FR3127938A1 - SELF-CONTAINED WASTE CONTAINER STORAGE DEVICE - Google Patents

Abstract

The invention relates to a device (1) for underground storage of waste containers (8a, 8b), comprising a platform (5a, 5b) movable inside a pit (2) , platform drive means (30-34, 41, 45-55), an electric motor (50) arranged in the pit, coupled to the drive means, and a battery (61) for powering the engine. The device comprises at least one photovoltaic panel (14, 15) arranged on a substantially vertical wall of the waste collection structure (20), at least one regulator supplying a battery charging voltage from a voltage supplied by the photovoltaic panel, at least one electric box arranged in the pit, receiving the battery and the voltage regulator, a flexible electric cable (16) connecting the photovoltaic panel (14, 15) and the electric box, having a sufficient length to travel a distance between the electrical box and the photovoltaic panel when the platform is in the high position, and extending into the pit when the platform (5a, 5b) is in the low position, and a counterweight (59) connected to the drive means by at least one deformable link (55). Figure for the abstract: Fig. 3

Description

SELF-CONTAINED WASTE CONTAINER STORAGE DEVICE

The present invention relates to an underground storage device for at least one waste container, comprising at least one mobile platform in vertical translation inside a pit, at least one receiving casing of the waste container, arranged on the platform, at least one structure for collecting waste, such as a hopper, arranged above the receiving casing of the waste container, mechanical means for driving the platform in vertical translation, the platform being able to occupy a low position in which the waste container is retracted into the pit, and a high position in which the waste container is located outside the pit, an electric motor arranged in the pit, coupled to the mechanical means for driving the platform by the through a speed reducer, and a battery for powering the motor.

STATE OF THE ART

An underground storage device for waste containers of the aforementioned type is known from FR1401262 in the name of the applicant. The device is powered by a removable battery that the user must have with him and must insert into a connector to power the motor. It is also known to produce autonomous devices powered by a battery recharged by solar energy. However, underground waste container storage devices are large devices, designed to lift containers of up to several hundred kilograms, and are known to be incompatible with solar power. In addition, the provision of photovoltaic panels is itself incompatible with the requirements applicable to street furniture, which must remain as discreet as possible and not present any projecting element other than those required by their function. It is therefore excluded to provide supports for photovoltaic panels to specifically supply such devices. Thus, although consideration has already been given to making waste container storage devices using solar energy, for example in FR3065948A1 for a device with hydraulic cylinders, the various solutions proposed, often whimsical or unrealistic, have not never been put into practice. On the other hand, it has been more reasonably proposed to use solar energy to power certain parts or components of such devices which do not require much electrical energy. Thus, the document US2008203097 proposes using solar energy to electrically power a control module of a waste container. The document FR2763051A1 describes a waste collection device comprising a mobile structure operating as a freight elevator, in which a solar panel supplies batteries or batteries allowing the area lighting functions, to supply data transmission devices , and indicator lights to visualize the filling status of each container. Finally, document WO2019130302A1 proposes using solar energy to electrically power a "BMU" ("Garbage Bin Monitoring Unit") control unit of a garbage collection system.

The present invention aims to improve an underground storage device for waste container(s) of the aforementioned type, by the use of solar energy. The present invention is based on many months of research, development, and tests in environments simulating real conditions of use, aimed at overcoming the prejudice of the incompatibility of solar technology with this field of application. These studies and developments have led to the surprising finding that the use of a photovoltaic panel arranged on a wall of a waste collection structure, without adding an additional support surface for the photovoltaic panel, in combination with the use of a counterweight to limit the energy supplied by the motor, and various optimizations, can make it possible to make such a device entirely autonomous, and this in a range of use greater than the real daily needs in terms of cycles of ascent and descent from the platform.

It was thus possible to produce a device capable of carrying out at least four cycles of ascent and descent of the platform per day, with ascent cycles lasting less than 30 seconds and a total waste load between 300 and 500 kg, with only two to five hours of daily light under normal light conditions, with or without the presence of clouds, in summer as in winter in temperate regions, and whatever the cardinal orientation of the substantially vertical wall of the waste collection structure.

More particularly, embodiments of the invention relate to an underground storage device for at least one waste container, comprising at least one platform movable in vertical translation inside a pit, at least one receiving envelope of the waste container, arranged on the platform, at least one waste collection structure, such as a hopper, arranged above the receiving casing of the waste container, mechanical means for driving the platform in vertical translation , the platform being able to occupy a low position in which the waste container is retracted into the pit, and a high position in which the waste container is located outside the pit, an electric motor arranged in the pit, coupled to the mechanical means for driving the platform via a speed reducer, and a battery for powering the motor, the device comprising at least one photovoltaic panel arranged on a substantially vertical wall of the waste collection structure, at least one voltage regulator supplying a battery charging voltage from a voltage supplied by the photovoltaic panel, at least one electrical box arranged in the pit, to receive the voltage regulator, the battery, and a circuit of motor control, a flexible electrical cable connecting the photovoltaic panel and the electrical box receiving the voltage regulator, the cable having a sufficient length to travel a distance between the electrical box and the photovoltaic panel when the platform is in the raised position, and s extending into the pit when the platform is in the low position, and a counterweight connected to the mechanical drive means of the platform by at least one deformable link, to reduce the electric consumption of the motor during a cycle of ascent of the platform.

According to one embodiment, the substantially vertical wall receiving the photovoltaic panel forms all or part of a rear face of the waste collection structure, the waste collection structure comprising a front face comprising a waste introduction orifice.

According to one embodiment, the device comprises a first photovoltaic panel placed on a substantially planar region of the substantially vertical wall of the waste collection structure, a second photovoltaic panel placed on a region at least partly substantially convex of the substantially vertical wall. vertical of the waste collection structure, each photovoltaic panel being connected by the flexible electrical cable to an electrical voltage regulator arranged in the electrical box.

According to one embodiment, the device comprises two platforms integral with the same support and two envelopes for receiving waste containers arranged on the platforms, and in which the flexible electric cable extends, when the platforms are in the low position, in a space separating the two container receiving envelopes.

According to one embodiment, the motor control circuit is configured to monitor the current flowing through the motor and cut off the power supply to the motor when, during a cycle of raising or lowering the platform, the current flowing through the motor exceeds a determined current threshold for a determined time, the determined current threshold and the determined time being adjustable variables of the motor control circuit.

According to one embodiment, the mechanical drive means of the platform comprise an upper stop and a lower stop corresponding respectively to the upper position and to the lower position of the platform, the electrical consumption of the motor increases significantly when the mechanical means of drive of the platform reach the upper stop or the lower stop, and the determined current threshold is lower than the current flowing through the motor when the mechanical means for driving the platform reach the upper stop or the lower stop.

According to one embodiment, the device is configured so that, under normal lighting conditions, with or without the presence of clouds, in summer as in winter in temperate regions, and whatever the cardinal orientation of the wall substantially vertical of the waste collection structure, two to five hours of illumination gives the device the ability to perform at least four cycles of raising and lowering the platform, with raising cycles lasting less than 30 seconds achieved with a total waste load of between 300 and 500 kg.

According to one embodiment, the device comprises two vertical posts, a platform drive carriage, movable in vertical translation along the two vertical posts by means of rollers rolling along the vertical posts, and a horizontal structure to which is fixed via bearings to a drive shaft of the carriage.

According to one embodiment, the deformable link cooperates with the drive shaft via a coupling means such as a roller or a fixed gear, and comprises a first end attached to the carriage, and a second end attached to the counterweight, the counterweight moving vertically in a space located outside the container reception envelope, in particular a space which can extend between two waste container reception envelopes.

According to one embodiment, the device is assembled in a tank delimiting the pit, the tank being placed or intended to be placed in an excavation made in the ground.

According to one embodiment, the electrical box is arranged under the motor, and has reduced dimensions of the order of two to three tens of centimeters in width and in length, and a depth less than its width and its length.

BRIEF DESCRIPTION OF FIGURES

Examples of embodiments of an underground storage device for waste containers will be described in the following without limitation, in relation to the attached figures, including:

there is a sectional view of an underground waste container storage device in a low position,

there is a cross-sectional view of the device in a raised position,

there is a sectional view of the device in the low position along a section plane perpendicular to that of Figures 1 and 2,

there is a top view of the device, showing certain elements by transparency,

there is a perspective view of a waste collection structure of the device,

there is an expanded view of part of the ,

there is an expanded view of another part of the ,

FIGS. 8A and 8B show the interior of an electrical box of the device,

there shows a control member of the device,

there shows a device for receiving signals sent by the control device,

there shows the electrical architecture of the device,

there is the block diagram of an embodiment of a control circuit of the device,

FIGS. 13A, 13B illustrate steps for monitoring the current consumed by the device, and

there shows an optional feature of the device.

Claims (10)

Device (1) for underground storage of at least one waste container (8a, 8b), comprising:
- at least one platform (5a, 5b) movable in vertical translation inside a pit (2),
- at least one envelope (6a, 6b) for receiving the waste container (8a, 8b), placed on the platform (5a, 5b),
- at least one structure (20) for collecting waste, such as a hopper, arranged above the casing (6a, 6b) for receiving the waste container,
- mechanical means (30-34, 40-46, 55-59) for driving the platform (5a, 5b) in vertical translation, the platform being able to occupy a low position in which the waste container is retracted into the pit , and a high position in which the waste container is outside the pit,
- an electric motor (50) arranged in the pit, coupled to the mechanical drive means of the platform via a speed reducer (51), and
- a battery (61) for powering the motor,
characterized in that it comprises:
- at least one photovoltaic panel (14, 15) arranged on a substantially vertical wall (21, 21a, 21b) of the waste collection structure (20),
- at least one voltage regulator (62, 63) providing a charging voltage (Vreg) of the battery from a voltage provided (Vpp1, Vpp2) by the photovoltaic panel,
- at least one electrical box (60) arranged in the pit, to receive the voltage regulator (62, 63), the battery (61), and a motor control circuit (64, CCT),
- a flexible electrical cable (16) connecting the photovoltaic panel (14, 15) and the electrical box receiving the voltage regulator (62, 63), the cable having a sufficient length to travel a distance between the electrical box and the photovoltaic panel when the platform is in the high position, and extending into the pit when the platform (5a, 5b) is in the low position, and
- a counterweight (59) connected to the mechanical means (30-34, 40-46, 57-58) for driving the platform by at least one deformable link (55,56), to reduce the electrical consumption of the motor during of a platform ascent cycle. Device according to Claim 1, in which the substantially vertical wall (21, 21a, 21b) receiving the photovoltaic panel forms all or part of a rear face (21, 21a, 21b) of the waste collection structure, the waste collection comprising a front face (22) comprising a waste introduction orifice. Device according to one of Claims 1 and 2, comprising:
- a first photovoltaic panel (14) disposed on a substantially flat region (21a) of the substantially vertical wall (21) of the waste collection structure (20),
- a second photovoltaic panel (15) disposed on an at least partly substantially convex region (21b) of the substantially vertical wall (21) of the waste collection structure (20),
and in which each photovoltaic panel (14, 15) is connected by the flexible electrical cable (16) to an electrical voltage regulator (62, 63) arranged in the electrical cabinet (60). Device according to one of Claims 1 to 3, comprising two platforms (5a, 5b) integral with the same support (30) and two envelopes (6a, 6b) for receiving waste containers (8a, 8b) arranged on the platforms, and in which the flexible electric cable (16) extends, when the platforms are in the low position, in a space separating the two envelopes (6a, 6b) for receiving containers. Device according to one of Claims 1 to 4, in which the circuit (64, CCT) for controlling the motor (50) is configured to monitor the current (Im) flowing through the motor and cut off the electric power supply to the motor when, during a platform ascent or descent cycle, the current passing through the motor exceeds a determined current threshold (Imax) for a determined time (Tmax), the determined current threshold (Imax) and the determined time (Tmax) being adjustable variables of the motor control circuit (64, CCT). Device according to claim 5, in which:
- the mechanical means (30-34, 40-46, 55-59) for driving the platform comprise an upper stop (30, 46) and a lower stop (59, 46) corresponding respectively to the upper position and to the low position of the platform,
- the electrical consumption of the motor (50) increases significantly when the mechanical drive means of the platform reach the upper stop or the lower stop, and
- the determined current threshold (Imax) is lower than the current flowing through the motor when the mechanical drive means of the platform reach the upper stop or the lower stop. Device according to one of Claims 1 to 6, configured so that, under normal lighting conditions, with or without the presence of clouds, in summer as in winter in temperate regions, and whatever the cardinal orientation of the substantially vertical wall (21, 21a, 21b) of the waste collection structure (20), two to five hours of illumination give the device the ability to perform at least four cycles of raising and lowering the platform, with ascent cycles lasting less than 30 seconds carried out with a total waste load of between 300 and 500 kg. Device according to one of Claims 1 to 7, comprising:
- two vertical posts (40, 41),
- a carriage (30) for driving the platform (5a, 5b), movable in vertical translation along the two vertical posts thanks to rollers (31-34) rolling along the vertical posts, and
- A horizontal structure (42) to which is fixed via bearings (44) a drive shaft (43) of the carriage (30). Device according to Claim 8, in which the deformable link (55, 56) cooperates with the drive shaft (43) via a coupling means (57, 58) such as a roller or a fixed pinion, and has a first end (55-1, 56-1) attached to the trolley, and a second end (55-2, 56-2) attached to the counterweight (59), the counterweight moving vertically in a space outside the container receiving envelope, in particular a space which can extend between two envelopes (6a, 6b) for receiving waste containers. Device according to one of Claims 1 to 9, assembled in a tank (3) delimiting the pit (2), the tank (3) being placed or intended to be placed in an excavation made in the ground (4).