FR2990510A1 - Device for taking wood chip samples discharged from lorry into pit in unloading assembly, has control module for controlling drive module to motorize support such that support carries autonomous movement under controlling of control module - Google Patents

Abstract

The device has a receptacle (310) for sampling wood chips. A support (320) is provided with the receptacle. A drive module drives the support. An automatic control module controls the drive module for motorizing the support such that the support carries an autonomous movement under controlling of the control module. The support is provided with a hinged jib. The hinged jib is provided with two segments (322, 324), where one of the segments is fixed in a rotary way on an inner wall (230) of a receiving hopper (200) and the other segment is fixed in a rotary way on the former segment.

Description

The invention relates to devices for taking samples of wood chips when they are discharged from a truck into a dumping pit, typically in a combustion plant of such chips. BACKGROUND OF THE INVENTION of wood for heating or electricity production.

Deliveries of woodchips in such facilities are usually subject to an evaluation of the chip quality, including a statistical evaluation of a degree of moisture in the chips, which determines the heat capacity of the woodchips. combustion and their suitability for long-term storage. The moisture content of the chips delivered is typically a parameter determining the price of the chips. Such an evaluation responds in particular and for example to a standard in France referenced NF 14778 which provides that for a truck unloading of twenty minutes, twelve samples must be made in at least four different times and in at least three different locations the dumping flow of the truck. Samples are taken by an operator using a bucket attached to the end of a pole, which the operator has in the dumping flow of the truck. This technique does not allow to obtain sufficient representativeness. Indeed, the series of samples taken proves to be a significant difference with the actual attributes 30 of the chip delivery, and in particular its average humidity, despite the number and distribution recommended for these samples. In addition, this technique is uncomfortable for the operator who is exposed to wood dust, which are also potentially harmful. The operator is also exposed to the risk of injury during this operation. The object of the invention is to provide a sampling device which allows a better representation of a series of samples taken and which reduces an uncomfortable and dangerous exposure of an operator to wood chips during their spill. This object is achieved according to the invention by means of a device for taking samples of wood chips dumped by truck in an unloading pit, the device comprising a sample collection receptacle and a support of the receptacle, characterized in that it comprises a motorized drive module of the support and an automatic control module of the motorized drive module of the support so that the support performs an autonomous movement under the control of the automatic control module. Advantageously, the support is an articulated arm. Advantageously, the support is an arm with at least two segments, a first segment of which is rotatably fixed on an inner wall of the unloading pit and a second segment is rotatably fixed on the first segment. Advantageously, the device comprises a chip presence sensor in the receptacle. Advantageously, the chip presence sensor is a pressure sensor disposed at the bottom of the receptacle. Advantageously, the receptacle has a chip removal mouth and the receptacle is fixed on the support movably between a first position of the receptacle where it has its mouth diverted from a direction of flow and a second position of the receptacle where it presents its mouth up and the device comprises a remotely controlled member passing the receptacle from the first position to the second position. Advantageously, the receptacle has a height greater than or equal to three times the average size of the chips 5 dumped. Advantageously, the receptacle has a main body and a chip removal mouth, and the chip removal mouth has a diameter greater than or equal to twice the average size of the chips spilled. Advantageously, the receptacle has a main body and a chip sampling mouth, and the chip removal mouth has a diameter less than a width of the main body. Advantageously, the device comprises means for removably fixing the receptacle on the support. Advantageously, the control module is programmed to take samples at random times during a truck unloading. Advantageously, the control module is programmed to take samples at random locations of a spill flow. Advantageously, the control module is programmed to perform a series of samplings during the same truck unloading, which collection series 25 comprises at least three samples at different locations, and which series comprises at least four samples taken in different moments. The invention also relates to an unloading assembly comprising a dumping pit of wood chips by spill, and comprising such a device for taking samples of wood chips. Advantageously, the sampling device is fixed in a location such that the receptacle is at the height of a truck rear axle during the spill.

The invention also relates to a method for collecting samples of wood chips spilled by truck into an unloading pit, the method comprising the step of providing a sample collection receptacle and a receptacle support, characterized in that it comprises the step of training the support with a motorized training module and driving the motorized training module with an automatic control module so that the support performs an autonomous movement under the control of the module autopilot. Other features, objects and advantages of the invention will appear on reading the description which follows, with reference to the appended figures in which: FIG. 1 is a perspective view of a chip dumping pit; wood according to one embodiment of the invention; FIG. 2 is a view from above of the dumping pit according to this same embodiment of the invention; Figure 3 is a side view of a chip collection receptacle according to this same embodiment of the invention. FIG. 1 shows a chip delivery truck 100, a dumping pit 200 and a wood chip sampling device 300. The truck 100 comprises a parallelepiped-shaped bucket 110 which consists of four walls. side including a removable wall and a bottom wall. For the unloading of the bucket, two embodiments are contemplated which may, if necessary, be conjugated to each other. In the first of these modes, the bottom wall is a movable wall moved by a set of jacks between a horizontal position and an inclined position along a downward slope towards a rear end of the bucket. In the second of these modes, the bottom wall comprises an articulated, endless, preferably metallic strip, covering or constituting the bottom of the bucket and supporting the chip loading 100, this articulated strip being arranged so that its driving in motion causes spillage of chips. This second embodiment of unloading the bucket is advantageously suitable for the delivery of chips in warehouses too low ceiling to tilt sufficiently the bucket according to the first mode above ensuring the total discharge of chips. The bottom wall can also be provided with vibrating means to accentuate and regulate a spill speed during unloading of the truck. The truck is positioned so that the rear end of the bucket 110 is directly above the dumping pit 200. For this, the pit 200 is equipped with stoppers 210 against which wheels 125 of a rear axle 120 of the truck abut. In this position, the rear end of the bucket 110 of the truck is cantilevered above a central zone of the dumping pit 200. The dumping pit 200 here is of parallelepipedal shape, comprising four vertical walls, only two of which are shown here for the sake of simplicity of presentation. Among these vertical walls, there is here a wall 220 of direction transverse to the main direction of the bucket 100, and a side wall 230 oriented parallel to the main direction of bucket. This lateral wall 230 laterally borders a spill flow emerging from the rear end of the bucket 110, here at a distance such that the pouring flow does not interfere with this side wall, the chips not reaching here the side wall. 230 only by a rise of filling level of the spill pit.

The sampling device 300 is fixed on this side wall 230 and is provided to extend therefrom towards the chip discharge flow in order to position a sampling receptacle 310 therein. For this, the sampling device 300 is here consisting of an articulated arm 320 fixed at its base on the side wall 230 and carrying at its end the sampling receptacle 310. The present articulated arm is formed of two segments including a base segment 322 and an end segment 324 The base segment 322 is fixed to the side wall 230 by a rotational connection about a vertical axis. Segment 324 is attached to base segment 322 by a link also rotatably about a vertical axis. Thus, the articulated arm 320 makes an extension and retraction movement allowing the receptacle 310 to be positioned in multiple locations of a horizontal geometrical plane which passes through the chip discharge flow and thus to collect the chips at different locations at the same time. through the flow.

To move in these different sampling locations, the rotary link between the base segment 322 and the side wall 220 is equipped with an electric motor which gives an orientation to the arm and the rotational connection between the base segment 322 and the end segment 324 is also equipped with an electric motor, which gives a degree of deployment to the arm. Alternatively, the base segment and the end segment are driven by a hydraulic circuit connected to a pressurizing motor via a set of solenoid valves.

Each of the two present motors is driven by a control module, not shown, consisting of a processor implementing a control logic of the successive movements of the arm 320. In the present example, the control module is programmed to perform twelve samples. during the same unloading to last twenty minutes. The control module is programmed to perform these twelve samples randomly over time, and in random locations through the chip spill flow so as not to expose the samples to a representativity error that is repetitive on the all the discharges taken. Alternatively, the control module can take the samples in a series of predefined locations through the flow and it can also take samples at predefined instants of the unloading time. Advantageously, these samples are distributed homogeneously in time and space. The sampling receptacle 310 is itself fixed here on the end arm 324 by means of a rotational connection so that the receptacle switches between two positions. In a first position, the receptacle has its filling mouth upwards. In a second position the receptacle has its filling mouth diverted a flow direction so that the receptacle, although positioned in the flow, can not in this position collect a significant amount of chips. In the present exemplary embodiment, the position of the receptacle diverted from the flow is a position where its mouth is oriented downwards. An electric motor drives the receptacle between these two positions, so that the receptacle is positioned in a location in the flow where the sample is to be made while the receptacle is facing down, then the receptacle is tilted to present its mouth to the receptacle. high. Thus, it is avoided to take chips at other points in the flow during movements of the arm to and from its sampling location. As an alternative to such a motor-driven tilting, the receptacle 310 can be held with its mouth diverted by a releasable retaining means, which releasable retaining means is released under the control of the control module, an operator positioning the receptacle according to its orientation with mouthpiece diverted before the receptacle is driven to its sampling location. The receptacle 310 is furthermore provided here with a pressure sensor which is placed on a bottom wall of the receptacle. This pressure sensor sends to the control module a signal according to which the receptacle is loaded with a sufficient quantity of chips. thus allowing the control module to initiate a return of the receptacle to a side area of the pit, for unloading in a container placed at the edge of the unloading pit. Since the falling of the fuel in a moving-bottom truck is irregular, the pressure sensor integrated in the receptacle makes it possible to indicate to the waiting control module that the product is present in the receptacle. As shown in Figure 2, such a position of the arm for unloading the receptacle is a position where the arm extends parallel to the side wall 230 towards a sidewall of the truck. The operator therefore advantageously discharges the receptacle by being positioned near the truck, which allows the operator to view both the contents of the receptacle and the flow being spilled and possibly to compare the appearance of the chips taken with those being spilled. In addition, it is here that the operator is best protected from wood dust and the risk of falling into the pit. There is shown in Figure 3 a receptacle 310 having a shape suitable for such a sample. The receptacle 310 has a main body 311 of symmetrical shape of revolution about a vertical axis, a lower portion 312 has a diameter greater than an upper portion 313. The upper portion 313 thus constitutes a narrowing neck of the receptacle. In this way, the chips received in the receptacle are retained in it and are not subject to ejections for example during sudden arrivals of chips in the receptacle or during rapid movement of the receptacle. effect of trapping in required. The lower part progressively towards the neck of shrinkage therefore has for the receptacle the amount of chips 312 has a shape that narrows at the top to form a progressive junction with the upper part 313. Alternatively, a recess may exist between these two parts. The receptacle further forms a reinforcing bead 315 around its mouth formed by the upper portion 313, allowing the receptacle to resist shocks with the chips there. The wood is very abrasive and wet, the cup is made of stainless steel or a material resistant to abrasion and oxidation. The experiment made it possible to define a particularly advantageous form of the significant receptacle. Thus, the advantageously equal or to obtain a picking receptacle height is greater than three times the average particle size of wood chips spilled by a truck. The particle size may vary from one truck to another, it is advantageous to take into account the maximum particle size that can be encountered from one truck to another. The width or the diameter of a mouth of the receptacle is advantageously greater than or equal to twice the average particle size of wood chips spilled by a truck. Here again, the particle size may vary from one truck to another, it is advantageous to take into account the maximum particle size that can be encountered from one truck to another. The particle size of the chips typically varies between 40 mm and 150 mm.

In a particular embodiment, the receptacle 310 comprises an attachment pin adapted to allow the removable attachment of the receptacle to the arm by cooperation with a gripping element of the arm. The gripping element is more particularly: - arranged at the free end of the segment 324 of the arm, - mounted free to rotate about the axis along which the segment 324 of the arm extends, and - at least partially complementary to the axis of attachment, so that the rotation of said element induces the rotation of the axis of attachment and therefore the receptacle at least between a sampling position and a diverted position as described above. The gripping element is further adapted to allow easy and quick assembly or disassembly of the receptacle in case of change of the latter. In another particular embodiment, the receptacle 310 is advantageously removably connected to the arm by a fixed attachment of the arm. Such attachment is for example a set of clamps adapted to grip either an axis or a ring 316 of the receptacle, or the shrink neck of the receptacle, the latter may further have a narrowing of its outer periphery adapted to cooperate with the set of clamps to further secure the grip.

The clamps can be operated manually or electrically, so as to allow a quick and easy grip or release of the receptacle, especially in case of change of the latter. Due to the shape of the two-part receptacle, one wide bottom 312 and the other narrow upper 313, the present receptacle can be shifted back to its embouchure position diverted after receiving the chips in it and before returning the receptacle until 'to the operator for unloading. Indeed, the present form keeps a sufficient amount of chips in the receptacle while it is lying horizontally, that is to say, tilted with its mouth facing a horizontal direction.

In order to avoid the risk of attachment of the arm with a grapple maneuvered from a crane in automatic mode, which is used to distribute the chip loads in different locations according to different pit dimensions, the articulated arm is preferably thin for do not exceed too much of its support wall. According to a variant of the invention, the device is a mobile device that can be placed on different successive pits. Such a device can be removably mounted on a wall of such pits or comprise a movable pit pit retention base. The arm can be equipped along the length of the end segment 324 and in the lower part of the latter with a squeegee which can spread mounds of chips that can be formed when the unloading pit is small. compared to the volume of chips contained in a truck. The top of the arm advantageously has an angle directed towards the top, for example the arm has a triangular section pointing towards the top, in order to avoid the accumulation of wood chips on the top of the arm.

Given the variability of chip moisture an ideal positioning of the sampling in height has been identified so that the receptacle certainly recovers chips. Thus the receptacle is advantageously placed in an axis which passes through the center of the axles of the truck. An advantageous height relative to the ground is thus adopted independently of the attachment location of the articulated arm for a given installation.

The described device makes it possible to take samples at a regular frequency, in the volume dictated by the standard, directly at the unloading of the truck. The advantage of this articulated arm is that it can be used on different unloading configurations: pits with or without grapple or feed hopper. It also has the advantage of being able to take the same quantity of samples whatever the duration of the unloading, which can vary from one truck to another.10

Claims (1)

CLAIMS1 Device for collecting samples of wood chips spilled by truck (100) in an unloading pit (200), the device comprising a sample collection receptacle (310) and a receptacle support (320) (310) , characterized in that it comprises a motorized drive module of the support (320) and an automatic control module of the motorized drive module of the support (320) so that the support (320) performs an autonomous movement under the control of the autopilot module. 2 Device according to claim 1, characterized in that the support (320) is an articulated arm (322,324). 3. Device according to the preceding claim, characterized in that the support (320) is an arm (322,324) to at least two segments, a first segment (322) is rotatably attached to an inner wall (230) of the pit. unloading (200) and a second segment (324) is rotatably attached to the first segment (322). 4 Device according to any one of the preceding claims, characterized in that it comprises a chip presence sensor in the receptacle (310). 5. Device according to the preceding claim, characterized in that the chip presence sensor is a pressure sensor disposed at the bottom of the receptacle (310). 6. Device according to any one of the preceding claims, characterized in that the receptacle (310) has a mouth (313) of chip removal and the receptacle (310) is fixed on the support (320) movably between a first position of the receptacle (310) where it has its mouth (313) diverted from a flow direction and a second position of the receptacle (310) where it has its mouth (313) upwards and the device comprises a remotely controlled organ passing the receptacle from the first position to the second position. 7. Device according to any one of the preceding claims, characterized in that the receptacle (310) has a height greater than or equal to three times the average size of the chips poured. 8. Device according to any one of the preceding claims, characterized in that the receptacle (310) has a main body (311) and a mouth (313) for collecting chips, and the mouth (313) for removing chips. has a diameter greater than or equal to twice the average size of chips spilled 9. Device according to any one of the preceding claims, characterized in that the receptacle (310) has a main body (311) and a mouth (313) of chip sampling, and the chip removal mouth (313) has a diameter less than a width of the main body (311). 10. Device according to any one of the preceding claims, characterized in that it comprises means for releasably fixing the receptacle (310) on the support (320). 11. Device according to any one of the preceding claims, characterized in that the control module is programmed to perform sampling at random times during a truck unloading (100). 12. Device according to any one of the preceding claims, characterized in that the control module is programmed to perform sampling at random locations of a spill flow. 13. Device according to any one of the preceding claims, characterized in that the control module is programmed to perform a series of samples during the same unloading truck (100), which series of samples comprises at least three samples in different locations, and which series comprises at least four samples taken at different times. 14. Unloading assembly comprising an unloading pit (200) truck (100) of wood chips per spill, characterized in that it comprises a device for taking samples (310,320) of wood chips according to one any of the preceding claims. 15. Unloading assembly according to the preceding claim, characterized in that the sampling device (310,320) is fixed in a location such that the receptacle (310) is at the height of a rear axle (125) truck during the spill. A method of sampling truck-spilled wood chips (100) in an unloading pit (200), the method comprising the step of providing a sample collection receptacle (310) and a support ( 320) of the receptacle, characterized in that it comprises the step of driving the support (320) with a motorized drive module and driving the motorized training module with an automatic control module so that the support (320) performs autonomous movement under the control of the autopilot module.