CN204150528U - Refuse transfer station - Google Patents

Abstract

The utility model discloses a kind of refuse transfer station, comprising: refuse disposal system, garbage transfer equipment, rotator type trash compactor, rubbish compartment and high-pressure washing system; Wherein, the delivery port of described garbage transfer equipment is corresponding with the feeding mouth of described rotator type trash compactor, the discharging opening of described rotator type trash compactor is corresponding with the compartment mouth in described rubbish compartment, and described high-pressure washing system is located at the top in described rubbish compartment.

Description

Refuse transfer station

Technical field

The utility model relates to field of garbage disposal, particularly a kind of refuse transfer station.

Background technology

Existing refuse transfer station, as trash compactor and the garbage compression box of major equipment, both realize transporting compressed garbage function by actions such as docking, separation.When garbage compression box docks with trash compactor, rubbish promotes by trash compactor, broken, be compressed in garbage compression box, when garbage compression box is separated with trash compactor, garbage compression box is transported to refuse landfill by garbage compression vehicle, but, conventional garbage compressor is generally compressed by level or vertical mode, and which makes to realize Uniaxial Compression, causes compression efficiency lower.

The information being disclosed in this background technology part is only intended to increase the understanding to general background of the present utility model, and should not be regarded as admitting or imply in any form that this information structure has been prior art that persons skilled in the art are known.

Utility model content

The purpose of this utility model is to provide a kind of refuse transfer station, thus overcomes the lower shortcoming of conventional garbage transfer point efficiency.

Another object of the present utility model is to provide a kind of refuse transfer station, thus overcomes the larger shortcoming of conventional garbage transfer point environmental pollution.

For achieving the above object, the utility model provides a kind of refuse transfer station, comprises refuse disposal system, described in comprise: garbage transfer equipment, rotator type trash compactor, rubbish compartment and high-pressure washing system; Described rotator type trash compactor comprises: compression cylinder, and the inside of this compression cylinder is provided with cavity; Rotor, it is located in described cavity in the mode that can rotate, the rotor-side that this rotor comprises multiple summit and is located between each summit; And actuating device, it is connected the circumferential curve corresponding rotation of the inwall driving each summit of described rotor along described cavity with described rotor by phased eccentricity mechanism, make each rotor-side of described rotor form with the corresponding inwall of described cavity the compression work chamber compressed rubbish, and the corresponding described compression work chamber of described compression cylinder is provided with inlet point and discharging opening;

Wherein, the delivery port of described garbage transfer equipment is corresponding with the feeding mouth of described rotator type trash compactor, the discharging opening of described rotator type trash compactor is corresponding with the compartment mouth in described rubbish compartment, and described high-pressure washing system is located at the top in described rubbish compartment.

In technique scheme, described rotor is three-cornered rotor, and the circumferential curve of described cavity drives the rotational trajectory on each summit of described three-cornered rotor corresponding with described actuating device by phased eccentricity mechanism.

In technique scheme, the vertical section of described cavity is ∞ shape, and the vertical section of described three-cornered rotor is triangular in shape.

In technique scheme, described rotor is four sided rotor, and the circumferential curve of described cavity drives the rotational trajectory on each summit of described four sided rotor corresponding with described actuating device by phased eccentricity mechanism.

In technique scheme, the circumferential curve of described cavity is made up of three sections of evagination circular arcs, and the vertical section of described four sided rotor is corner star.

In technique scheme, described phased eccentricity mechanism comprises: sun wheel, and it is fixed on the axis in described cavity; Planet internal-gear, it is fixed on the inner side of described rotor, and both are coaxially arranged, and this planet internal-gear is meshed with described sun wheel; And crank, its one end is fixedly connected with the drive division of described actuating device, and the other end is connected with described rotor, drives described rotor to rotate by described actuating device driving crank.

In technique scheme, the length of described crank equals the eccentric throw produced when described rotor rotates in described cavity.

In technique scheme, described actuating device is HM Hydraulic Motor, and the axle drive shaft of this HM Hydraulic Motor is to arrange with described sun wheel mode on the same axis.

In technique scheme, described refuse transfer station also comprises a dedusting deodorizing device, and it is communicated with to carry out deodorizing to described refuse disposal system with described refuse disposal system.

In technique scheme, described refuse transfer station also comprises the sewage treatment system be located at below described refuse disposal system, and this system comprises: sewage settlement treatment pond, pond flushing arrangement, sewage disposal device and sand basin; Described pond flushing arrangement and described sewage disposal device are located in described sewage settlement treatment pond, and described sand basin is located at the below in described sewage settlement treatment pond.

In technique scheme, described garbage transfer equipment is configured with dust boot.

In technique scheme, described refuse transfer station also comprises a control system, and this control system controls described refuse transfer station and operates accordingly.

Compared with prior art, the utility model has following beneficial effect:

1. the refuse transfer station in the utility model, rotator type trash compactor is adopted to carry out garbage-compressing, volume-variation is constantly carried out in the compression work chamber that this compressor is isolated by rotor-side and the corresponding cavity wall of rotor, thus the compression realized rubbish, by the cycle rotation of rotor, therefore to the processing technological flow of rubbish continuously charging, compression, filler cartonning, and then compression efficiency can be improve.

2. add dedusting deodorizing device, sewage treatment system, high-pressure washing system, making garbage disposal environment more be undertaken by high-pressure washing system when preparing to transport rinsing the rubbish around compartment in environmental protection and rubbish compartment, making rubbish compartment not produce secondary pollution when transporting.

Accompanying drawing explanation

Fig. 1 is the plan structure figure according to refuse transfer station of the present utility model.

Fig. 2 is the main TV structure figure according to refuse transfer station of the present utility model.

Fig. 3 is according to refuse disposal system structural representation of the present utility model.

Fig. 4 is according to rotator type trash compactor structural representation of the present utility model.

Fig. 5 is according to rotator type trash compactor partial enlarged drawing of the present utility model.

Fig. 6 is according to rotator type garbage-compressing owner TV structure figure of the present utility model.

Fig. 7 is the actuating device fragmentary cross-sectional view according to rotator type trash compactor of the present utility model.

Fig. 8 is the generative methods schematic diagram of outer spinning roller elder generation.

Fig. 9 is pivot angle schematic diagram.

Figure 10 is the intrinsic curve schematic diagram of cavity molded line.

Figure 11 is the geometric figure schematic diagram of rotor.

Figure 12 replaces intrinsic curve schematic diagram with circular arc.

Figure 13-1 is according to rotator type trash compactor charging diagram of circuit of the present utility model.

Figure 13-2 is according to rotator type trash compactor compression process figure of the present utility model.

Figure 13-3 is according to rotator type trash compactor discharging diagram of circuit of the present utility model.

Figure 14 is according to four sided rotor formula trash compactor structural representation of the present utility model.

Figure 15 is the circumferential curve of the cavity according to four sided rotor formula trash compactor of the present utility model.

Figure 16 is the molded lines of rotor according to four sided rotor formula trash compactor of the present utility model.

Main Reference Numerals illustrates:

100-refuse disposal system;

1-rotator type trash compactor, 2-three-cornered rotor, 21-rotor-side, 22-summit, 23-sawtooth, 24-steel brush, 25-cam, 26-cutter, 3-compression cylinder, 31-inlet point, 32-discharging opening, 33-cavity, 331-compression work chamber, 34-mudhole, 4-actuating device, 41-HM Hydraulic Motor, 42-axle drive shaft, 5-phased eccentricity mechanism, 51-sun wheel, 52-crank, 53-planet internal-gear, the synchronous castellated shaft of 54-, 6-four sided rotor, the rotor-side of 61-four sided rotor, the circumferential curve of 7-cavity, 71-molded lines of rotor, 8-waste-skip, 9-rubbish compartment, 10-high-pressure washing system, 11-dedusting deodorizing device, 12-dust boot, 13-sewage treatment system, 131-pond flushing arrangement, 132-sewage settlement treatment pond, 133-sewage disposal device, 134-sand basin, 135-septic tank, 14-garbage transfer equipment, 15-control system.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail, but is to be understood that protection domain of the present utility model not by the restriction of detailed description of the invention.

Clearly represent unless otherwise other, otherwise in whole specification sheets and claims, term " comprise " or its conversion as " comprising " or " including " etc. by be understood to include the element of stating or component part, and do not get rid of other element or other component part.

Embodiment 1:

As shown in Figure 1 to Figure 3, according to a kind of refuse transfer station of the utility model detailed description of the invention, comprise: refuse disposal system 100, it comprises: garbage transfer equipment 14, rotator type trash compactor 1, rubbish compartment 9, dedusting deodorizing device 11, sewage treatment system 13, control system 15 and high-pressure washing system 10;

As shown in Figures 4 to 7, rotator type trash compactor 1 comprises: compression cylinder 3, three-cornered rotor 2, phased eccentricity mechanism 5 and actuating device 4, the cavity 33 that compression cylinder 3 inside is provided with, and the vertical section of this cavity 33 is like " ∞ " shape, three-cornered rotor 2 is located in cavity 33 in the mode that can rotate, and the vertical section of this three-cornered rotor 2 is like triangle, be provided with three summits 22 and be located at three rotor-side 21 between three summits 22, three summits 22 circumference distribution and equidistant each other, pinion mounting holes is offered in the inner side of three-cornered rotor, actuating device 4 is corresponding with the circumferential curve of the inwall of cavity 33 by driving phased eccentricity mechanism 5 to drive three-cornered rotor 2 to realize the rotating curve on three summits 22 of three-cornered rotor 2, more specifically, actuating device is HM Hydraulic Motor 41, phased eccentricity mechanism 5 comprises: sun wheel 51, planet internal-gear 53 and crank 52, sun wheel 51 is fixed on the axis of cavity 33, planet internal-gear 53 is fixed on the pinion mounting holes place of the inner side of three-cornered rotor 2, and planet internal-gear 53 and three-cornered rotor 2 are coaxially arranged, and planet internal-gear 53 is meshed with the gear 42 of sun wheel 51, the axle drive shaft 42 of HM Hydraulic Motor 41 is to be fixed setting with sun wheel 51 mode on the same axis, one end of crank 52 is fixedly connected with axle drive shaft 42, the other end is connected with the centre of three-cornered rotor 2 side, three-cornered rotor 2 is driven to rotate by HM Hydraulic Motor 41 driving crank 52, in the present embodiment, rotate more stable for making three-cornered rotor 2, preferably phased eccentricity mechanism 5 is all set in the both sides of three-cornered rotor 2, first the synchronous castellated shaft 54 that a center running through three-cornered rotor 2 also can be rotated is established, crank 52 end that Liang Ge phased eccentricity mechanism 5 connects three-cornered rotor 2 center side position connects with the two ends of synchronous castellated shaft 45 respectively, wherein, the length of crank 52 equals the eccentric throw produced when three-cornered rotor 2 rotates in cavity 33, the ratio of the number of teeth of planet internal-gear 53 and sun wheel 51 is that 3:2 is to meet sun wheel 51 and planet internal-gear 53 intermeshing requirement when rotated, thus the curve movement realizing three summits 22 of three-cornered rotor 2 is corresponding with the circumferential curve of the inwall of cavity 33 respectively, its principle and Wankel RC configuration similar.What deserves to be explained is, the crank 52 of above-mentioned actuating device 4 also can have eccentric action parts and replaces with eccentric wheel etc. is similar.

Wherein, in the present embodiment, the molded line of three-cornered rotor and the molded line of corresponding cavity obtain in the following manner:

The circumferential curve of cavity

Cavity theory shaped wire many employings epitrochoid.It is by a radius be r dynamic circle along a radius be k (r>k) and with it inscribe fixing circle roll time, the path of motion (as shown in Figure 8) that certain 1 P rolled together with dynamic circle is formed.Cavity curved dies can be expressed as:

x/e＝cosα+R/e·cosα/3 (1)

y/e＝sinα+R/e·sinα/3 (2)

In formula, α is the round heart and the angle surely justifying circle center line connecting and coordinate axle ox; E is eccentric throw; X, y are respectively the coordinate of P point; If make K=R/e, K is called the shape coefficient of cavity molded line, when two radius of a circles than k/r=(m-1)/m and be m integer time, then curve is closed curve.Get m=3.Now, the distance R of Dong Yuan center and P point is called the generating radius of cavity molded line.Like this, formula (1) can be rewritten as:

x＝ecosα+eKcosα/3 (3)

y＝esinα+eKsinα/3 (4)

After curved dies is determined, the radius of curvature Changing Pattern of molded line is:

q＝e(K2+9+6Kcos2α/3)32K2+27+12Kcos2α/3 (5)

Usual K>5, thus molded line is not occurred, and indent cusp affects rotor motion; Ensure that the inner gear of rotor center moves in molded line inner chamber smooth.

Pivot angle with shape coefficient K

Pivot angle it is the angle of cut of generating radius R and theory shaped wire each point normal; As shown in Figure 9, full swing angle can be expressed as:

As α 0=3/2arccos (-3/K), pivot angle obtain maxim rotor turns one week, existing 4 times.Obviously, the single factor of impact is shape coefficient K.

The molded line of rotor

The curve shape of three rotor-side of three-cornered rotor should meet following condition.

1) should ensure that three tops of three-cornered rotor remain with cavity molded line to contact;

2) summit of rotor and cavity wall never collide;

3) space that the rotor-side of rotor and cylinder profile surround can reach minimum, thus may obtain maximum ideal theoretical compression ratio.

Original tread rolling circle (R) is fixed, original fixing circle (K) is allowed to roll along circle (R) with cavity molded line, rotate and define the family of curves be made up of the cavity molded line that shape same position is different, the interior intrinsic curve of this family of curves is all surface curves of rotor.See Figure 10 and Figure 11.

The moving condition of common tangent must be had according to geometric relationship and contact point, rotor flank curvilinear equation can be set up:

X＝ecosβ+ecos(α-β/2)+Rcos(α/3-β/2) (7)

Y＝esinβ+esin(α-β/2)+Rsin(α/3-β/2) (8)

Because computing formula is above very complicated, during practical application, easy to process for making, commonly use and replaced by the circular arc of A, B, C 3, as Figure 12, use simple mathematical computations, the radius of circular arc and corresponding central angle can be obtained:

Pn＝e(K-2)2K–4 (9)

δ＝2arcsin3K(K-4)2(K-2)2 (10)

Obviously, rotor flank curve is that cavity molded line derives from, and their shape depends on shape coefficient K completely.Namely use circular arc to replace all surface curves of rotor, its radius and central angle are still determined by K and eccentric distance e.

For the rotor flank curve of actual cavity molded line, as long as replace K to obtain with K=(R+a)/e.But in the present embodiment, three summits of the rotor of trash compactor are corresponding with the circumferential curve of cavity, and the circumferential curve of rotor can regulate as required.

As shown in Figure 13-1 to Figure 13-3, cavity 33 is divided into three volume continually varying compression work chambeies 331 by three rotor-side 21 of the three-cornered rotor 2 rotated by the cavity 33 in compression cylinder 3, the cavity wall of compression work chamber 331 correspondence in left side is provided with inlet point 31, the cavity wall of compression work chamber 331 correspondence on right side is provided with discharging opening 32, wherein, the cavity wall of compression work chamber 331 correspondence below being positioned at offers multiple mudhole 34, in this embodiment, three summits 22 of three-cornered rotor 2 are equidistant each other, according to vertical section like the cavity 33 of " ∞ " shape and three volume continually varying compression work chambeies 331, rubbish enters the compression work chamber 331 in left side from inlet point 31, corresponding rotor-side 21 is first carried out precompressed compression to rubbish with corresponding cavity wall when rotated and by corresponding summit 22, rubbish is taken off the compression work chamber 331 scraping below, because of the rotor-side 21 of corresponding rotation in the compression work chamber 331 of below and corresponding cavity body wall continually varying volume less, therefore, again rubbish is compressed, after compression, on the summit 22 by rotating, rubbish is risen to discharging opening 32 place on right side, discharge the rubbish after compression.Wherein, the sewage that compression produces is discharged by multiple mudhole 34.Volume-variation is constantly carried out in the compression work chamber 331 isolated by rotor-side 21 and the corresponding cavity wall of three-cornered rotor 2, thus the treatment process that realization " is taken off to rubbish and scraped rubbish-compression dehydration-lifting filling ", by the cycle rotation of three-cornered rotor 2, therefore to the processing technological flow of rubbish continuously charging, compression, filler cartonning, and then compression efficiency can be improve.And trash compactor does not use hydraulic oil cylinder driving, oil cylinder efficiency when temperature is higher or lower is lower, so the compatible with environment of this trash compactor is wider.

As shown in Figure 3, the delivery port of garbage transfer equipment 14 is corresponding with the feeding mouth of rotator type trash compactor 1, the top of garbage transfer equipment 14 is configured with dust boot 12, the discharging opening of rotator type trash compactor 1 is corresponding with the compartment mouth in rubbish compartment 9, high-pressure washing system 10 is located at the top in rubbish compartment 9, the inlet scoop UNICOM of dedusting deodorizing device 11 to refuse disposal system 100 to carry out deodorizing to the processing environment of refuse disposal system 100.Be provided with sewage treatment system 13 below refuse disposal system 100, this system comprises: sewage settlement treatment pond 132, pond flushing arrangement 131, sewage disposal device 133 and sand basin 134; Pond flushing arrangement 131 and sewage disposal device 133 are located in sewage settlement treatment pond 132, sand basin 134 is located at the below in sewage settlement treatment pond 132, sand basin 134 upper end is connected to septic tank 135 by pipeline, in garbage-compressing treating process, effluent seepage and scattered garbage drop and directly enter sewage settlement treatment pond 132 and carry out the separation of slag liquid, enter foul drainage system after liquid waste processing, enter sand basin after waste residue precipitation and regularly clear up by taking out dirty car.This process is not exposed to the environmental concerns that effectively can control operation field and periphery in external environment condition.Refuse transfer station in this embodiment controls the running of relevant device by control system, improves automation mechanized operation.

During use, rubbish sends into rotator type trash compactor 1 by waste-skip 8 garbage transfer equipment 14 of putting upside down, after rotator type trash compactor 1 compresses, be sent to rubbish compartment 9, rubbish compartment 9 is loaded on waste-skip and transports after high-pressure washing system 10 rinses, the sewage wherein produced directly is processed by sewage treatment system 13 with the rubbish falling outside, improves environmental protection.

Embodiment 2:

The structure of the refuse transfer station of embodiment 2 is substantially identical with the structure of the refuse transfer station of embodiment 1, and its difference is that some parts of rotator type trash compactor are different, specific as follows:

1. rotor is different with the circumferential curve of the cavity 33 of compression cylinder 3 inside;

2. the number of teeth of sun wheel 51 is different with the tooth ratio of planet internal-gear 53;

3. crank 52 length of phased eccentricity mechanism 5 is different.

As shown in figure 14, the rotor adopted in the utility model embodiment 2 is four sided rotor 6, the principle of the trash compactor of four sided rotor 6 and the principle of three-cornered rotor 2 similar, therefore, the principle rotated in cavity 33 by three-cornered rotor 2 can release the molded line of four sided rotor 6 and the circumferential curve of compression cylinder 3 internal cavity 33, first, according to the sun wheel 51 of triangle rotor type trash compactor and the tooth ratio feature of planet internal-gear 53, the planet internal-gear 53 of four sided rotor formula trash compactor and the tooth ratio of sun wheel 51 can be drawn, for 4:3, after ratio of number of teeth is determined, the molded line of four sided rotor and the molded line (i.e. the circumferential curve of cavity) of compression cylinder internal cavity is released respectively by geom, specific as follows:

The circumferential curve of cavity

Cavity theory shaped wire (i.e. the circumferential curve of the cavity) equation of four sided rotor formula trash compactor:

x＝e*cos(α)+R*cos(α/4) (11)

Y＝e*sin(α)+R*sin(α/4) (12)

α ∈ [0 °, 360 °], e is eccentric throw, and e=12, R are generating radius, R=96.

And the actual molded line of the cavity of four sided rotor trash compactor (i.e. the circumferential curve of cavity) equation is:

α ∈ [0 °, 360 °], e is eccentric throw, and R is generating radius, and A is translation distance, and A=8, φ are pivot angle, are determined by following cosine formula:

f ²＝R ²+(5e) ²+10Re*cos(3α/4) (16)

Solve:

Be converted into the unitary parametric equation of α:

The actual molded line of cavity (i.e. the circumferential curve 7 of cavity) can be drawn by above-mentioned two equations, as shown in figure 15, be made up of three evagination circular arcs.

Molded lines of rotor

The rotor theory shaped wire equation of four sided rotor trash compactor:

Rotor theory shaped wire is the interior intrinsic curve of cavity theory shaped wire family of curves:

x _r＝e*cosβ+e*cos(α-β/3)+R*cos(α/4-β/3)

y _r＝e*cosβ+e*sin(α-β/3)+R*sin(α/4-β/3)

The actual curved dies of rotor of four sided rotor trash compactor is translation distance (A) curvilinear equation of rotor theory shaped wire:

$X_{\mathrm{ra}}=e\cos \mathrm{\β}+e\cos (\mathrm{\α}-\mathrm{\β}/3)+R\cos (\mathrm{\α}/4-\mathrm{\β}/3)+\frac{A(R\cos (\mathrm{\α}/4-\mathrm{\β}/3)+5e\cos (\mathrm{\α}-\mathrm{\β}/3))}{\sqrt{R^2+{25e}^{2}10\mathrm{Re}\cos (3\mathrm{\α}/4)}}$

$Y_{\mathrm{ra}}=e\sin \mathrm{\β}+e\sin (\mathrm{\α}-\mathrm{\β}/3)+R\sin (\mathrm{\α}/4-\mathrm{\β}/3)+\frac{A(R\sin (\mathrm{\α}/4-\mathrm{\β}/3)+5e\sin (\mathrm{\α}-\mathrm{\β}/3))}{\sqrt{R^2+{25e}^{2}10\mathrm{Re}\cos (3\mathrm{\α}/4)}}$

Can draw molded lines of rotor 71 by above-mentioned two equations, the vertical section of four sided rotor 8 is like corner star as shown in figure 16, and four of four sided rotor 8 summits are equidistant each other.

The binaryparameter equation of above-mentioned α, β is constrained to the unitary parametric equation of α by following formula:

$\mathrm{tg}(5\mathrm{\β}/8)=\frac{5\sin (\mathrm{\α}/2)-K\sin (3\mathrm{\α}/10)}{5\cos (\mathrm{\α}/2)+K\cos (3\mathrm{\α}/10)}$

By above-mentioned geometric reasoning, confirm the feasibility of four sided rotor trash compactor, therefore, the eccentric throw produced when only the length of the crank 52 of phased eccentricity mechanism 5 need be arranged and rotates in cavity 33 with four sided rotor 6 is identical, can meet actuating device 4 and drive phased eccentricity mechanism 5 to drive the rotational trajectory on each summit of four sided rotor 6 corresponding with the circumferential curve of cavity 33.

Four sided rotor formula trash compactor in this embodiment, by the rotor-side 61 of four sided rotor, cavity 33 is divided into four volume continually varying compression work chambeies, because eccentric throw is little, torque peak is lower, so loss due to friction is little, the life-span is longer; The computing ballance correction of four sided rotor is very little, and the noise of output is lower; And the volume of cavity is less when consecutive variations, therefore, compressed garbage efficiency is high.

Finally, the utility model embodiment be what deserves to be explained is, by the Application Example of three-cornered rotor and four sided rotor, also can release the embodiment of the rotors such as five jiaos or hexagonal; Meanwhile, the profile of compression cylinder can become different shapes according to different Demand Design.

The aforementioned description to concrete exemplary of the present utility model is to illustrate and the object of illustration.These descriptions not want the utility model to be defined as disclosed precise forms, and obviously, according to above-mentioned instruction, can much change and change.The object selected exemplary embodiment and describe is to explain certain principles of the present utility model and practical application thereof, thus those skilled in the art can be realized and utilize various different exemplary of the present utility model and various different selection and change.Scope of the present utility model is intended to limited by claims and equivalents thereof.

Claims (11)

1. a refuse transfer station, is characterized in that, comprises refuse disposal system; Described refuse disposal system comprises: garbage transfer equipment, rotator type trash compactor, rubbish compartment and high-pressure washing system; Described rotator type trash compactor comprises:

Compression cylinder, the inside of this compression cylinder is provided with cavity;

Rotor, it is located in described cavity in the mode that can rotate, the rotor-side that this rotor comprises multiple summit and is located between each summit; And

Actuating device, it is connected the circumferential curve corresponding rotation of the inwall driving each summit of described rotor along described cavity with described rotor by phased eccentricity mechanism, make each rotor-side of described rotor form with the corresponding inwall of described cavity the compression work chamber compressed rubbish, and the corresponding described compression work chamber of described compression cylinder is provided with inlet point and discharging opening;

Wherein, the delivery port of described garbage transfer equipment is corresponding with the feeding mouth of described rotator type trash compactor, the discharging opening of described rotator type trash compactor is corresponding with the compartment mouth in described rubbish compartment, and described high-pressure washing system is located at the top in described rubbish compartment.

2. refuse transfer station according to claim 1, is characterized in that, described rotor is three-cornered rotor, and the circumferential curve of described cavity drives the rotational trajectory on each summit of described three-cornered rotor corresponding with described actuating device by phased eccentricity mechanism.

3. refuse transfer station according to claim 2, is characterized in that, the vertical section of described cavity is ∞ shape, and the vertical section of described three-cornered rotor is triangular in shape.

4. refuse transfer station according to claim 1, is characterized in that, described rotor is four sided rotor, and the circumferential curve of described cavity drives the rotational trajectory on each summit of described four sided rotor corresponding with described actuating device by phased eccentricity mechanism.

5. refuse transfer station according to claim 4, is characterized in that, the circumferential curve of described cavity is made up of three sections of evagination circular arcs, and the vertical section of described four sided rotor is corner star.

6. the refuse transfer station according to claim 2 or 4, is characterized in that, described phased eccentricity mechanism comprises:

Sun wheel, it is fixed on the axis in described cavity;

Planet internal-gear, it is fixed on the inner side of described rotor, and both are coaxially arranged, and this planet internal-gear is meshed with described sun wheel; And

Crank, its one end is fixedly connected with the drive division of described actuating device, and the other end is connected with the centre of the side of described rotor, drives described rotor to rotate by described actuating device driving crank.

7. refuse transfer station according to claim 6, is characterized in that, the length of described crank equals the eccentric throw produced when described rotor rotates in described cavity.

8. refuse transfer station according to claim 6, is characterized in that, described actuating device is HM Hydraulic Motor, and the axle drive shaft of this HM Hydraulic Motor is to arrange with described sun wheel mode on the same axis.

9. refuse transfer station according to claim 1, is characterized in that, described refuse transfer station also comprises a dedusting deodorizing device, and it is communicated with to carry out deodorizing to described refuse disposal system with described refuse disposal system.

10. refuse transfer station according to claim 1, it is characterized in that, described refuse transfer station also comprises the sewage treatment system be located at below described refuse disposal system, and this system comprises: sewage settlement treatment pond, pond flushing arrangement, sewage disposal device and sand basin; Described pond flushing arrangement and described sewage disposal device are located in described sewage settlement treatment pond, and described sand basin is located at the below in described sewage settlement treatment pond.

11. refuse transfer stations according to claim 1, is characterized in that, described refuse transfer station also comprises a control system, and this control system controls described refuse transfer station and operates accordingly.