Mini electrical syringe needle destroyer

A mini electrical syringe needle destroyer, consisting of a syringe needle destroyer, a neighboring needle detaching device contained in the same framework as the destroyer, and a needle collecting box that can be plugged into the framework for automatic collection of waste needles.

BACKGROUND OF THE INVENTION 
Usually hospital people either throw away used syringe needles or sterilize 
them and reuse them. In case that these needles are thrown away, 
infections may be spread out and may endanger (carelessly hurt human 
bodies and cause infections) cleaners' health. If these needles are 
reused, they may hurt medical people and cause infections in the process 
of detaching, sterilizing and storing these needles. For security 
considerations, basically all medical people usually throw away their 
needles. In view of this, this invention is made to provide a mini 
electrical syringe needle destroyer. 
SUMMARY OF THE INVENTION 
The major object of this invention is to provide a mini electric syringe 
needle destroyer with a power control switch, a circuit protecting device 
(fuse), a transformer, and two inter-crossing, non-contacting electrodes 
which can bring about flash electric-heat to destroy syringe needles. 
Another object of this invention is to provide a mini electric syringe 
needle destroyer with a needle detaching device which consists of a round 
needle-head inserting hole located on top of the outer case, i.e., on top 
of two non-contacting electrodes of the needle destroying device, and a 
needle detaching slide track with its upper end connecting to the 
needle-head inserting hole, of which the width is between the neck of the 
injector and the shoulder of the needle-head. 
The major advantage of this invention is that the user simply holds the 
injector and plugs the used needle head into the needle-head destroy 
device so that the needle is in contact with both non-contacting 
electrodes. At this moment the used needle will absorb the strong current 
resulting from flash short-circuit of the two electrodes. 
The second advantage of this invention is that the destruction, the 
detachment, and the collection of the needles can be done all at once, 
thus simplifying the operation.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Please refer to FIG. 1 and FIG. 2. FIG. 1 is a better illustration of 
actual use of the syringe needle-head destroy device, while FIG. 2 is the 
overall system configuration. This invention consists of the needle-head 
destroy device shown in FIG. 1, the outer case shown in FIG. 2, and the 
needle-head collecting box within the case. The needle-head destroy device 
consists of the power wires 11 that fit home-use power supply (110 V or 
220 V), a switch 12, a transformer 13, two electrodes 14, 15 and fuse 16. 
The electrodes 14 and 15 are, respectively, high-melting point 
platinum-coated 141, 151, and alloy of copper and gold inner-layer 142, 
152. As shown in FIG. 2, there is a keyhole-shaped needle-head detaching 
device 21 on top of the outer case. The needle-head detaching device 21 
includes a needle-head inserting hole 211 and a needle-head slide track 
212 with inclined sides (See FIG. 4). The needle-head inserting hole 211 
is a round hole on top of the two electrodes 14 and 15 so that when 
needle-heads are inserted they will cause a downward pressure on the 
electrodes. A hoof-shaped supporting frame is located under the said hole, 
somewhat lower than the needle-head slide track 212, and with the same 
width as that of the needle-head slide track. The hoof-shaped supporting 
frame 213 has a width as large as that of the needle-head slide track 212, 
but a little smaller than the needle-head shoulder 311, and larger than 
the rest of needle-head. The drawer like needle-head collector 22 is 
equipped with a heat-insulating metal plate. 
The operations proceed as follows: 
(1) First press down the switch connector 12 for power supply. 
(2) After heated, insert the needle-head 31 into the needle-head insertion 
hole 211. Then the needle-head 31 forms a short circuit between electrodes 
14 and 15. As the cross section of the needle-head is very small, and its 
electric resistance is larger than the electrodes (Electric resistance 
reversely proportionates with the cross section.), the needle-head can 
completely absorb the strong current resulting from the flash of short 
circuit. The needle-head 31 will thus be melted and deformed by the high 
temperature enabling the injector to move downward until the needle-head 
flange 311 is stuck by supporting frame 213. 
(3) Then the injector and the needle-head can be moved along to the other 
side of the needle-head slide track 212. Since the supporting frame 213 is 
a little lower than the needle-head slide track 212, the flange of the 
needle-head, 311, will be stuck under the needle-head slide track. 
(4) Hence in the sliding process the needle-head that could be destroyed at 
any time is separated from the injector 32 by the inclined guide track 
walls and drops on a metal plate (not shown) in the needle-head collecting 
box 22 and completes destroying, detaching, and needle-head collecting 
safely. Since transformer 13 decreases several times the input voltage 
such that the voltage across the electrodes is only 3-4 voltages, limiting 
the fuse (16) current between a safe range of 5-30 Amp. The operating 
procedures are shown in FIGS. 1, 2, 3 and 4. In the illustrated example, 
the fuse (16) current is 5-30 Amp. When accidental short-circuit on the 
electrodes 14 and 15 is incurred by any accidental objects, the fuse will 
be burned up to cut off power and prevent any extension of danger. 
The invention covers any device that modifies or changes the detailed 
structure, configuration, or operation described herein without leaving 
the spirit and limit of this invention.