WO2012088883A1 - 垃圾压缩机 - Google Patents
垃圾压缩机 Download PDFInfo
- Publication number
- WO2012088883A1 WO2012088883A1 PCT/CN2011/077921 CN2011077921W WO2012088883A1 WO 2012088883 A1 WO2012088883 A1 WO 2012088883A1 CN 2011077921 W CN2011077921 W CN 2011077921W WO 2012088883 A1 WO2012088883 A1 WO 2012088883A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- compression
- casing
- garbage
- garbage compressor
- assembly
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65F—GATHERING OR REMOVAL OF DOMESTIC OR LIKE REFUSE
- B65F9/00—Transferring of refuse between vehicles or containers with intermediate storage or pressing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B9/00—Presses specially adapted for particular purposes
- B30B9/30—Presses specially adapted for particular purposes for baling; Compression boxes therefor
- B30B9/3003—Details
- B30B9/3014—Ejection means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B9/00—Presses specially adapted for particular purposes
- B30B9/30—Presses specially adapted for particular purposes for baling; Compression boxes therefor
- B30B9/3042—Containers provided with, or connectable to, compactor means
- B30B9/3046—Containers with built-in compactor means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B9/00—Presses specially adapted for particular purposes
- B30B9/30—Presses specially adapted for particular purposes for baling; Compression boxes therefor
- B30B9/3096—Presses specially adapted for particular purposes for baling; Compression boxes therefor the means against which, or wherein, the material is compacted being retractable
Definitions
- the invention mainly relates to the field of garbage disposal equipment, and particularly to a garbage compressor. Background technique
- a large number of garbage compression transfer stations have been built in existing urban and rural towns to compress and seal domestic garbage.
- the transfer station widely uses various garbage compressors to reduce and compress the garbage, and then closes and transports the compressed garbage transfer vehicles.
- the garbage compression transfer station first pre-presses the garbage into the block in the pit, then raises the garbage bin vertically to the ground, and then puts the garbage in the box into the dumping garbage transfer vehicle for closed transport.
- Traditional garbage compression transfer stations are generally divided into two types, one is a vertical garbage compressor, and the other is a horizontal buried garbage compressor.
- the vertical garbage compressor mainly consists of a rack placed on the ground, a vertical compression head, a lifting device, and a box placed in the pit (including a pre-pressure chamber, a storage chamber), a front door device, a middle door device, a push device, It consists of hydraulic and electronic control systems, with many mechanisms and complicated structure. Due to the large number of organizations, each car needs to press two pieces of garbage, so the operation is cumbersome and the garbage disposal efficiency is low. Since the vertical indenter on the ground and the lifting device have a large stroke (>3m), the frame is tall and large, and there are many institutions located in the pit. Therefore, the factory requires high clearance and is inconvenient to install and maintain.
- the horizontal buried garbage compressor is mainly composed of a box body, a front door device, a compression push head, a hydraulic pressure and an electric control system, and the whole machine is located in the pit.
- the lifting device of the whole machine is a hinged arm or a hinge shearing table, the structure is complicated and the manufacturing cost is high. And because the whole machine is located in the pit, the pit area is large, the environment inside the pit is poor, and the maintenance is inconvenient. Summary of the invention
- the technical problem to be solved by the present invention is that, in view of the technical problems existing in the prior art, the present invention provides a garbage compressor having high compression efficiency and good compression effect.
- the present invention adopts the following technical solutions:
- a garbage compressor includes a casing and a compression pusher assembly and a gate assembly installed in the casing, wherein the inner cavity of the casing between the compression pusher assembly and the gate assembly constitutes a compression chamber, wherein One end of the casing adjacent to the gate assembly extends into a working pit below the ground, the other end of which is connected or abutted against the ground.
- the garbage compressor also includes a lifting assembly that can lift the cabinet out of the working pit.
- the lifting assembly includes a rotating support and one or more lifting cylinders, the casing is rotatably mounted on the rotating support, the rotating support is fixed on the ground, and the driving end of the lifting cylinder is The cabinets are connected.
- the compression pusher assembly includes a compression driving member and a compression head connected to the telescopic end of the compression driving member, and the inner wall of the casing is provided with two or more sliding grooves along the moving direction of the compression head, and the compression head The side is slid in the chute.
- the sliding slot is a u-shaped slot
- a slider is connected to the compression head, and the slider is slidably disposed in the sliding slot.
- the box has an angle of 20° to 80° between the filling material and the compressed material and the horizontal plane on the ground.
- a protective stay is provided between the box and the floor or the side wall of the work pit.
- the end of the box adjacent to the door assembly is provided with a plane that can be fitted to the ground to form a plane. Platen.
- a feeding port is opened on the box body, and a bracket is arranged above the feeding port, and the rack is equipped with a dust reducing and deodorizing device.
- the bracket is in the shape of a canopy.
- the dust reduction and deodorization device is one or more shower nozzles.
- the tank is located at a middle and lower part of the inner side wall of one end of the gate assembly and is provided with a sewage guiding channel.
- the garbage compressor of the invention has the advantages of simple and compact structure, simple operation, convenient installation and maintenance, and the inclined assembly of the end of the box body into the working pit body and the ground, thereby improving the press-fitting efficiency of the garbage, that is, The garbage bin is inclined, the garbage is fluid, and the garbage discharged into the box can automatically fill the entire box.
- the pusher can compact the whole box into pieces by only a small number of compressions;
- the garbage compressor of the present invention has an inclined shape by extending one end of the box into the working pit body and the ground, thereby increasing the compaction density of the garbage, that is, the garbage is not easily scattered due to gravity, and is easy to compact; Because the sewage passage is arranged on both sides of the compression chamber, the waste dewatering is ensured well, and the compaction density of the garbage is ensured to be higher;
- FIG. 1 is a schematic structural view of the present invention in a state of garbage compression
- Figure 2 is a schematic view showing the structure of the present invention in a state of garbage discharge
- Figure 3 is a side view showing the structure of the present invention.
- Figure 4 is a schematic enlarged view of the structure I in Figure 3.
- Compression push head assembly 101, compression drive member; 102, compression head; 2. rotating support; 3. receiving section; 4. lifting assembly; 5. box; 501, feeding port; 502, bracket 503, dust and deodorization device; 6, door assembly; 7, walking plate; 9, pre-pressing section; 10, protection strut; 11, chute; 12, sewage diversion channel; 13, slider; 14, work pit; 15, ground; 16, compression section t specific implementation
- the garbage compressor of the present invention comprises a casing 5 and a compression pusher assembly 1 and a gate assembly 6 installed in the casing 5, and the compression pusher assembly 1 and the gate assembly
- the inner chamber of the casing 5 between 6 constitutes a closed compression chamber which is divided into a receiving section 3, a pre-compression section 9 and a compression section 16 from the side of the compression pusher assembly 1 to the side of the gate assembly 6 .
- a feeding port 501 is defined in the casing 5, and the opening position of the inlet port 501 is the casing 5 corresponding to the receiving section 3.
- the inlet 501 is large in size (up to 2m wide) and can be used to unload general trolleys and small and medium-sized motorized vehicles.
- One end of the casing 5 near the gate assembly 6 extends into the working pit 14 below the ground 15, and the other end of the casing 5 is connected or abutted on the ground 15, and the fitting manner can be selected according to actual needs, such as an articulated manner. .
- the angle between the box 5 and the horizontal surface on the floor 15 when loading and compressing the material is 20° to 80°.
- Other components on the waste compressor, such as electronic controls, hydraulic power units, etc., are placed on the ground 15.
- the above-mentioned inclined structure greatly improves the press-fitting efficiency of the garbage, that is, because the garbage bin is inclined, the garbage has good fluidity, and the garbage discharged into the box can automatically fill the entire box, and the push head only needs to perform compression for a small number of times.
- the whole box of garbage can be compacted into blocks; at the same time, the compaction density of the garbage is increased, that is, the garbage is not easily scattered due to gravity, and is easy to compact.
- the garbage compressor further includes a lifting assembly 4 that pushes the casing 5 around the hinge point and lifts it out of the working pit 14.
- the lifting assembly 4 includes a rotating support 2 and one or more lifting cylinders.
- the casing 5 is connected to the ground 15 via a rotating support 2, the driving end of the lifting cylinder is connected to the casing 5, and the other end can be connected according to actual needs. Hinged to the ground 15 or connected to other places.
- the lifting cylinder is pushed by the lifting cylinder 5 to rotate around the rotating support 2, and is raised at one end of the working pit 14 to perform the unloading operation.
- the lift assembly 4 employs two lift cylinders.
- the compression pusher assembly 1 includes a compression drive member 101 and a compression drive member 101
- the compression head 102 is connected to the telescopic end.
- the compression driving member 101 can push the compression head 102 to perform garbage compression when the garbage is compressed, and can also push the bulk garbage from the gate assembly 6 at the time of discharging.
- two or more sliding slots 11 are opened on the inner wall of the casing 5 along the moving direction of the compression head 102.
- the side surface of the compression head 101 is slidably disposed in the sliding slot 11, and the sliding slot 11 can be used as The guiding groove of the compression head 102 moving forward and backward can also be used as an important force receiving member to transmit the compressive force of the compression head 102.
- the chute 11 is a U-shaped groove, and the side of the compression head 102 is provided with a slider 13 that cooperates with the chute 11, and the compression driving member 101 is a secondary cylinder.
- a protection stay 10 is provided between the box 5 and the floor 15 or the side wall of the work pit 14 to facilitate maintenance and overhaul, thereby improving the safety and reliability of the whole machine.
- a running platform 7 for conforming to the floor surface 15 is formed to allow the collecting vehicle to travel and unload.
- the platen 7 and the floor 15 are tightly fitted to prevent the spilled garbage and the flushed sewage from flowing into the work pit 14 when feeding.
- a bracket 502 is disposed above the inlet 501, and the dust absorbing and deodorizing device 503 is mounted on the bracket 502, which can effectively prevent dust discharge and odor overflow.
- the bracket 502 has a canopy shape, and the canopy shape can ensure a closed environment and has better environmental protection.
- the dust and deodorizing device 503 is one or more shower nozzles, and the shower nozzle is connected to a clean water source.
- the middle and lower portions of the inner side wall of the box body 5 are provided with a sewage guiding channel 12, which can smoothly discharge the sewage when the garbage is compressed, and is in the working pit. Ordered centralized collection within 14.
- the sewage collected in the working pit 14 is discharged to the ground sewage tank by a sewage pump or directly discharged to the urban sewage pipe network.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Processing Of Solid Wastes (AREA)
Description
垃圾压缩机
技术领域
本发明主要涉及到垃圾处理设备领域, 特指一种垃圾压缩机。 背景技术
现有城市及农村城镇大量建造各种垃圾压缩转运站, 对生活垃圾进行 压缩处理及封闭转运。 转运站广泛使用各种垃圾压缩机对垃圾进行减容压 缩处理, 然后对压缩后的垃圾用转运车辆进行封闭转运。 垃圾压缩转运站 先将垃圾在地坑垃圾箱内预压成块, 再将垃圾箱垂直升至地面, 然后将箱 内成块的垃圾装入自卸式垃圾转运车进行封闭转运。
传统的垃圾压缩转运站一般分为两种, 一种为垂直式垃圾压缩机, 另 一种为水平地埋式垃圾压缩机。
垂直式垃圾压缩机主要由置于地面的机架、 垂直压缩头、 提升装置以 及置于地坑的箱体(含预压腔、 贮料腔)、 前门装置、 中门装置、 推料装置、 液压及电控系统等组成, 机构多, 结构复杂。 由于机构众多, 每装一车需 压制二块垃圾, 因此操作繁琐,垃圾处理效率低。 由于地面上的垂直压头及 升降装置行程大(〉3m), 机架高且大, 还有较多机构位于坑内, 因此要求 厂房净空高, 安装、 维修都不便。 因垂直压头位于卸料口上方, 卸料口敞 开而无法封闭, 作业环境是不环保的。 垂直压缩时的垃圾流动性极差, 压 缩前还需人工辅助将箱内垃圾扒平, 方可使压缩油缸工作时不因受力不匀 而受损。
水平地埋式垃圾压缩机主要由箱体、 前门装置、 压缩推头、 液压及电 控系统等组成, 整机位于地坑内。 机箱侧部或底部设有举升装置, 举升装 置一般采用铰剪臂或铰剪平台。 因是水平压缩, 垃圾因重力作用易散跨,
垃圾难以压实成块, 因此垃圾压实密度低。 因整机举升装置为铰剪臂或铰 剪台, 其结构复杂, 制作成本高。 且因整机位于坑内, 地坑面积大, 坑内 环境差, 维修不便。 发明内容
本发明要解决的技术问题就在于: 针对现有技术存在的技术问题, 本 发明提供一种压缩效率高、 压缩效果好的垃圾压缩机。
为解决上述技术问题, 本发明采用以下技术方案:
一种垃圾压缩机, 该垃圾压缩机包括箱体以及装设于箱体内的压缩推 头组件和闸门组件, 所述压缩推头组件与闸门组件之间的箱体内腔构成压 缩腔, 其中, 所述箱体的靠近闸门组件的一端伸入位于地面以下的工作地 坑中, 所述箱体的另一端连接或靠紧在地面上。
作为本发明的进一步改进:
所述垃圾压缩机还包括可将箱体抬升出工作地坑的举升组件。
所述举升组件包括转动支座和一个以上的举升油缸, 所述箱体可转动 地安装在转动支座上, 所述转动支座固定在地面上, 所述举升油缸的驱动 端与箱体相连。
所述压缩推头组件包括压缩驱动件以及与压缩驱动件的伸缩端相连的 压缩头, 所述箱体的内壁上沿着压缩头的运动方向开设有两条以上的滑槽, 所述压缩头的侧面滑设于滑槽中。
所述滑槽为 u型槽, 所述压缩头上连接有滑块, 所述滑块滑设于滑槽 中。
所述箱体在填物料和压缩物料时与地面上水平面之间的夹角为 20° 〜 80° 。
所述箱体与地面或工作地坑的侧壁之间设有保护撑杆。
所述箱体上靠近间门组件的一端上设有能够与地面贴合形成平面的走
台板。
所述箱体上开设有进料口, 所述进料口的上方设有支架, 所述支架上 装设有降尘除臭装置。 所述支架呈顶篷状。 所述降尘除臭装置为一个以上 的淋喷头。
所述箱体位于闸门组件一端内侧壁上的中下部开设有污水导流通道。 与现有技术相比, 本发明的优点在于:
1、 本发明的垃圾压缩机, 结构简单紧凑、 操作简便、 安装维修方便, 由于将箱体的一端伸入工作坑体内与地面之间形成斜置式, 因此提高了垃 圾的压装效率, 即因垃圾箱斜置, 垃圾流动性好, 卸入箱体的垃圾可自动 充满整个箱体, 推头只需进行较少次数的压缩, 就可将整箱垃圾压实成块;
2、 本发明的垃圾压缩机, 由于将箱体的一端伸入工作坑体内与地面之 间形成斜置式, 因此提高了垃圾压实密度, 即垃圾因重力作用不易散落, 容易压实; 而且更因压缩腔两侧设污水通道, 保证垃圾脱水良好, 更可确 保垃圾压实密度更高;
3、 本发明的垃圾压缩机, 整机的举升由油缸的伸缩配合支座的转动来 完成, 无需任何导向结构和装置, 操作十分简便。 附图说明
图 1是本发明处于垃圾压缩状态时的结构示意图;
图 2是本发明处于垃圾卸料状态时的结构示意图;
图 3是本发明的侧视结构示意图;
图 4是图 3中 I处的放大结构示意图。
图例说明:
1、 压缩推头组件; 101、 压缩驱动件; 102、 压缩头; 2、 转动支座; 3、 受料段; 4、 举升组件; 5、 箱体; 501、 进料口; 502、 支架; 503、 降尘除 臭装置; 6、 间门组件; 7、 走台板; 9、 预压段; 10、 保护撑杆; 11、 滑槽;
12、 污水导流通道; 13、 滑块; 14、 工作地坑; 15、 地面; 16、 压缩段 t 具体实施方式
以下将结合说明书附图和具体实施例对本发明做进一步详细说明。 如图 1、 图 2和图 3所示, 本发明的垃圾压缩机, 包括箱体 5以及装设 于箱体 5内的压缩推头组件 1和闸门组件 6, 压缩推头组件 1与闸门组件 6 之间的箱体 5 内腔构成封闭的压缩腔, 该压缩腔从压缩推头组件 1一侧到 闸门组件 6—侧依次分为受料段 3、 预压段 9和压缩段 16。 箱体 5上开设 有进料口 501, 进料口 501的开设位置为对应受料段 3的箱体 5上。进料口 501 的尺寸宽大 (内宽达 2m以上), 可满足一般手推车和中小型机动收集 车卸料。 箱体 5上靠近闸门组件 6的一端伸入位于地面 15以下的工作地坑 14中, 箱体 5的另一端连接或靠紧在地面 15上, 可根据实际需要选择配合 方式, 例如铰接方式等。 箱体 5在装填物料和压缩物料时与地面 15上水平 面之间的夹角为 20° 〜80° 。 垃圾压缩机上其它的部件, 例如电控装置、 液压动力装置等均置于地面 15上。 上述斜置式结构大大提高了垃圾的压装 效率, 即因垃圾箱斜置, 垃圾流动性好, 卸入箱体的垃圾可自动充满整个 箱体, 推头只需进行较少次数的压缩, 就可将整箱垃圾压实成块; 同时, 提高了垃圾压实密度, 即垃圾因重力作用不易散落, 容易压实。
进一步, 垃圾压缩机还包括一可推着箱体 5绕铰点旋转并抬升出工作 地坑 14的举升组件 4。 在进行卸料时, 通过举升组件 4将箱体 5抬起后即 可完成。 举升组件 4包括转动支座 2和一个以上的举升油缸, 箱体 5通过 转动支座 2连接于地面 15上, 举升油缸的驱动端与箱体 5相连, 另一端则 可以根据实际需要铰接于地面 15上或连接于其他地方。通过举升油缸推着 箱体 5绕转动支座 2转动, 位于工作地坑 14的一端抬升起来, 进行卸料作 业。 本实施例中, 举升组件 4采用两个举升油缸。
进一步, 压缩推头组件 1包括压缩驱动件 101 以及与压缩驱动件 101
伸缩端相连的压缩头 102,此压缩驱动件 101可以在压缩垃圾时推动压缩头 102进行垃圾压缩,还可以在卸料时将成块的垃圾从闸门组件 6处推出。参 见图 4,在箱体 5的内壁上沿着压缩头 102的运动方向开设有两条以上的滑 槽 11,压缩头 101的侧面滑设于滑槽 11中,该滑槽 11既可用作压缩头 102 前后运动的导向槽, 又可用作重要受力部件传递压缩头 102强大的压缩力。 本实施例中, 滑槽 11为 U型槽, 压缩头 102的侧面上设有与滑槽 11配合 的滑块 13, 压缩驱动件 101为二级油缸。
进一步,箱体 5与地面 15或工作地坑 14的侧壁之间设有保护撑杆 10, 可方便维护和检修, 提高整机的安全性和可靠性。
进一步, 在箱体 5上靠近闸门组件 6的一端上设有用来与地面 15贴合 形成平面的走台板 7, 可供收集车行走及卸料。 走台板 7与地面 15的贴合 严密, 可防止进料时洒落的垃圾和平时冲洗的污水流入工作地坑 14。
进一步,在进料口 501的上方设有支架 502, 支架 502上装设有降尘除 臭装置 503, 可有效防止卸料扬尘及臭味外溢。 本实施例中, 支架 502呈顶 篷状, 顶篷状能够保证一个封闭的环境, 具有较好的环保性。 降尘除臭装 置 503为一个以上的淋喷头, 淋喷头与洁净水源相连。
进一步, 箱体 5 (含受料段 3、 预压段 9和压缩段 16) 内侧壁上的中下 部开设有污水导流通道 12, 可将垃圾压缩时的污水顺畅排出, 并于工作地 坑 14内有序集中收集。 工作地坑 14内集中收集的污水用排污泵排至地面 污水池内, 或直接排往城市污水管网。
以上仅是本发明的优选实施方式, 本发明的保护范围并不仅局限于上 述实施例, 凡属于本发明思路下的技术方案均属于本发明的保护范围。 应 当指出, 对于本技术领域的普通技术人员来说, 在不脱离本发明原理前提 下的若干改进和润饰, 应视为本发明的保护范围。
Claims
1. 一种垃圾压缩机, 该垃圾压缩机包括箱体(5) 以及装设于箱体(5) 内的压缩推头组件 (1) 和闸门组件 (6), 所述压缩推头组件 (1) 与闸门 组件 (6) 之间的箱体 (5) 内腔构成压缩腔, 其特征在于: 所述箱体 (5) 的靠近闸门组件(6) 的一端伸入位于地面(15) 以下的工作地坑(14) 中, 所述箱体 (5) 的另一端连接或靠紧在地面 (15) 上。
2. 根据权利要求 1所述的垃圾压缩机, 其特征在于: 所述垃圾压缩机 还包括可将箱体抬升出工作地坑 (14) 的举升组件 (4)。
3. 根据权利要求 2所述的垃圾压缩机,其特征在于:所述举升组件(4) 包括转动支座 (2) 和举升油缸, 所述箱体 (5) 可转动地安装在所述转动 支座 (2) 上, 所述转动支座 (2) 固定在地面 (15) 上, 所述举升油缸的 驱动端与箱体 (5) 相连。
4. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述压 缩推头组件 (1) 包括压缩驱动件 (101) 以及与压缩驱动件 (101) 的伸缩 端相连的压缩头 (102), 所述箱体 (5) 的内壁上沿着压缩头 (102) 的运 动方向开设有两条以上的滑槽 (11), 所述压缩头 (101) 的侧面滑设于滑 槽 (11) 中。
5. 根据权利要求 4所述的垃圾压缩机, 其特征在于: 所述滑槽 (11) 为 U型, 所述压缩头 (101) 上连接有滑块 (13)上, 所述滑块 (13)滑设 于所述滑槽 (11) 中。
6. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述箱 体(5)在填物料和压缩物料时与地面(15)上水平面之间的夹角为 20° 〜 80° 。
7. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述箱 体 (5) 与地面 (15) 或工作地坑 (14) 的侧壁之间设有保护撑杆 (10)。
8. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述箱 体 (5) 上靠近闸门组件 (6) 的一端上设有能够与地面 (15) 贴合形成平 面的走台板 (7)。
9. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述箱 体(5)上开设有进料口 (501), 所述进料口 (501)的上方设有支架(502), 所述支架 (502) 上装设有降尘除臭装置 (503)。
10. 根据权利要求 1或 2或 3所述的垃圾压缩机, 其特征在于: 所述箱 体 (5) 的位于闸门组件 (6) —端的内侧壁上的中下部开设有污水导流通 道 (12)。
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ITFI20120263A1 (it) * | 2012-11-29 | 2014-05-30 | Dabizzi Valerio & C S N C | Pressa a buca per imballo e procedimento di messa in opera della pressa. |
WO2015090454A1 (en) * | 2013-12-20 | 2015-06-25 | Envac Ab | Container compaction |
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CN102424225B (zh) * | 2011-12-23 | 2013-10-02 | 长沙中联重科环卫机械有限公司 | 垃圾压缩机 |
CN103042710B (zh) * | 2012-12-26 | 2015-09-02 | 长沙中联重科环卫机械有限公司 | 垃圾压缩机及其压缩装置 |
CN103274150B (zh) * | 2013-05-16 | 2018-04-27 | 华达(福建龙岩)环卫科技有限公司 | 斜压可分式垃圾压实机 |
CN104859988A (zh) * | 2015-05-27 | 2015-08-26 | 苏州科锐恒机械科技有限公司 | 一种垂直地埋式压缩垃圾站 |
CN105858025B (zh) * | 2016-05-10 | 2018-07-24 | 成都易顺通环保科技有限公司 | 固废物生活垃圾管道运输沉降式压缩分离装置 |
CN106115138A (zh) * | 2016-07-30 | 2016-11-16 | 合肥白云环卫设备有限公司 | 一种地下水平垃圾压缩机 |
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