DE202008009401U1 - Storage for pellets - Google Patents

Abstract

Storage warehouse (10) for pellets,
With a suction line system out of the storage store (10), in particular between the storage store (10) and a pellet heating,
With at least one funnel-shaped, downwardly tapering, approximately trough-shaped base (12) for pellets,
- With a above each floor (12) ending suction line (30) which ends at a distance (34) above a bottom (12) so that the resting on the respective bottom surface pellets are sucked into the respective suction line (30), and
- With a gate valve (42), by means of a piston-cylinder unit (50) transversely through the respective suction line (30) through back and forth adjustable and thereby in a respective suction line (30) closing the ZU position or in a respective suction line (30) opening OPEN position can be brought,
- characterized in that
- Which from the cylinder (54) of the piston-cylinder unit (50) outstanding region of the piston rod (52) in an at least partially open housing (60) is present.

Description

TECHNICAL AREA

The The invention relates to a storage warehouse designed for pellets. For ecological as well as economic reasons Reinforced heating systems are used with wood pellets or operated with pellets of comparable renewable raw materials can be. Wood pellets usually own a circular cylindrical shape with a length of for example about 10 to 25 millimeters and a thickness of about five to six millimeters. They consist of sawdust and wood shavings used in wood processing as waste residues attack. These chips are under pressure and by means of non-chemical Connecting means pressed into a cylindrical shape.

STATE OF THE ART

To the Preserve pellets are made of antistatic fabric manufactured, tank-like container known. The containers are closed on all sides and have in their upper part a Einblasstutzen, through which the example through a pellet tanker supplied pellets are blown can. The bottom of this flexible tank has a discharge opening, from the pellets by means of a screw conveyor or by means of Suction power in the boiler room and to the heating system installed there can be promoted. The bottom of the tank has a uniting in the central withdrawal opening sloping embankment. The slope of the embankment is about 35 degrees and allows a safe Slipping the pellets into the area of the removal opening into it. Through this necessary embankment training of Tank bottom is formed below the tank bottom for storing pellets unusable white space. This one is the bigger the larger the base area of the tank.

From the DE 20 2006 003 886 U1 is a modular storage for pellets known. The stockpile has several funnel-shaped, downwardly tapering, approximately trough-shaped bottoms. Adjacent soils are so close together that they form a common, dense bottom surface for pellets. The storage also has a suction line system from which protrudes into each of the floors a suction line. The suction lines each end at a distance above each floor so that pellets resting on this floor surface can be sucked up into the suction line. Each of the suction lines has a shut-off device with a gate valve, with which the respective suction line can be closed or opened. The adjustment of the gate valve is carried out in each case by means of a piston-cylinder unit.

The Piston-cylinder units are here regularly in direct contact with the pellets. This can cause dust particles penetrate into the piston-cylinder units and clog them and / or damage. As in case of a defect of the device if necessary, no more pellets from the storage warehouse into a pellet heating system It is necessary to transport the piston-cylinder units after a certain period of use. This replacement the piston-cylinder units is economically unfavorable. In addition, the replacement must be due to heating Reasons as quickly as possible.

PRESENTATION OF THE INVENTION

outgoing from this known prior art, the invention is the Task is to provide a storage for pellets, which ensures a permanently reliable function.

The Invention is given by the features of the main claim. meaningful Further developments of the invention are the subject of the main claim subsequent further claims.

The Inventory store according to claim 1 is characterized by the fact that attached to the gate valve End of the piston rod in an at least partially open housing is available.

By this open design of the housing can be in the housing penetrated dust particles through the stored pellets are caused, very easily back out fall out of the housing without the entire shut-off device would have to be disassembled. The almost automatic, easy removal of the dust particles causes that they no longer penetrate easily into the interior of the piston-cylinder unit and impair its operation can.

The Open design of the housing can easily be realized so be that the dust particles or pellets during the normal operation by itself removed from the housing become. Alternatively or additionally, the training also done so that at least partially emptied Stock store the individual housings so accessible are that they are from the operator of the particular device, without they had to be expanded or disassembled, in a simple way Step - for example by means of a vacuum cleaner - emptied and can be cleaned.

In a preferred embodiment may the at least partially open housing at least on the trough-shaped bottom side facing at least have a lower opening. Through this lower opening, dust particles or pellets that have entered the housing may fall out of the housing or slip out again without requiring active removal by the operator of the device, for example in the form of regular maintenance. The device virtually cleans itself and thus requires less external maintenance. In addition, the operating life of the device may be prolonged and decrease its susceptibility to interference. The slipping or falling out of the pellets and dust particles is supported by the displacement of the gate valve and the knocking effects caused thereby.

Preferably can the at least partially open housing in addition to at least on the trough-shaped floor facing away Side have at least one upper opening. The in the warehouse located pellets can thus by at least partially open housings fall or slip through without longer Time to remain within the housing. This decreases the likelihood that dust particles in the interior of the piston-cylinder unit can penetrate, further and thus the susceptibility to interference the device.

In Advantageously, the gate valve in that Line section of the suction line are located in the interior of the funnel-shaped soil is present. In particular, can the gate valve below a cover of the soil available be. Below such a continuous for pellets Cover is usually only a small amount on pellets, which is loosened up. Thereby can the pellets are not in the partially open housing jam and slip or fall back out of the case easily out. The residence time of the individual pellets inside the housing is thus lower than with an arrangement of the gate valve above such a cover. In addition, the effect advantageous head effects the stronger, the closer the gate valve at the suction opening of the respective suction line is arranged, since it can be additionally prevented Pellets are wedged in the suction opening of the suction line can.

The Control of the respective gate valve can preferably via a board, by means of which, for example, the delivery time, the closing time, the startup time of the compressor for generating the suction pressure in the suction line system and the order of Driving the gate valve of the individual trough-shaped Soils with the help of a corresponding stationary and / or mobile control device can be changed and adjusted can.

In In a preferred embodiment, the suction line system own multiple lines. Each line branch can each connected to a determinable number of trough-shaped bottoms be, the number of trough-shaped soils can be freely selected. Thus, even with an example Clogging of a part of the suction line system still on ensures smooth emptying of the storage which is desirable, especially during the heating season is.

In Advantageously, the individual line branches over a controllable shut-off device are connected to each other. The larger the inventive Stock store is formed, the more trough-shaped Floors are connected to each other, the larger is the risk of leaks inside the warehouse. In particular, the individual gate valves can in this Related weaknesses form. With the help of the controllable Shut-off devices of the individual line branches can be the area which is subjected to suction pressure at a certain time, be limited in space and thus the risk of Leaks that would reduce the existing suction pressure, be avoided. This is a more efficient and also more economical Use of the storage tank according to the invention possible.

Preferably can the respective controllable shut-off devices a shut-off valve, in particular a pneumatic pinch valve, exhibit.

In Advantageously, for each gate valve and for each controllable shut-off device, in particular Pinch valve, a drive device may be present. about This control device can be a suction connection between the stock and each line branch, wherein the suction connection both over a single leg and over several to all lines can run together. About that In addition, via the control device also the respective gate valves of the individual trough-shaped Floors are controlled and thus a suction connection also for every trough-shaped floor of a connected Line branch are produced.

Preferably, each piston-cylinder unit can be charged twice. As a result, the cycle time of the opening of each suction line even after the event is still adjusted individually and un be adapted to different circumstances.

The Control of the piston-cylinder units can each by a 5/2-way valve done. Preferably, each of the 5/2-way valves be adjusted electrically or pneumatically. In particular, can the control carried out so that in case of power failure or a other shutdown of the system all piston-cylinder units shifted to their respective CLOSED position. The warehouse is thus switched off in a power failure, for example. Preferably can be provided that this shutdown manually canceled can be.

Further Advantages and features of the invention are those in the claims further specified features and the following embodiment refer to.

BRIEF DESCRIPTION OF THE DRAWING

The Invention will be described below with reference to the drawing Describe and explain exemplary embodiment in more detail. Show it:

1 a sectional view of a bottom of a storage container according to the invention with connected suction line,

2 a partial sectional view of two floors according to 1 with circuit diagram for controlling the piston-cylinder units,

3 a perspective view of a shut-off device for opening and closing a suction line,

4 an exploded perspective view of components of the shut-off according to 3 and

5 a perspective, schematic, partial view of a storage warehouse according to the invention with two line branches.

WAYS TO EXECUTE THE INVENTION

A warehouse 10 for pellets according to 1 at least one floor 12 , The floor 12 It tapers downwards in a funnel shape, so that it has a slope of about 30 to 35 degrees, designed for the slipping of pellets. He thus has a roughly trough-shaped form, the well - even in the region of its lowest point 18 - is closed. The floor 12 resting with four feet 14 of which in 1 two feet 14 are shown on a basement floor 16 a residential building, not shown.

The floor 12 is from a cover cap 20 covered. In the surrounding edge 22 the cap 20 are slit-like openings 24 available. This can be done from the top of the cap 20 overlying pellets through these openings 24 through into the below the cap 20 located interior 26 of the soil 12 fall in. The cap 20 also has a cap tilt, which is an independent Nachrutschen resting on her pellets in the region of the openings 24 allowed.

The cap 12 rests in the upper part of the ground 12 on in cross-section angle-like shoulder formations 28 of the soil 12 on. The shoulder training 28 are the outline shape of the circumferential edge 22 the cap 20 adapted line storage. In the present example case has the floor 12 in plan a square shape, so that each has a shoulder training 28 in the region of a flat, inclined wall section of the floor 12 is available.

The cap 20 has a circular shape in plan, so that it has a circular bottom edge portion 36 on the correspondingly shaped shoulder training 28 rests. Between two such edge sections 36 are in the present example, two of the slot-like openings 24 available.

The funnel-shaped cap 20 becomes central of a suction line 30 pierced, with their suction opening 32 at a small distance 34 above the lowest point 18 of the soil 12 ends. The distance 34 between the suction opening 32 and the lowest point 18 of the soil 12 is so big that in the area of the lowest point 18 existing pellets still through the suction line 30 can be sucked up through it. In this way, a complete emptying of the in the area of the soil 12 existing pellets possible.

The suction line 30 is part of a suction line system, which comes from the stock store 10 out and, for example, leads to a pellet heater. By means of a suction fan 46 can be via the suction line from one or more of the existing floors 12 , simultaneously or in succession, pellets are sucked in for pellet heating.

The suction line 30 is from one in the present example case in the interior 26 of the soil 12 arranged shut-off device 40 interrupted. The shut-off device 40 has a gate valve 42 who in 1 in his the suction line 30 occlusive CLOSED position is shown. The rear end of the gate valve 42 has a U-shaped area 44 to which the piston rod 52 a piston-cylinder unit 50 is attached. By means of the piston-cylinder unit 50 can the gate valve 42 from its ZU position into a rearward, the suction line 30 opening OPEN position.

The piston-cylinder unit 50 is double acted upon. The corresponding pneumatic control lines 56 . 58 for the piston-cylinder unit 50 are in 1 indicated by dash-dotted lines and run through two openings in the present example case 48 in the cap 20 , The control lines 56 . 58 could also be through a single opening 48 be guided or through the openings 24 in the margin 22 the cap 20 run.

The piston rod 52 runs outside the cylinder 54 of the piston-cylinder unit 50 in an at least partially open housing 60 , The partially open housing 60 has an upper opening 62 and a lower opening 64 ,

A corresponding stock 10 for pellets can have multiple soils 12 each arranged close together and so close to each other that they form a common, dense bottom surface for pellets. This allows one above a basement floor 16 Existing storage room for the formation of a storage warehouse 10 for pellets with several, small trays 12 be better utilized than would be the case with a single floor. For this purpose are at the outer upper circumferential edge 66 of the soil 12 screw holes 68 distributed circumferentially available. Through these screw holes 68 through can neighboring floors 12 screwed together and thus close together on the basement floor 16 to be ordered.

In 2 is a partial sectional view of two floors 12 shown. The gate valve 42 the left suction line 30 is in its CLOSED position, the gate valve 42 the right suction line 30 is in its ON position. The control of the piston-cylinder units 50 - And thus the adjustment of the gate valve 42 - takes place in each case by means of a 5/2-way valve 70 , The 5/2-way valves 70 are pneumatically adjusted and regulate the pressurization of the piston-cylinder units with compressed air. The individual 5/2-way valves 70 are each to a multiple distributor 72 connected, via which they are supplied with compressed air.

This in 2 left 5/2-way valve 70 is in its locked position. This blocking position is always taken when no current flows. In the event of a power failure, all 5/2-way valves would therefore be used 70 the respective gate valve 42 move into their respective CLOSED position, so that no more pellets would be promoted. This blocking position would, for example, be taken even if the device or the associated pellet heating would be turned off. A manual closing of all suction lines 30 is not required.

This in 2 right 5/2-way valve 70 is electrically controlled and the corresponding right gate valve 42 thus shifted to its ON position. Through the right suction line 30 Accordingly, pellets would be sucked and transported to a pellet heater, for example. The opening duration of the suction line 30 can by means of the 5/2-way valve 70 be set individually and be for example about 1 second.

Advantageously, so the individual floors 12 a storage storage according to the invention 10 individually controlled in turn and pellets are removed from them. Should it be on one of the floors 12 Once a disruption occurs, pellets can leave the remaining soils 12 nevertheless removed and the operation of the pellet heating continue to be ensured. Only after the end of the heating period could possibly be a defective floor 12 be maintained and repaired, without having to give up a continuous functioning heating system in the cold season. In addition to practical aspects, this can also be economically advantageous.

In the 3 and 4 is the shut-off device 40 shown in perspective. The shut-off device 40 has a piston-cylinder unit 50 which can be charged twice. The supply of compressed air via two pneumatic control lines 56 . 58 , The cylinder 54 of the piston-cylinder unit 50 is on the back wall 82 the partially open housing 60 screwed.

In the partially open housing 60 is the front end of the piston rod 52 of the piston-cylinder unit 50 at the U-shaped area 44 of the gate valve 42 attached. The U-shaped area 44 is aligned open at the bottom. In this way, no pellets or dust particles can collect there. By forming a U-shaped area 44 at the gate valve 42 can be achieved that the gate valve 42 in flight with the piston rod 52 lies. This allows the gate valve 42 easy and safe to move, without it could lead to a possible jamming.

The partially open housing 60 has a U-shaped wall element 80 consisting of the back wall 82 and two side walls 84 , Between the two side walls 84 are a bottom guide block 86 as well as an upper block 88 , The leader block 86 and the upper block 88 can by means of four screws 90 be bolted together. A separate seal between the guide block 86 and the top block 88 not necessary. In addition, the guide block 86 and the upper block 88 by means of four screws each 92 on the side walls 84 be attached to the U-shaped wall element. The screws 92 and 90 can be identical.

The leader block 86 has in the present example an approximately square cross-section with a central bore 78 , The cross section of the hole 78 corresponds approximately to the cross section of the suction line 30 , In addition, the guide block possesses 86 a tongue-shaped bag 76 that the shape of the gate valve 42 adjusted so that the gate valve 42 can easily be moved back and forth. The formation of the upper block 88 is different from the leader block 86 only in that the upper block 88 no bag 76 having.

In 5 is a storage according to the invention 10 with two in 5 dash-dotted line branches shown 100 . 102 shown. The two line branches 100 . 102 are part of the suction line system for the storage warehouse 10 ,

The right-hand branch in the illustration 100 is in the present example about eight dash-dotted lines shown suction lines 30.4 on eight tub-shaped floors 12 connected. The left-hand branch in the illustration 102 is in the present example via four dash-dotted lines suction lines 30.5 on four further trough-shaped floors 12 connected. The two line branches 100 . 102 are at their end each with a pneumatic pinch valve 104 connected. The two pinch valves 104 turn on one to the suction fan 46 leading main 106 connected. Yes, according to the position of the pinch valves 104 can both or only one of the line branches 100 . 102 be subjected to suction pressure. Is the corresponding line branch 100 . 102 been subjected to suction, the position of the gate valve, not shown here 42 decisive for how many of the individual trough-shaped soils 12 at the corresponding line branch 100 . 102 are connected, are subjected to suction pressure. From the floors 12 , Which are each acted upon with suction pressure at a given time, then at this time pellets can be conveyed from the storage to an example pellet heating. This driving the single or multiple floors 12 can take place alternately, so that a uniform emptying of the storage is possible. The control of the pinch valves 104 as well as the gate valve 42 can be done via a control device, not shown here.

The Inventory stock is excellent also for keeping in stock of other bulk materials such as plastic granules, corn and other feed.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202006003886 U1 [0003]

Claims (11)

Stock store ( 10 ) for pellets, - with a suction line system from the storage warehouse ( 10 ), especially between the stock ( 10 ) and a pellet heater, - with at least one funnel-shaped, downwardly tapering, approximately trough-shaped bottom ( 12 ) for pellets, - with one above each floor ( 12 ) ending suction line ( 30 ), which by far ( 34 ) above a floor ( 12 ) ends so that the resting on the respective bottom surface pellets in the respective suction line ( 30 ) are sucked in, and - with a gate valve ( 42 ), which by means of a piston-cylinder unit ( 50 ) across the respective suction line ( 30 ) adjustable back and forth and thereby in a respective suction line ( 30 ) occluding CLOSED position or in a respective suction line ( 30 ) can be brought to the open position, - characterized in that - the out of the cylinder ( 54 ) of the piston-cylinder unit ( 50 ) outstanding area of the piston rod ( 52 ) in an at least partially open housing ( 60 ) is available. Stock store according to claim 1, - characterized in that - the at least partially open housing ( 60 ) at least at the trough-shaped bottom ( 12 ) facing side at least one lower opening ( 64 ) having. Stock store according to claim 2, - characterized in that - the at least partially open housing ( 60 ) at least at the trough-shaped bottom ( 12 ) facing away from at least one upper opening ( 62 ). Stock store according to one of the preceding claims, - characterized in that - the gate valve ( 42 ) in that line section of the suction line ( 30 ) is present in the interior ( 26 ) of the funnel-shaped bottom ( 12 ), in particular below a cover ( 20 ) of the soil ( 12 ) is available. Supply store according to one of the preceding claims, characterized in that the suction line system has a plurality of line branches ( 100 . 102 ), - each power branch ( 100 . 102 ) on a determinable number of trough-shaped trays ( 12 ) is connectable. Stock store according to claim 5, - characterized in that - a line branch ( 100 . 102 ) on the at least one further line branch ( 100 . 102 ) is connectable via a controllable shut-off device. Supply store according to claim 6, - characterized in that - the shut-off device a shut-off valve, in particular a pneumatic pinch valve ( 104 ), having. Device according to one of the preceding claims, - characterized in that - a drive device for each gate valve ( 42 ) and for each shut-off device such as in particular pinch valve ( 104 ) is present so that - a suction connection between the stock ( 10 ) and each branch ( 100 . 102 ) - individually or jointly - can be produced and - while this suction connection for each trough-shaped bottom ( 12 ) of a connected line branch ( 100 . 102 ) can be produced. Supply store according to one of the preceding claims, characterized in that - each piston-cylinder unit ( 50 ) of a gate valve ( 42 ) can be applied twice. Stock store according to claim 9, - characterized in that - each piston-cylinder unit ( 50 ) through a 5/2-way valve ( 70 ) is controllable. Supply store according to claim 10, - characterized in that each 5/2-way valve ( 70 ) is electrically or pneumatically adjustable.