Toilet for household pets

A toilet for household pets comprises a housing having a horizontal platform, a film-moving mechanism having two axes installed in said housing on opposite transverse sides of the platform, and a winding drive that moves a clean film onto the platform from a roll installed on the first axis, and moves the film with the excrement along the platform to a roll installed on the second axis, and film-securing devices which are installed in the housing on opposite longitudinal side of the platform and designed to be capable of clamping and unclamping opposite edges of the film, respectively, for securing the film disposed in a stationary position on the platform and for the unhindered passage of the film moved along the platform. The first and second axes of the mechanism for moving the film are arranged and designed to be capable of tensioning the film and pressing same against the platform be means of the winding drive, wherein the film from the roll on the first axis in lifted to the platform and lowered from the platform to the roll on the second axis.

RELATED APPLICATION DATA

This application is the national stage entry of International Appl. No. PCT/RU2018/000229, filed Apr. 11, 2018, which claims priority to Russian Patent Application No. RU2017113405 filed Apr. 18, 2017. All claims of priority to that application are hereby made, and that application is hereby incorporated in its entirety by reference.

TECHNICAL FIELD

The present invention relates to excrement and urine collection devices, and, more specifically, to pet toilets.

BACKGROUND ART

Pet toilets of various designs are known in the art. There is a distinct group comprised of designs wherein excrements are collected using a pad rolled-up on one axle and moved onto a platform, i.e. the toilet bottom, and then moved, with the excrements on it, along the platform and rolled, with the excrements on it, on another axle.

As an example, Patent Application U.S. 2009241850, published Jan. 10, 2009, discloses a pet toilet comprising a housing having a horizontal platform and a pad movement mechanism having two axles installed in the housing at opposing transverse sides of the platform and a take-up actuator that moves the clean pad rolled on the first axle onto the platform and moves the excrement-soiled pad along the platform into a roll on the second axle. This known design is the prior art closest to the first embodiment of the claimed invention.

The known pet toilet is disadvantageous in that the pad is not adequately retained on the platform. As is known, domestic animals (a cat or a dog) first “dig”, with their paws, a spot to fulfill their natural needs and subsequently “bury” their excrements. Thus, the animals will tear the pad off the platform by creasing the pad and pulling it from under a guide roller. Position of the pad on the platform will have to be restored each time after an animal has utilized the toilet and prior to the excrement-soiled pad movement along the platform to be rolled up on the second axle by the take-up actuator. As such, the advantage of easy disposal of excrements through this design will not be accomplished. Furthermore, as the elevations of the roll axles are higher than that of the platform, excrements may slide back to the platform instead of being rolled.

Another known animal litter device disclosed in U.S. Pat. No. 7,958,846 dd. 14.06.2011 comprises a horizontal platform, a microprocessor-based control unit, a pad movement mechanism having two axles installed in the housing at opposing transverse sides of the platform and connected to the microprocessor via an electrical take-up actuator that moves the clean pad rolled on the first axle onto the platform and moves the excrement-soiled pad along the platform into a roll on the second axle, and a sensor of animal presence on the platform connected to the microprocessor. This known design is the prior art closest to the second embodiment of the claimed invention.

This known pet litter device is disadvantageous in that the pad is not adequately retained on the platform. Position of the pad on the platform will have to be restored each time after an animal has utilized the litter device. As such, the advantage of automatic disposal of excrements through this design will not be accomplished. Furthermore, as the elevations of the roll axles are higher than that of the platform, excrements slide back to the platform instead of being rolled. The claimed design is aimed at retaining the pad when positioned on the platform and at maintaining the roll shape when taking-up the excrement-soiled pad.

SUMMARY OF INVENTION

The technical result accomplished by the claimed invention is to prevent the pad from creasing and displacement from the position required for excrement collection. This technical result is provided as follows: first, by tensioning the pad along the platform when the pad is being moved or stopped, second, by holding the pad down to the platform when the pad between the rolls is being moved or stopped, and, third, by retaining the pad position across the platform when the pad is stopped. By doing these, the pad is at all time held down to the platform and is tensioned, and the pad section on the platform, which is subjected to the animal paw action when the pad is stopped, is retained in three mutually perpendicular directions, thus preventing the pad from creasing.

Said technical results are provided by a pet toilet, comprising: a housing having a horizontal platform, a pad movement mechanism having two axles installed in the housing at opposing transverse sides of the platform and a take-up actuator that moves a clean pad onto the platform from a roll installed on a first axle and moves an excrement-soiled pad along the platform into a roll installed on a second axle, and pad retainers installed in the housing at opposing longitudinal sides of the platform and configured for locking and releasing the opposing edges of the pad to retain the pad when it is at rest on the platform and to let it freely pass when being moved along the platform, respectively, and the first and second axles of the pad movement mechanism arranged and configured to tension the pad and to hold it down to the platform by the take-up actuator, so the pad from the roll on the first axle being lifted onto the platform and lowered from the platform into the roll on the second axle.

The take-up actuator may be electrical.

The first axle may be provided with a position retainer to lock it in its position when the take-up action is terminated, and the second axle is provided with a reversing lock. The first axle position retainer may be provided with an electrical actuator.

Pad retainers installed in the housing at opposing longitudinal sides of the platform may also be provided with electrical actuators.

The toilet may be provided with an electrical actuators control panel and/or may be remotely controllable via radio signals.

The two axles and the pad retainers may be provided with covers mounted on the housing with a clearance to the pad and bordering the platform at its transverse and longitudinal sides, respectively. The cover covering the second axle with the roll formed by the excrement-soiled pad may be provided with a shutter that closes the clearance between the cover and the pad positioned between the platform and the roll on the second axle and is installed such as to lift and open the clearance when the pad is being moved from the platform into the roll on the second axle.

The second axle may be coupled to the take-up actuator via a toothed gear. The two axles may have their ends seated in grooves formed in the housing and curved such as to prevent the axles with the rolls from rising out of the grooves when the pad is being tensioned by the take-up actuator.

Said technical results are further provided by a pet toilet, comprising: a housing having a horizontal platform, a microprocessor-based control unit, a pad movement mechanism having two axles installed in the housing at opposing transverse sides of the platform and connected to the microprocessor an electrical take-up actuator that moves a clean pad onto the platform from a roll installed on a first axle and moves an excrement-soiled pad along the platform into a roll installed on a second axle, pad retainers installed in the housing at opposing longitudinal sides of the platform and provided with an electrical actuator connected to the microprocessor for locking and releasing the opposing edges of the pad to retain the pad when it is at rest on the platform and to let it freely pass when being moved along the platform, respectively, a sensor of animal presence on the platform connected to the microprocessor controlling the electrical actuators, and the first and second axles of the pad movement mechanism arranged and configured to tension the pad and to hold it down to the platform by the electrical take-up actuator, so the clean pad from the first axle being lifted onto the platform during the take-up action and the excrement-soiled pad being lowered from the platform into the roll on the second axle.

The horizontal platform may be mounted in the housing on a springing base, and the sensor of animal presence on the horizontal platform is a limit switch.

The first axle of the pad movement mechanism may be provided with an electrically-actuated retainer, and the second axle is provided with a reversing lock. To maintain the pad tension at all times (both when being taken-up and when stopping), the first axle friction factor may be higher than the second axle friction factor when they are rotated during the pad movement by the take-up actuator. The first axle will, therefore, “slow down”, thus tensioning the pad during the take-up action.

The two axles and the pad retainers may be provided with covers mounted on the housing with a clearance to the pad and bordering the platform at its transverse and longitudinal sides, respectively. The cover covering the second axle with the roll formed by the excrement-soiled pad may be provided with a shutter driven by an electrical actuator connected to the microprocessor to close the clearance between the cover and the pad positioned between the platform and the roll on the second axle and to open the clearance when the pad is being moved from the platform into the roll on the second axle. The second axle may be coupled to the take-up actuator via a toothed gear. The two axles may have their ends seated in grooves formed in the housing and curved such as to prevent the axles with the rolls from rising out of the grooves when the pad is being tensioned by the take-up actuator.

BEST MODE FOR CARRYING OUT THE INVENTION

FIG. 1andFIG. 2, which are a longitudinal sectional view and a cross-sectional view of a pet toilet, respectively, show a housing1with a horizontal platform2and a pad3arranged on the latter. A first axle4and a second axle5are seated in grooves6of the housing1at opposing transverse sides of the platform2. The grooves6are curved such as to prevent the axles with rolls in the grooves6from rising when the pad3is being tensioned by the pad movement mechanism. A toothed wheel7is mounted on the second axle5and is engaged with a cogwheel8mounted on a shaft of a motor9, such as a step motor. The toothed wheel7further has a stopper (pawl)10.

A toothed wheel11is mounted on the first axle4and is provided with a retainer12driven by a solenoid13and a sensor14for sensing the toothed wheel11rotation. The sensor14may, for example, be a light emitting sensor signaling the passage of each tooth of the toothed wheel11. Consumption of the pad from the roll on the first axle may be controlled using data on the step motor9shaft rotation.

The horizontal platform2is mounted in the housing1on springs15and is provided with limit switches16.

The pad retainers installed in the housing1at opposing longitudinal sides of the platform2and configured for locking and releasing the opposing edges of the pad3to retain the pad when it is at rest on the platform and to let it freely pass when being moved along the platform2, respectively, are each provided with a plate17rotatably mounted on the housing1in front of the horizontal platform2longitudinal side and an actuator with a mechanism18and a motor19. The actuator, via the plate17, holds the pad3down to the housing1surface. As such, the plate17has a slot to which a projection20, formed on the housing surface, extends together with the pad3when the plate17is lowered, as shown inFIG. 2. This ensures reliable retention of the pad3position on the horizontal platform2, the pad3is being tensioned in a crosswise direction. The surface of the housing1, to which the pad3is held down by the plate17, is parallel to the platform2surface, such as is flush with it or somewhat lower than it when an animal is present on the platform, for the retainers to hold the pad3down to the platform2surface.

The axles4and5and the pad retainers are provided with covers21,22,23, and24, respectively, mounted on the housing with a clearance to the pad and bordering the horizontal platform at its transverse and longitudinal sides, respectively. The cover22covering the second axle5with the roll formed by the excrement-soiled pad is provided with a shutter25that closes the clearance between the cover22and the pad3positioned between the platform and the roll on the second axle5and is installed such as to lift and open the clearance, by the actuator26, when the pad3is being moved from the platform2into the roll on the second axle5.

In a first embodiment of the invention, all the actuators, i.e. the take-up actuator, the first axle retaining actuator, the pad retainer actuator, and the shutter actuator may be of manual type. Herein, no sensors are needed. However, the first embodiment of the invention allows for the device to be automated, i.e. for all or some of the actuators to be electrical and to be provided with an actuator control panel. In one embodiment, the toilet may be remotely controlled. This is to be done using a watching camera that enables on-line monitoring of the toilet condition via the Internet and remote control of the actuators.

In a second embodiment of the invention, the toilet is automatic and is provided with a microprocessor (controller)27controlling the actuators based on data from sensors. A possible algorithm of the toilet operation is described below.

If the limit switches16trip and remain in such position longer than 20 seconds, after the limit switches16have turned off (an animal has left the platform2), the microprocessor turns on a timer counting down the time to the start of taking the pad up onto the second axle. Where the timer is set, for example, to 30 seconds, and the limit switches trip again (the animal is back on the platform2) before the 30-second period after they were turned off elapses, the timer stops counting down the time to the start of taking-up action and resets to zero. After the limit switches16turning off (the animal has left the platform2again), the timer is re-started. After the timer has counted down the 30-second period, the microprocessor turns on the first axle retaining actuator (the solenoid retracts the plunger, thus releasing the first axle), the actuators retaining the pad on the platform2(the actuators lift the plates17) and the shutter lifting actuator, and then, e.g. after 1 second, turns on the take-up actuator.

Where, during the taking-up action, the switches16trip again (the animal has returned to the platform2during the taking-up action), the take-up actuator turns off, the retainers block the first axle and lock the pad by holding it down to the platform2. When the animal has left the platform2again, the take-up actuator is turned on by the microprocessor, e.g. after 5 seconds and 1 second after turning on the first axle and the pad retaining actuators. After the pad taking-up action termination after a preset time period or after the first axle has rotated to a preset angle according to the sensor output, or after the second axle rotation in accordance with controlled rotation of the shaft of the step motor driving the second axle, the retainers block the first axle and lock the pad by holding it down to the platform2, and the shutter closes. The above methods of controlling the pad consumption, i.e. reduction of the size of the clean pad roll on the first axle, enable the microprocessor to signal, e.g. via a source of light or sound, the need to replace the roll on the first axle and to remove the excrement-soiled roll from the second axle. It will be appreciated that remote signaling may also be provided. The toilet design provides for replacing the clean pad roll on the first axle and removing the excrement-soiled roll from the second axle not by replacing the axles, but by installation onto the axles and subsequent removal from the axles of cores made, for example, from cardboard, on which cores the rolls of clean pad and excrement-soiled pad are arranged, respectively. As shown inFIG. 3, the axle is provided with longitudinal ribs, the height of one of the ribs28being increased at a portion29of the axle. Due to the presence of the ribs and the increased height of at least one of them, when the cardboard core is being placed onto the axle, the core undergoes deformation that prevents it from rotating about the axle when the pad is being tensioned. Preferably, the pad employed in the claimed device is elastic. The pad is to absorb moisture, while not letting it leak. Such pad may be comprised of three layers, e.g.:

a top layer comprised of a thin nonwoven material (Spunbond) or a thick nonwoven material (Spunbond) with small perforations;

a central layer comprised of cellulose (cotton wool);

a bottom layer comprised of a thick nonwoven material (Spunbond) or thick polyethylene.