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EP 0 047 172 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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16.07.1986 Bulletin 1986/29 |
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Date of filing: 01.09.1981 |
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(54) |
Re leasing apparatus for coin-freed vending machine
Freigabevorrichtung für münzbetätigten Verkaufsapparat
Dispositif de déblocage et leur distribution automatique de denrées actionné par pièces
de monnaie
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Designated Contracting States: |
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BE DE FR GB IT NL SE |
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Priority: |
01.09.1980 GB 8028197
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Date of publication of application: |
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10.03.1982 Bulletin 1982/10 |
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Applicant: PRECISION VENDING MACHINES LIMITED |
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Blackpool (GB) |
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Inventor: |
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- Ratzker, Herman Berthold
London NW9 (GB)
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Representative: Gold, Tibor Z. et al |
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Stephenson Harwood
One, St. Paul's Churchyard London EC4M 8SH London EC4M 8SH (GB) |
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to a releasing apparatus for coin-freed vending machines.
[0002] Known slot machines have coin testers which test each individual coin inserted into
the machine for properties such as size and weight, the coin tester rejecting counterfeit
or defective coins before they can release the locking mechanism of the slot machine.
Normally, a slot machine can be opened on the insertion of a number of coins of the
same or different denominations, and the invention was devised to provide a coin-freed
mechanism which checks the complete combination of coins inserted. As indicated below,
however, the invention is also applicable to a coin-freed mechanism which is released
by a single coin of a particular denomination.
[0003] Particular problems arise in devising a coin-freed mechanism which checks a combination
of inserted coins. For example, the mechanism should be able to cope with dissimilar
coins inserted into the machine in different orders and must be capable of aligning
the inserted coins accurately for checking purposes. To allow for coins of different
diameters to be inserted, sufficient lateral clearance must be provided in the coin
inlet yet the coins must come to rest in predetermined positions in which an overall
dimension can be checked.
[0004] From US-A-1 498 548 a coin-freed apparatus is known which comprises an electrical
circuit controlling a unit of the apparatus which permits or prevents the apparatus
to be freed and goods to be dispensed from the machine, and electrical coin sensing
contacts forming part of a circuit which is normally open across the sensing means.
The insertion of a predetermined number and size of coins is effective to establish
a conductive path across the sensing contacts via the coins to close and energize
the circuit and to free the unit. However, this known apparatus does not include means
for distinguishing between the real and counterfeit coins.
[0005] From FR-A-1 460 027 a coin-freed apparatus is known in which inserted coins are caused
to roll down an inclined chute provided with a fixed stop and electrical contacts.
When the correct number of coins have accumulated in the chute, a circuit is closed
through the relevant contact and an electromagnet swings the chute to one side to
allow the coins to drop into a collector box and to release the dispenser. A separate
selector checks the inserted coins before allowing them to reach the chute via a further
electromagnet controlling a pin. The resulting machine is complex, involves the use
of a plurality of electromagnets and does not reliably reject counterfeit coins.
[0006] DE-C-905 685 discloses a coin-operated mechanism with two chutes. A pivoted contact
forming part of a solenoid circuit is engageable with the uppermost coin. Closure
of the circuit causes a sprung bell-crank to rotate and remove a stop from the chute
blocking the coin path, while also causing a motor switch to close and to initiate
a cycle releasing the goods and resetting the crank and the solenoid. Again, the resulting
machine is complex involves the use of a solenoid and an electronic motor and does
not reliably reject counterfeit coins.
[0007] None of these prior specifications is capable of detecting a certain value of the
aggregate of the coins introduced, whether made up of a mix of large and small-value
coins. All these prior specifications are capable of a unique measurement of the number
of coins.
[0008] This deficiency is overcome by the invention, which relates to releasing apparatus
for a coin-freed vending machine, comprising an electrical circuit controlling the
blocking or release of a part of the machine which provides access to the goods to
be dispensed from the machine, and electrical coin-sensing contact assemblies one
of which is formed at the base of a coin chute and at least one other assembly at
a position spaced above the said one contact assembly at a height which is adjustable
to enable the dimension of the coin or of the combination of coins to be varied, the
said contact assemblies forming part of said circuit and being positioned and arranged
to engage coin(s) of correct denomination(s) and diameters; the said circuit being
normally open across said contact assemblies, the insertion of a predetermined number
and size of coin(s) being effective to establish a conductive path across said contact
assemblies to close and energize the circuit and to free said part.
[0009] The apparatus is characterised in that the said at least one other of said contact
assemblies is pivotably mounted adjacent to and movable with an insulated feeler member
under the effect of passage past it of inserted coin(s), the feeler member being effective
to gauge the dimensions of the coin(s) inserted and to hold the said other contact
asembly out of contact with the coins when their dimensions deviate from the correct
ones.
[0010] Preferably, there is a plurality of said other contact assemblies connected in series.
[0011] Said other contact assembly may include a pivoted flap carrying a pair of parallel
screws of which the one nearer to the pivot axis carries a knob of insulating material
constituting said feeler member.
[0012] Expediently, the free end of said knob is chamfered so that it tapers to a tip on
the side nearer to the screw; and the said one screw is longer than the other screw.
[0013] The invention will now be described, by way of example, with reference to the accompanying
drawings, in which:-
Figure 1 is a fragmentary rear elevation of a preferred embodiment of the apparatus
according to the invention; and
Figure 2 is a cross-section on the plane C-C of Figure 1.
[0014] Referring to Figure 1, the releasing apparatus for a coin-freed vending machine is
used to lock a drawer which is slidable from the locked position shown to an open
position in order to dispense cigarettes. The direction of opening movement of the
drawer 1 is perpendicular to the plane of Figure 1.
[0015] The drawer 100 is fitted with a latch plate into which projects a movable bolt by
the armature of an electrical solenoid. One terminal of the solenoid is connected
by a lead conductor to a battery (not shown) and the other terminal is connected by
a lead 6 to a sprung wiper contact 107 attached at the lower end of a coin chute 108.
The latch plate, movable bolt, and solenoid and conductor are not shown in the drawings,
but reference may be had to Figure 1 of EP-A-0 047 172 for an illustration of these
parts.
[0016] The wiper contact 107 has a sprung lower end which engages a strip contact 109 mounted
in a groove 110 which is inclined to the horizontal, as shown in Figure 1. The machine
has a back panel 12 of wood on which is mounted the solenoid and a channel-shaped
piece 13 of clear plastics. The chute 108 is defined between the piece 13 of plastics
and the back panel 12.
[0017] The plastics piece 13 of the con chute 108 has an elongated slot 114 within which
are clamped, at preselected and variable positions, two top contact assemblies 115
and 115a, capable of pivoting about parallel axes X-X, X'-X' relative to a block 117
clamped in the slot 114 by a respective clamping screw 118. They are electrically
in series. The two contact assemblies 115 and 115a are essentially identical, so it
will be sufficient to describe one, 115, only.
[0018] The contact assembly 115 is capable of pivoting about an axis X-X relative to a block
117 clamped in the slot 114 by a clamping screw 118.
[0019] A contact screw 116 of the contact assembly 115 is connected by an electrical lead
to a contact screw mounted in an insulating block carrying a depending beryllium-copper
spring contact, the block being mounted on the back panel 12. The upper end of the
solenoid armature carries a nylon cap which, on its upward movement, engages the beryllium-copper
spring contact and urges the latter into electrical contact with the contact screw
so as to complete a circuit to a device which produces a 'vend accept' audible signal.
Although the lead, contact screw, insulating block, cap and spring contact are all
not shown, again reference may be had to Figure 1 of EP-A-0 047 172 for an illustration
of these parts.
[0020] Reverting to the contact assembly 115, it includes a metal plate flap 130 carrying
screw 116 as well as a screw 132 parallel with screw 116. The screw 116 is in a lower
plane as viewed, and its curved surface (or at least the bottom portion thereof) is
provided with an insulated covering or coating 134. Its plane end face 136 is bare
metal so that only this end face 136 can make electrical contact with the coins to
complete a circuit, as will be explained.
[0021] The other screw 132 carries at its end a knob 138 of insulating material. The bottom
surface of the knob 138 is partly chamfered at 140 so that it tapers to a tip 142
on the side nearer the screw 116. The screw 132 with the tip 142 is slightly longer
than the screw 116.
[0022] The apparatus can be actuated by one high-value coin (such as the U.K. d1 coin) or
by an equal combination of two or more coins. Moreover, if the high-value coin (again,
such as the U.K. d1 coin) is of relatively small diameter, the step 111 in the groove
110 will ensure that it comes to rest in the desired plane and does not, for instance,
roll too far to the right, as viewed in Figure 1.
[0023] The operation of the illustrated preferred embodiment will now be described.
[0024] When coins are inserted in the mechanism they fall down the coin chute 108, displacing
the top contacts 116, 116a which pivot about their respective axes X-X, X'-X' with
a rocking motion as the coins pass. The inclination of the coin chute 108, combined
with the angle of the lower strip contact 109 mounted on the drawer 100, ensures that
the lowermost coin (shown at 24 in Figure 2) occupies a predetermined position with
its outer peripheral edge in contact with the lower strip contact 109. The strip contact
109 makes an obtuse angle with the right-hand side of the coin chute 108, as seen
in Figure 1. Subsequently inserted coins 25 form a stack, the edges of the coins being
in contact one with the next and with the left-hand edge of the coin chute 108, as
seen in Figure 1. The screw 132 with the insulating knob 138 and chamfered surface
140 will be pushed up by the coins and serves to hold the contact screw 116 out of
contact with the coins, unless the coins are 'right'.
[0025] Moreover, by use of the coating or covering 134 - it is ensured that electrical contact
is made only when a correct coin is directly under the end face 136, thereby preventing
fraud e.g. by jogging the drawer or rocking the whole vending cabinet in an attempt
to make coin edge-to-screw contact.
[0026] If the combination of coins inserted is the correct one, the contact screw(s) 116
which act(s) as sensitive feeler(s), will engage the edge region of the uppermost
coin at a position offset from the diametral line through the coins 25. Assuming that
the drawer 100 is in its retracted closed position, electrical continuity is established
from the contact screw 116 through the stack of inserted coins, through the lower
strip contact 109 mounted on the drawer 100 through the wiper contact 107 and thence
to the solenoid. Completion of this electrical circuit energises the solenoid the
armature of which moves upwardly to release the drawer 100.
[0027] If electrical continuity is not established through the stack of coins, for example
if a coin has been encircled with tape to make it larger in an attempt to pass it
off as a coin of larger denomination, the bolt will remain engaged with the latch
plate and the drawer 100 will not be openable. The coins are returned by the operator
pushing the drawer 100. It will be appreciated that if the overall size of the stack
of coins, as measured at the off-centre position of the contact screws 116 is not
of the pedetermined magnitude determined by the position of the block 117 in the slot
114, the drawer 100 will also remain locked.
[0028] On release of the drawer 100 and the delivery of the product therein, the coins fall
from the chute 108 behind the end of the drawer 100. On return movement of the drawer,
the bolt rides up an inclined edge of the latch plate (shown in Figure 3 of EP-A-0
047 172) before engaging therein.
[0029] The contact assembly 115a has a fine adjustment mechanism for its position. The block
117 is slidably mounted in the slot 114 and carries a bracket 150 formed with a threaded
aperture in which engages one end of a fine adjustment screw 152 extending from a
bracket 154 fixed to the chute 108. The other end of the screw 152 has a head 156
which can be turned by a screwdriver to raise or lower the bracket 150 and so the
assembly 115a.
[0030] Purely by way of example the mechanism is designed to dispense on the insertion of
(i) one d1 coin, or (ii) two 50p coins, but a) one 10p or 50p or other current U.K.
coin would not have the right diameter or thickness to disable the insulating knob
138, or b) one 50p and one 10p coin are of insufficient length and the screws 116,132
would be above them in the chute and engage the back panel 12, or c) one 50p and two
10p coins would be of sufficient length but the wrong thickness and so the chamfered
surface 140 would hold the surface 136 of the screw 116 away from the third coin.
[0031] Clearly the selection of the number of contact assemblies, their distance from each
other, the distance between the screws 116, 132, the angle of chamfer on the knob
138 are all best determined empirically to suit the coinage of a given country.
1. Releasing apparatus for a coin-freed vending machine, comprising an electrical
circuit controlling the blocking or release of a part (100) of the machine which provides
access to the goods to be dispensed from the machine, and electrical coin-sensing
contact assemblies one (107, 109) of which is formed at the base of a coin chute (108)
and at least one other assembly (115,115a, 116) at a position spaced above the said
one contact assembly (107, 109) at a height which is adjustable to enable the dimension
of the coin or of the combination of coins (25) to be varied, the said contact assemblies
forming part of said circuit and which are positioned and arranged to engage coin(s)
(25) of correct denomination(s) and diameters; the said circuit being normally open
across said contact assemblies, the insertion of a predetermined number and size of
coin(s) (25) being effective to establish a conductive path across said contact assemblies
to close and energize the circuit and to free said part (100), characterised in that
the said at least one other (115, 116) of said contact assemblies is pivotably mounted
adjacent to and movable with an insulated feeler member (138) under the effect of
passage past it of inserted coin(s) (25), the latter being effective to gauge the
dimensions of the coin(s) (25) inserted and to hold the said other contact assembly
(115, 116; 115a) out of contact with the coins (25) when their dimensions deviate
from the correct ones.
2. Apparatus according to claim 1, characterised in that there is a plurality of said
other contact assemblies (115, 116, 115a) connected in series.
3. Apparatus according to claim 1 or 2, characterised in that the electrical circuit
includes a solenoid which, when the electrical contact assemblies (107, 109; 115,
116; 115a) are electrically interconnected through the coin(s) (25), is energised
to release a locking bolt engageable in a patch plate attached to the said part (100).
4. Apparatus according to any preceding claim, characterised in that the coin chute
(108) is inclined slightly to the vertical, the lower (one) contact assembly (107,
109) being inclined both with respect to the coin chute (108) and to the horizontal
so that the first coin (25) inserted is caused to occupy a predetermined position
with its edge resting on the lower (one) contact assembly (107, 109) and against one
side of the coin chute (108).
5. Apparatus according to claim 4, characterised in that said other contact assembly
(115, 116; 115a) projects into the coin chute (108) at a position offset from the
diametral line passing through the uppermost coin (25) and parallel to the coin chute
(108).
6. Apparatus according to any preceding claim, characterised in that said other contact
assembly (115,115a) includes a pivoted flap (130) carrying a pair of parallel screws
(116, 132) of which one (132) nearer to the pivot axis (X-X; X'-X') carries a knob
(138) of insulating material constituting said feeler member.
7. Apparatus according to claim 6, characterised in that the free end of said knob
(138) is chamfered (140) so that it tapers to a tip (142) on the side nearer to the
screw (116); and that the said one screw (132, 142) is longer than the other screw
(116).
1. Freigabevorrichtung für einen münzbetätigten Verkaufsapparat mit einem elektrischen
Kreis zum Steuern des Blockierens oder der Freigabe eines Teiles (100) der Maschine,
das Zugang zu den von der Maschine auszugebenden Waren gibt, mit elektrischen Münzfühler-Kontakteinheiten,
von denen eine (107, 109) im unteren Bereich eines Münz-Abwurfkanals (108) angeordnet
ist, während zomindest eine andere Einheit (115, 115a, 116) in einer Position mit
Abstand oberhalb der genannten einen Kontakteinheit (107, 109) auf einer Höhe angeordnet
ist, die verstellbar ist, um die Größe der Münze oder der Kombination von Münzen (25)
zu variieren, wobei die genannten Kontakteinheiten Bestandteil des genannten Kreises
sind und so positioniert und angeordnet sind, daß sie auf Münzen (25) korrekter Herkunft
und Durchmesser ansprechen und wobei der genannte Kreis normalerweise über den genannten
Kontakteinheiten offen ist und das Einwerfen einer oder mehrerer Münzen (25) vorgegebener
Anzahl und Größe die Bildung eines Stromleitenden Pfades über die genannten Kontakteinheiten
herbeiführt, wodurch der Kreis geschlossen und aktiviert und das genannte Teil (100)
freigegeben wird, dadurch gekennzeichnet, daß zumindest eine genannte andere Kontakteinheit
(115, 116) der genannten Kontakteinheit schwenkbar montiert ist, und zwar benachbart
zu und unter der Wirkung des Durchlaufes einer oder mehrerer eingeworfener Münzen
(25), beweglich mit einem isolierten Fühlerelement (138), das die Messung der Größe
der eingeworfenen Münze(n) (25) gestattet und das die genannte andere Kontakteinheit
(115, 116; 115a) außer Kontakt mit den Münzen (25) hält, wenn deren Abmessungen von
den korrekten Maßen abweichen.
2. Freigabevorrichtung nach Anspruch 1, dadurch gekennzeichnet, daß sie meherer der
genannten anderen Kontakteinheiten (115, 116, 115a) aufweist, die in Serie geschaltet
sind.
3. Freigabevorrichtung nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß der elektrische
Kreis einen Magnet aufweist, der, wenn die elektrischen Kontakteinheiten (107, 109;
115, 116; 115a) durch die Münze(n) (25) elektrisch miteinander verbunden sind, aktiviert
wird, um einen Blockierstift freizugeben, der in Eingriff mit einer mit dem genannten
Teil (100) verbundenen Klinkenplatte steht.
4. Freigabevorrichtung nach einem vorhergehenden Ansprüche, dadurch gekennzeichnet,
daß der Münz-Abwurfkanal (108) gegenüber der Vertikalen leicht geneigt ist, daß die
(eine) untere Kontakteinheit (107, 109) sowohl bezüglich dem Münz-Abwurfkanal (108)
als auch bezüglich der Horizontalen geneigt ist, so daß die erste eingeworfene Münze
(25) veranlaßt ist, eine vorgegebene Position einzunehmen, bei der ihr Rand an der
(einen) unteren Kontakteinheit (107, 109) ruht und an einer Seite des Münz-Abwurfkanales
(108).
5. Freigabevorrichtung nach Anspruch 4, dadurch gekennzeichnet, daß die andere Kontakteinheit
(115, 116; 115a) sich in den Münz-Abwurfkanal (108) erstreckt, und zwar in einer Position,
die gegenüber der Durchmesserlinie durch die oberste Münze (25) und parallel zum Münz-Abwurfkanal
(108) versetzt ist.
6. Freigabevorrichtung nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet,
daß die genannte andere Kontakteinheit (115, 115a) eine Schwenkklappe (130) aufweist,
die ein Paar paralleler Schrauben (116, 132) trägt, von denen die eine (132), näher
an der Schwenkachse (X-X; X'-X') gelegene einen Knopf (138) aus isolierendem Material
trägt, der das Fühlerelement bildet.
7. Freigabevorrichtung nach Anspruch 6, dadurch gekennzeichnet, daß das freie Ende
des genannten Knopfes (138) abgeschrägt (140) ist, so daß es zu einer Spitze (142)
an der der Schraube (116) zugewandten Seite zusammenläuft und daß die genannte eine
Schraube (132, 142) länger als die andere Schraube (116) ist.
1. Dispositif de déblocage pour distributeur actionné par des pièces de monnaie, comportant
un circuit électrique de commande du blocage ou du déblocage d'une partie (100) du
distributeur qui donne accès aux articles à distributeur ainsi que des ensembles contacteurs
électriques (107, 109) détectant les pièces de monnaie, l'un desdits ensembles étant
disposé à la base d'une glissière à monnaie (108), cependant qu'au moins un autre
ensemble (115, 115a, 116) est disposé à une certaine distance au-dessus dudit ensemble
(107, 109) à une hauteur réglable de façon telle que les dimensions de la pièce de
monniae ou de fa combinaison de pièces de monnaie (25) puissent varier, lesdits ensembles
contacteurs étant incorporés audit circuit et positionnés et agencés de manière à
contacter une ou des pièce(s) (25) de dénomination et de diamètre corrects; ledit
circuit étant normalement ouvert par lesdits ensembles contacteurs, tandis que l'insertion
d'un nombre prédéterminé de pièces de monnaie (25) de dimensions prédéterminées provoque
l'établissement d'une liaison conductrice à travers lesdits ensembles contacteurs
de manière à fermer et activer ledit circuit et à libérer la partie (100) précitée,
caractérisé en ce qu'au moins ledit autre ensemble contacteur (115, 116) est monté
à pivotement à proximité d'un palpeur (138) isolé déplaçable avec celui-ci sous l'effet
du passage devant lui d'une (de) pièce(s) de monnaie (25) insérée(s), ledit palpeur
étant susceptible de déterminer les dimensions de la (des) pièce(s) de monnaie (25)
insérées(s) et de maintenir ledit autre ensemble contacteur (115,116; 115a) hors de
contact d'avec les pièces de monnaie (25) lorsque les dimensions de celles-ci ne correspondent
pas aux dimensions correctes.
2. Dispositif selon la revendication 1, caractérisé en ce qu'il comporte une pluralité
desdits autres ensembles contacteurs (115, 116, 115a) qui sont branchés en série.
3. Dispositif selon la revendication 1 ou 2, caractérisé en ce que ledit circuit électrique
comprend un solénoïde qui, lorsque les ensembles contacteurs électriques (107, 109;
115, 116; 115a) sont reliés entre eux par la(les) pièce(s) de monnaie (25), est excité
de manière à libérer une broche de blocage susceptible de s'engager dans une plaque
d'arrét liée à ladite pièce (100).
4. Dispositif selon une quelconque des revendications précédentes, caractérisé en
ce que la glissière (108) à pièces de monnaie est légèrement inclinée par rapport
à la verticale, l'ensemble contacteur inférieur (premier) (107, 109) étant incliné
tant par rapport à ladite glissière (108) que par rapport à l'horizontale, de façon
telle que la première pièce de monnaie (25) insérée soit placée dans une position
prédéterminée, son bord prenant appui sur l'ensemble contacteur inférieur (premier)
(107, 109) et sur un côté de ladite glissière (108).
5. Dispositif selon la revendication 4, caractérisé en ce que ledit autre ensemble
contacteur (115, 116; 115a) s'étend jusque dans la glissière (108) à pièces de monnaie,
dans une position décalée par rapport à la ligne diamétrale qui passe par la pièce
de monnaie (25) la plus élevée, et parallèle à ladite glissière (108).
6. Dispositif selon une quelconque des revendications précédentes, caractérisé en
ce que ledit autre ensemble contacteur (115, 115a) comporte un volet pivotant (130)
qui porte deux vis (116, 132) parallèles dont l'une (132), qui est la plus rapprochée
de l'axe de pivotement (X-X; X'-X') porte un bouton (138) en matière isolante qui
constitue ledit palpeur.
7. Dispositif selon la revendication 6, caractérisé en ce que l'extrémité libre dudit
bouton (138) est biseautée (140) de manière à se terminer par une pointe (142) sur
le côté le plus rapproché de la vis (116); et en ce que la vis précitée (132, 142)
est plus longue que l'autre vis (116).