US3256397A

US3256397A - Impact signal device with magnetically restrained inertia element

Info

Publication number: US3256397A
Application number: US361336A
Authority: US
Inventors: Wintriss George
Original assignee: INDUSTRIONICS CONTROLS Inc
Current assignee: INDUSTRIONICS CONTROLS Inc
Priority date: 1964-04-21
Filing date: 1964-04-21
Publication date: 1966-06-14
Anticipated expiration: 1983-06-14

Description

June 14, 1966 G. WINTRISS IMPACT SIGNAL DEVICE WITH MAGNETICALLY RESTRAINED INERTIA ELEMENT Filed April 21, 1964 INVENTOR BY x mm m AT TOR NEYS.

, 3,256,397 IMPACT SIGNAL DEVICE WITH MAGNETICALLY RESTRAINED INERTIA ELEMENT George Wintriss, Carversville, Pa., assignor to Industrionics Controls, Inc., New York, N.Y., a corporation of New York Filed Apr. 21, 1964, Ser. No. 361,336 8 Claims. (Cl. 200-6145) This invention relates to apparatus for picking up a signal in response to theimpact of an object against an abutment. It may be used on automatic machines by placing the abutment in the path of Work pieces delivered from the machine, and it has many other uses.

It is an object of the invention to provide an improved pick-up responsive to impact, and more especially to provide a more rugged pick-up than those of the prior art, and which remains reliable indefinitely in contrast to prior impact signal pick-ups that are eventually damaged by the impacts.

Another object of the invention is to provide an electric switch containing an inertia element which is one of the contacts of the switch, the switch being constructed and arranged to open or close momentarily when the housing moves suddenly so as to shift a contact secured to the housing away from the inertia element which does not partake of the sudden movement.

In order to prevent bouncing and vibration of the inertia element in the housing, the inertia element is given a bias toward or away from the contact that is held in the housing; and in one embodiment of the invention, the contact that is held in the housing is a magnet and the inertia element is made of ferrous metal so that the attraction of the magnet for the inertia element provides the bias for the inertia element toward the other contact. In another embodiment of the invention, a magnet which is not part of the circuit biases the inertia element away from a contact held in the housing.

The preferred construction has a ball as the inertia element and has a second magnet that contacts with the ball at the same time as the first magnet when the circuit through the switch is closed. The invention includes an abutment plate to which the switch housing is connected and the housing may be a part of the electric circuit and may be at the frame potential of the machine with which the pick-up is used. The other side of the circuit can be connected with the actuator of a control switch of the automatic machine.

Other objects, features and advantages of the invention will appear or be pointed out as the description proceeds.

In the drawing, forming a part hereof, in which like reference characters indicate corresponding parts in all the views; r

FIGURE 1 is a sectional view through an abutment and switch made in accordance with this invention;

FIGURE 2 is a sectional view taken on the line 22 of FIGURE 1;

FIGURE 3 is a diagrammatic View showing the combination of the pick-up apparatus of this invention with an automatic machine; and

FIGURE 4 is a view similar to FIGURE 1, but showing a modified construction in which an impact closes a circuit instead of opening it as in the case in the construction shown in FIGURE 1.

FIGURE 1 shows an abutment consisting of a plate which is made of stifily flexible material preferably metal. This plate 10 is constructed so that it is not flexed beyond its elastic limit by the impact of the work pieces or other objects with which it is intended to be used.

On the back of the abutment plate 10 there is a fastening element 12 which is secured to the plate in any suitable way as by welding 14. A switch housing 16 is at- United States Patent 0 Patented June 14, 1966 "ice tached to the fastening element 12 by screw threads 18.

Within the switch housing 16, there is a chamber 20 which encloses an inertia element 22. In the construction illustrated, the inertia element 22 is a steel ball.

At the bottom of the chamber 20 there is a contact 24 imbedded in an insulating cup 26 which prevents the contact 24 from touching the switch housing 16. This insulating cup 26 can be made of plastic or any other suitable electrical insulating material. The cup 26 preferably fits with a press fit into the lower end of the chamber 20 and the contact 24 preferably fits with a press fit into the cup 26.

The contact 24, which is fixed with respect to the switch housing 16 by being secured in the bottom of the switch housing, is preferably a permanent magnet so that it attracts the steel ball 22 and thus provides a bias holding the ball 22 normally in contact with the upper pole face of the contact magnet 24.

The contact magnet 24 is connected with a conductor 30 extending through an insulating sleeve 32 in the switch housing 16 and constituting part of an external circuit. In the preferred construction, the switch housing 16 is a part of the electric circuit and is grounded by a conductor 34 on a frame 36 of the machine or other equipment with which the invention is used. The circuit through the steel ball 22 is at ground potential when the switch is closed.

The chamber 20 is cylindrical with its longitudinal axis extending toward the plate 10. The upper pole face of the contact magnet 24 extends across the entire area of the part of the chamber 20 in which the ball 22 is contained; but the contact magnet 24 may be of smaller cross section. In any event it is large enough so that the space between the circumference of the pole face and the cylindrical side wall of the chamber 20 is less than the radius of the inertia element or ball 22. Thus the ball 22 always touches the pole face of the contact magnet 24 when the ball is at rest, and even though the ball is up against some part of the cylindrical side wall of the chamber 20.

The switch can be made so that the contact of the ball 22 with the side wall of the switch housing 16 provides one side of the circuit While the contact of the ball with the contact magnet 24 provides the other side of the circuit of the switch.

When an object strikes on the abutment plate 10, the impact causes the abutment plate 10 and the switch housing 16 to move downward very suddenly and because of the inertia of the ball 22, the contact magnet 24 moves away from the ball 22 momentarily and breaks the circuit through the switch provided by the ball and contact 24 until the ball 22 has time to again move into contact with the contact magnet 24 under the influence of gravity and the pull of the magnet 24.

The switch of this invention can be used in any orien-' tation and it will be evident that a greater impact will be required to open the switch when it is in the position shown in FIGURE 1 than when it is in a position upside down with respect to FIGURE 1 or various other positions in which the attraction of gravity and the pull of the magnet 24 are not both in the same direction.

It is a feature of the construction, that the chamber 20 is of short axial extent as compared with the diameter of the ball 22 so that when the switch housing is in any orientation, the magnet 24 will always pull the inertia element or ball 22 back into contact with the pole face of the magnet 24 regardless of the position to which the ball 22 may be shifted with respect to the housing by impact of objects with the abutment plate 10.

In the preferred construction of the invention, a second magnet 34 is used in the curved wall of the chamber 20. This second magnet 34 is shown with one pole face flush 3 with the curved wall of the chamber 20 but it can extend slightly beyond the wall of the chamber when necessary to center the ball 22 over the contact magnet'24 while the ball is in contact with the second magnet 34.

The magnet 34 preferably fits with a press fit into an opening in the side of the chamber 20 and it is located close enough to the level of the upper end of the contact magnet 24 so that at least a part of the inner pole face of the second magnet 34 is not further from the level of the pole face of the magnet 24 than a distance equal to the radius of the ball 22. Thus the ball 22 touches both of the

magnets

24 and 34 when in its normal un disturbed position as shown in FIGURE 1.

When the switch housing 16 is made of metal and constitutes a part of the electric circuit, it will be evident that the circuit is closed with the ball 22 in contact with any part of the side wall of the chamber 20 so long as the ball 22 is at the same time touching the pole face of the contact magnet 24. However, the magnet 34 provides the important advantage of insuring a firmer contact between the ball 22 and the circuit which passes through the metal of the housing 16. The second magnet 34 also has the additional advantage of making it unnecessary to construct the switch housing 16 out. of electrically conductive material and the switch housing can be made of plastic or other electrically insulating material if the second magnet 34 is connected directly to the conductor 34 by which the circuit is grounded.

The switch has less resistance and operates more effectively without danger of corrosion if the

magnets

24 and 34, and the ball 22, are plated with metal which constitutes a good conductor, such as silver. In the preferred construction the ball 22 is plated with silver or other material of good electrical conducting character-- istics, and at least the pole faces and preferably the entire surface of the

magnets

24 and 34 are similarly coated. One of the advantages of using the ball 22 as the inertia element is that the ball rolls and does-not have the same area contact with the

magnets

24 and 34 on subsequent closings of the switch. Thus the ball 22 provides a selfcleaning contact for the switch and the movement of the ball on the faces of the magnets tends to keep the faces of the magnets clean.

Within the broader aspects of the invention, the inertia element 22 can be made of various shapes and can be supported in different ways, and the chamber 20 can have other shapes including a shape where the magnets would pull the inertia element into a corner of the chamber.

In the construction illustrated, there is a washer 38 in the housing 16 between the end of the cup 26 and the broad shoulder at the level of the upper pole of the magnet 24. This washer 38 has a center opening which is of substantially the same diameter as the portion of the chamber 20 in which the ball 22 is located. The diameter of the magnet 24 is somewhat larger than the center opening of the washer 38, and thus the washer 38 provides insulation for preventing the outer edge portion of the upper pole face of the magnet 24 from contacting the metal around the shoulder of the chamber 20.

The insulating sleeve 32 has a tapered face 40. An end portion 42 of the housing 16 is crimped over the tapered face 40 as indicated in dotted lines in the drawing, after the insulating sleeve 32 has been inserted into the housing 16. There is a sealing ring 43 in the housing 16 for preventing entrance of moisture into the interior of the housing.

One application of the invention to an automatic machine is illustrated diagrammatically in FIGURE 3. Work pieces 46 which are ejected froma die 48 by ejector pins 50, are blown clear of the die by an airstream from a blast pipe 52; and these work pieces 46 are blown against the abutment plate which is supported at its upper end from a fixed support 56 constituting a part of the frame of the automatic machine. The abutment plate 10 is placed at an angle so as to deflect work pieces 46 downwardly into a tote box 60.

The switch housing 16 is located on the back of the abutment plate, as previously explained, and the conductor 30 leads to an actuator coil 62 of a switch 64 which controls the stopping of the automatic machine.

' This switch 64 is connected with a controller 66 of the machine and unless the switch in the housing 16 breaks the circuit of the switch 64 once in each cycle of the machine to indicate that the work piece has been delivered from the die 48, the control 66 stops the operation of the machine since the failure to deliver the work piece may indicate that there is a work piece stuck in the die or some other malfunction which will cause damage to the apparatus if the operation is allowed to continue.

FIGURE 4 shows a modified form of the invention in which the switch is normally open and the circuit through the switch is closed when there is impact against the plate 10. Parts of the switch shown in FIGURE 4, which are identical with those shown in FIGURE 1, are indicated by the same reference character.

The essential difference in construction between the switch of FIGURE 4 and that of FIGURE 1 is that the FIGURE 4 construction is made with a longer housing 76 and a magnet 78 is located on the side of the inertia element or ball 22 which is nearer to the plate 10 rather than on the opposite side as in FIGURE 1. This magnet 78 of FIGURE 4 holds the ball 22 normally spaced away from a contact 80 in the lower end of a chamber 82.

The contact 80 is carried by a conductor block 82 which connects with the conductor 30 in the same way as in the construction shown in FIGURE 1. The magnet 34 is the same as in FIGURE 1, and so is the washer 38. The conductor block 82 takes the place of magnet 24 of FIGURE 1 so that the same cup 26 can be used for both constructions.

An impact against the plate 10 in FIGURE 4 causes the housing 76 to move and causes the inertia element or ball 22 to make the same movement since it is in contact with the magnet 78. However, when the housing 76 has moved I to the limit of travel imposed by the impact, the inertia ofthe ball 22 causes it to continue movement until it strikes against the contact 80. This closes the circuit to the switch and produces the signal corresponding to the impact. Thus the switches shown in FIGURES 1 and 4 are both operated by impact but one closes a circuit in response to impact whereas the other opens a circuit.

The preferred embodiments of the invention have been illustrated and described, but changes and modifications can be made, and some features can be used in diiferent combinations without departing from the invention as defined in the claims.

What is claimed is:

1. An impact pick-up device for opening and closing an electric circuit to supply a signal in response to impact of an object against an abutment including in combination an abutment in position to be struck, a housing connected with the abutment and movable with the abutment in response to impact of an object against said abutment, an inertia element in the housing and movable with respect to the housing in response to said impact, first electrical contact means in a fixed position in the housing and including a magnet that gives the inertia element a bias toward a normal position in which the inertia element touches the first electric contact means to close a circuit,

ment being movable towardand from the magnet in the direction of the longitudinal axis of the magnet, the abutments remote from the magnet being in position to confine the inertia element to a location from which it is pulled back into contact with the magnet by the attraction of said magnet even when the housing is oriented with the inertia element below the magnet.

2. The impact pick-up described in claim 1 characterized by the inertia element being a free ferrous body in the housing.

3. The impact pick-up device described in claim 2 characterized by the magnet constituting the contact of the first electrical contact means.

4. An impact pick-up device for opening and closing an electric circuit to supply a signal in response to impact of an object against an abutment including in combination an abutment in position to be struck, a housing connected with the abutment and movable with the abutment in response to impact of an object against said abutment, an inertia element in the housing and movable with respect to the housing in response to said impact, a first electrical contact in a fixed position in the housing and toward and from which the inertia element is movable, a magnet on a different side of the inertia element from the first contact to hold its electric circuit open, abutments in the housing confining the inertia element to a limited range of movement, the magnet constituting one of the abutments and the inertia element contacting with the magnet when at one end of the range of movement of the inertia element, and said inertia element being movable toward and from the magnet in the direction of the longitudinal axis of the magnet, and the abutments in the housing most remote from the magnet being in position to confine the inertia element within a pulling range of the magnet so that the magnet pulls the inertia element away from the first contact whenever the pick-up device is stationary and even when the pick-up device is oriented with the inertia element below the magnet, a conductor with which the inertia element is in contact both when touching and when away from the first electrical contact, the inertia element constituting a second electrical contact for making and breaking the electric circuit between said conductor and first electrical contact.

5. An impact pick-up device for opening and closing an electric circuit to supply a signal in response to impact of an object against an abutment including in combination an abutment in position to be struck, a housing connected with the abutment and movable with the abutment in response to impact of an object against said abutment, an inertia element in the housing and movable with respect to the housing in response to said impact, a first electrical contact in a fixed position in the housing, the inertia element having a bias urging it into a normal position with respect to the first electrical contact, a conductor in an electrical circuit with the inertia element, said inertia element constituting a second contact and constituting with the first contact a switch for opening and closing the electric circuit in response to impacts to produce a signal in said electric circuit the inertia element being a ball and the conductor in an electric circuit with the inertia element being a second magnet that attracts the ball, the magnets being located close together with their pole faces in differing planes where the ball can contact with both magnets at the same time.

6. The impact pick-up device described in claim 5 characterized by one of the magnets being insulated from the housing and connected with the external circuit, the other magnet being in electrical contact with the housing, and constituting said first contact and the housing being made of electrical conducting material and constituting part of the electric circuit.

7. The impact pick-up device described in claim 6 characterized by the abutment being a plate of stifily flexible material that flexes Within its elastic limit in response to impact of an object, the housing having a chamber therein open at one end of the housing, the chamber being cylindrical with a diameter greater than the diameter of the ball and the longitudinal axis of the cylinder extending toward the open end of the cylinder, fastening means connecting the housing at the open end of the chamber to the back of the plate and closing said open end of the chamber, the first magnet being imbedded in the end of the housing opposite the open. end of the chamber with one pole of the magnet constituting a part of the end of the housing, electrical insulation spacing the first magnet from contact with the rest of the housing, the first magnet having the outer limits of its pole face spaced from said walls of the cylindrical chamber by a distance less than the radius of the ball, an electrical conductor leading from the first magnet to the external circuit, the second magnet being embedded in a curved side wall of the chamber and hav ing at least a portion of its pole face spaced above the level of the pole face of the first magnet by a distance less than the radius of the ball so that the ball touches the pole faces of both magnets at the same time, an electrically conductive plating on the surface of the ball and on the pole faces of both of the magnets.

8. The impact pick-up device described in claim 2 characterized by the abutment plate being in position to be struck by work pieces discharged from an automatic machine, a switch for controlling the operation of the machine, an actuator for the switch, the electrical circuit being connected at one side with the switch actuator and on the other side being grounded on a frame of the automatic machine.

References Cited by the Examiner UNITED STATES PATENTS 2,744,976 5/1956 Black ZOO-61.53 2,854,537 9/1958 Sternburgh 200-6l.54 2,892,049 6/1959 Rubinstein 20061.45 2,898,415 8/1959 Clurman 2006l.53 2,898,416 8/1959 Clurman 200-87 2,997,557 8/1961 Gillmor et al 20061.45 3,171,913 3/1965 Kersh 20087 BERNARD A. GILHEANY, Primary Examiner.

B. DOBECK, Assistant Examiner.

Claims

1. AN IMPACT PICK-UP DEVICE FOR OPENING AND CLOSING AN ELECTRIC CIRCUIT TO SUPPLY A SIGNAL IN RESPONSE TO IMPACT OF AN OBJECT AGAINST AN ABUTMENT INCLUDING IN COMBINATION AN ABUTMENT IN POSITION TO THE STRUCK, A HOUSING CONNECTED WITH THE ABUTMENT AND MOVABLE WITH THE ABUTMENT IN RESPONSE TO IMPACT OF AN OBJECT AGAINST SAID ABUTMENT, AN INERTIA ELEMENT IN THE HOUSING AND MOVABLE WITH RESPECT TO THE HOUSING IN RESPONSE TO SAID IMPACT, FIRST ELECTRICAL CONTACT MEANS IN A FIXED POSITION IN THE HOUSING AND INCLUDING A MAGNET THAT GIVES THE INERTIA ELEMENT A BIAS TOWARD A NORMAL POSITION IN WHICH THE INERTIA ELEMENT TOUCHES THE FIRST ELECTRIC CONTACT MEANS TO CLOSE A CIRCUIT, A SUPPORT ON WHICH THE INERTIA ELEMENT RESTS INCLUDING A CONDUCTOR IN AN ELECTRICAL CIRCUIT WITH THE INERTIA ELEMENT, SAID INERTIA ELEMENT CONSTITUTING A SECOND CONTACT AND CONSTITUTING WITH THE FIRST ELECTRIC CONTACT MEANS A SWITCH FOR OPENING AND CLOSING THE ELECTRIC CIRCUIT IN RESPONSE TO IMPACTS TO PRODUCT A SIGNAL IN SAID ELECTRIC CIRCUIT, AND ABUTMENTS CONFINING THE INERTIA ELEMENT TO A LIMITED RANGE OF MOVEMENT, THE MAGNET CONSTITUTING ONE OF THE ABUTMENTS, AND THE INERTIA ELEMENT CONTACTING WITH THE MAGNET AT ONE END OF THE RANGE OF MOVEMENT AND THE INERTIA ELE-