ALDEN JAN FRITZ (NO)
| DE3331331C2 | 1991-10-02 | |||
| FR1459639A | 1966-11-18 | |||
| SE429191B | 1983-08-22 | |||
| DE1554351A1 | 1970-04-02 | |||
| US1034114A | 1912-07-30 | |||
| GB2115718A | 1983-09-14 | |||
| SE398485B | 1977-12-27 |
| 1. | A deposit cupboard for solvents, combustible liquids and the like, comprising shelves (2) and at least one openable/closable, possibly lockable door as well as being assigned an air intake and exhaust device, and wherein the cupboard is assigned a fire extinguishing apparatus (18) having an automatic, preferably thermostatcontrolled release means, c h a r a c t e r i z e d b y the following feature combination: a) that the shelves (2) of the cupboard (1) are perforated and/or positioned at a distance from at least one of the adjacent inner faces of the side walls of the cupboard; and b) that the top plate (4) of the cupboard is pivotally supported and adapted to upon the occurence of extremely high pressure conditions (explosion) within the cupboard be swung limitedly up into a securing or protecting position, wherein it forms a shield, protecting the personnel. |
| 2. | A cupboard as set forth in claim 1, c h a r a c t e r i z e d i n that, preferably, in the top area of the cupboard, internally of the same, a thermostat has been placed, set for e.g. 62°, and adapted to release a fire alarm means interconnected therewith. |
| 3. | A cupboard as set forth in claim 1 or 2, c h a r a c t e r iz e d i n that the release means of the fire extinguishing apparatus is coupled to a thermostat placed within the cupboard, and which may be set for e.g. 78° . |
| 4. | A cupboard as set for in one or more of the preceding claims, c h a r a c t e r i z e d i n that the exhaust device (58) comprises an exhaust stub (5) , extending through the cupboard's top plate (4) and sealed with respect to the passage, said exhaust stub (5) having a tight bottom (5') and a perforated wall. |
| 5. | A cupboard as set forth in claim 4, c h a r a c t e r i z e d i n that the exhaust stub (5) , in an area above the perforations, contains a motor controlled, pivotable damper (12) adapted to be rotated into a closed position, in order to close the exhaust stub (5) if the exhaust or suction fan (6) stops. |
| 6. | A cupboard as set forth in any one of the preceding claims, c h a r a c t e r i z e d i n that it, within the bottom area thereof, is provided with an upwardly open collecting vessel (19) for leakage liquid. |
| 7. | A cupboard as set forth in claim 6, c h a r a c t e r i z e d i n that the collecting vessel (19) has an upper circumferential, outwardly facing flange (19') formed with vertically throughgoing air intake holes (20) . |
| 8. | A cupboard as set forth in any one of the preceding claims, c h a r a c t e r i z e d i n that the air intake means and the exhaust means are thusly adjusted in accordance with each other that one may work at negative pressure conditions in the interior of the cupboard, the air intake being kept at e.g. 80% of the exhaust. |
This invention relates to a deposit cupboard for keeping solvents, combustible liquids and the like, comprising shelves and at least one openable/closable, possibly lockable door as well as assigned an air inlet and exhaust device, and wherein the cupboard is assigned a fire extinguishing apparatus having an automatic, preferably thermostat- controlled release means.
In the most advanced deposit cupboards and cabinets for keeping solvents and the like, presently available on the market, the exhaust device is positioned at the top of the cupboard, more specifically laterally in the top plate of the cupboard, a built-in channel extending down to the bottom of the cupboard at the same side. The deposit cupboard is equipped with two usual round exhaust valves, one above and one below. These exhaust valves are substantially made in plastics. The air inlet is through the doors and through circumferential leakages. An explosion-proof fan provides the ventilation through a channel extending from the top of the cupboard, laterally thereof, and upwards above roof. The system is adapted to be permanently in operation, and comprises only an on-off switch, but has no automatic control device.
Through the positioning of the two exhaust valves, one above and one below, an optimally controllable exhaust air flow could not be achieved. Thus, caused through lacking control
of the exhaust air, one could not prevent the formation of gas accumulations, especially within the middle zone of the cupboard, but also in other zones not reached by the air, and wherein, thus, no flowing has been effected.
Upon current break, cold/fresh air will ooze down through the channel system from the fresh air side, through the fan and into the cupboard through the two plastics valves. Thereby, gas accumulations in the cupboard are brought to ooze outwards through leakages in the cupboard, and this may cause unfortunate or damaging pollution of the environment around the solvent deposit cupboard. Gases from solvents are inflammable and may cause fire and explosion damages in addition to direct solvent damages on personnel staying in the neigbourhood of the cupboard in such a situation.
This known deposit cupboard for solvents and the like lacks in addition to a controllable exhaust means also devices for fire alarm, for fire extinguishing and for picking up sparks. Nor has the known cupboard a device for securing the personnel in case of an explosion in the cupboard.
Indeed, from DE patent specification No. 33 31 331 a deposit cupboard for i.a. solvents has been known, wherein the cupboard is assigned a fire extinguishing apparatus, but this cupboard also lacks a controllable exhaust device, a fire alarm device and a device for picking up sparks; nor does it have a device for securing the personnel in case of an explosion in the cupboard.
Therefore, the object of the present invention has been to eliminate or at least reduce these defects, disadvantages and limitations of use of prior art technique and, thus, provide a deposit cupboard for solvents and the like, wherein the formation of undesirable gas accumulations within the middle zones of the cupboard hardly may be formed, and wherein fire alarm and fire extinguishing devices are present within the cupboard, and wherein a safety device is adapted to come automatically into function as the result of a
100% - intake 80%) . The air flows through the perforations in the shelves og the slots between the shelf edges and adjacent inner faces of the cupboard side walls up to the lower edge of the top plate, where the air is sucked out through the perforated channel stub and, therefrom, out through said flexible hose which, at the other end thereof, may be coupled to a pipe line or channel having a silencer and a downstream suction fan (capasity e.g. 200 m 3 /hour) , eventually terminating within a jet hood.
The bottom of the perforated channel stub is tight in order to keep the exhaust air controlled from the top at the same time as the channel net is shielded upon the occurence of an explosion. Also, the tight channel stub bottom forms a reaction face which is subjected by high internal cupboard pressure (upon explosion) , thereby contributing to the utilization of the pressure increase to swing the top plate into a position, wherein it protects the personnel against the effects from an explosion. In this securing or protecting position, the top plate may take an angle of e.g. 60° (to a vertical plane) . Thereby, with a rectangular top plate, one side edge will be hinged to adjacent cupboard portion whilst, at the opposite side edge, a blocking means will be disposed, adapted to limit the top plate's degree of rotation.
Further objects, features and advantages of the solvent cupboard according to the invention appear from the following description of an example of a preferred embodiment diagrammatically illustrated in the accompanying drawings, wherein:
Figure 1 shows a vertical cross-section through a solvent deposit cupboard according to the invention;
Figure 2 shows, likewise, a vertical cross-section through the cupboard; here, in the horizontal plane, the plane of section forms an angle of 90° with the plane of section according to figure 1, and wherein the top plate with the perforated channel stub of the exhaust device is in ordinary
operating position (no explosion in the cupboard) ; Figure 3 shows a side elevation of the cupboard corresponding to the sectional drawing according to figure 2, but wherein the top plate together with exhaust stub - as the result of an extreme pressure increase within the cupboard (explosion or explosion-like condition) - has been swung up to an inclined position, wherein the top plate protects the personnel against the effects from explosion or possible simultaneous fire;
Figure 4 shows a horizontal cross-section according to the line IV-IV in figure 1; and
Figure 5 shows a fundamental circuit diagram for the solvent deposit cupboard, with associated equipment.
The deposit cupboard for solvents and the like as shown in the. drawings, is generally denoted with reference numeral 1. It is provided with a number of shelves 2 resting on adjustable shelf brackets 3. Uppermost the cupboard 1 has a top plate 4, which will be further described in the following. Preliminarily, it should be mentioned, as it appears in figure 2 in connection with figure 3, that the top plate 4 is rotatable in the vertical plane. Therefore, according to the invention, it is important to provide tight seals around the top plate and within the hinging thereof. Likewise, optimum tightness is maintained around the cupboard's doors, not shown.
In order to be capable of maintaining an intact flow of air from the lower air intake to the upper exhaust device, represented by a tight-bottomed, perforated exhaust stub 5 assigned a suction fan 6, figure 5, the shelves 2 are,' partly, perforated, partly positioned at a distance from the inner faces of the side walls of the cupboard 1, so that zones are not formed in the inner middle portion of the cupboard, in which undeεired gas accumulations may arise.
The exhaust stub 5 which is disposed with a circumferential
seal in the pivotable top plate 4 of the cupboard 1, is at the outer end thereof connected to a flexible hose piece 7 which, at the opposite end thereof, is coupled to a pipe line/channel 8, containing a silencer 9, and wherein the suction fan 6 is disposed, and which, eventually, terminates within a jet hood 10.
As mentioned, the top plate 4 is hinged at one side edge thereof, and is, at the opposite side edge, assigned a blocking means, e.g. in the form of a chain 11, for limiting the top plate's 4 pivotal movement (e.g. 60° with the vertical plane) when it - as the result of an explosion or extreme internal pressure conditions - swings to the inclined position shown in figure 3 , where it is intended for the task of forming a shield for personnel in the neigbourhood, thus protecting these against the effects from the explosion.
Within the exhaust stub 5, a pivotable damper 12 is disposed, the latter being motor-controlled and adapted to close off the channel connection to the exhaust or suction fan 6 when the latter stands. The. motor-controlled damper 12 is, through a connection box 13 in a conduit 14, connected to a control/ automatics cabinet 15 known per se. An electrical conduit 16 connects the control/automatics cabinet 15 with the exhaust or suction fan 6.
It is mounted a fire alarm device (not shown) in the top of the cupboard. It is, preferably, thermostat-controlled, such a thermostat 17 being placed high above within the cupboard, figures 1 and 5. The thermostat 17 may be set for 62°.
The deposit cupboard for solvents according to the invention is, likewise, equipped with a fire extinguishing apparatus 18 of its own, the latter having an automatic relase means which, also, may be thermostat-controlled; the thermostat may be set for 78°. It should be mentioned that the arrangement of a fire extinguishing apparatus having a thermostat-controlled release device in association with a deposit cupboard for solvents is not knew, a corresponding
device being known from DE C2 33 31 331.
In the bottom area of the cupboard 1, a collecting vessel 19 for leakage liquid is disposed. The vessel 19 has a circumferential outwardly directed flange 19 ' , which is formed with a large number throughgoing air intake holes 20. Beneath the vessel 19, the cupboard is formed with a more or less open bottom, securing the air intake.
From the thermostat 17 or the fire alarm device (not shown) associated therewith, respectively, a conduit 21 extends to the control/automatics cabinet 15.
The deposit cupboard for solvents and the like according to the invention is, preferably, based on operation at negative pressure conditions 80:100 (80% intake, 100% exhaust) , and is secured a uniform air flow from the air intake holes 20 in the external flange of the vessel "19 within the bottom area of the cupboard 1. The air supplied flows with minimum resistance through the perforations of the shelves 2 and the slots between the shelf edges and the adjacent inner faces of the side walls of the cupboard, up to the top zone of the cupboard 1 just below the top plate 4, where the air is evacuated through the perforated exhaust stub 5 having the tight bottom 5 ' .
The tight bottom 5 ' • of the exhaust stub 5 has a double function, in that a perforated stub having a tight bottom has been found to give a more controlled air evacuation, while the tight stub bottom 5' on the other hand forms a reaction surface upon pressure increase/explosion in the interior of the cupboard 1, thereby contributing to the swinging of the top plate 4 into the securing and protecting position as shown in figure 3, as previously described.
Also, the perforations of the shelves 2 serve another purpose, in that they facilitate the return of leakage liquid to the collecting vessel 19 in the bo * ctom area of the cupboard.