ES1241870U - FROZEN FOOD SUPPLIER FOR AQUARIUMS (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Frozen food feeder for aquariums, consisting of a device for the control and programming of the circulation and cooling of food, cleaning and recirculation of water, characterized by comprising a control panel (1), a storage system, a system pumping, and a cooling system, all within a container structure (9). (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

FROZEN FOOD SUPPLIER FOR AQUARIUMS

OBJECT OF THE INVENTION

The present invention relates to a phytoplankton, zooplankton and frozen food aquarium dispenser.

It comes to solve the problem of being able to automate the process of supplying food in an aquarium, for a long period of time, from defrosted food and maintaining very high temperature and quality conditions.

The device has several pump systems, with specific functions each, ranging from the food circulation itself to the aquarium, a recirculation inside the tank where the stored food is located, to the recirculation of sump water to the aquarium, in addition to have its own cooling and control system.

The industrial application of this invention is within aquarium food dispensing systems and devices, and more specifically, food dispensers with refrigeration and programming.

BACKGROUND OF THE INVENTION

Although no invention identical to that described has been found, we present below the documents found that reflect the state of the art related to it.

Thus, document ES2422878A1 refers to a fish food dispenser in aquariums, preferably provided and mainly for dosing previously defrosted foods and even granulated dry foods, comprising a submersible box in the aquarium, which includes several shelves at different heights, determinants of as many horizontal zones communicated successively with each other and vertically, as a waterfall and alternately, including a lower compartment where a pump that sucks water from the aquarium itself is mounted. in which the box is submergedly mounted, pushing said water into the box to distribute and push the food through the zones established by the shelves, causing the exit of said food into the aquarium itself, characterized in that the pump is connected to an external cyclic timer with two timers, whose operation establishes, in one case, the dispensing time interval of the food, and in another case, the activation time of the pump to drive the water inside the box and drag the food from the upper shelf to the hole provided for that purpose in the area delimited by the lower shelf and the bottom under the that the pump is placed; it being provided that said pump is connected to an external tube that runs laterally through one of the sides of the box, whose tube is connected, by means of an upper bridge, to another established on the opposite side, said horizontal lateral tubes having smaller diameter having in correspondence with the areas delimited by the shelves and connected in holes provided in those side walls. Unlike the main invention, this food dispenser does not comprise a group of peristaltic pumps with specific functions for each, nor a refrigeration circuit to keep the food at a low temperature.

ES2660064T3 describes a method for measuring the density of zooplankton in situ in an aqueous solution, the method comprising: - obtaining, at least, an image of a volume V of the aqueous solution; - process at least one image and identify particles in the image; - analyze the particles identified according to the sharpness of each particle; and - identify the zooplankton to be counted; in which analyzing the sharpness of each particle further comprises: - tracing a limit of each identified particle, - calculating a gradient of the intensity for each pixel along the limit of each particle from at least one image , based on an index of intensity change between neighboring pixels, and characterized by - calculating an average gradient of the intensity of all pixels along the limit of each particle. In this case it is a procedure, not a device, which also pursues the measurement of zooplankton density, not to supply food to an aquarium.

EP1713322A1 proposes a device to dispense and distribute food for aquatic fauna, to be installed in aquariums or containers to contain live fish, but also in tanks for turtles or terrariums in general or similar, said device comprising a tank and means for pushing the food towards a departure from dispensed, whereby a) said tank is placed in a substantially horizontal direction and houses a mixer-pusher consisting of a horizontal shaft; and b) said dispensing outlet has a substantially vertical opening for unloading the food in the horizontal direction; comprising the following combination of elements: c) said tree is equipped with a plurality of inclined blades oriented all in the same direction as the direction in which the food is pushed towards the dispensing outlet; d) said mixer-pusher occupies practically the entire internal volume of said tank, thus allowing said blades to perform a complete mixing operation of the food. This dispensing device, however, does not contemplate the maintenance of food at low temperature.

Conclusions: As can be seen from the research carried out, none of the documents found solves the problems posed as the proposed invention does.

DESCRIPTION OF THE INVENTION

The frozen food feeder for aquariums object of the present invention is constituted from a machine or device comprising three main blocks or subsystems: storage system, pumping system, and cooling system.

The storage system comprises the tank or vessel where the food is located at low temperature (between 2 and 9 ° C), and is embedded in a cylindrical shell with spiral cooling of the cooling system. Said cooling vessel comprises a drain for collecting possible condensates inside refrigeration circuits.

The glass has a threaded top cover, preventing the entry of oxygen as much as possible, and is transparent material to see the amount of the interior.

As for the refrigeration system, it includes a low temperature compressor with Freon R134A refrigerant gas, a condensing battery, pressure switch, evaporation battery, and food temperature control thermostat.

The pumping system is divided in turn into three recirculation subsystems, all of them by peristaltic pumps, one of them taking the food to the aquarium from the vessel, another recirculating the sump water to the aquarium sharing part of the circuit with drive of the previous pump to leave the circuits clean, and a third subsystem creates a recirculation inside the food vessel, so that it does not get stuck at the bottom.

The entire system has a control panel, both of the pumps and the cooling system, to program the feeding, cleaning and recirculation.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of the present description there are attached drawings representing a preferred embodiment of the present invention:

Figure 1: Conventional schematic perspective view of the frozen food feeder for aquariums object of the present invention.

Figure 2: Conventional perspective schematic view of the three main blocks of the frozen food feeder for aquariums object of the present invention.

Figure 3: Schematic plan view of the frozen food feeder for aquariums object of the present invention with two glasses.

The numerical references that appear in said figures correspond to the following constituent elements of the invention:

1. Control panel

2. Glass

3. Cylindrical shell

4. Cooling spiral

5. Cover

6. Compressor

7. Food temperature control thermostat

8. Peristaltic pumps

9. Container structure

DESCRIPTION OF A PREFERRED EMBODIMENT

A preferred embodiment of the frozen food feeder for aquariums object of the present invention, with reference to the numerical references, can be based on a device for the control and programming of the circulation and cooling of the food, cleaning and recirculation of the water by means of a panel of control (1), and internally it comprises three main blocks or subsystems: storage system, pumping system, and cooling system. All this within a container structure (9).

The storage system comprises a 40 centiliter tank or vessel (2) where the food is located at 9 ° C thanks to a cylindrical shell (3) with cooling spiral (4) of the cooling system, in which it is embedded. Said cooling vessel comprises a drain for collecting possible condensates inside.

The vessel (2) has a top (5) threaded, transparent material to see the amount of the interior.

The refrigeration system comprises a low temperature compressor (6) with Freon R134A refrigerant gas, a condensing battery, pressure switch, evaporation battery, and feed temperature control thermostat (7).

The pumping system is divided in turn into three recirculation subsystems, all of them by peristaltic pumps (8), one of them being in charge of bringing the food to the aquarium from the vessel (2), another recirculates the sump water to the aquarium sharing part of the circuit with impulsion of the previous pump to leave the circuits clean, and a third subsystem creates a recirculation inside the vessel (2) of food, so that this does not remain stuck in the bottom.

In a different embodiment, the feeder device has a second vessel (2 ’), also cooled by the refrigeration system, to be able to combine and alternate between different types of live food (rotifers, phytoplankton, etc.).

In this variant, the pumping system comprises one more peristaltic pump (8), for the recirculation in parallel inside the new vessel (2 ’).

Claims (5)

1. - Frozen food feeder for aquariums, consisting of a device for the control and programming of the circulation and cooling of food, cleaning and recirculation of water, characterized by comprising a control panel (1), a storage system, a system pumping, and a cooling system, all within a container structure (9). 2. - Frozen food feeder for aquariums, according to claim 1, wherein the storage system comprises a tank or vessel (2) with a screw top (5) and transparent material, where the food is located at low temperature, and said base (2) is embedded in a cylindrical shell (3) with cooling spiral (4) coming from the cooling system, and drain. 3. - Frozen food feeder for aquariums, according to claims 1 and 2, wherein the refrigeration system comprises a low temperature compressor (6) with refrigerant gas, a condensing battery, a pressure switch, an evaporation battery, and a thermostat of food temperature control (7). 4. - Frozen food feeder for aquariums, according to claims 1 to 3, wherein the pumping system comprises three recirculation subsystems, all of them by peristaltic pumps (8), and one of them takes the food to the aquarium from the vessel (2 ), another recirculates the sump water to the aquarium sharing part of the circuit with impulsion of the previous pump to leave the circuits clean, and the third creates a recirculation inside the food vessel (2). 5. - Frozen food feeder for aquariums, according to claims 1 to 4, wherein, in a different embodiment, the feeding device comprises a second vessel (2 '), also cooled by the refrigeration system, and an additional peristaltic pump (8) .