one end of hang plate (1-7) is fixedly connected between two side plates I (1-2), and the other end of hang plate (1-7) is fixed It is connected between two side plates II (1-3), hang plate (1-7) is obliquely installed, and the both ends of sliding side plate I (1-4) are fixed respectively to be connected It is connected on the side plate I (1-2) on holder back plate (1-1) and right side, the both ends of sliding side plate II (1-5) are respectively fixedly connected in holder On the side plate I (1-2) on back plate (1-1) and right side, sliding side plate II (1-5) is arranged in the lower end of sliding side plate I (1-4).

3. a kind of riverway sludge circulation recycling device according to claim 2, it is characterised in that：The actuating unit (2) include motor (2-1) and power belt wheel (2-2), power belt wheel (2-2) is fixedly connected on the output shaft of motor (2-1), electric Machine (2-1) is fixedly connected on the side plate I (1-2) on right side.

4. a kind of riverway sludge circulation recycling device according to claim 3, it is characterised in that：The dewatering device (3) include dehydrating shaft I (3-1), dehydration belt wheel (3-2), sliding side tooth I (3-3), side tooth I (3-4), connecting key I (3-5) and take off Water axis II (3-6), the right end spiral setting of dehydrating shaft II (3-6), dehydrating shaft II (3-6) are rotatably connected on dehydrating shaft I (3-1) Right end, dehydration belt wheel (3-2) be fixedly connected how the left end of dehydrating shaft I (3-1), sliding side tooth I (3-3) pass through connecting key I (3-5) Circumferentially fixed side tooth I (3-4) is fixedly connected on dehydrating shaft II (3-6) on dehydrating shaft I (3-1), and side tooth I (3-4) setting exists The right end of side tooth I (3-3) is slided, dehydrating shaft I (3-1) is rotatably connected in holder back plate (1-1), dehydrating shaft II (3-6) rotation It is connected in dehydration support (5), the left end of shift fork I (15) is rotatably connected on sliding side tooth I (3-3).

5. a kind of riverway sludge circulation recycling device according to claim 4, it is characterised in that：The transmission mechanism (4) include transmission shaft I (4-1), transmission cone tooth (4-2), drive pulley (4-3), side tooth II (4-4), sliding side tooth II (4-5), Connecting key II (4-6) and transmission shaft II (4-7), drive pulley (4-3) are fixedly connected on the left end of transmission shaft II (4-7), transmission Cone tooth (4-2) is fixedly connected on the right end of transmission shaft I (4-1), and the left end of transmission shaft I (4-1) is rotatably connected on II (4- of transmission shaft 7) right end, side tooth II (4-4) are fixedly connected on the right end of transmission shaft II (4-7), and sliding side tooth II (4-5) passes through connecting key II (4-6) is circumferentially fixed on transmission shaft I (4-1), and the right end in side tooth II (4-4), transmission shaft II is arranged in sliding side tooth II (4-5) (4-7) is rotatably connected in holder back plate (1-1), and drive pulley (4-3) is connected with power belt wheel (2-2) by V belt translation, is dialled The left end of II (16) of fork is rotatably connected on sliding side tooth II (4-5), and transmission cone tooth (4-2) and crank mechanism (7) pass through gear Transmission engagement.

6. a kind of riverway sludge circulation recycling device according to claim 5, it is characterised in that：The dehydration support (5) include dehydration shell (5-1) and dehydration inner casing (5-2), feed inlet I (5-1-1) and water outlet are provided on dehydration shell (5-1) Mouth (5-1-2), upper end of feed inlet I (5-1-1) setting on the left of dehydration shell (5-1), water outlet (5-1-2) setting are being dehydrated Lower end on the right side of shell (5-1) is dehydrated on inner casing (5-2) and is provided with feed inlet II (5-2-1) and multiple apertures, feed inlet II Upper end of (5-2-1) setting on the left of dehydration inner casing (5-2), is dehydrated in multiple apertures of inner casing (5-2) and is provided with filter device, Dehydration inner casing (5-2) is fixedly connected in dehydration shell (5-1), feed inlet I (5-1-1) and feed inlet II (5-2-1) by into Expect that holder (6) is connected to, dehydration inner casing (5-2) and dehydration shell (5-1) form water conservancy channel, dehydrating shaft II (3-6) rotation connection In dehydration inner casing (5-2), the both ends of dehydration shell (5-1) are respectively fixedly connected on two side plates I (1-2).

7. a kind of riverway sludge circulation recycling device according to claim 6, it is characterised in that：The crank mechanism (7) include crank axle (7-1), crank (7-2) and cone tooth (7-3), crank (7-2) and cone tooth (7-3) are respectively fixedly connected in song The both ends of arbor (7-1), crank axle (7-1) are rotatably connected on the side plate I (1-2) on right side, cone tooth (7-3) and transmission cone tooth (4-2) is engaged, and one end of connecting rod (8) is hinged on the eccentric position of crank (7-2), and the other end of connecting rod (8) is hinged on push plate (9) On.

8. a kind of riverway sludge circulation recycling device according to claim 7, it is characterised in that：The push plate (9) Lower end is obliquely installed, and push plate (9) is slidably connected between the side plate I (1-2) of both sides.

9. a kind of riverway sludge circulation recycling device according to claim 8, it is characterised in that：The sliding floor (14) include sliding floor body (14-1), slide post (14-2) and promotion body (14-3), slide post (14-2), which is welded on, slides bottom The lower end of plate body (14-1) pushes body (14-3) to be welded on the right end of sliding floor body (14-1), sliding floor body (14-1) Both ends are slidably connected at respectively in the sliding groove being arranged on two side plates II (1-3), and slide post (14-2) is slidably connected at bottom plate In the circular through hole being arranged on II (1-8), compressed spring I is set on slide post (14-2), compressed spring I is located at sliding floor Between body (14-1) and bottom plate II (1-8), the upper end of short connecting rod II (13) is hinged on the right end of sliding floor body (14-1), short company The upper end of bar I (11) fits with body (14-3) is pushed.

10. a kind of riverway sludge circulation recycling device according to claim 9, it is characterised in that：The shift fork I (15) Including shift fork body I (15-1) and spring mounting post I (15-2), shift fork body I (15-1) is welded in spring mounting post I (15-2), The left end of shift fork body I (15-1) is rotatably connected on sliding side tooth I (3-3), and the right end of shift fork body I (15-1), which is slidably connected at, to be dialled It pitches in sliding groove I (1-4-1), compressed spring II is set in spring mounting post I (15-2), compressed spring II is located at shift fork body I Between (15-1) and dynamic side plate I (1-4), spring mounting post I (15-2) is slidably connected in shift fork through-hole I (1-4-2), long connecting rod The upper end of I (10) is hinged on the right end of shift fork body I (15-1)；

The shift fork II (16) includes shift fork body II (16-1) and spring mounting post II (16-2), spring mounting post II (16-2) weldering It is connected on shift fork body II (16-1), the left end of shift fork body II (16-1) is rotatably connected on sliding side tooth II (4-5), shift fork body II The right end of (16-1) is slidably connected in shift fork sliding groove II (1-5-1), and compression bullet is set in spring mounting post II (16-2) Spring III, compressed spring III are located between shift fork body II (16-1) and sliding side plate II (1-5), and the upper end of long connecting rod II (12) is hinged In the right end of shift fork body II (16-1).