The present invention relates to waste compacting devices, and in particular to devices that are appropriate for kitchen environments, where it is desirable to compact waste objects like plastic and metal containers, for example plastic bottles and tin or aluminum cans.
A particular requirement in such devices is that of separately compacting the various objects depending on the type of object that needs to be compacted, and then separately collecting the various types of compacted objects.
During the compacting operation, the objects are compressed to occupy less space and separately collected, for example each type of waste is collected in a specific container.
The cycle of compaction and separate collection becomes necessary and vital in the treatment of waste produced by a population.
Treating of waste for its reuse requires separate collection and increased optimization of the management of the waste produced in the domestic environment and other areas.
Consequently there is an increasing requirement of compacting a greater number of types of waste and separately collecting them when they have been compacted.
EP 1707345 describes a waste compacting unit capable of separately compacting different objects like plastic containers and metal containers, and separately collecting these objects after compacting. More particularly, each type of object can be compacted with an appropriate compression cycle in a compacting chamber that is dedicated to a type of waste. Successively, the compacted objects are discharged into specific containers, which have been aligned with an assigned compacting chamber.
The height of the space occupied by the compacting chamber and the lower collection containers notably influences the accommodation of the compacting device in required locations. In fact, the height of this space becomes relevant in those devices of reduced height, for example devices with height less than 50 cm, which need to be located under washing basins of kitchen units or in other locations where the available height is limited.
The bottom surfaces of the compacting chamber support the objects during the compacting operation, and are opened during, or after, the final stage of the compression, to allow the compacted objects to fall into the respective collecting containers.
The bottom surfaces can be portions of hinged structures that rotate to be opened so that the compacted object falls into a container. The hinged structures when rotating occupy space which is above or within the collecting container. The height of this space becomes particularly relevant when designing the size of the waste compacting unit. This space influences the above mentioned space for accommodation of the compacting device in required locations. In some cases the waste compacting unit also needs to be adjacent to waste grinding units like those described in WO2008000510, therefore also the width of the compacting device should not be considerably influenced by the solution for supporting the objects to be compacted.
In addition, solutions are required for assisting and optimizing loading of the object to be compacted by a user.
It is an object of the invention to provide waste compacting devices which occupy less space in height in the position where the waste compacting devices need to be located to operate.
It is also an object of the invention to provide waste compacting devices which occupy less space in width in the position where waste compacting units need to be located to operate.
It is another object of the invention to provide compacting devices in which loading of the object to be compacted by the user is facilitated and optimized.
It is yet an object of the invention to provide compacting devices in which removal of the compacted objects from the devices by the user is facilitated and optimized.
It is a further object of the invention to provide waste compacting units that are equipped with support assemblies in the compacting chambers for supporting the waste objects during the compacting operation in which support members can be opened to discharge the compacted objects and occupy less space during their motion for opening.
It is also an object of the invention to provide waste compacting devices equipped with supporting structures in the compacting chambers for supporting the objects during the compacting operation, in which the support assemblies can be rapidly and accurately moved during the opening motion to discharge the compacted objects.
It is another object of the invention to provide a compacting device that is able to compact a greater number of types of waste and separately collect the various types of compacted waste.
It is also an object of the invention to provide a compacting device that is able to compact a greater number of types of waste and occupies minimum space in height where the device is located.
These and other objects are accomplished with a compacting apparatus according to an embodiment of the invention comprising:
A support member can comprise a support surface and at least one arm for connecting the support surface to a rotation centre of the support member; the arm can be hinged to the structure of the seat for rotating the support member.
One of the support member can be driven by a motor to rotate around a rotation centre, whilst the other support member can rotate around a further rotation centre and be moved by the motion of the first support member.
Movement of the push member can cause the support members to rotate around respective rotation centers when the push member moves within the seat for compacting a waste object; the rotation of the support members can be derived from engagement of an assembly of the push member with a cam surface of a support member.
A waste compacting device can be moved between a position where the objects to be compacted can be loaded from a vertical direction and a position where the waste compacting device becomes operative to carry out the compacting operation and discharge the compacted objects.
An air duct can be positioned above the seat to supply heated air around an object to be compacted. The heated air improves the compacting operation, whilst the support members contribute to convey the heated air around the object.
According to a further embodiment of the invention there is provided an apparatus for compacting waste objects comprising:
Preferably the seat is adapted to receive the waste object to be compacted in a vertical direction when the seat is in the first position.
Preferably the means for supporting the seat comprises a fixed structure for supporting the seat and a moveable supporting portion; the means for moving the seat comprises a guide means that is arranged between the frame of the device and the moveable supporting portion.
According to a further embodiment of the invention there is provided an apparatus for compacting waste objects of at least a first type and a second type comprising:
Preferably the means for impeding comprise support members of the support assembly; an actuator for moving the support members and a control system for the actuator
Preferably the means for collecting compacted objects of the second type are adjacent to the support assembly.
Preferably the means for impeding comprises support members of the support assembly, an actuator for the movement of the support members and a control system of the actuator.
Preferably, the seat extends above at least two collection containers of the compacted objects, wherein a first collection container is aligned with a portion of the length of the seat adjacent a first end wall of the seat for collecting compacted objects of the first type and a second collection container is aligned with a portion of the length of the seat adjacent a second end wall of the seat for collecting compacted objects of a third type
Preferably, means are provided for moving the seat from a first position in which an object to be compacted is loaded in the seat to a second position in which the object of the first type is compacted. Preferably the object of the second type is compacted with the seat in the first position.
According to an embodiment of the invention which optimizes the compacting result, protuberances can be applied to the push member and an end wall of the seat for producing depressions in the compacted object; the protuberances having a major extension dimension in a direction that is parallel to a plane that is perpendicular to the direction for moving the push member to compact the waste objects
The invention will now be described with reference to the following description relating to exemplary embodiments thereof, which are exemplifying but not limitative, and with reference to the accompanying drawings, wherein:
With reference to
As shown in
Rotation of the screws can occur by means of a motor and reduction gear assembly 102, as illustrated in
The translation in direction X causes push member 12 to compress an object like a plastic bottle 11 as illustrated in
A translation in the opposite direction X′ returns the push member to the rest position as illustrated in
Furthermore, the translation in direction X′ of push member 12 can be used to compress another object, like a metal can, against surface 16′ of wall 16. Therefore seat 10 can be delimited also by end wall 16 when push member 12 pushes a metal can against surface 16′.
The object to be compacted 11 is supported by a support assembly comprising support members 18 and 19 (see also
In particular, support members 18 and 19 have respective edges 18′ and 19′, which are adjacent to each other in the closed position to support an object, as shown in
The object that needs to be compacted can be positioned in seat 10 with its major dimension positioned approximately parallel to axis 10′ in seat 10, see the example of the plastic bottle 11 of
For an object of a second type, like a metal can which has been compacted by the translation of member 12 in opposite direction X′, therefore with a pressing action against surface 16′ of the end wall 16 (see
The user can position the object into seat 10 from an upper position to a lower position (see direction Z), as shown in
The compacting device and containers 20 and 20′ can be assembled on a carriage 53 by means of a supporting and connecting structure 55 (see
The upper portion 50′ of frame 50 can be positioned below a kitchen basin. In this situation the solution described above for extracting the compacting device in direction X′ to position A makes it possible to load seat from the above without interfering with overhead structures.
The surface 13′ of wall 13 is provided with device 17 (see
Each device 17 comprises a pin with a pointed end for puncturing the object 11. The pin is surrounded by a cylindrical edge fixed to surface 13′. The pins are able to pass through surface 13′ and are carried by springs (not shown).
For an additional type of object that needs to be compacted, like a carton box 100 (see
Impeding discharge of object 100′ is achieved by foreseeing a functioning cycle in which motor 30 for opening support members 18 and 19 after compacting of object 100 is not activated by controls 103 of the compacting device (see
After compacting object 100, push member 12 is moved by activating the motor and reduction gear 102 to move in direction X (see
This leaves enough space for the user to grasp object 100′ and transfer it manually to container 30. Container 30 can be specific for compacted carton objects and will therefore result positioned on one side of seat 10 after compacting.
Transfer of the compacted carton objects 100′ to container 30 can occur with manual lifting of the object 100′ from seat 100, by passing through entrance 40 followed by lateral translation of object 100′ for the alignment with container 30. After this alignment, object 100′ can be allowed to drop or be accompanied into container 30.
To perform the loading condition of object 100′, the compacting device is brought to the position A illustrated in
The compacting device and the containers 20, 20′ and 30 can be assembled on carriage 53 by means of supporting and connection structure 55 (see
In particular, the translation of carriage 53 in direction X returns the compacting device and the containers 20, 20′ and 30 to internal position B of frame 50, where the compression and discharge of the compacted objects in container 20 and 20′ can occur, whilst the translation of carriage 53 in opposite direction X′ returns the compacting device with containers 20, 20′ and 30 to the extracted position A outside of frame 50, where in general the objects can be loaded to be compacted in seat 10, compacting of objects like carton 100 and unloading of the carton type of compacted objects in their respective container 30.
In the solution of
In the solution of
Still within the solution of
In the extracted position A the collection containers 20, 20′ can be easily removed from carriage 65 with a lateral movement in direction L when they need to be unloaded.
The user can push front panel 62 to move carriage 65 in direction X to reach position B or the user pulls front panel 62 to move carriage 65 in direction X′ to reach position A.
Furthermore, in the solution of
The user pulls the front panel 82 to move carriage 80 in direction X′ to reach extracted position A or pushes the front panel 82 to move carriage 80 to move in direction X to reach internal position B.
In both the solutions of
As shown in
Furthermore, edges 18′ and 19′ and all the other portions which form members 18 and 19 are positioned laterally with respect to seat 10 and to the aperture P which is being formed. In fact, the support members 18 and in being separated to form the aperture P move laterally to become adjacent to side walls 22 which delimit seat 10.
Members 18 and 19 are provided, respectively, with curvilinear surfaces 18″ and 19″ for supporting objects like 11. The concavity of surfaces 18″ and 19″ face seat (see
The height of the space occupied by members 18 and 19 in being opened and closed can be above aperture P, which is progressively formed and can be contained in the same height occupied by the lateral walls 22 of seat 10 (see
Furthermore, the fact that members 18 and 19 become positioned adjacent to the lateral walls 22 which delimit seat 10 (see
Each support member 18 and 19 is provided with arms, indicated with 23 and 24, that are placed at the ends of the support members 18 and 19, as shown in
In particular, the pins of two adjacent arms 23 and 24, which are at end of support members 18 and 19, are positioned on plate 13 in the positions indicated with 23′ and 24′ of the face 13″ behind gear 32 (see
With arms 23 and 24 that are hinged as it has been described above, gears 26 which are concentric with bores (see
In this way, the transmission of opening and closing rotations R and R′ of arms 23 and 24 occurs through gears for progressively forming and closing aperture P. Furthermore, a synchronous transmission occurs between members 18 and 19 due to the engagement of gears 26.
Support member 18 is fixed to a gear member 28 (see
The motor shaft housed in bore 29′ belongs to motor 30, which is fixed to plate 31 (see
Rotation of motor 30 in direction R′ causes support members 18 and 19 to rotate around pins which are received in bores 25 and therefore support members 18 and 19 to open for reaching the condition shown in
The rotations R and R′ of motor 30 causes direct rotation of support member 18, whilst the gears 26 described above transmit synchronous rotations of motor 30 from support member 18 to support member 19.
The gear train shown in
As shown in
End path switches 41 and 41′ are fixed to plate 13 and are connected to control unit 103 of the compacting device for monitoring the end positions reached by the gear sector 29. In this way control unit 103 determines when a complete aperture or a complete closure of support members 18 and 19 is reached for allowing further operation sequences of the device.
In
In fact,
In the solution of
With reference to the solution of
The alternative solution of
The heated air is distributed around the object (see arrows 60′ in
Object 11 results aligned with the distributor of heated air 105 when seat 10 is in the operation position B within frame 50. In this situation, distributor 105 results positioned above seat 10 and extends along the object as shown in
The air can be fed by a ventilator 106 (see
With reference to
Neck and top 111 of bottle 11 can be seated in a recess 112 of push member 12.
Members 120 can be located in a spacing existing between protuberances of push member 12 and protuberances of end wall 13, as shown in
When the compression action of push member 12 is removed by moving push member 12 away from end wall 13, members 120 elastically react and return to their original configuration. The return motions of members 120 to their original configuration obtain that members 120 push compacted object 11′ away from push members 12, or from end wall 13, and therefore unwanted attachment of compacted object 11′ on push members 12, or on end wall 13 is avoided. This attachment can be due to adherence of the compacted object 11′ on the surfaces of protuberances 110. The adherence can impede discharge of the compacted object in a container like 20 or 20′ when support members 18 and 19 are moved to form the discharge aperture (P). Protuberances 110 and members 120 can be assembled on slides 118 and 119 which are assembled in a removable manner respectively on push member 12 and end wall 13 in direction towards and away from the observer viewing
The foregoing description of the specific embodiments will so fully reveal the invention according to the conceptual point of view, so that others, by applying current knowledge, will be able to modify and/or adapt for various applications such embodiments without further research and without departing from the invention, and it is therefore to be understood that such adaptations and modifications will have to be considered as equivalent to the specific embodiments. The means and the materials to realise the different functions described herein could have a different nature without, for this reason, departing from the field of the invention. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation.
Number | Date | Country | Kind |
---|---|---|---|
PI2008A0098 | Sep 2008 | IT | national |
PI2008A0099 | Sep 2008 | IT | national |
PI2008A0100 | Sep 2008 | IT | national |
This is a division of U.S. patent application Ser. No. 14/338,115, filed Jul. 22, 2014 (now U.S. Pat. No. 10,105,922), which is a continuation of U.S. patent application Ser. No. 13/119,653, filed Mar. 17, 2011 (now U.S. Pat. No. 8,813,643) as the United States National Stage of International Patent Application No. PCT/EP2009/006903, filed Sep. 24, 2009, each of which is hereby incorporated herein by reference in its respective entirety.
Number | Name | Date | Kind |
---|---|---|---|
2638957 | Danielson | May 1953 | A |
3358590 | Howard | Dec 1967 | A |
3460463 | Jernstrom | Aug 1969 | A |
3768398 | Ullman | Oct 1973 | A |
4064798 | Wolbrink et al. | Dec 1977 | A |
4213384 | Telling | Jul 1980 | A |
4269114 | Schwarz | May 1981 | A |
4518142 | Sulcek | May 1985 | A |
5465660 | Conti et al. | Nov 1995 | A |
5858235 | Nagaoka | Jan 1999 | A |
6138558 | Harrington | Oct 2000 | A |
7874247 | Wideall | Jan 2011 | B2 |
8813643 | Santandrea | Aug 2014 | B2 |
10105922 | Santandrea | Oct 2018 | B2 |
20030057144 | Wang | Mar 2003 | A1 |
Number | Date | Country |
---|---|---|
20 08 519 | Feb 1972 | DE |
86 08 743 | May 1986 | DE |
197 09 858 | Sep 1998 | DE |
101 30 006 | Feb 2003 | DE |
103 48 009 | May 2005 | DE |
0 568 423 | Nov 1993 | EP |
1 707 345 | Oct 2006 | EP |
2 070 691 | Jun 2009 | EP |
2447612 | Sep 2008 | GB |
8 066796 | Mar 1996 | JP |
9-24495 | Jan 1997 | JP |
9 155303 | Jun 1997 | JP |
10 156589 | Jun 1998 | JP |
11-104892 | Apr 1999 | JP |
2000 312994 | Nov 2000 | JP |
2001-058171 | Mar 2001 | JP |
2001-259894 | Sep 2001 | JP |
WO 8102802 | Oct 1981 | WO |
WO 02102580 | Dec 2002 | WO |
WO 2008000510 | Jan 2008 | WO |
Number | Date | Country | |
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20190255793 A1 | Aug 2019 | US |
Number | Date | Country | |
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Parent | 14338115 | Jul 2014 | US |
Child | 16153009 | US |
Number | Date | Country | |
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Parent | 13119653 | US | |
Child | 14338115 | US |