CN108750504A - An a kind of two-shipper solid Biohazard Waste Disposal of hoisting - Google Patents

Abstract

The invention discloses an a kind of two-shipper solid Biohazard Waste Disposals of hoisting, including the first elevating mechanism of lifting dustbin and the second elevating mechanism for drawing high dustbin, the second elevating mechanism to be in above the first elevating mechanism；Second elevating mechanism and the first elevating mechanism include multiple oil cylinders, and first elevating mechanism is first hoist, and the second elevating mechanism is second hoist；First hoist is connected with first rotating shaft by the first belt, and first rotating shaft both ends are wound with connecting line, and upper connecting line is connected with general tray；Second hoist is connected with the second shaft by the second belt, and the second shaft both ends are wound with lower connecting line, and lower connecting line is connected with lower general tray.The present invention replaces original cylinder structure using hoist engine structure, ensure that the stability of general tray, while two general trays are arranged so that the different dustbin of size specification does not have to mutually be stacked with, and increases the versatility of the present apparatus.

Description

An a kind of two-shipper solid Biohazard Waste Disposal of hoisting

Technical field：

The present invention relates to a kind of garbage collection process equipment more particularly to an a kind of two-shipper solid rubbish of hoisting Treating stations.

Background technology：

With the development of the city, the population in city gradually increases, and the urban land needed is more and more, while its generation Rubbish is also more and more to be increased, and while this so that urban land is more and more rare, but has to build more refuse depot Accommodate the house refuse generated.Which results in the wastes of land resource.In addition many rubbish websites are only capable of accommodating a movable type Compression dustbin；When compression dustbin fills with, and empty van is needed to replace, needs dustbin that will be completely to haul out, then drag empty van Enter dustbin position, then full dustbin is transported.It needs to carry out multi-shift to dustbin in bottom surface in this way, it is not only troublesome to take When so that rubbish cannot be cleared up and fill the dustbin of rubbish and is easy to pour down or forth in rubbish and surprisingly caused in dustbin position in time Pollution.Our company discloses a kind of two-shipper solid Biohazard Waste Disposal -201710149261.3 thus, passes through oil cylinder or gas Cylinder is lifted the compression dustbin in pit body, but due to lifting when four oil cylinders or gas in dustbin quadrangle Cylinder is shunk or fltting speed is different, is led to the case where lifting table plate is susceptible to inclination shake when lifting, is easy to block or occur It is dangerous.

In addition, above-mentioned patent due to needing two dustbins to be stacked with, can only use the identical dustbin of size specification, But there is the difference of more producers, multiple structural forms and size for conventional garbage case size, therefore its cannot meet it is various The requirement of property.

Invention content：

The purpose of the present invention is to provide an a kind of two-shipper solid Biohazard Waste Disposals of hoisting, can be only one In the narrow space of a case position, the fast exchange of empty van and trunkful is realized with the cooperation of lifting by drawing high, does not need one only A case position can solve exchangeing problem for two dustbins, saved land area, and process is simple and quick, saved rubbish The reciprocal time of rubbish case, while original cylinder structure is replaced using hoist engine structure, it ensure that the stability of general tray, together When be arranged two general trays so that the different dustbin of size specification do not have to mutually be stacked with, increase the versatility of the present apparatus.

To solve the above problems, the technical scheme is that：

An a kind of two-shipper solid Biohazard Waste Disposal of hoisting includes the first elevating mechanism A of lifting dustbin 1 It is in the first tops elevating mechanism A with the second the elevating mechanism B, the second elevating mechanism B for drawing high dustbin 1；Second elevator Structure B and the first elevating mechanism A includes multiple oil cylinder C, which is characterized in that the first elevating mechanism A is first hoist 41, the second elevating mechanism B are second hoist 42；First hoist 41 is connected with first rotating shaft 48 by the first belt 43, the One shaft, 43 both ends are wound with connecting line 45, and upper connecting line 45 is connected with general tray 49；Second hoist 42 passes through Two belts 46 are connected with the second shaft 47, and 47 both ends of the second shaft are wound with lower connecting line 50, and lower connecting line 50 is connected with lower logical With pallet 51.

It is further to improve, the pulley 52 coordinated with connecting line 45 is installed in the rack 4.

It is further to improve, further include the pit body 16 for placing dustbin, 16 inside of the pit body is formed with pit 17, recessed First water pump 15 is installed in hole 17.

Further to improve, the inside outside the pit body 16 is equipped with the second water pump 10；Outside outside pit body 16 is provided with With the gutter 18 of water passage.

It is further to improve, it is stamped the refuse depot room 20 for surrounding pit body 16 outside the pit body 16；The pit body 16 be it is multiple, Form the structure of double-layer multi-dimensional.

Further to improve, 1 inlet of dustbin installation capping 27,27 middle part of capping is connected with lever 28, lever 28 middle parts are connected on 1 side of dustbin by 29 axis of shaft, and 28 one end axis of lever connects capping 27, and the other end is connected with stretching structure 30, stretching structure axis is connected on 1 side wall of dustbin.

Further to improve, the stretching structure 30 is cylinder or oil cylinder, and the distance of stretching structure 30 to shaft 29 is less than Capping 27 is at a distance from the 28 axis place of connecing of lever to shaft 29.

Further to improve, the capping 27 is fixed with sloping baffle 31 close to 1 arrival end of dustbin.

Advantages of the present invention：It can be realized with the cooperation of lifting in the narrow space only there are one case position by drawing high The fast exchange of empty van and trunkful does not need only a case position that can solve exchangeing problem for two dustbins, saves Land area, and process is simple and quick, saves the reciprocal time of dustbin, while using hoist engine structure instead of original Cylinder structure ensure that the stability of general tray, while two general trays be arranged so that the different dustbin of size specification Without being mutually stacked with, the versatility of the present apparatus is increased.

Description of the drawings：

Fig. 1 is that the empty dustbin of embodiment 1 is put into the structural schematic diagram after pit body；

Fig. 2 is structural schematic diagram when the empty dustbin of embodiment 1 is replaced with full dustbin；

Fig. 3 is the schematic top plan view of 1 refuse depot of embodiment；

Fig. 4 is the structural schematic diagram that the first elevating mechanism is staggered form elevating mechanism；

Fig. 5 is the oil cylinder control structure of embodiment 1；

Fig. 6 is the side structure schematic diagram of dustbin in embodiment 2；

Fig. 7 is the structural schematic diagram of dustbin bottom surface in embodiment 2.

Fig. 8 is dustbin dimensional structure diagram in embodiment 3；

Fig. 9 is the structural schematic diagram that embodiment 3 covers；

Figure 10 is the overlooking structure diagram of 4 dustbin of embodiment；

Figure 11 is the dustbin side structure schematic view of embodiment 4；

Figure 12 is the side structure schematic view of embodiment 5；

Figure 13 is the dimensional structure diagram of embodiment 5；

Figure 14 is the overall structure diagram of embodiment 6；

Figure 15 is the attachment structure schematic diagram of the first long composite chain and lower general tray；

Figure 16 is the attachment structure schematic diagram of the second long composite chain and upper general tray；

Figure 17 is the structural schematic diagram of the first long composite chain；

Figure 18 is the overlooking structure diagram of 7 general tray of embodiment；

Figure 19 is the cross-sectional view of 7 general tray of embodiment.

Specific implementation mode：

A kind of one two-shipper solid Biohazard Waste Disposal of hoisting as shown in figures 1 to 6, including lifting dustbin 1 First elevating mechanism A and the second elevating mechanism B for drawing high dustbin 1, the second elevating mechanism B are on the first elevating mechanism A Side.

The application method of one two-shipper solid Biohazard Waste Disposal of above-mentioned hoisting, includes the following steps：

Step 1: the first dustbin is placed on the first elevating mechanism A by transport vehicle, then the first elevating mechanism A declines, First dustbin is fallen into pit body 16；

Step 2: after the first dustbin is full, the second empty dustbin is placed on the first dustbin by transport vehicle；

It is drawn high Step 3: the second elevating mechanism B catches the second empty dustbin, then the first elevating mechanism A risings will The first full dustbin is lifted out pit body 16；First dustbin is transported on transport vehicle；

Step 4: the second empty dustbin is put under the first elevating mechanism A, the first elevating mechanism A by the second elevating mechanism B Empty the second empty dustbin of general who has surrendered is fallen into pit body 16；

Step 5: repeating step 1 to four.

First elevating mechanism A and the second elevating mechanism B are installed in rack 4；First elevating mechanism A includes lifting platform Plate 2, lifting table plate 2 are connected with bedplate up-down oil cylinder 7；The second elevating mechanism B includes coordinating with dustbin Lifting Lug Grasping mechanism, grasping mechanism are connected with hanger oil cylinder 8.

Grasping mechanism is machinery folder 9 or gripper, suspension hook etc., is equipped with close to switch on machinery folder 9；Machinery folder 9 It is connected with the hanger sliding sleeve 6 being set in rack 4.Machinery folder 9 can directly be connect with hanger oil cylinder 8, also can be as shown in Fig. 2, logical It crosses fixed rope to connect with frame oil cylinder 8, specifically：Hanger oil cylinder 8 is in the middle part of machinery folder 9, passes through rope phase between machinery folder 9 Even, hanger oil cylinder 8 is fixedly connected with rope, and the machinery folder 9 by pushing or rising control both sides, which synchronizes, to be risen or fallen, and is controlled Simply.

Further include the pit body 16 for placing dustbin, 16 inside of the pit body is formed with pit 17, is equipped in pit 17 First water pump 15.17 top of pit is fixed with filter screen 13.When having ponding in pit body 16, the first water pump 15 extracts ponding out pit body Outside 16.

Inside outside pit body 16 is equipped with the second water pump 10；Outside outside pit body 16 is provided with the draining with water passage Ditch 18.After first elevating mechanism A rises, the second water pump 10 rinses lifting table plate 2 and catch basin thereon, the sewage of flushing from Gutter 18 is discharged into sewer.

It is stamped the refuse depot room 20 for surrounding pit body 16 outside pit body 16.Biological deodorizing equipment 14 is provided in refuse depot room 20； Second water pump 10 is communicated with hydraulic power unit 11.

As shown in figure 4, the first elevating mechanism A is alternatively chosn to staggered form elevating mechanism.

In order to ensure synchronism when oil cylinder lifting, displacement sensor 23 is installed on oil cylinder C, oil cylinder C passes through electro-hydraulic ratio Example reversal valve 24 is communicated with hydraulic pump 25, and electro-hydraulic proportion reversing valve 24 and displacement sensor 23 have been electrically connected with PLC controls Device.By this method, the location information acquired by each cylinder displacement sensor is used as feedback, using PLC controller, successively The electro-hydraulic proportion reversing valve P opening sizes on each oil cylinder are adjusted, control flow is to realize the synchronous operation of each oil cylinder.Electro-hydraulic ratio Example reversal valve is preferably mounted at hydraulic station, and displacement sensor is installed on inside oil cylinder.Flow in this way in hydraulic system pipeline with It loading condition and automatically adjusts, and the automatic adjustment of the flow is realized by the electro-hydraulic proportion reversing valve.The present invention Flow of Cylinder is adjusted using electro-hydraulic proportion reversing valve, pipeline length can be reduced in this way and layout posture controls system The influence of precision.

Go out in hydraulic station oil outlet, proportional pressure control valve, regulating system hydraulic fluid pressure are housed.It can be wanted for different loads It asks, it is rational that hydraulic station outlet pressure is set, it is ensured that the maximum hydraulic pressure oil pressure that hydraulic station outlet pressure is moderately needed higher than oil cylinder Power.According to service condition is not had to, PLC parameters are required according to available accuracy, each oil cylinder is respectively controlled, and effectively increase oil cylinder Positioning synchronous precision.

PLC controller incudes the stroke of oil cylinder by displacement sensor 23 in this way, when some oil cylinder stroke is excessive or too small When, the aperture that PLC controller controls electro-hydraulic proportion reversing valve 24 reduces or expands, and to adjust into speed oil, and then adjusts oil Cylinder stroke ensures four oil cylinders synchronous operation of dustbin quadrangle.

The excessively high damage oil cylinder of oil pressure, hydraulic pump 25 are communicated with overflow valve 26 in order to prevent.

Embodiment 2

As shown in fig. 6-7, dustbin is preferably compression dustbin, in order to facilitate the sewage discharge in dustbin, in rubbish Rubbish case inner bottom surface end is provided with the first groove 2 along the width direction of compression dustbin, and the first groove 2 is connected to outlet pipe 5, the first groove 2 is communicated with the second groove 12 being arranged along dustbin length direction, is equipped in pit body 16 and to coordinate with outlet pipe 5 Water inlet 21, water inlet 21 are connected to pit 17 by water service pipe 22.

Embodiment 3

As shown in FIG. 8 and 9, rubbish falls into dustbin and pit body 16, and rubbish during mode transport of refuse in order to prevent Rubbish is blown out from rubbish tank inlet, is improved as follows dustbin：1 inlet of dustbin installation capping 27, covers 27 middle part axis It is connected to lever 28,28 middle part of lever is connected on 1 side of dustbin by 29 axis of shaft, and 28 one end axis of lever connects capping 27, the other end It is connected with stretching structure 30, stretching structure is cylinder or oil cylinder, and stretching structure axis is connected on 1 side wall of dustbin.Stretching structure The distance of 30 to shaft 29 is less than capping 27 at a distance from the 28 axis place of connecing of lever to shaft 29.The capping 27 is close to dustbin 1 Arrival end is fixed with sloping baffle 31.

Capping use process is as follows：After dustbin enters pit body 16, stretching structure 30 is shunk, and is acted on by lever 28, Capping 27 is run upwards and to the right, is jacked after stretching structure 30 is retracted to shortest route, and it is used by the right to cover 27 at this time Property still run to the right, to stretching structure 30 jack when, capping 27 continue right laterals, capping 27 right ends connect with 16 inner wall of pit body It touches, the gap of dustbin and pit body inner wall is sealed, is to have rubbish to fall into pit body bottom to prevent from dumping rubbish.Work as fortune When defeated dustbin, when stretching structure 30 is shunk, capping 27 is run to the left upwards, when stretching structure 30 is retracted to shortest route After jack, cover 27 at this time and still run to the left by inertia to the left, when being jacked to stretching structure 30, capping 27 continues left Row covers the entrance of dustbin.Sloping baffle 31 is for guiding the rubbish toppled over.

Embodiment 4

Existing compression dustbin is in compressed garbage, usually so that pressing plate has gap with dustbin top, to Air is discharged when compression.But this cause carry out garbage-compressing when, rubbish lower part stress turns over so as to cause rubbish, rubbish pressure The strength compressed when contracting greatly concentrates at the top of dustbin, and dustbin in addition at rear cover reinforcement handle, remaining place is outside Wall is relatively thin, causes dustbin roof prone to compressive deformation, reduces service life.

Thus as shown in FIG. 10 and 11, babinet 32 and rear box 33 before compression dustbin being divided into, preceding babinet are rectangle, Rear box is wedge shape.The entrance and pressing plate of dustbin are in preceding babinet 32.Pressing plate front and back operation in preceding babinet 32 in this way, and Rubbish in rear box 33 only share to top and both sides, thus greatly reduce by middle part stress, the strength that rubbish turns up Load at the top of dustbin increases the service life of dustbin.Dustbin is top formed to have waling 34 and idler wheel to lead Rail 35, dustbin top end are formed with retaining protrusion 36.

Rubbish box back is equipped with rear cover 37, after cover protrusion and be formed with two fixed columns 38, cooperation fixed column 38 is installed There are stay hook 39,39 middle part axis of stay hook to be connected on sides, two 39 ends of stay hook, which are connected with to stretch, draws cylinder 40.

Embodiment 5

In order to more easily ensure the stationarity of dustbin lifting, and the floor space of equipment is reduced, in addition, embodiment 1 Structure, the identical dustbin of size specification can only be used, but there is more producers, various structures shapes for conventional garbage case size The difference of formula and size, therefore it cannot meet multifarious requirement.

Therefore as shown in Figures 12 and 13, improved as follows on the basis of embodiment 1：First elevating mechanism A is first Hoist engine 41, the second elevating mechanism B are second hoist 42；First hoist 41 is connected with first turn by the first belt 43 Axis 48,43 both ends of first rotating shaft are wound with connecting line 45, and upper connecting line 45 is connected with general tray 49；Second hoist 42 are connected with the second shaft 47 by the second belt 46, and 47 both ends of the second shaft are wound with lower connecting line 50, and lower connecting line 50 connects It is connected to lower general tray 51.

The pulley 52 coordinated with connecting line 45 is installed in rack 4.

Application method includes the following steps：

Step 1: the upper general tray of elevator driving rises, the first dustbin is placed on lower general tray by transport vehicle, then The lower general tray of elevator driving declines, and the first dustbin is fallen into pit body；

Step 2: after the first dustbin is full, the upper general tray of elevator driving declines, and transport vehicle puts the second empty dustbin It sets on upper general tray；

Step 3: the upper general tray of elevator driving rises, then elevator drives lower general tray by the first full dustbin It is lifted out pit body；First dustbin is transported on transport vehicle；

Step 4: the lower general tray of elevator driving is fallen into pit body, the upper general tray of elevator driving is put into lower general tray Position；It repeats the above steps.

Embodiment 6

It is as follows for being further improved for embodiment 5：In order to more precisely be carried out such as to the control of dustbin lift synchronization Lower improvement：As shown in figures 14-17, left motor 53 and right motor 54 are installed in rack 4；4 top left side of rack and right side point Left axle bar 55 and right axle bar 56 are not installed；Right axle bar 56 is connected with right motor 54, and left axle bar 55 is connected with right motor 54；Rack 4 top left sides are also connected with left gear 60, and middle part is connected with middle gear 61；

Left gear 60 is connected with right axle bar 56 by the first long composite chain 57；It is equipped on right axle bar 56 multiple with the first length Close the gear that chain 57 coordinates；First long composite chain 57 is connected with left branch chain 58 and right branch chain 59；Left branch chain Item 58 and 51 left side of lower general tray are connect, and as shown in figure 17, right branch chain 59 pushes up after bypassing left gear 60 further around rack 4 excessively Connect with 51 right side of lower general tray after the right gear of portion right end installation, right motor 54 drives left divide by rotating forward or reversing in this way Branch chain 58 and right branch chain 59 while upstream or downstream, to drive the lifting of lower general tray 51.Right motor 54 passes through Connect in the middle part of right drive chain 67 and 56 phase of right axle bar.

Left axle bar 55 is connected with middle gear 61 by the second long composite chain 62, during the second long composite chain 62 is connected with Part branch chain 63, upper 49 middle part of general tray of the connection of central branch chain 63；Left axle bar 55 passes through left drive chain 64 and a left side Motor 53 is connected；The both ends and middle part of the side of upper general tray 49 and lower general tray 51 are mounted on guide block 65, in rack 4 It is formed with the guide groove 66 coordinated with guide block 65.Left motor 53 rotates and reverse the raising and lowering for realizing upper general tray 49.

The displacement stroke of upper general tray and lower general tray is controlled by PLC position sensors.Instantly at general tray When most lowermost position, upper general tray could move.When upper general tray is in topmost position, lower general tray ability Movement.

Embodiment 7

As shown in Figures 18 and 19, embodiment 5 and general tray in embodiment 6 or hoistable platform are improved as follows：Figure 15 be the general tray vertical view when embodiment of the present invention does not place garbage compression station, and middle frame 68 is used to carry dustbin 1, 68 middle part of frame generates the sink 69 of sewage when being formed with for collecting compression, 69 both sides of sink are to be walked for what dustbin 1 was walked Road 70；Gib block 71 is installed, gib block 71 is connected with sliding block 72, and sliding block 72 passes through spring 73 and 68 phase of frame on aisle 70 Even.The gib block 71 includes the straight gib block 75 of the oriented item 74 and rear portion of front, and two oriented items 74 are in " eight " shape.Sink 69 is communicated with discharging valve 76；The sliding slot 77 coordinated with sliding block 72 is formed on aisle 70.

In this way when different size of dustbin 1 enters general tray, it is oriented to by gib block 71, and pass through sliding block With the adjusting of spring 73 so that gib block 71 is close to dustbin 1 and is limited always, to adapt to different size of dustbin. And the sewage of dustbin compressed garbage accumulates in sink 69, to will not fall into pit body, then when general tray rises to one Positioning is when setting, can will be outside sewage discharge to pit body therein by the connecting tube at discharging valve 76.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (8)

1. an a kind of two-shipper solid Biohazard Waste Disposal of hoisting, which is characterized in that include the of lifting dustbin (1) One elevating mechanism (A) and the second elevating mechanism (B) for drawing high dustbin (1), the second elevating mechanism (B) are in the first elevator Above structure (A)；Second elevating mechanism (B) and the first elevating mechanism (A) include multiple oil cylinders (C), which is characterized in that described the One elevating mechanism (A) is first hoist (41), and the second elevating mechanism (B) is second hoist (42)；First hoist (41) It is connected with first rotating shaft (48) by the first belt (43), first rotating shaft (43) both ends are wound with connecting line (45), upper connection Line (45) is connected with general tray (49)；Second hoist (42) is connected with the second shaft (47) by the second belt (46), Second shaft (47) both ends are wound with lower connecting line (50), and lower connecting line (50) is connected with lower general tray (51).

2. a two-shipper solid Biohazard Waste Disposal of hoisting as described in claim 1, which is characterized in that the rack (4) pulley (52) with connecting line (45) cooperation is installed on.

3. a two-shipper solid Biohazard Waste Disposal of hoisting as described in claim 1, which is characterized in that further include placing The pit body (16) of dustbin, pit body (16) inside are formed with pit (17), the first water pump are equipped in pit (17) (15)。

4. a two-shipper solid Biohazard Waste Disposal of hoisting as claimed in claim 3, which is characterized in that the pit body (16) inside outside is equipped with the second water pump (10)；The outside of pit body (16) outside is provided with the gutter with water passage (18)。

5. a two-shipper solid Biohazard Waste Disposal of hoisting as claimed in claim 3, which is characterized in that the pit body (16) the refuse depot room (20) for surrounding pit body (16) is stamped outside；The pit body (16) is multiple, forms the structure of double-layer multi-dimensional.

6. a two-shipper solid Biohazard Waste Disposal of hoisting as described in claim 1, which is characterized in that the dustbin (1) inlet installation capping (27), capping (27) middle part are connected with lever (28), are connect by shaft (29) axis in the middle part of lever (28) In dustbin (1) side, lever (28) one end axis connects capping (27), and the other end is connected with stretching structure (30), stretching structure axis It is connected on dustbin (1) side wall.

7. a two-shipper solid Biohazard Waste Disposal of hoisting as claimed in claim 6, which is characterized in that the flexible knot Structure (30) is cylinder or oil cylinder, and the distance of stretching structure (30) to shaft (29) is less than capping (27) and is arrived with lever (28) axis place of connecing The distance of shaft (29).

8. a two-shipper solid Biohazard Waste Disposal of hoisting as claimed in claim 6, which is characterized in that the capping (27) it is fixed with sloping baffle (31) close to dustbin (1) arrival end.