MXPA99003116A - An electric dispenser pump of bottled water - Google Patents

An electric dispenser pump of bottled water

Info

Publication number
MXPA99003116A
MXPA99003116A MXPA/A/1999/003116A MX9903116A MXPA99003116A MX PA99003116 A MXPA99003116 A MX PA99003116A MX 9903116 A MX9903116 A MX 9903116A MX PA99003116 A MXPA99003116 A MX PA99003116A
Authority
MX
Mexico
Prior art keywords
una
líquidos
agua
pump
water
Prior art date
Application number
MXPA/A/1999/003116A
Other languages
Spanish (es)
Inventor
Sixto Fernandez Rizo Jose
Original Assignee
Sixto Fernandez Rizo Jose
Filing date
Publication date
Application filed by Sixto Fernandez Rizo Jose filed Critical Sixto Fernandez Rizo Jose
Publication of MXPA99003116A publication Critical patent/MXPA99003116A/en

Links

Abstract

Esta invención se refiere a una bomba de agua o líquidos con operación automática para asíhacer el proceso de extracción de recipientes de líquidos y/o agua embotellada. El objeto de la invención es proporcionar una extracción de agua y/o líquidos mas eficiente y a menor costo ya que la extracción por medio de una bomba es más rápido, sin esfuerzo y sin riesgos, además de hacerlo en una forma económica. Actualmente existen bombas para extraer agua y/o líquidos que proporcionan los beneficios anteriores, pero lo hacen a partir de una operación manual, lo cual lo vuelve en un proceso muy lento, de esfuerzo e inseguro, la finalidad de esta invención es le de crear una bomba que pueda extraer agua y/o líquidos a través de una forma automática confiable y segura.

Description

BOTTLED WATER TWO-WATER ELECTRIC PUMP BACKGROUND OF THE INVENTION Nowadays the pumps used to extract the water from the bottle, do it by means of a manual pump using the principle of the siphon, These pumps are integrated by a piston that is pulled up and down through a tube, by means of of an extension in the form of rod integrated to the piston. The construction of the pump is by means of plastic parts where the bottled water is sucked by the oscillating movement of a piston placed in a tubular cavity that acts as a cylinder, the piston to lower dislodges the air from the cavity and when going up forms a vacuum that causes the water to drag, until a conduit in the upper part perpendicular to the cavity for the discharge, this process is done manually, resulting in a slow operation, and effort.
In order to solve the drawbacks described above, the construction of a pump that automatically extracted the water quickly and easily, by means of an electrical device without risk and at an economic cost was thought.
BRIEF DESCRIPTION OF THE DRAWINGS.
Figure 1 shows a conventional perspective of the pump. Figure 2 shows the longitudinal cross section. Figure 3 shows the explosion components. Figure 4 shows a longitudinal projection of its top view.
Figure 5 shows a longitudinal projection through the front of the discharge ..
In figure 1 we can see a conventional perspective of the pump. The pump is formed by the combination of the button holder cover (No.l), activator button (No.2), battery cylinder (No.5), motor carrier cylinder (No.8) cap with belt (No.10), discharge tube (No.11), against clamp (No.13) of the carboy adapter (No.14), fixator cylinder (No.12) for the alunentador tube (No.15), copy arrow guide (No. 16) and suction cover (No. 19). In Figure No.2 we observe the longitudinal section showing the interior components with the activator button (No.2), the contact spring (No.3), dry alkaline batteries (No.4), battery cylinder (No.5) , piston engine (No.7), motor-cylinder (No.8), copy (No.9) of discharge tube (No.11), cap with belt (No.10), against fastener (No.13), adapter for jug (No.14), fixing cylinder (No.12) for feeder tube (No.15), motor arrow (No.17), copy arrow guide (No.16), pump impeller (No. 18) and suction cover (No. 19). Figure No. 3 shows the parts of the bomb in the form of explosion that combined and assembled integrate the pump, with the button holder cover (No.1), the activator button (No.2), contact spring (No. 3), alkaline dry pans (No.4). battery cylinder (No5), contact closure flaps (No.6), micromotor (No.7), motor-cylinder (No.8), copy (No.9) of discharge tube (No.11), cap with band (No.10). fixing cylinder (No.12) for feeder tube (No.15), against clamp adapter (No.13) for garrafon (14), feeder tube (No.15), copy arrow guide (No.16), impeller of pump (No.18) and cover of suction casing (No.19). In figure No.4 we show a longitudinal projection of its top view with the button holder cover (No.l), the activator button (No.2), the copy (No.9) of the discharge tube (No.11), the counter clamp (No.13) and the adapter for garrafon (No.14).
Figure 5 shows a longitudinal projection on the front of the discharge with the activator button (No.2), button holder cover (No.l), battery cylinder (No.5), motor carrier cylinder (No.8) , plug cap with band (No.10), discharge tube (No.ll), against clamp (No.13) adapter for garrafon (No.14), copy fixer (No.12) of feeder tube (No. 15), copy arrow guide (No.16) and suction housing cover (No.19).
DETAILED DESCRIPTION OF THE INVENTION.
This pump operates by means of a micromotor driven by two dry alkaline batteries of 1.5 volts each, and is formed by the combination of plastic parts with the exception of the arrow that is made of stainless steel, the spring that is made of steel and the contact lamella that is made of bronze and / or brass. When pressing the activating button the spring is contacted with the contact closure foil and at the same time with the lower part of the battery that is in series with the similar one, when the circuit is closed the batteries energize the micromotor, when the micromotor is energized rotates its rotor which has the stainless steel arrow connected, turning it, the arrow has a plastic impeller connected on the opposite side, when transmitting the turn the arrow to the impeller that is submerged in the water of the jug, sucks the liquid and pushes it up through the feeder tube, leading it to the copie outlet of the discharge tube. The process of placing the pump in a water jug consists of only placing it in the mouth of the container, leaving the feeding tube, the guide copy of the arrow, the impeller of the pump and the suction casing of liquid immersed, it is fixed the pump by loosening the adapter of the retainer, when the adapter is pulled upwards, once it has been placed, slide the adapter down again, remaining under pressure in the mouth of the jug and perfectly fixed, ready to operate.
The advantageous effects in the application of this invention, unlike the current ones, is that it is done automatically, more quickly and without manual movements, resulting in reliable and safe operation. This pump can be used for the extraction of bottled water in containers of size difficult to handle when having to turn them to pour water, in addition their use can be extended to pump liquid substances other than water that do not involve risks.

Claims (4)

    HEGVINDICACTONES
  1. Once I have described extensively my invention and considering it as something new, I claim as my exclusive property the following: 1.- This pump has improvements in terms of the process of extracting water in bottled containers, on conventional pumps , which they do manually, by reducing the extraction time of the liquid, which will provide a benefit in operating costs and obtaining an improvement by avoiding exhausting tasks.
  2. 2. - The process of extracting water with this pump, is done with an electric motor operated with dry alkaline batteries automatically and not manually.
  3. 3. - The way to pump water or liquids, is by means of a miniature impeller of the submersible type of pumps and not by a manual process that is by means of siphon (current way of extracting bottled water).
  4. 4. - Because the cost of production and operation of this pump is too low, it is not only done for selective type of user, but all private users, and companies regardless of their size can benefit from having mine since it is within reach of anyone.
MXPA/A/1999/003116A 1999-04-05 An electric dispenser pump of bottled water MXPA99003116A (en)

Publications (1)

Publication Number Publication Date
MXPA99003116A true MXPA99003116A (en) 2001-06-26

Family

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