JPH073335B2 - Automatic outer diameter measuring device for lead switches - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to an automatic outer diameter measuring device for a reed switch after a reed piece is sealed in a glass tube in a reed switch manufacturing process.

(Prior Art) A reed switch is, for example, as shown in FIG.
In order to make the magnetic material elastically movable, a pair of wire rods (hereinafter referred to as lead pieces) 2 having press-formed tip portions 3 thereof are provided, and the wire end portions 3 are provided with an appropriate overlap and gap, and an inert gas is provided. Together with this, it is a magnetic drive type switch enclosed in the glass tube 4. In the manufacturing process of such a reed switch 1, there is a sealing process of melting the sealing glass and sealing the lead piece 2. In this step, for example, an infrared lamp is used to focus the sealing glass on the sealing portion 5 and heat the sealing glass 5 to encapsulate the lead piece 2. The outer diameter of the reed switch 1 manufactured in this manner is measured in the measuring process. This is because, at the time of sealing, the shape of the glass portion may not be normal and may be deviated from the reference tube by heating and melting the glass portion. Usually, for example, the maximum diameter MAX
Good products with a diameter of 2.8 mm or less. This dimension is calculated from the storage allowable value when this reed switch is used together with various devices.

Conventionally, as a method for measuring the outer diameter of the reed switch, it is determined whether or not the test reed switch passes through the inner diameter portion of the cylindrical measuring jig which is previously set to φ2.8 mm.

Hereinafter, a device for measuring an outer diameter of this type of reed switch and a method for measuring the same will be described with reference to the drawings.

FIG. 5 is a schematic explanatory view of a measuring device for measuring the outer diameter of this type of reed switch.

First, the structure of this measuring device will be described. 1 in the figure
Is a test reed switch described above (hereinafter, simply referred to as reed switch), 11 is a supply port of the reed switch 1, 12 is a cylindrical measuring jig, 13 is a cylindrical half-divided portion, 14 is a drive device of the cylindrical half-divided portion 13, For example, a cylinder. 15 is a distribution plate of the reed switch 1, 16 is a good product storage box, 17 is a defective product storage box, 18, 18 ', 19, 19' are photoelectric sensors, 18, 19 are its light projectors, 18 ', 19' Is the receiver.

Next, the operation of this measuring device will be described. When the measured reed switch 1 passes through the distribution plate 15, the reed switch 1 is detected and a new reed switch 1 is turned on from the supply port 11. Immediately before the reed switch 1 that has been turned on enters the cylindrical measurement jig 12, it blocks the light between the photoelectric sensors 18 and 18 ′ and outputs the confirmation signal S ₁ that the reed switch 1 is turned on to the control device 20.
Send to.

On the other hand, at the outlet of the cylindrical measuring jig 12, photoelectric sensors 19, 1
9'is set, and the reed switch 1 sends the discharged confirmation signal S ₂ to the control device 20. Therefore, the reed switch 1 is supplied to the cylindrical measuring jig 12, and if the outer diameter thereof is a permissible value, for example, φ2.8 mm or less, the reed switch 1 is discharged through the cylindrical measuring jig 12 and passed through the distribution plate 15 to be a non-defective product. It is stored in the storage box 16.

In this case, the time interval between the output confirmation signal S ₁ of the reed switch 1 by the photoelectric sensor 18 ′ and the output confirmation signal S ₂ of the reed switch 1 by the photoelectric sensor 19 ′ is short. Time, and if it is such a short time, it is within the allowable time, and this cycle is repeated sequentially.
Set so that automatic measurement can be continued.

However, the outer diameter of the reed switch 1 is an allowable value, for example φ
If it exceeds 2.8 mm, it will not be possible to pass through the cylindrical measuring jig 12, and even if a predetermined set time is passed after the closing confirmation signal S ₁ is output by the photoelectric sensor 18 ′, the photoelectric sensor 1
When the discharge confirmation signal S ₂ of the reed switch 1 cannot be obtained by 9 ', the controller 20 determines that the outer diameter of the reed switch 1 is larger than the allowable value and determines that the product is defective, and the drive device 14 is operated to measure the cylinder. The cylindrical half-split part 13 of the jig 12 is opened and the reed switch 1 that cannot pass through is discharged. In this case, the distribution plate 15 is operated in synchronization with the operation of the driving device 14, and the ejected reed switch 1 is stored in the defective product storage box 17.

(Problems to be Solved by the Invention) However, in the apparatus having the above configuration, the reed switch 1 has an outer diameter close to the permissible critical value with respect to the cylindrical measuring jig 12 set to the permissible outer diameter. Reed switch 1
Comes, the reed switch 1 becomes a cylindrical measuring jig 12
However, there is a problem in that a judgment error is likely to occur due to the clogging of the measurement data, and a loss time required for the judgment occurs, the operating rate of the measuring device is lowered, and the measurement reliability is low.

SUMMARY OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned problems and to accurately measure even a reed switch having an outer diameter close to a permissible critical value to provide a highly reliable reed switch automatic outer diameter measuring device.

(Means for Solving the Problems) In order to achieve the above object, the present invention relates to a reed switch automatic outer diameter measuring device, which detects a supply port of a test reed switch and a supply of the reed switch. 1 sensor, a stopper for stopping the reed switch, a fixed block having a U groove for receiving the reed switch stopped by the stopper, and a reference surface for measuring the outer diameter of the reed switch provided in the fixed block. The setting device to be set, the allowable value of the outer diameter of the reed switch is changed, the reference surface of the setting device is adjusted, the adjusting means and the U groove are moved from the direction perpendicular to the supply direction of the reed switch. A probe piece having a cross-sectional shape corresponding to the outer diameter of the reed switch freely engaged, and facing the reference surface,
A movable block including a second sensor that detects a distance from the reference surface, a drive device that drives the movable block, a determination of whether the outer diameter of the reed switch is good, and a supply / discharge of the reed switch. A control device for controlling is provided.

(Operation) According to the present invention, when the reed switch 1 is supplied, the supply confirmation signal S ₁ of the reed switch 1 from the first sensor 30.
Thus, the supply of the reed switch 1 is detected. On the other hand, the reed switch 1 is stopped by the stopper 29 and received by the U groove 22-1 extending in the vertical direction of the fixed block. Next, when the supply confirmation signal S ₁ is output from the first sensor 30, the movable cylinder 24 as a driving device is driven, and the probe piece 26 of the movable block 25 moves the U groove 22-1 through the U groove 22-1.
The reed switch 1 is gripped by moving toward the bottom of the groove 22-1. During this time, the second sensor 27 moves while monitoring the distance from the reference plane 23-1 of the setting device 23 for setting the reference plane, and the second sensor 27 moves from the reference plane 23-1 to the predetermined set distance l. _When it reaches within ₁ , the output signal S ₃ is output from the second sensor 27, the signal is sent to the control device 31, the reed switch 1 is determined to be a non-defective product, and the probe piece 26 is retracted and the stopper is provided. Retract 29 from the path and eject the reed switch 1. If the probe piece 26 comes into contact with the reed switch 1 and cannot reach the set distance l ₁ even if the reed switch 1 is held between the reed switch 1 and the U groove 22-1, the reed switch 1 has an outer diameter of It is out of the allowable value and is judged as a defective product.

In particular, the reference surface 23-1 of the setting device 23 is changed by changing the reference surface 23-1 of the setting device 23, and changing the allowable value of the outer diameter of the reed switch 1 by a micrometer as an adjusting means.
Adjustments can be made.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an overall configuration diagram of an automatic outer diameter measuring device for a reed switch according to the present invention, and FIG. 2 is FIG. 1 II-II ′ of the same measuring device.
A line sectional view and FIG. 3 are explanatory views of a measuring unit of the measuring apparatus.

In the figure, 21 is a mounting base of this measuring device, 22 is a fixed block, 22-1 is a U groove extending in the vertical direction formed in the center of the tip of the fixed block 22, and cooperates with a stopper described later. Receive reed switch 1. 23 is a fixed block 22
Is a setting device for the reference surface 23-1 installed on the side surface of the reed switch, and the setting device 23 is provided with a micrometer so that the allowable value of the outer diameter of the reed switch can be changed and adjusted. . 24 is a movable cylinder as a driving device, 25 is a movable block driven by the movable cylinder 24, 26 is projectingly provided at the center of the tip of the movable block 25, and is moved horizontally in the U groove 22-1. It is a probe piece that freely engages, and has a grip portion 26-1 having a semicircular cross-section having a diameter corresponding to the outer diameter of the reed switch 1 at the tip thereof. 27 is a second sensor for measuring the outer diameter of the reed switch 1, 28 is a funnel-shaped reed switch 1 supply port, 29 is a reed switch 1 stopper, and 30 is a reed switch 1 supply confirmation first sensor. And, for example, a magnetic induction type sensor having a search coil. 31 is a control device, which includes a central processing unit (CPU) 32, an I / O port 33, a timer 34,
A comparator 35, a display and a manual data input device 36, a memory 37, a bus 38 and the like are provided.

Next, first, the measurement of the outer diameter of the reed switch 1 will be described with reference to FIGS. 1 and 3.

In measuring the outer diameter, the reference surface 23-1 facing the second sensor 27 is set using the micrometer 23 as a setting device. That is, the reference surface 23-1 is adjusted so as to correspond to the position of the bottom of the U groove 22-1. The setting method of the reference surface 23-1 will be described in detail. The allowable value of the outer diameter of the reed switch 1, for example, a standard part of the reed switch of φ2.8 mm is set in the U groove 22-1, The movable cylinder 24 is driven, the probe piece 26 is inserted into the U groove 22-1, and the standard component is gripped.

In this way, the standard article is gripped and fixed in a state where the reed switch 1 is set to the allowable critical value, and first, the micrometer 23 is operated to set the reference surface 23-1 to the surface of the second sensor 27. From the contact state of the reference surface 23-1, the micrometer 23 is operated to retract the reference surface 23-1, and the reference surface 23-1 is adjusted to a permissible value, for example, a position of φ2.8 mm. To set the reference position. The second sensor 27 is arranged so that an output signal can be obtained when the second sensor 27 reaches a predetermined distance l _{1 with} respect to this reference position, for example, φ2.8 mm.
Set 27. As the second sensor 27, a general sensor such as an electromagnetic induction type proximity sensor, an electrostatic capacitance type proximity sensor, or a reflection type photoelectric sensor can be used.

Next, the measurement of the automatic outer diameter of the reed switch using this measuring device will be described.

First, when the reed switch 1 is supplied from the supply port 28 of the reed switch 1, the reed switch 1 is
Stopped by 29 and fixed block 22 U
Received by groove 22-1. The supply of the reed switch 1 is detected by the first sensor 30. When this detection signal S ₁ is input to the control device 31, an output signal S ₂ that drives the movable cylinder 24 from this control device 31.
Is output. Then, by driving the movable cylinder 24, the movable block 25 moves toward the fixed block 22. That is, the probe piece 26 enters the U groove 22-1 and grips the reed switch 1 by the grip portion 26-1.

At this time, in the movable block 25, the second sensor 27 fixed at the position corresponding to the grip portion 26-1 also moves at the same time. That is, at the position corresponding to the bottom of the U groove 22-1, from the reference surface 23-1 set by the micrometer 23, the detection surface of the second sensor 27 at the position of the distance l ₂ is gradually fixed side. When reaching the distance l ₁ from the reference surface 23-1 which is the allowable critical value of the outer diameter of the reed switch 1, the second sensor 27 outputs the detection signal S ₃ and the control device 31 detects the detection signal S _3. Send signal S ₃ .

Therefore, in the control device 31, the time interval between the detection signal S ₁ from the first sensor 30 and the detection signal S ₃ from the second sensor 27 is compared with the set time, and if it is within the set time,
The reed switch 1 is determined to be good.

Normally, as described above, when the second sensor 27 can move to the distance l ₁ without any trouble, it is within the set allowable time,
The reed switch 1 is determined to be a non-defective product, the signals S ₄ and S ₅ are output from the control device 31, the movable cylinder 24 drives the movable block 25 to retract the probe piece 26, and the reed switch 1 is gripped. At the same time, the stopper 29 is retracted from the path and the reed switch 1 is discharged downward. In this case, the probe piece 26 retreats to a position away from the bottom of the U groove 22-1 by a distance l ₂ and stops. Although not shown, for example, the discharged reed switch 1 is received and moved by the discharge pipe, and the good product is stored in the good product box.

On the other hand, if the detection surface of the second sensor 27 cannot reach the distance l ₁ from the reference surface 23-1 even if the gripping portion 26-1 of the probe piece 26 grips the reed switch 1, The predetermined set time, which starts when the output signal S ₁ from the sensor 30 is input, is exceeded, the reed switch 1 is determined to be defective, and the signals S ₄ and S ₅ are output from the control device 31. Is
In the same manner as described above, the reed switch 1 is released from the grip portion 26-1 and the stopper 29 is operated to eject the reed switch 1. In this case, although not shown, the reed switch 1 is received by the discharge pipe, and the signal S ₆ from the control device 31 is received.
By this, the discharge path is switched and the product is stored in the defective product storage box.

It should be noted here that when the diameter of the grip portion 26-1 is set so as to be the same as the standard outer diameter of the reed switch 1, and the tube of the reed switch 1 is deformed, Can be detected as a defective product. That is, if the tube of the reed switch 1 is deformed in any direction, when the reed switch 1 is grasped by the grasping portion 26-1, the grasping portion 26-1 is separated from the bottom of the U groove 22-1 by a distance l ₁ Therefore, it is not possible to enter the position, and it can be determined as a defective product.

In this way, when the measurement of the outer diameter of the reed switch 1 is completed, the signal S ₇ is output from the control device 31, a new reed switch 1 to be measured is supplied from the supply port 28, and the cycle described above is automatically performed. Repeated.

With such a configuration, when measuring the outer diameter of the reed switch 1, it is possible to accurately measure the quality of the outer diameter of the reed switch 1 by measuring a value close to the allowable critical value. In particular, the U groove 22-1 formed in the fixed block can be made larger than the outer diameter of the reed switch 1, so that the reed switch 1 can be easily supplied and discharged.
Various sensors 27 can be used.

Further, by using the micrometer 23, the measurement accuracy can be improved, and the allowable value of the outer diameter of the reed switch 1 can be changed and adjusted easily and freely.

When this change or adjustment is performed, the adjustment amount can be input to the control device 31 to automatically determine the allowable value of the outer diameter of the reed switch 1.

The present invention is not limited to the above-described embodiments, and various modifications can be made according to the spirit of the present invention, and these modifications are not excluded from the scope of the present invention.

(Effects of the Invention) As described in detail above, according to the present invention, the following effects can be achieved.

(1) It is possible to set the allowable critical value in advance, and the cross-sectional shape of the grip of the outer diameter measuring unit corresponds to the outer diameter of the reed switch. It is possible to reliably determine the quality of the outer diameter of the reed switch.

(2) Since the grip of the outer diameter measuring unit and the setting device for setting the reference surface for measuring the outer diameter are separated, it is possible to change and adjust the outer diameter tolerance of the reed switch easily and freely. Can be done.

(3) Further, since the structure is simple in that the stopper is simply associated with the U groove, the supply / discharge of the reed switch can be controlled easily and surely.

As described above, according to the present invention, it is possible to provide a highly reliable reed switch outer diameter automatic measuring device, and its effect is remarkable.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram of an automatic outer diameter device for a reed switch according to the present invention, FIG. 2 is a sectional view taken along line II-II ′ of FIG. 1 of the measuring device, and FIG. 3 is a measuring portion of the present invention. FIG. 4 is a sectional view of the reed switch, and FIG. 5 is a schematic explanatory view of a conventional reed switch outer diameter measuring device. 21 ... Mounting base, 22 ... Fixed block, 22-1 ... U groove, 23 ... Setting device, 23-1 ... Reference surface, 24 ... Movable cylinder (driving device), 25 ... Movable block, 26 ... Search piece, 26-1 ... Gripping portion, 27 ... Second sensor, 28 ... Supply port, 29 ... Stopper, 30
... 1st sensor, 31 ... Control device, 32 ... CPU, 33 ... I / O port, 34 ... Timer, 35 ... Comparator, 36 ... CRT, MDI, 37 ... Memory, 38 ... Bus.

Claims (1)

[Claims] 1. A supply port for a reed switch under test, (b) a first sensor for detecting supply of the reed switch, (c) a stopper for stopping the reed switch, and (d) A fixed block having a U groove for receiving the reed switch stopped by a stopper; (e) a setting device provided in the fixed block for setting a reference surface for measuring an outer diameter of the reed switch; and (f) the reed switch. Change and adjustment means of the reference surface of the setting device for changing and adjusting the permissible value of the outer diameter, and (g) movably engaging the U groove in a direction perpendicular to the supply direction of the reed switch. A movable block including a probe piece having a cross-sectional shape corresponding to the outer diameter of the reed switch and a second sensor facing the reference surface and detecting a distance from the reference surface; and (h) the movable block. Block And a controller for controlling the supply / discharge of the reed switch and (i) determining the quality of the outer diameter of the reed switch, and (i) automatically measuring the outer diameter of the reed switch. apparatus.