FR2965282A1 - AUTOMATIC DISPENSER ADJUSTABLE VOLUME PUMP FOR CLEANING DISINFECTING AND DEODORIZING TOILET BOWLS - Google Patents

Abstract

The invention relates to an automatic dispenser metering pump with adjustable volume of sanitary products for toilet water tanks, consisting of a tank (1) and an auxiliary tank (15), in which: - the tank ( 1) contains a sanitary product and in its lower part is mounted by a sealed assembly an adjustable volume dosing pump (4) diaphragm version, and - the auxiliary tank (15), with each use of the toilet, releases the dose of product Sanitary in the water at the end of evacuation, then receives from the metering pump with adjustable volume (4) a new dose of sanitary product for the next use of the toilet.

Description

The present invention relates to a vending machine with an adjustable volume dosing pump which is mounted in the toilet tank to automatically dispense, with each use of the toilet and at the end of the emptying cycle, a pre-diluted, adjusted and adapted dose of sanitary product. to the volume of water to clean, disinfect and deodorize the toilet bowl. The cleaning and disinfection of private and collective toilet bowls in companies, restaurants, hotels, holiday centers and resorts, public establishments, hospitals and clinics, medico-social establishments, regularly requires the manual intervention of the personnel in charge of operations. maintenance, the frequency of intervention depends on the use: domestic private, collective, intensive. These interventions are tedious and unpleasant and collective places are often poorly scented with bowls insufficiently cleaned and especially with a questionable disinfection, sometimes even nonexistent. Often there is a strong smell of deodorant with a bad smell of dirty toilets. The use of perforated plastic support is commonly used, hooked to the inner rim of the bowl with a pellet containing anti-scale products, anti-odor, which dissolves the repeated passage of water, in order to clean the bathroom.

The disadvantages are major, on the one hand these pellets dissolve very quickly as soon as they have been in contact with water, on the other hand the flow of the rejected water leads directly, in its wake and laterally to d evacuation in a few seconds the product of the dissolution obtained in the sewers. Towards half of its use the pellet dissolves suddenly and completely creating a high concentration of product that goes completely to the sewers, during evacuations of water, there is very little product at the bottom, it never reaches or covers all the inner surface of the bowl thus making the desired action very insufficient and inefficient and especially without having antibacterial action which is one of the basic rules in terms of cleanliness and hygiene. We know that toilets are a place of microbial growth. The tests carried out show that with an open toilet seat, projections are collected at a distance of one meter containing substances with harmful germs.

When with an involuntary gesture the plastic support is unhooked and slips into the bottom of the bowl, its recovery becomes delicate, because even if the product of the pellet is finished, it is still necessary to remove the plastic support. There are also single-use effervescent tablets that are deposited in the siphon of the bowl, in order to descale and remove stains, these products act only in the bottom of the siphon and on the sewer drain pipes. . It is necessary to wait for the dissolution and the action of the pellet before being able to reuse the toilets which evacuate the product to the sewers. A device similar to the previous one is also proposed, it is a plastic support on which is placed a small bottle of liquid sanitary product, mounted hanging inverted on the inner edge of the bowl, the product is supposed to slowly pour in the passage water, it is quite otherwise, the bottle empties very quickly and especially without reaching and coat all the interior surfaces of the toilet bowl, emptying flush systematically evacuates in its wake and laterally in a few seconds almost all the products in the sewers, it remains nevertheless a very small part of product and its action is limited in the siphon of the bowl. Another system proposes to connect the toilet seat to the extraction of air from the centralized mechanical ventilation to suck the unpleasant odors, which does not solve the need for cleanliness and deodorize really the points of production of odors as well than the inevitable imperative of disinfection. Also there is a device called diffuser placed in the toilet tank equipped with a fixed capacity doser moved by a float and adapted to the only product of the mark, the dilution of the cleaning product is done in the totality of the water of the toilet tank, this extremely low dilution, of the order of 1/5000 and above, presupposes the use of a highly concentrated product, the dosage is about two milliliters per eight liters of water on average in a toilet tank. The major disadvantage is that the water of the toilet tank with its small amount of product is completely discharged to the sewers by the action of flushing toilet, A water evacuation that takes place between 3 to 5 seconds No. 5,215,20,230 can produce effects other than that of the passage of water, therefore there is actually and virtually no final product left in the toilet bowl to be able to act in terms of cleaning or cleaning. effective disinfection. This system allows the low dosing solution to leach all surfaces and the entire product is evacuated in 4 seconds directly to the sewers. In all the above cases, this amounts to evacuating 90% of the products used in the sewers and with one-tenth of water and product remaining, too diluted dose and not adapted to the remaining volume of water, to try to clean, to disinfect and deodorize the toilet bowl. Another system proposes from a thick and sticky gel, manually compressed and pushed by a piston in its cylindrical support, this system makes it possible to deposit and stick a pellet of this sticky gel on the inner wall of the toilet bowl, for disinfect and deodorize. This system is one of the last product currently marketed, the deodorant effect does not last as much as the presence of the pellet, as for disinfection, the product is subject to the direct passage and laterally water and can not in any case achieve and cover the inner surfaces of the bowl. As for the cases mentioned above, everything is evacuated to the sewers. Other multifunction products in liquid form, powders, are marketed, their jobs always require the regular intervention of the staff responsible for cleanliness, so very often there is a slogan posted, "Thank you for leaving this place as clean as you found it by entering ", or humorous posters that say a lot about cleanliness and smells, and, at best, make available a deodorizing bomb that does not disinfect anything and that we know that the vaporization of micro particles are dangerous for health. Professionals are not mistaken, during inspection visit, toilets are the first point of visit. A practice in the restaurant, a preliminary visit of the toilets provided us with elements of appreciation. The present invention, the automatic dispenser dosing pump with adjustable volume, aims to meet and satisfy the need of the technical problem: clean, disinfect and deodorize regularly and effectively and permanently all the inner parts of the toilet composed: from from the inside of the water tank, the filling and evacuation mechanisms, the internal ducts of the water passage circuit and especially of all the internal surfaces of the bowl, even surfaces inaccessible manually. The adjustable volume dosing pump of the dispenser makes it possible to regulate the volume of the dose of liquid product with respect to a determined volume of water, and, to maintain this dosage adjusted throughout the use of the same product, to clean , disinfect and deodorize the toilets. The user can vary the volume of the dose according to the need and the product, with the possibility of using commonly marketed products. Each product having its protocol and specifications of dosages. The automatic dispenser dosing pump with variable volume can be equipped in two versions of variable volume dosing pump: Figures 1 and 3 represent the diaphragm pump dosing version (4c), Figures 2, 4 and 5 represent the dosing version piston pump (6a). For the two versions of adjustable volume dosing pump, Figures 1 and 2, the operation is the same, the operating cycle is divided into four phases with respect to the emptying and filling of the toilet tank (2). Referring to Figure 1, First Phase: From the emptying and evacuation of water from the toilet tank (2), the dispenser allows 90% of the water to flow from the toilet tank, to evacuate the contents of the toilet bowl after use with a conventional quick-flush water cleaning. During this emptying the water level drops and the float (10) descends and drives the membrane (4c) which allows the sanitary product contained in the tank (1) to be sucked in and to be introduced by the valve entering (7) in the volume above the membrane (4c) of the metering pump (4), which represents a first technical feature. Second Phase: Before the end of the emptying, while it remains being evacuated in the toilet tank (2) only 1.5 liters of water, the float (20), fixed to the articulated lever (19) , flip-flop and instantly triggers the opening of the valve (17) of the auxiliary tank (15) which releases the pre-dilution immediately mixed with the end of the water flow of the toilet tank (2), the set and pre-diluted dose of sanitary product is prepared by the previous cycle in the annex tank (15). It takes 1.5 liters of water or 4.5 centimeters of water in the toilet tank (2) and this is the precise moment of the triggering of the opening of the valve (17) to constitute, with the pre-dilution of product, the right amount of adequate mixing corresponding to the specification of the sanitary product, to sanitize and deodorize the toilet bowl, which is a second technical feature.

Another peculiarity is that the totality of this mixture, consisting of this 1.5 liter of water and the pre-dilution of product, from the toilet tank (2) allows an optimal action of the product is the maximum volume of water with the product dose recommended by the manufacturer, calculated so that this final volume corresponds to the volume of the siphon and is not discharged to the sewer, so the mixture is collected in the siphon of the bowl in which it remains until 'the next use of the toilet. From the toilet tank to the siphon of the bowl the mixture has covered and coated all of the sensitive interior surfaces of the toilets on which the product adheres, even surfaces inaccessible manually, which represents a third technical characteristic. Third Phase: The third phase corresponds to the water filling of the toilet tank (2), the rise of the water immerses the float (20) which by its action on the articulated lever (19) closes the check valve ( 17) of the auxiliary tank (15).

Fourth Phase; The filling of the toilet tank (2) continues, the level of the water rises and immerses the float (10) and its vertical thrust exerted on the pusher (4d) and on the membrane (4c) causes the discharge of the sanitary product , charged in first phase and contained above the membrane (4c), through the outlet valve at (8) of its sealed conduit (8a) and is discharged by the spout (8b) from above into the auxiliary tank (15), the raising of the float (10), the pusher piston (4d) and the diaphragm (4c) stops when the plate (4e) for fixing the diaphragm (4c) comes into contact with the adjusting rod stop (5) and determines the set point of the volume of the dose, which represents a fourth technical feature. The full tank of the toilet (2) is reached, the water fills the auxiliary tank (15) by the filling slot over the adjustment slide (21) and prepares, for the following cycle, the pre-dilution with the dose of sanitary product received from the dosing pump (4). which represents a fifth technical characteristic. In this auxiliary tank (15) is prepared with the dose of product that has just been transferred and the water contained in this tank pre-dilution, which facilitates better and faster to mix with the end of evacuation of the next use a toilet, which represents a sixth technical characteristic. the use of the automatic dispenser allows the sanitary products to act in the best of their effectiveness to reach the objective of a real cleaning, a disinfection, an anti-scale treatment of all the internal surfaces of the toilets and to deodorize this set and the local as it is done during a manual intervention. After the treatment preparation, when emptying the reservoir (2), covers and coats all the sensitive interior surfaces of the toilet, this final volume of treatment preparation is not discharged to the sewer and holds it in the siphon of the toilet. toilet bowl makes it easier and efficient, when needed, the use of the brush, or brush, toilet without necessarily resorting to another flush toilet, or seek additional cleaning product. The current commercial liquid products offer multifunctional treatments that are perfectly adapted and usable by the automatic dispenser dosing pump with adjustable volume. Thus, the present invention contributes to the solution of the technical problems raised and cited in the previous chapter "state of the art page 1 line 6", FIG. 1 represents in section, the whole of the automatic dispenser dosing pump with adjustable volume: equipped with the diaphragm metering pump version (4c) with the variant of the auxiliary tank (15) open with filling slot, mounted in a situation in a toilet tank (2). FIG. 2 is a cross-sectional view of the automatic dispenser metering pump with variable volume: equipped with the piston version (6a) with the variant of the auxiliary tank (15) open with filling slot, mounted in position in a tank of toilet (2). FIG. 3 represents a detailed diagrammatic section of the variable volume metering pump in the membrane version (4c) in the sanitary product loading position of the reservoir (1). FIG. 4 shows a detailed diagrammatic cross-section of the adjustable volume metering pump in the piston version (6a) in the sanitary product loading position of the reservoir (1). FIG. 5 represents a detailed diagrammatic cross-section of the adjustable volume metering pump in the piston version (6a) abutting the volume adjustment screw (5) in the unloading position of the dose of sanitary product to the auxiliary reservoir (15). ). FIG. 6 shows the principle of mounting the vending machine from the filler neck (3) of the seals (3c) and by tightening the nuts (3a) inside the tank (1) of the vending machine and at the outside the toilet tank (2). Figure 7 shows in partial section the adjustment slide (21) mounted in the filling slot variant of the annex tank (15) open and the level of water in the toilet tank (2). FIG. 8 is a diagrammatic section showing the variant of the attached and sealed auxiliary tank (15a) and in its upper part the sealed lid (16), with the inlet valve (18) and the entire evacuation device comprising the float ( 20), mounted on the articulated lever (19) and the outlet valve (17) of the pre-dilution. Figure 9 shows the principle of picking of the dosing pump on the reservoir (1) of the dispenser. Same fixings for both dosing pump versions, (4) and (6).

FIG. 10 shows in partial section the mounting detail of the cylindrical pin (12) on the piston (6a) with respect to the oblong recess of the pump metering device (6), FIGS. 4 and 5. FIG. 11 is a schematic sectional view the variant of the auxiliary reservoir (15b) open with inlet valve (18) with the evacuation device comprising the float (20), mounted on the articulated lever (19) and the evacuation valve (17) of the pre-dilution. Referring to these drawings, the automatic dispenser dosing pump with adjustable volume, Figure 2, consists of the main tank (1) for receiving and containing, the various sanitary products used to sanitize the toilet, and the annex tank (15) open with slot filling. The auxiliary tank (15) is attached laterally to the main tank (1), these two tanks may optionally be made in one piece. The auxiliary tank (15) can also be mounted vertically adjustable sliding against the reservoir (1) with a holding screw in position for the setting point of the triggering of the opening of the discharge valve (17) by the float (20). ) when there is only 1.5 liters of water remaining at the end of the evacuation. These two tanks are mounted inside the toilet water tank (2) from the existing and free reservation hole, the toilet water tanks are marketed with two holes for the left or right attachment of the water tap. arrival of water. It is also possible for toilet tanks with water inlet from below or different to provide fixing systems, by jamming or tight side hooks to the edges of the tank (2). A tight fitting of the main tank (1), Figure 6, with the toilet tank (2) is made from the neck (3) for filling products of the tank (1), made by screwing two nuts (3a) on the neck (3) outside the tank (2) and inside the tank (1), enclosing two seals (3c). The neck has a flexible lid (31)) for closing and protection. The neck can be transparent, to visualize the full level.

The main reservoir (1) has a rigid lid (13) on which is indicated the adjustment of the volume of doses from the indexed knob (14) actuating the volume adjustment rod (5).

In the bottom of this main tank (1) is a vertical cylindrical recess in which the adjustable volume piston pump device (6) is mounted, the assembly is carried out from below by four-point pickings, detail A on the Figure 4 shown in Figure 9, or by screwing, not shown, the base of the metering pump (6) on the reservoir (1). A circular seal (11) seals with the sanitary treatment product present in its upper part and the water of the toilet tank in which this assembly of the dosing pump is immersed. This assembly allows a sealed assembly for maintaining the doser 10 pump in place. The stop adjustment rod (5) of the volume is aimed at the top and at the center of the pump dispenser (6) in a centered and threaded hole, the screwing or unscrewing of the adjusting rod (5) constitutes the adjustment stop of the the volume of the product dose, the stop position of the adjusting rod (5) thus obtained determines the adjustable high point of contact of the upper part of the piston (6a), which limits its upward movement to obtain the adjustment of the volume of the product dose, the dosing pump (6). Figures 4 and 5, provide information on the movement of the piston and the action of the stop (5) on the piston (6a), a spring (61) facilitates the descent of the piston (6a). On the upper part of the pump dispenser (6) are also provided two other orifices. An orifice on which is placed an inlet valve (7) suction and loading product, slat or ball, for filling the metering pump (6), the positioning of the inlet valve (7) must allow pumping until the end of the sanitary product of the main tank (1). 2 and 4. the other orifice is used to receive the outlet valve (8), slat or ball, the valve support (8c) connected to a sealed conduit (8a), and on the upper part connected to the pouring spout (81)) to feed, at each cycle from above the auxiliary reservoir (15), a set dose of sanitary product, Figure 2. An oblong oblong through the diameter of the dosing pump (6), the 30 length or the center distance of this recess is slightly greater than the maximum projected stroke of the piston (6a). The piston (6a) is also drilled diametrically to receive a cylindrical pin (12) opening on either side in the oblong oblong metering pump (6) which serves as a guide. This assembly makes it possible to leave the piston (6a) free of a maximum axial movement equal to the length of the oblong recess. Figures 4 and 5 and detail Figure 10.

The piston (6a) receives on its upper part a two-way double-lip seal (9) resiliently hooked to a circular groove at the top of the piston and in its lower part is mounted by a forced cylindrical assembly the main float (10). ) which actuates, at each change of the water level in the toilet tank (2) the piston (6a), within the limit provided by the adjustable position of the stop rod (5) of the dosing pump (6), the lowering of the water level brings down the float (10) and the piston (6a) which draws the product from the treatment of the main tank (1) through the inlet flap to the slat or ball (7), the product is introduced also by gravitation which leads to self-priming and self-filling.

The auxiliary tank (15) can be proposed according to three variants: variant of annex tank (15), open with filling slot, figures 1, 2 and 7. Alternative tank variant (15a), closed and sealed, figure 8 Variant of auxiliary tank (15b), open with inlet valve, figure 11 Alternative tank variant (15), open with filling slot and adjustment slide (21), figures 2 and 7. When filling the toilet tank (2), the rise of the water immerses the float (20) which by its action on the lever (19) closes the discharge valve (17). Then the rise of the water level immerses the float (10) which rises and its vertical thrust on the piston (6a) stops in contact with the stop adjustment rod (5) which determines the adjustment of the volume of the dose, materialized by the low and high positions of the piston (6a), Figures 2 and 5. The dose of product sucked and contained in the metering pump (6) above the two-lip seal (9), is transferred to the auxiliary tank ( 15) through the outgoing valve (8) and the duct (8a) to be poured by the spout (8b) into the auxiliary tank (15). Each toilet operating cycle a dose of product is transferred and injected into the auxiliary tank (15), depending on the setting.

The filling of the tank (2) continues and reaches its high level, the water fills the auxiliary tank (15) by the slot by passing over the slide (21), detail figure 7. The slide (21) must be adjusted a few millimeters lower than the high water level of the toilet tank to let the water fill the auxiliary tank (15) and mix with the product coming from the spout (8b) to carry out the pre-dilution. With this position of the slide (21), if a variation of the level of the toilet tank occurs, the contents of the annex tank (15) will not be affected or dispersed in the water of the toilet tank. When the toilet tank (2) is emptied, towards the end of the evacuation while there remains, while being evacuated in the tank (2), approximately 1.5 liters to flow, ie 4, 5 centimeters high, the float (20) mounted on the articulated lever (19) tilts and controls the instantaneous opening of the valve (17) which releases the column of pre-diluted product contained in the auxiliary tank (15). The pre-dilution of treatment product contained in the auxiliary tank (15) immediately mixes and evacuates with the end of the emptying, the treatment product, the final volume of which corresponds to the volume of the siphon is calculated not to be evacuated the sewer system, smeared all surfaces in its path, and finished draining and being recovered and retained in the siphon of the bowl to clean, disinfect and deodorize the toilet automatically and with each use of the toilet, the same operation is reproduced. Variant of annex tank (15a), closed and watertight, figure 8, When filling the toilet tank (2), the rise of the water immerses the float (20) which by its action on the lever (19) closes the exhaust valve (17). Then, the rise of the water level immerses the float (10) which rises and its vertical thrust on the piston (6a) stops in contact with the stop adjustment rod (5) which determines the adjustment of the volume of the dose materialized by the low and high positions of the piston (6a), Figures 2 and 5. The dose of product sucked and contained in the metering pump (6) above the two-lip seal (9), is transferred to the auxiliary tank ( 15a) through the valve (8) and the conduit (8a) to be poured by the spout (8b) into the auxiliary tank (15a). At each toilet operating cycle a dose of product is transferred and injected into this auxiliary tank (15a), depending on the setting made. The water level continues to rise reaches the inlet valve (18), the sealed cover (16) retains the air in this auxiliary tank (15a) and the water is introduced by this valve to its level, then stops entering the tank (15a) due to the bell effect. The amount of water admitted is determined by the position of the inlet valve (18). however, the inlet valve (18) passes and charges the reserve of air, due to the height of the water in the reservoir (2), in this auxiliary reservoir (15a). This reserve of air is compressed in the annex tank (15a) above the pre-dilution. The sealed connection of the duct (8a) and the lamella or ball outlet valve (8) and the inlet valve (18) do not allow any leakage or return and the pressure and pre-dilution can be released only by the opening of the evacuation valve (17), even if the level of the toilet water tank (2) was lowered without reaching the trigger level of the opening of the evacuation valve (17). The pressure of the air inside the auxiliary tank (15a) is in equilibrium with the external water pressure, making any leakage through the valves (17) and (18) impossible if the toilet tank is not empty. The air volume of the auxiliary tank (15a) must be as large as possible to obtain better evacuation propulsion of the pre-dilution. When using the toilet, once the water is being evacuated, at the precise moment, just at the end of the evacuation cycle, where the water level in the toilet tank causes the water to fall suddenly. float (20) there is only about one and a half liters of water at the end of the flow of the toilet tank, the fall of the float (20) mounted on the articulated lever (19) triggers the instantaneous opening of the flap valve evacuation (17). The compressed air reserve contained inside the auxiliary tank (15a) immediately propels the opening of the outlet valve (17) pre-dilution in the current evacuation of the toilet tank (2). At this precise moment There is no more external pressure, the end of water evacuation of about a liter and a half with a dose of product is a solution of sanitary product correctly dosed. This product mixture covers and coats all of the interior surfaces of the water tank, the circulation ducts, attains, coats and adheres to all of the interior surfaces of the toilet bowl, this amount of treatment mixture, the volume of which final is the volume of the siphon is calculated to not be discharged to the sewer, eventually flow and be recovered and retained in the siphon of the bowl. The product will be able to act correctly over time on all these coated surfaces of product and between each use of the toilets to give the product the time of action in the same way as it is practiced in manual operation, to clean, disinfect and deodorize the product. interior set of toilets and use the minimum of product and water for this final operation. By its presence in the bowl, the product also acts on the siphon. Variant of the annex reservoir (15b) open with inlet valve, figure 11. As for the two previous variants, after the use of the toilet the rise of the water in the tank (2) immerses the float (20) which by its action on the lever (19) closes the evacuation valve (17) then: figure 2, the rise in the water level immerses the float (10) which rises and pushes the piston (6a), the upward vertical movement of the piston (6a) stops in contact with the stop adjustment rod (5) for adjusting the volume of the dose materialized by the low and high positions of the piston by FIGS. 4 and 5. The dose of product sucked and contained in FIG. the top of the double-lip seal (9) of the metering pump (6) is transferred through the outlet valve (8) along the duct (8a) to be discharged through the spout (8b) into the auxiliary tank (15b). ), the filling of the tank (2) continues and reaches the inlet valve (18) the water penetrates and continues to u'à fill the annex tank (15b) to the same water level as in the tank (2) which constitutes a column of pre-diluted product. The pressure inside and outside the auxiliary tank (15b) is identical and the valve (18) opposes any liquid outlet if the outside level drops without reaching the float (20). If a change in the level of the toilet tank occurs, the contents of the annex tank (15b) will not be affected or dispersed in the water of the toilet tank. The inlet valve (18) for this alternative tank variant (15b) can be placed between the low and high water levels of the toilet tank. When emptying the toilet tank (2), towards the end of the evacuation while there remains about 1.5 liter to flow or 4.5 centimeters of water height, the float (20) mounted on the articulated lever (19) tilts and controls the instantaneous opening of the discharge valve (17) which releases the pre-dilution column from the treatment product contained in the reservoir (15b). At this precise moment, there is no more water and external pressure, the pre-dilution immediately mixes and is evacuated with the end of the emptying, the treatment product, whose final volume corresponds to the volume of the siphon is calculated not to be discharged to the sewers, smeared all surfaces in its path, it eventually flow and be recovered and retained in the siphon of the bowl.

Then the filling cycle resumes, and the water rises in the toilet tank (2). the automatic dispensing metering pump with adjustable volume, figures 1, consists of the diaphragm metering pump version (4c) and the variant of the auxiliary tank (15) with filling slot and slide (21), figures 3 and 7.

The operation of this version of the adjustable volume diaphragm pump dispenser (4c), Figures 1 and 3, is identical to the piston version (6), only its design is less laborious. The screwed or notched connection of the pump dispenser (4) makes it possible to tighten the membrane (4c), the seal (41) and the upper part of the pump (4a) with the reservoir (1) on its periphery. ). The plate (4e) fixes the membrane (4c) to the pusher (4d). The membrane (4c) must be flexible and inelastic. When emptying the toilet tank (2), the float (10) mounted on the pusher (4d) pulls down the membrane (4c) attached to the pusher (4d) by the plate (4e). The product of the tank (1) is introduced by the inlet valve (7) and filled the upper part of the membrane (4c), towards the end of the evacuation while there still remains about 1.5 liter to s' flow or 4.5 centimeters of water in the tank (2), the float (20) switches and controls with the lever (19) the instantaneous opening of the discharge valve (17) which releases the column of pre-dilution of the treatment product contained in the auxiliary tank (15). At this precise moment, there is no more external pressure, as soon as the pre-dilution mixes and is evacuated with the end of the emptying, the treatment product, whose final volume corresponds to the volume of the siphon, is calculated to It can not be discharged to the sewers, coated and adhered to all surfaces in its path, the mixture eventually flowing and being recovered and retained in the siphon of the bowl. After draining, the filling of the toilet tank (2) begins. The rise in the water level immerses the float (20) which by its action on the lever (19) closes the discharge valve (17), then the rise in the water level immerses the float (10) which rises and its vertical thrust on the pusher piston (4d) and on the membrane (4c) stops in contact with the stop adjustment rod (5) which determines the adjustment of the volume of the dose. The dose of product sucked and contained in the metering pump (4) above the membrane (4c) is transferred to the auxiliary tank (15) through the valve (8) following the conduit (8a) to be discharged by the spout (81)) in the auxiliary tank (15). The filling of the tank (2) continues and reaches its high level, the water fills the auxiliary tank (15) by the slot by passing over the slide (21), FIGS. 1 and 7. The slide (21) must be set a few millimeters lower than the high water level of the toilet tank to let the water fill the tank (15) and mix with the product coming from the spout (8b), if a variation of the level of the toilet tank occurs, the contents of the annex tank (15) will not be affected or dispersed in the water of the toilet tank. The cycle of the automatic dosing pump dosing machine is completed, until the next use of the toilet, this cycle will start again each time the toilet is used. The automatic cleaning and disinfection thus obtained on all the sensitive parts of the toilets makes for the staff in charge, the task of maintenance easier, faster, less restrictive and eliminates nuisances and inconveniences. The use of this dispenser automatic dosing pump volume is very useful in private use in toilets equipped with sanitary tanks, however the use of automatic dispenser dosing pump with adjustable volume is recommended in private and public health, large areas, in the workplace of companies, restaurants, hotels, holiday centers and essential in the health sector, hospitals, clinics, medical social care establishments for which the permanent treatment of hygiene and antibacterial control and a permanent and absolute primordial necessity.

Claims (10)

CLAIMS1) Automatic dispensing device dosing pump with adjustable volume, (Figure 1), (Figure 2) consisting of two reservoirs, a reservoir (1) and an auxiliary reservoir (15), characterized in that: the reservoir (1) contains a sanitary product, and in the vertical cylindrical recess in the bottom of this reservoir ( 1) is mounted by a sealed assembly the adjustable volume dosing pump (4; 6), - the auxiliary tank (15), each use of the toilet, releases the dose of sanitary product, received previously, in the water at the end of the toilet, and - then receives from the adjustable volume dosing pump (4; 6) the dose of product for the next use of the toilet, - the adjustable volume dosing pump (4; 6) includes a float (10). ) fixed to a piston (4d; 6a) slidably mounted on the metering pump, - it comprises in its center a piercing and threaded hole in which is screwed a stop adjustment rod (5), the volume adjustment being obtained by the screwing or unscrewing the stop adjustment rod (5), one end of which is an adjustable stop when the piston (4d; 6a) comes into contact, the device regulating and limiting the stroke and determining the volume of the dose of product entering and leaving the adjustable volume dosing pump (4; 6), - the stop adjusting rod (5) is operated at from an indexed knob (14), the adjustable volume dosing pump (4; 6) comprises an inlet valve (7) through which the sanitary product contained in the reservoir (1) is introduced above the piston (4d; 6a); and - an outgoing valve (8), on a support (8c) of this valve is connected a conduit (8a) whose other end of this conduit is connected to the spout (8b) which penetrates inside the auxiliary tank (15), the auxiliary tank (15) comprises: - a means for filling it with water from the toilet tank (2); - In its lower part an evacuation device consisting of a float (20) mounted on an articulated lever (19) which actuates an exhaust valve (17). 2) Device according to claim 1, characterized in that the adjustable volume metering pump is a variable volume metering pump (4) diaphragm version (Figure 3), or a variable volume metering pump (6) piston version (figure 4). 3) Device according to claim 1, characterized in that the articulated lever (19) is adapted to operate, when there is still 1.5 liters of water or 4.5 centimeters of water in the toilet tank (2), the instantaneous opening of the valve (17) which triggers the evacuation of the pre-dilution in the water end of emptying the toilet tank (2). 4) Device according to claim 1 or 3, characterized in that as filling means the auxiliary reservoir (15) has on its upper part a vertical filling slot on which is mounted an adjustable slide (21) which allows, when toilet tank (2) is full, with the water to go over the slide (21) to fill the auxiliary tank (15). 5) Device according to claims 1 and 3, characterized in that: - the auxiliary tank (15a) (Figure 8) comprises a sealed cover (16) retaining the air contained in the reservoir, and an inlet valve (18). ) admitting a quantity of water from the toilet tank (2) and whose volume is determined by its positioning, - with the rise of the level of the water in the toilet tank (2) above this inlet valve (18). ), this inlet valve (18) leaving, however, to pass and load the pressure reserve air in this auxiliary tank (15a), - the dose of sanitary product received from the adjustable volume metering pump (4) and the water introduced by the inlet valve (18) prepares the pre-dilution which is propelled and discharged by the compressed air, at the moment of the opening of the valve (17), at the end of the emptying of the toilet tank (2). 6) Device according to any one of claims 1 and 3, characterized in that the auxiliary reservoir (15b) (Figure 11) is open at the top and laterally comprises an inlet valve (18) which can be placed between the low level and the high water level of the toilet tank (2), so that with the rising water in the tank (2) the water reaches the same level in the auxiliary tank (15b) , the water and the dose constituting the pre-dilution is evacuated at the initiation of the opening of the valve (17). 7) Device according to any one of the preceding claims characterized in that the device is adapted so that the release of the instantaneous opening of the valve (17) to release the pre-dilution occurs at the moment when the volume of water in progress in the toilet tank (2) with the dose of product is calculated so that this final volume corresponds to the volume of a siphon and is not discharged to the sewer. 8) Device according to any one of the preceding claims characterized in that the auxiliary reservoir (15) is mounted vertically adjustable sliding against the reservoir (1) with a retaining screw in the position of the setting point of the triggering of the opening of the exhaust valve (17) by the action of the float (20) on the articulated lever (19). 9) Device according to claims 1 and 2, characterized in that: - the adjustable volume metering pump (6) piston version (Figure 2) and (Figure 4) comprises in its upper part: - the inlet valve ( 7), - the outgoing valve (8), - the threaded and tapped central bore in which the stop adjustment rod (5) is screwed, - the float (10) is mounted on the lower part of the piston (6a) which is placed in the cylinder of the metering pump (6), and on the upper part of the piston (6a) is mounted a double lip seal (9), and - a spring (61) facilitates the descent of the piston (6a). - the adjustable volume dosing pump (6) is fixed with the seal (11) on the tank (1). 10) Device according to claims 1 and 2, characterized in that the variable volume metering pump (4) is a diaphragm pump (Fig. 3), the diaphragm (4c) being attached to the pusher piston (4d) by a plate (4e), the metering pump (4) ensuring the tight assembly of a membrane (4c), a cover (4a) and a seal (41) on the reservoir (1) , this assembly can be screwed or notched, - the float (10) is mounted on the lower part of the piston (4d) which is placed in the cylinder of the metering pump (4), - the cover (4a) comprising: - in its center the piercing and threaded hole in which is screwed the rod (5) stop adjustment; - the inlet valve (7); - the outgoing valve (8).