CN105150577A - Split waste compression station push-pull box device - Google Patents

Abstract

The invention provides a split waste compression station push-pull box device. Two blocking parts which extend upwards are formed at the head of a push-pull rod; the second blocking part is higher than the first blocking part; a bump toward the direction of the first blocking part is formed in the upper end of the second blocking part; the lower side of the bump is lower than the upper end of the first blocking part; a first slide chute is formed in a bearing frame; a first sliding part matched with the first slide chute is arranged on the push-pull rod; a second slide chute is formed in the tail part of the push-pull rod; a second sliding part matched with the first slide chute and the second slide chute is arranged at the end part of a piston rod; and the first slide chute comprises a wide chute segment and a narrow chute segment. Therefore, the structure form of the traditional split waste compression station push-pull box device is broken through; and the defects that the traditional split waste compression station push-pull box device is complicated in structure, cumbersome in operation, low in cost and the like are overcome. Therefore, the split waste compression station push-pull box device is smooth and coordinated in push-pull action, efficient in connection and separation of a garbage can and a compression station, simple, novel and reasonable in structure, low in cost and high in practicability.

Description

A kind of Split garbage compressor station push-and-pull case apparatus

Technical field

The present invention relates to garbage disposal machinery field, be specifically related to a kind of Split garbage compressor station push-and-pull case apparatus.

Background technology

Along with country to urban environmental hygiene require more and more higher, garbage disposal is cleared pattern and also earth-shaking change is being occurred, and the scale that each city detachable trash compressor uses is also increasing.Push-and-pull draw box mechanism in existing detachable trash compressor push-and-pull box technology is all that push-and-pull pawl structure fixed by one-stroke list, drives push cylinder to drive push-and-pull pawl by hydraulic power unit, and push-and-pull pawl drives the motion of split case.

When ordinary circumstance sanitationman operates push-and-pull draw box mechanism, according to ideal state in the action of operation push-and-pull case, this needs driver, when putting case, casing is placed into assigned address, can not too forward can not too rearward, otherwise fixing push-and-pull pawl can not draw case, that is must have accurate location when putting case.When pushing away case, after fixed claw pushes away case, if do not pulled away by split case, then push-and-pull case push-and-pull pawl can not be regained, even if regain, then the casing filling rubbish together will be retracted, because push-and-pull pawl returns along motor track.Especially, when needs detachable trash compressor works at multistation, the inconvenience of this operation is particularly outstanding.

In order to solve the problem, Chinese utility model patent CN200820212241.2 discloses a kind of detachable trash compressor push-and-pull draw box mechanism, comprise oil cylinder, push-and-pull support, push-and-pull pawl, described oil cylinder is fixedly mounted on one end of described push-and-pull support, and described push-and-pull pawl is positioned at and is connected with described cylinder piston rod with the other end of described push-and-pull support; Described mechanism is also provided with two travel control switch, and the front end of described push-and-pull pawl is provided with movable head.The upper surface of described push-and-pull support is provided with cover plate, is inside provided with guide plate; Described guide plate is provided with the gathering sill of built-in roller; The traffic direction of described gathering sill and described cylinder piston rod matches, and stretches out after this traffic direction stretches out bending downwards again.Described roller is the two rollers in both sides.Described push-and-pull pawl rear end is connected with described cylinder piston rod, and middle part is connected with described roller by connector, the hinged movable head in front end; Described movable head, by back-moving spring support limit, stretches out in the same way with described push-and-pull pawl.Described push-and-pull pawl rear end and described cylinder piston rod hinged.Described push-and-pull pawl is the monodactyle mechanism being with described movable head.Described guide plate is symmetricly set on the both sides of described push-and-pull pawl.Described two travel switches comprise the first stroke and the second start of a run switch and the first stroke limit switches, described first stroke and the second start of a run switch-linear hybrid are in the rear end of described gathering sill, and the whole switch-linear hybrid of described first stroke is at the bending section start of described gathering sill.

The similar of most of detachable trash compressor push-and-pull draw box mechanism on this utility model and market, in actual use, push pull maneuver is coordinated smooth and easy not, docking and separating of garbage case and compressor station efficiency low, complex structure, cost is high, and reasonable structure and practicality all have much room for improvement.

Given this, inventor furthers investigate the problems referred to above, then has this case to produce.

Summary of the invention

The object of the present invention is to provide a kind of push pull maneuver smoothness to coordinate, the Split garbage compressor station push-and-pull case apparatus of efficient docking and separating of garbage case and compressor station, structure is simply new reasonable, and cost is low, practical.

In order to achieve the above object, the present invention adopts such technical scheme:

A kind of Split garbage compressor station push-and-pull case apparatus, comprises the pull bar extended along compressor station and dustbin orientation, to the carrier that pull bar carries, with the fluid-pressure cylinder that piston rod is connected with pull bar afterbody; Described piston rod carries out push-and-pull driving along described pull bar to pull bar; The head of described pull bar is formed with two card divisions upwards extended, be respectively closer described pull bar head end points the first card division and compared with the second card division away from pull bar head end points, described second card division is higher than described first card division, and the upper end of described second card division is formed with the projection towards described first direction, card division, and the downside of described projection is lower than the upper end of described first card division; Described carrier is formed and described pull bar the first chute in the same way, and described pull bar is provided with the first sliding part carrying out sliding that to match with described first chute; The afterbody of described pull bar is formed with second chute corresponding with described first chute, and the end of described piston rod is provided with the second sliding part carrying out sliding and rotating that to match with described first chute and the second chute; Described first sliding part is than the head of described second sliding part closer to described pull bar; Described first chute comprise closer described pull bar head end points sipes section and compared with the narrow groove section away from pull bar head end points; The top edge of described sipes section flushes with the top edge of described narrow groove section, and the lower limb of described sipes section is lower than the lower limb of described narrow groove section.

The lower limb of described sipes section comprise closer described pull bar head end points first step and compared with the second step away from pull bar head end points, the height of described second step is lower than the lower limb height of described narrow groove section, and the height of described first step is lower than the height of described second step.

The below of described projection is formed and seamlessly transits inclined-plane.

The length of described second step is greater than the diameter sum that the width of described first card division and dustbin are linked up with; The length of described first step is greater than the distance between described first card division and the second card division; The length of described narrow groove section is greater than the distance sum between the length of described second chute and described first card division and the second card division.

Described second step is formed with first near one end of described pull bar head end points and seamlessly transits chamfering, and described narrow groove section is formed with second near one end of described pull bar head end points and seamlessly transits chamfering.

Described fluid-pressure cylinder comprises cylinder main body and described piston rod, and the prolonging direction defining described piston rod is front, and shortening direction is rear, and the front end of described cylinder main body and the rear end of described carrier are fixed together.

Described first sliding part and the second sliding part are roller.

Comprise the described carrier of pull bar both sides described in two offices, described first sliding part and the second sliding part comprise two respectively and are divided into described pull bar both sides and the roller matched with the first chute and second chute of carrier described in two respectively.

Described fluid-pressure cylinder is oil cylinder.

After adopting technique scheme, Split garbage compressor station push-and-pull case apparatus of the present invention, break through the structural form of conventional two-piece garbage compression station push-and-pull case apparatus, in actual use, when dustbin docks with compressor station, the piston rod of fluid-pressure cylinder protracts, second sliding part matches with the first chute and the second chute and moves forward, when the second sliding part is supported when the front end of the second chute, second sliding part starts to drive forwards pull bar, the guide effect that pull bar relies on the first sliding part and the second sliding part to match with narrow groove section and second chute of the first chute moves forward, the now height linked up with higher than dustbin of the upper end level of the first card division, when the first card division is linked up with close to dustbin, first sliding part enters the sipes section of the first chute, pull bar utilizes the Action of Gravity Field of pull bar front portion, and rely on the cooperation place of the second chute and the second sliding part as rotating shaft, lower limb along sipes section moves forward obliquely, during the top be between the first card division and the second card division when dustbin hook is corresponding, the piston rod retraction of fluid-pressure cylinder, second sliding part matches with the first chute and the second chute and moves backward, the position of pull bar is motionless, but along with the second sliding part moves gradually afterwards, rely on the first sliding part as rotating shaft, the front portion of pull bar upwarps gradually, when the second sliding part is supported when the rear end of the second chute, the upper end level of the first card division has exceeded the height of dustbin hook, now fluid-pressure cylinder continues retraction, pull bar is pulled to move backward and front portion continues to upwarp, simultaneously the first card division is caught on dustbin hook and is pulled dustbin to move towards compressor station, until dustbin has docked with compressor station, when dustbin is separated with compressor station, the piston rod of fluid-pressure cylinder protracts, second sliding part matches with the first chute and the second chute and moves forward, when the second sliding part is supported when the front end of the second chute, second sliding part starts to drive forwards pull bar, the guide effect that pull bar relies on the first sliding part and the second sliding part to match with narrow groove section and second chute of the first chute moves forward, when the second card division and dustbin link up with contact time, projection is stuck in dustbin hook top, the guide effect that now pull bar relies on the first sliding part and the second sliding part to match with narrow groove section and second chute of the first chute continues to move forward, and utilize the second card division driven forward dustbin hook, dustbin is separated gradually with compressor station, until after corresponding distance, fluid-pressure cylinder starts retraction again, now the front portion of pull bar relies on gravity that protruding hook with dustbin is threaded off, and rely on the second sliding part to bow as rotating shaft, the now height linked up with lower than dustbin of the upper end level of the first card division, fluid-pressure cylinder continues retraction, the below that first card division is linked up with from dustbin is walked around, until bounce back completely, thus complete docking and separating action of dustbin and compressor station.Overcome conventional two-piece garbage compression station push-and-pull case apparatus complex structure, complex operation and high in cost of production defect.Compared with prior art, Split garbage compressor station push-and-pull case apparatus of the present invention, its push pull maneuver smoothness is coordinated, and efficient docking and separating of garbage case and compressor station, structure is simply new reasonable, and cost is low, practical.

Accompanying drawing explanation

Fig. 1 is the first local structural representation of the present invention;

Fig. 2 is the second local structural representation of the present invention;

Fig. 3-11 is the structural representation of the present invention the first state of action, the second state, the third state, the 4th state, the 5th state, the 6th state, the 7th state, the 8th state and the 9th state successively.

In figure:

1-pull bar 11-first card division

12-second card division 121-is protruding

1211-seamlessly transits inclined-plane 13-first sliding part

14-second chute

2-carrier 21-first chute

211-sipes section 2111-first step

2112-second step a-first seamlessly transits chamfering

212-is narrow, and groove section b-second seamlessly transits chamfering

3-fluid-pressure cylinder 31-piston rod

311-second sliding part 32-cylinder main body

4-dustbin is linked up with.

Detailed description of the invention

In order to explain technical scheme of the present invention further, be described in detail below by specific embodiment.

A kind of Split garbage compressor station push-and-pull case apparatus of the present invention, as shown in figs. 1-11, comprises pull bar 1, carrier 2 and fluid-pressure cylinder 3.

Pull bar 1 extends along compressor station (not shown) and the orientation of dustbin (not shown), specifically can be horizontal direction to extend, carrier 2 pairs of pull bars 1 carry, can be the equidirectional strip framework with pull bar 1, the piston rod 31 of fluid-pressure cylinder 3 is connected with pull bar 1 afterbody; Piston rod 31 carries out push-and-pull driving along pull bar 1 pair of pull bar 1; The head of pull bar 1 is formed with two card divisions upwards extended, be respectively closer pull bar 1 head end points the first card division 11 and compared with the second card division 12 away from pull bar 1 head end points, second card division 12 is higher than the first card division 11, and the upper end of the second card division 12 is formed with the projection 121 towards the first direction, card division 11, and the downside of protruding 121 is lower than the upper end of the first card division 11; Carrier 2 is formed and pull bar 1 the first chute 21 in the same way, and pull bar 1 is provided with the first sliding part 13 carrying out sliding that to match with the first chute 21; The afterbody of pull bar 1 is formed with second chute 14 corresponding with the first chute 21, and the end of piston rod 31 is provided with the second sliding part 311 carrying out sliding and rotating that to match with the first chute 21 and the second chute 14; First sliding part 13 to the second sliding part 311 is closer to the head of pull bar 1; First chute 21 comprise closer pull bar 1 head end points sipes section 211 and compared with the narrow groove section 212 away from pull bar 1 head end points; The top edge of sipes section 211 flushes with the top edge of narrow groove section 212, and the lower limb of sipes section 211 is lower than the lower limb of narrow groove section 212.The present invention in actual use, when dustbin docks with compressor station, the piston rod 31 of fluid-pressure cylinder 3 protracts, second sliding part 311 matches with the first chute 21 and the second chute 14 and moves forward, when the second sliding part 311 is supported when the front end of the second chute 14, second sliding part 311 starts to drive forwards pull bar 1, the guide effect that pull bar 1 relies on the first sliding part 13 and the second sliding part 311 to match with narrow groove section 212 and second chute 14 of the first chute 21 moves forward, now the upper end level of the first card division 11 links up with the height of 4 higher than dustbin, when the first card division 11 links up with 4 close to dustbin, first sliding part 13 enters the sipes section 211 of the first chute 21, pull bar 1 utilizes the Action of Gravity Field of pull bar 1 front portion, and rely on the cooperation place of the second chute 14 and the second sliding part 311 as rotating shaft, lower limb along sipes section 211 moves forward obliquely, when dustbin links up with the top that 4 correspondences are between the first card division 11 and the second card division 12, the piston rod 31 of fluid-pressure cylinder 3 bounces back, second sliding part 311 matches with the first chute 21 and the second chute 14 and moves backward, the position of pull bar 1 is motionless, but along with the second sliding part 311 moves gradually afterwards, rely on the first sliding part 13 as rotating shaft, the front portion of pull bar 1 upwarps gradually, when the second sliding part 311 is supported when the rear end of the second chute 14, the upper end level of the first card division 11 has exceeded the height of dustbin hook 4, now fluid-pressure cylinder 3 continues retraction, pull bar 1 is pulled to move backward and front portion continues to upwarp, simultaneously the first card division 11 is caught on dustbin hook 4 and is pulled dustbin to move towards compressor station, until dustbin has docked with compressor station, when dustbin is separated with compressor station, the piston rod 31 of fluid-pressure cylinder 3 protracts, second sliding part 311 matches with the first chute 21 and the second chute 14 and moves forward, when the second sliding part 311 is supported when the front end of the second chute 14, second sliding part 311 starts to drive forwards pull bar 1, the guide effect that pull bar 1 relies on the first sliding part 13 and the second sliding part 311 to match with narrow groove section 211 and second chute 212 of the first chute 21 moves forward, when the second card division 12 and dustbin link up with 4 contact time, protruding 121 are stuck in above dustbin hook 4, the guide effect that now pull bar 1 relies on the first sliding part 13 and the second sliding part 311 to match with narrow groove section 211 and second chute 212 of the first chute 21 continues to move forward, and utilize the second card division 12 driven forward dustbin hook 4, dustbin is separated gradually with compressor station, until after corresponding distance, fluid-pressure cylinder 3 starts retraction again, now the front portion of pull bar 1 relies on gravity to make protruding 121 to link up with 4 with dustbin to thread off, and rely on the second sliding part 311 to bow as rotating shaft, now the upper end level of the first card division 11 links up with the height of 4 lower than dustbin, fluid-pressure cylinder 3 continues retraction, first card division 11 is walked around from the below of dustbin hook 4, until bounce back completely, thus complete docking and separating action of dustbin and compressor station.Overcome conventional two-piece garbage compression station push-and-pull case apparatus complex structure, complex operation and high in cost of production defect.

Preferably, the lower limb of sipes section 211 comprise closer pull bar 1 head end points first step 2111 and compared with the second step 2112 away from pull bar 1 head end points, the height of second step 2112 is lower than the lower limb height of narrow groove section 212, and the height of first step 2111 is lower than the height of second step 2112.When dustbin docks with compressor station, the piston rod 31 of fluid-pressure cylinder 3 protracts, second sliding part 311 matches with the first chute 21 and the second chute 14 and moves forward, when the second sliding part 311 is supported when the front end of the second chute 14, second sliding part 311 starts to drive forwards pull bar 1, the guide effect that pull bar 1 relies on the first sliding part 13 and the second sliding part 311 to match with narrow groove section 212 and second chute 14 of the first chute 21 moves forward, now the upper end level of the first card division 11 links up with the height of 4 higher than dustbin, when the first card division 11 links up with 4 close to dustbin, first sliding part 13 enters the second step 2112 of sipes section 211, pull bar 1 utilizes the Action of Gravity Field of pull bar 1 front portion, and rely on the cooperation place of the second chute 14 and the second sliding part 311 as rotating shaft, lower limb along sipes section 211 moves forward obliquely, when dustbin links up with the top that 4 correspondences are between the first card division 11 and the second card division 12, first sliding part 13 just falls into first step 2111, the piston rod 31 of fluid-pressure cylinder 3 bounces back, second sliding part 311 matches with the first chute 21 and the second chute 14 and moves backward, because the first sliding part 13 is stuck in the difference in height position of first step 2111 and second step 2112, guarantee that the position of pull bar 1 is motionless, but along with the second sliding part 311 moves gradually afterwards, rely on the first sliding part 13 as rotating shaft, the front portion of pull bar 1 upwarps gradually, when the second sliding part 311 is supported when the rear end of the second chute 14, the upper end level of the first card division 11 has exceeded the height of dustbin hook 4, now fluid-pressure cylinder 3 continues retraction, the difference in height position pulling pull bar 1 to cross first step 2111 and second step 2112 is also moved backward and front portion continues to upwarp, simultaneously the first card division 11 is caught on dustbin hook 4 and is pulled dustbin to move towards compressor station, until dustbin has docked with compressor station.

Preferably, the below of protruding 121 is formed and seamlessly transits inclined-plane 1211.When protruding 121 with dustbin link up with 4 threads off time, seamlessly transit inclined-plane 1211 dustbin of being more convenient for only making projection 121 take advantage of a situation gradually under the effect of the anterior gravity of pull bar 1 and slipping over and link up with 4 and realize dropout smoothly.

Preferably, the length of second step 2112 is greater than the diameter sum that the width of the first card division 11 and dustbin link up with 4, and this structure can ensure that the below that the first card division 11 links up with 4 by dustbin when pull bar 1 travels forward is walked around smoothly; The length of first step 2111 is greater than the distance between the first card division 11 and the second card division 12, and this structure can ensure that the below that the first card division 11 links up with 4 by dustbin when pull bar 1 moves backward is walked around smoothly; The length of described narrow groove section is greater than the distance sum between the length of described second chute and described first card division and the second card division, this structure can ensure when pull bar 1 links up with 4 for pushing away dustbin, second card division 12 can just make protruding 121 link up with 4 with dustbin to be fastened togather before pull bar 1 front portion declines, and then the promotion of realization to dustbin Forward stability.

Preferably, second step 2112 is formed with first near one end of pull bar 1 head end points and seamlessly transits chamfering a, and narrow groove section 212 is formed with second near one end of pull bar 1 head end points and seamlessly transits chamfering b.First seamlessly transits chamfering a and second seamlessly transits chamfering b while ensureing that the front end of second step 2112 and narrow groove section 212 has certain positioning action to the first sliding part 13, also be convenient to the first sliding part 13 smooth in each difference in height position under the pulling force effect that fluid-pressure cylinder 3 is certain, make action more smooth and easy.

Preferably, fluid-pressure cylinder 3 comprises cylinder main body 32 and piston rod 31, and the prolonging direction of definition piston rod 31 is front, and shortening direction is rear, and the front end of cylinder main body 3 and the rear end of carrier 2 are fixed together.In actual use, carrier 2 and compressor station are fixed together, and can ensure the firm of carrier 2, and fluid-pressure cylinder 3 and carrier 2 are fixed together and can ensure the firm of fluid-pressure cylinder 3, and can ensure that fluid-pressure cylinder 3 efficiently coordinates with carrier 2.

In order to make the push pull maneuver of pull bar 1 more steadily smooth and easy, preferably, the first sliding part 13 and the second sliding part 311 are roller.

More steadily smooth and easy in order to ensure the push pull maneuver of pull bar 1 further, preferably, carrier 2, first sliding part 13 and the second sliding part 311 that comprise two office pull bar 1 both sides comprise two rollers being divided into pull bar 1 both sides and also matching with the first chute 21 and second chute 14 of two carriers 2 respectively respectively.

Preferably, fluid-pressure cylinder 3 is oil cylinder.The fluid-pressure cylinder 3 of oil cylinder form can ensure that fluid-pressure cylinder 3 gathers the accurate and stable driving power in source, and then guarantees that the push pull maneuver of pull bar 1 is accurate and stable.

Split garbage compressor station push-and-pull case apparatus of the present invention, fluid-pressure cylinder is preferably oil cylinder, also can choose other forms of fluid-pressure cylinder structure, as cylinder etc. according to actual requirement; The concrete quantity of carrier can carry out adjusting and designing according to actual requirement; First sliding part and the second sliding part are preferably the form of roller, also can carry out adjusting and designing according to actual requirement, as also can be bearing pin or roller bearing etc.; The concrete fixed form of cylinder main body can carry out adjusting and designing according to actual requirement, and as being fixedly connected with carrier by bolt, say in a broad sense, cylinder main body also can be fixed on other positions, as being fixedly connected with compressor station; First seamlessly transits the concrete form that chamfering and second seamlessly transits chamfering can carry out adjusting and designing according to actual requirement; The concrete size of first step, second step and narrow groove section can carry out adjusting and designing according to actual requirement; The concrete angle of inclination and the form that seamlessly transit inclined-plane also can carry out adjusting and designing according to actual requirement, say the inner concave arc surface that also can be and have radian in a broad sense; Second step is lower than the height of narrow groove section, and first step can carry out adjusting and designing according to actual requirement lower than the concrete numerical value of the height of second step; The form of protruding, the first card division and the second card division also can carry out adjusting and designing according to actual requirement; The concrete shape, size etc. of pull bar and carrier all can carry out adjusting and designing according to actual requirement, as can be tabular; The concrete form of sipes section and narrow groove section also can carry out adjusting and designing according to actual requirement, as the form on plural stepped form or a whole inclined-plane; The concrete form of the first chute and the second chute can carry out adjusting and designing according to actual requirement, as two ends can be the inner concave arc surface form matched with the first sliding part and the second sliding part.

Product form of the present invention is not limited to this case diagram and embodiment, and anyone carries out suitable change or the modification of similar thinking to it, all should be considered as not departing from patent category of the present invention.

Claims (9)

1. a Split garbage compressor station push-and-pull case apparatus, comprises the pull bar extended along compressor station and dustbin orientation, to the carrier that pull bar carries, with the fluid-pressure cylinder that piston rod is connected with pull bar afterbody; Described piston rod carries out push-and-pull driving along described pull bar to pull bar; It is characterized in that: the head of described pull bar is formed with two card divisions upwards extended, be respectively closer described pull bar head end points the first card division and compared with the second card division away from pull bar head end points, described second card division is higher than described first card division, and the upper end of described second card division is formed with the projection towards described first direction, card division, and the downside of described projection is lower than the upper end of described first card division; Described carrier is formed and described pull bar the first chute in the same way, and described pull bar is provided with the first sliding part carrying out sliding that to match with described first chute; The afterbody of described pull bar is formed with second chute corresponding with described first chute, and the end of described piston rod is provided with the second sliding part carrying out sliding and rotating that to match with described first chute and the second chute; Described first sliding part is than the head of described second sliding part closer to described pull bar; Described first chute comprise closer described pull bar head end points sipes section and compared with the narrow groove section away from pull bar head end points; The top edge of described sipes section flushes with the top edge of described narrow groove section, and the lower limb of described sipes section is lower than the lower limb of described narrow groove section.

2. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 1, it is characterized in that: the lower limb of described sipes section comprise closer described pull bar head end points first step and compared with the second step away from pull bar head end points, the height of described second step is lower than the lower limb height of described narrow groove section, and the height of described first step is lower than the height of described second step.

3. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 2, is characterized in that: the below of described projection is formed and seamlessly transits inclined-plane.

4. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 3, is characterized in that: the length of described second step is greater than the diameter sum that the width of described first card division and dustbin are linked up with; The length of described first step is greater than the distance between described first card division and the second card division; The length of described narrow groove section is greater than the distance sum between the length of described second chute and described first card division and the second card division.

5. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 4, it is characterized in that: described second step is formed with first near one end of described pull bar head end points and seamlessly transits chamfering, described narrow groove section is formed with second near one end of described pull bar head end points and seamlessly transits chamfering.

6. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 5, it is characterized in that: described fluid-pressure cylinder comprises cylinder main body and described piston rod, the prolonging direction defining described piston rod is front, shortening direction is rear, and the front end of described cylinder main body and the rear end of described carrier are fixed together.

7. a kind of Split garbage compressor station push-and-pull case apparatus according to any one of claim 1-6, is characterized in that: described first sliding part and the second sliding part are roller.

8. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 7, it is characterized in that: the described carrier comprising pull bar both sides described in two offices, described first sliding part and the second sliding part comprise two respectively and are divided into described pull bar both sides and the roller matched with the first chute and the second chute chute of carrier described in two respectively.

9. a kind of Split garbage compressor station push-and-pull case apparatus according to claim 7, is characterized in that: described fluid-pressure cylinder is oil cylinder.