JP5203298B2 - Bourdon tube thermometer internal unit and bourdon tube thermometer equipped with it - Google Patents

Description

  The present invention relates to a Bourdon tube thermometer internal unit and a Bourdon tube thermometer equipped with the same.

  The Bourdon pipe moves the Bourdon tube tip through the rod, moves the sector, rotates the pinion meshing with the sector, and transmits it to the pointer driven on the pinion shaft, and the displacement of the Bourdon tube tip is transmitted. An enlarged view is shown (for example, see Patent Document 1).

  A Bourdon tube thermometer equipped with such a Bourdon tube machine is widely used for temperature measurement, and in addition, a temperature with a micro switch contact that is provided with a separate mechanical contact mechanism to cope with temperature indications in the field. The total is known.

  However, since the thermometer with a microswitch contact is a contact type, there is a problem that the contact may burn, and improvement has been desired.

When a temperature switch is used, since another contacted micro switch is mounted, the so-called switch internal unit must have a mechanism for pressing this contact type switch. It was different from the internal unit of the meter switch. The thermometer requires a thermometer internal unit, and the thermometer switch requires a thermometer switch internal unit.
Therefore, as a result, it is classified as a thermometer and a thermometer switch. The concept of a meter with only a measurement function attached to “meter” and a meter with a control function added to the measurement function is common throughout the world. It was recognition. The thermometer only indicates the temperature position of the fluid, and the one that requires the control function associated with it has been responding by changing the internal unit or by changing the force of the Bourdon tube in the pressure type indicating thermometer .

Japanese Patent No. 3635233

Production sites that change from visual management to monitor and control the temperature value of thermometers to sequence control are demanding functions that can be measured and controlled. (1) That function does not deteriorate, (2) Contact It is not a formula, (3) It is a reasonable price (switches are expensive in a single item), (4) There is no load on the measurement function, (5) It can be handled in one format in the industry, with a special specification There is a demand (for example, in the industrial thermometer industry, the maximum temperature is 500 ° C.).
In addition, the pressure-type indicating thermometer (remote measuring thermometer) is composed of a temperature-sensing part, an indicating part, and a conduit connecting the temperature-sensing part. Indication error occurs due to shrinkage, and special indication correction is required. The best way is to keep the cavity or the snake tube within the same position as the temperature sensing part, or to remove it. It was.

  An object of the present invention is to provide a Bourdon tube thermometer internal unit and a Bourdon tube thermometer equipped with the Bourdon tube thermometer in response to the above-mentioned demands, and in particular, contactless, and almost no deterioration in performance occurs. An object of the present invention is to provide a Bourdon tube thermometer internal unit and a Bourdon tube thermometer equipped with the same.

  The present inventor has intensively studied to achieve the above-described conventional object. As a result, it has been found that the object can be achieved by attaching a sensor to the internal unit and providing a mechanism for turning the sensor on and off, and the present invention has been completed based on this finding.

  The present invention according to claim 1 (hereinafter sometimes referred to as the first invention) moves the sector through the rod of the bourdon tube, rotates the pinion engaged with the sector, and is driven into the pinion shaft. A Bourdon tube thermometer internal unit that transmits to the guide and expands the displacement of the tube end of the Bourdon tube, and has a sensor mechanism that includes one or more sensors that detect the movement of the sector; and A sensor-passing light-shielding plate mechanism that passes through a sensor portion of the sensor mechanism is attached to the sector shaft of the sector; and a fan shape having a gear and an internal gear on a boss post provided on the upper plate of the internal unit A boss mechanism having a gear and a setting boss on the head is dropped, and a hole of a support mechanism base is dropped on a bush provided on the upper plate of the inner unit. After the gear of the boss mechanism is meshed with the base gear provided on the seat, the gear on the base to which the red pointer is attached is meshed with the internal gear of the sector gear formed on the boss mechanism. Set on the red pointer pedestal attached to the pinion shaft provided on the upper plate of the internal unit, and after setting the dial, has a mechanism to attach the red pointer to the pedestal to which the red pointer is attached; A Bourdon tube thermometer, which incorporates a Bourdon tube thermometer internal unit, is provided.

In other words, a mechanism having one or a plurality of sensors that detect the movement of the sector of the internal unit, which is the main mechanism of the thermometer, is attached to the internal unit. On the internal unit that features a mechanism that passes through the sensor part without contact and is configured by taking it out from the sector axis, and is provided with a measurement function and a temperature sensor function In addition, after assembling the mechanism parts with the gears formed on both the upper and lower sides or the upper and lower sides, and rotating the setting boss protruding on the upper surface of the internal unit, the mechanism shown below is interlocked and set around the pinion shaft This is an internal unit characterized by a mechanism capable of rotating a set value display red pointer and setting the set value display red pointer at an arbitrary position. When the temperature value of the red pointer set together is reached, a mechanism for obtaining a signal for sequence control through the lead wire is incorporated.
Then, a Bourdon tube thermometer in which an internal unit having this feature is incorporated, and a Bourdon tube thermometer capable of obtaining a signal that is not a conventional temperature switch without causing any obstacle to the measurement function is provided.

The present invention according to claim 2 (hereinafter sometimes referred to as a second invention) provides a Bourdon tube thermometer according to claim 1, further comprising an alarm device and a transmission device.
In other words, the thermometer having the characteristics of the second invention, wherein an alarm device (warning device) and a transmission device are integrated in a box on the back side of the thermometer main body, In this case, when the temperature of the bedside room at bedtime rises by more than 5 ° C, a bell or the like will ring, or the temperature in the agricultural house will drop due to frost freeze or become an abnormal temperature. When a thermometer that emits a warning and a device that has the function of receiving signals from this signal transmission manager are displayed on the work site for warning, or attached to a worker's name tag wired or wirelessly This eliminates oversight and eliminates problems that hinder quality control.
Further, as an effect of the second invention, the thermometer is a pressure-type indicating thermometer (a remote-type thermometer directly connected to the temperature-sensing part without going through a conduit part filled with a filled liquid or a snake pipe. ).
This is a revolutionary invention in thermometers that produces the effect of eliminating the need for long conduit sections, which was the biggest drawback of pressure-type indicating thermometers (remote measuring thermometers).

  By mounting the Bourdon tube thermometer internal unit according to the first invention in the Bourdon tube thermometer, a so-called temperature switch function is provided without causing any obstacle to the measurement function. If a Bourdon tube thermometer internal unit according to the present invention is installed in a conventional temperature switch, a signal obtained from a contactless sensor from a temperature switch that has a large, expensive and complicated mechanism and has a contact point but has problems due to contact. To the direction that can be controlled. The effect of this is to radically renew manufacturing technology in various measuring instrument industries and control equipment industries, and to eliminate measuring instruments that do not have a control signal function. An instrument that best suits the sequence control required by the industry can be provided at a reasonable price. If the size is built into a thermometer with a diameter of about 25 mm, it can be used as a temperature sensor.

  In providing the measurement and control equipment made in the present invention, it is an invention that responds to various demands of industrial control signals, and it is particularly safe to change the shape of the light shielding plate etc. that passes the sensor. It is an invention to change the way of taking out the signal by a simple method of setting the width or the dangerous width. It is a manufacturing technology that supports the reasonable price of products that can meet various demands easily and inexpensively and can renew the concept of switches = expensive.

  According to the first invention, it is a manufacturing technique that enables free selection of a starting point of a signal that conveys safety or danger, which is required as a result of the function described in the preceding paragraph. Switch = High price is largely due to order production based on one by one, and at least the provision of a model corresponding to the industry is required. For example, it is a technology that can set the width in addition to providing a mechanism for freely selecting a starting point in an industrial production line. The feature is that an electrical signal for sequence control can be obtained through the lead wire at the temperature value of the red pointer set together.

  Moreover, the thermometer in the present concept is changed to a thermometer having a function of a thermometer switch. At the current work site, the thermometer switch is expensive, so if it is a thermometer, blue or red color coating on the scale plate of the thermometer, or with the safety mark of the pointer is generally used to maintain quality control by the eyes of the operator I'm guarding. However, with the diversification of workers and the development of industrial bases overseas, there is a growing need to change the quality management method from the eyes to the management by introducing control equipment. Has become the mainstream. Therefore, an instrument having a control function can be provided at an appropriate price.

According to the second invention, in the industry, the simplest management of work lines and various devices for which sequence control is mainstream can be completely achieved. At the same time, a receiving device from the manager can be made and attached to the worker's name tag, allowing the operator to feel the bull and eliminate the oversight, thereby completely eliminating the trouble that hinders quality control.
In addition, since it is possible to transmit temperature information measured by wired or wireless electrical signals, the thermometer body (display unit) can be moved to a position where it is easy to measure away from the temperature sensing unit. No need to connect. Therefore, it is not necessary to use a long conduit portion, which is the greatest disadvantage of the pressure type indicating thermometer (remote type thermometer). Therefore, the improvement in accuracy, price, and handling of thermometers are immeasurable.

It is a perspective view which shows the state which decomposed | disassembled an example of the Bourdon tube thermometer internal unit in this invention. It is explanatory drawing which shows an example of the lower board 5 incorporating the sensor passage light-shielding plate mechanism. It is a figure which shows an example of a sensor mechanism. It is a perspective view which shows another aspect of the sensor passage light-shielding plate mechanism. It is a figure which shows another aspect of the sensor passage light-shielding plate mechanism 7, Comprising: It is a positional relationship schematic diagram of a sensor mechanism and the sensor passage light-shielding plate mechanism. It is a perspective view which shows the state which decomposed | disassembled an example of the thermometer internal machine with a dial. It is a figure which shows the state which mesh | engaged the base gear 3B of the sensor mechanism base 3 with the boss | hub mechanism 23. FIG. It is a figure which shows the state which set the red pointer 27 to the predetermined value. It is an exploded view showing one example (best mode) of a Bourdon tube thermometer according to the present invention. It is explanatory drawing which shows the Bourdon tube thermometer carrying the thermometer internal machine of this invention. It is a perspective view which shows an example of the Bourdon tube thermometer carrying the thermometer internal unit of this invention. It is a figure which shows an example of the Bourdon tube thermometer which mounts the thermometer internal machine of this invention provided with the alarm device and the transmitter. It is an assembly drawing which shows an example of the thermometer internal unit of this invention. It is explanatory drawing which shows other embodiment of this invention. It is explanatory drawing which shows other embodiment of this invention. It is explanatory drawing which shows other embodiment of this invention. It is explanatory drawing which shows other embodiment of this invention. It is explanatory drawing which shows other embodiment of this invention. It is explanatory drawing which shows other embodiment of this invention. It is a figure which shows the other aspect of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of the internal unit in this invention. It is a figure which shows another embodiment of a sensor passage light-shielding plate mechanism. It is a figure which shows another embodiment of a sensor passage light-shielding plate mechanism. It is a figure which shows another embodiment of a sensor passage light-shielding plate mechanism. It is a figure which shows another embodiment of a sensor passage light-shielding plate mechanism. It is an external view of other embodiment of this invention concerning Claim 1. It is the figure which showed the finishing drawing (reference drawing) by this invention concerning Claim 1.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First, an example of the Bourdon tube thermometer internal unit of the present invention will be described with reference to FIGS. FIG. 13 is an assembly diagram showing an example of the Bourdon tube thermometer internal unit of the present invention.
FIG. 1 is a perspective view showing an exploded state of an example of a Bourdon tube thermometer internal unit of the present invention.
FIG. 1A is a perspective view showing an example of a sensor mechanism. An example of the sensor mechanism is shown in FIG.
In the substantially central part of the sensor mechanism base 3 constituting the sensor mechanism, a support column 4 having a through hole to be assembled to the bush 2 of the upper plate 1 shown in FIG. 1 (b) and the upper plate 1 shown in FIG. 1 (b). There is a pedestal gear 3 </ b> B that meshes with the boss post 29, and is rotated about the support 4.
A sensor 16 (for example, a photo interrupter) is provided as a sensor function at the upper end of the sensor mechanism base 3 via a sensor mounting base 18 and a sensor mounting board 17. The lower part of the sensor mechanism base 3 (the lower side of the support column 4) reaches the lead wire 19, the sensor substrate 20, and the lead wire 19.

  Next, FIG. 1 (b) is a perspective view showing an example of the upper plate 1. The upper plate 1 includes a bush 2, a red pointer base 21, a boss column 29, a column hole 13, and a Bourdon tube. There are mounting holes and lead wire retaining plate mounting holes. As the upper plate 1, a commonly used one can be used.

  FIG. 1C is an explanatory diagram showing a state in which the sensor mechanism shown in FIG. 1A is integrated with the bush 2 of the upper plate 1 shown in FIG. is there. The sensor mechanism shown in FIG. 1A rotates on the bush 2 around the support column 4.

Moreover, FIG. 2 is explanatory drawing which shows an example of the lower board 5 incorporating the sensor passage light-shielding plate mechanism. As the lower plate 5, a commonly used one can be used.
The sensor passing light blocking plate mechanism can be incorporated into the lower plate 5 as follows.

  First, the pinion shaft 9 with the balance spring is put into a shaft hole (not shown) formed in the lower plate 5.

Next, the sector shaft 8 is inserted into a sector shaft hole (not shown), and the sensor passing light-shielding plate mechanism 7 is temporarily mounted on the sector 6 in accordance with the sector shaft 8.
Here, the sensor passage light blocking plate mechanism 7 has a sector shaft hole for insertion into the sector shaft 8 at the lower portion and a sensor passage light blocking plate at the upper portion. The sensor passing light-shielding plate may have any shape as long as it can pass through the portion of the sensor 16 of the sensor mechanism described above, but FIG. 2A shows a horizontally long shape. Another embodiment of the sensor passage light blocking plate mechanism 7 is shown in FIGS.

Next, two struts 15 for assembling the upper plate 1 and the lower plate 5 shown in FIG. 2B are used in the two column holes 14 of the lower plate 5, and the upper plate shown in FIG. 1 and the sensor mechanism are integrated into a support hole 13 of the upper plate in an integrated product and temporarily assembled.
Then, see the meshing of the gear of the pinion shaft 9 with the balance spring and the gear provided in the sector 6, and the upper and lower sides are caulked.
Further, the base of the balance spring of the pinion shaft 9 with the balance spring is caulked and attached to the column 15. Next, the rod 11 is connected to the adjuster 10 in the sector 6 with the rod pin 12.

In this way, the upper plate 1 and the sensor plate are integrated, and the lower plate 5 incorporating the sensor passage light blocking plate mechanism shown in FIG. The internal unit of the Bourdon tube thermometer of the present invention can be completed by caulking with the column 15.
2B shows an integrated product obtained by integrating the upper plate 1 and the sensor mechanism shown in FIG. 1C, and a lower plate 5 incorporating the sensor passage light-shielding plate mechanism shown in FIG. FIG. 2 is a perspective view showing an example of an internal unit of a Bourdon tube thermometer according to the present invention, which is completed by caulking with a column 15 for assembling the upper plate 1 and the lower plate 5.

3A and 3B are diagrams illustrating an example of the sensor mechanism, in which FIG. 3A is a side view and FIG. 3B is a perspective view.
The sensor mechanism pedestal 3 constituting the sensor mechanism is formed of synthetic resin, and a photo interrupter, for example, is attached to the sensor attachment substrate 17 as the sensor 16.
A sensor mounting base 18, a sensor mounting board 17, and a sensor 16 as a sensor function are provided in a direction perpendicular to the sensor mechanism base 3 (direction toward the lower plate 5 combined therewith) as shown in the figure. In FIG. 3A, the sensor 16 is provided on the lower side of the sensor mounting base 18 and the sensor mounting board 17 toward the lower plate 5 to be combined therewith.
A lead wire 19 is attached to the sensor mechanism pedestal 3 with a sensor attachment base 18 interposed therebetween, and a controlled signal is transmitted through the sensor substrate 20 with an arbitrary dimension of the lead wire 19. The sensor mechanism pedestal 3 includes a pedestal gear 3 </ b> B and a support column 4 that is rotated.

4 and 5 show another embodiment of the sensor passage light blocking plate mechanism 7.
That is, FIG. 4 and FIG. 5 show examples in which the shape of the upper end portion of the sensor passage light shielding plate mechanism 7 that passes through the sensor portion of the sensor mechanism is changed according to the required signal form, that is, the sensor passage light shielding plate mechanism 7. The case where the shape of the front-end | tip part of this was made into substantially concave shape is shown.

FIG. 4 shows a state in which the upper plate 1 and the lower plate 5 are combined, and shows a case where the upper end portion of the sensor passage light blocking plate mechanism 7 is made substantially concave. A sensor passage light blocking plate mechanism 7 is attached between the upper plate 1 and the lower plate 5 with the sector axis 8 as a base point.
A bush 2 is attached to the upper plate 1 with a sector shaft 8 as a base point, and a sensor mechanism base 3 is attached to the bush 2 as shown in FIG.

FIG. 5 is a schematic diagram showing the positional relationship between the sensor mechanism and the sensor passage light blocking plate mechanism 7.
On the lower plate 5, a mechanism including a lead wire 19 is incorporated with a sensor substrate 20 and a sensor substrate 20 interposed between the sensor mechanism base 3 and a sensor substrate 20.
FIG. 5 illustrates the positional relationship between this mechanism and the sensor passage light blocking plate mechanism 7. The sensor mechanism base 3 does not move once the position is determined.
The sensor passage light blocking plate mechanism 7 having a substantially concave tip portion moves, and passes through the sensor 16 of the sensor mechanism in a closed, open and closed manner like a recess. By controlling with the sensor substrate 20, it is possible to control closed = unsuitable = red, open = good = blue, and closed = unsuitable = red. The pinion shaft 9 with the balance spring and the sector 6 are engaged with each other.

The present invention includes a fan-shaped gear having a gear and an internal gear on a boss strut provided on the upper plate of the internal unit, and a boss mechanism having a setting boss on the head, and is provided on the upper plate of the internal unit. The hole of the pillar of the sensor mechanism base is dropped into the bush, and the sector gear formed on the boss mechanism is set after the gear of the boss mechanism is engaged with the base gear provided on the sensor mechanism base. The gear on the base to which the red pointer is attached is meshed with the internal gear of the inner gear and set on the red pointer base attached to the pinion shaft provided on the upper plate of the internal unit. After setting the dial, the red pointer A thermometer internal unit is provided that has a mechanism in which a red pointer is attached to the pedestal to which the sensor is attached.
By rotating the boss mechanism 23 having the setting boss, which is installed on the surface of the internal unit of the present invention, the red pointer can be set or changed to the temperature value at which the sensor signal is to be obtained. A possible embodiment will be described.

(1) The red pointer base 21 is set on the pinion shaft 9 with the balance spring protruding from the upper plate 1 of the inner machine so as not to prevent the rotation of the pinion shaft 9 with the balance spring.
(2) The bush 2 is set on the upper plate 1 of the inner machine.
(3) The boss strut 29 is set up on the upper plate 1 of the inner machine.

(4) Next, the bush 2 set in the above (2) is pushed into the bush 2 with the pedestal gear 3B to be rotated and the sensor mechanism pedestal 3 having a hole to be pushed into the bush 2 and having the column 4 to be rotated. set. That is, a hole provided in the support column 4 of the sensor mechanism base 3 is pushed into the bush 2 of (2).
The sensor mechanism base 3 includes a sensor mounting board 17 having a sensor 16, a sensor mounting base 18, a lead wire 19, a sensor board 20, and a lead wire 19.
The boss strut 29 raised in the above (3) has a sector gear 24 having a gear 22 and an internal gear, and a boss mechanism 23 having a setting boss on the head is engaged with the base gear 3B and the gear 22. Make sure to rotate it down.
Then, the red pointer 27 is attached to the red pointer pedestal 21 of the above (1), the pedestal 26 to which the red pointer is attached, and the gear 25 meshing with the sector gear 24 is dropped and rotated.
FIG. 7 shows a state in which the base gear 3B of the sensor mechanism base 3 is engaged with the boss mechanism 23.

By operating the setting boss on the head of the boss mechanism 23, the red pointer 27 can be set at an arbitrary position by rotating the boss mechanism 23 by an arbitrary amount.
In addition, for example, a setting boss having a groove (plus, minus, □, △, etc.) can be used at its head so that it can be rotated by an arbitrary amount. Yes, but not limited to this. 6-11 etc. show a slot with a minus-shaped groove in the head, but in addition to this, a slot with a plus-shaped, □ -shaped or △ -shaped groove, or a wrench can be used. Examples include a polygonal shape (such as a hexagonal shape and a pentagonal shape), a rod shape or a protrusion shape, and a shape that can be rotated as it is.

Since it is configured as described above, the setting boss on the head of the boss mechanism 23 is rotated (for example, in the case of a setting boss having a minus-shaped groove, it is rotated using a minus driver or the like) When the pointer 27 is set at 2 ° C., when the pointer 28 indicating the measured value reaches 2 ° C., a signal controlled by the sensor substrate 20 is transmitted through the lead wire 19.
All the gear numbers are calculated and matched, but the calculation start base point is temporarily fixed to the sensor passing light-shielding plate 7 and fixed after the zero point is determined. To do. In addition, the sensor mechanism base 3 is rotated by the rotation of the boss post 23.

  In addition, the pinion shaft 9 with the balance spring is always provided in the inner unit, but the pinion shaft 9 with the balance spring may be omitted if necessary. it can. In this case, the measured value itself is not displayed, but it can be used as a temperature sensor that is used (or not used) when the temperature reaches 2 ° C., for example.

One example (best mode) of a Bourdon tube thermometer according to the present invention is shown in FIGS.
The Bourdon tube thermometer of the present invention is a Bourdon tube thermometer incorporating the above-described internal unit.

In the figure, reference numeral 31 indicates a D-type strain with a Bourdon tube. Since a Bourdon tube 32 and a pipe tip 33 are soldered to the D-type strain with a Bourdon tube, the rod 11 of the Bourdon tube thermometer internal machine of the present invention as described above is connected to the Bourdon tube thermometer by the rod pin 12. Connected to the pipe tip 33.
FIG. 9 also shows a mechanism that can be set to a temperature value at an arbitrary position by rotating with a screwdriver from the outside. The boss mechanism 23 having a setting boss is also sized to show the head on the dial 38.

[One embodiment of a thermometer equipped with a thermometer internal unit of the present invention]
Here, an embodiment of a thermometer equipped with the thermometer internal unit of the present invention will be described.
A special rivet 35 is used, one of which is pushed in via the sensor substrate 20, and the other is pushed only in the internal unit. Since the two special rivets 35 have a screw hole at the tip, the two special rivets 35 are fixed with two dial fastening screws 40.
Next, the red pointer 27 is attached to the pedestal 26 to which the red pointer is attached, showing the head in the center hole of the dial 38. Below the hole is a boss rotation guide scale 30, and below that is a boss mechanism 23 having a setting boss to be rotated.
A pointer 28 indicating the measured value is driven after the temperature adjustment. The LED cover 39 is also fitted into the LED mounting hole 36 of the dial 38.
The sensor board 20 with the lead wire 19 and the LED 37 is held by the internal unit with a special rivet 35, but is stopped by the lead wire stopper plate 1A to increase the tensile strength.
After attaching the dial 38 to the screw hole at the tip of the special rivet 35 with the dial fixing screw 40, the actual temperature is adjusted and the sensor passing light-shielding plate mechanism 7 is temporarily fixed, and then the starting point 0 is determined. Fix it.
These are put in the thermometer frame 41 and screwed to the internal unit and the thermometer frame retaining hole 34 by the thermometer D-type stock retaining screw 42. Further, an outer frame glass window 43 is attached.
The temperature is changed once again, the temperature is changed, the setting boss of the boss mechanism 23 is turned, the ON / OFF at the set value is confirmed, the boss is turned around the boss turning window 44, and the cover concealing cap 45 is put on to finish.

FIG. 10 shows a Bourdon tube thermometer equipped with the thermometer internal unit of the present invention. Fig. 10 (a) is a front view of a Bourdon tube thermometer equipped with the thermometer internal unit of the present invention, and Fig. 10 (b) is a side view thereof.
The thermometer frame 41 with a water intrusion prevention cap 46 from the lead wire 19 is made of iron and the D-type stock 31 with a Bourdon tube is made of brass.
The boss mechanism 23 with a minus-shaped groove (setting boss) is rotated along the boss rotation guide scale 30 by a screwdriver from the outside glass window 43 through a boss window 44, and the red pointer 27 is set to a predetermined value (0 ° C. in the figure). Set to.
Next, the boss turning window concealed window cap 45 is turned to the boss turning window 44 to finish.
When the temperature pointer 28 reaches a predetermined value (0 ° C.), a signal is obtained through the lead wire 19.

FIG. 11 is a perspective view showing an example of a Bourdon tube thermometer equipped with the thermometer internal unit of the present invention.
In a factory, for example, in a production line operating at a maximum temperature of 100 ° C., a Bourdon tube thermometer equipped with the thermometer internal unit of the present invention is attached to each device as a temperature sensor, and the light emission of the LED 37 is observed. For example, for each work standard and each ISO certification standard, the boss mechanism 23 having a set boss is rotated, the red pointer 27 is appropriately set, and the boss-turning window concealing cap 45 is applied.

Further, a Bourdon tube thermometer shown in FIG. 12 includes an alarm device (warning device) and a transmission device. In the figure, reference numeral 47 indicates a device box, reference numeral 48 indicates an alarm device, and reference numeral 49 indicates a transmission device.
Examples of the alarm device 48 include a device that transmits a warning by sound or light, or that directly transmits vibration to an operator. The operator holds a vibrating tool 50 (for example, a bull bull experience name tag) that applies vibration. At the same time, the lead wire 19 is also used for transmission. In the current situation where frequent troubles do not occur, troubles in quality assurance remain, so it is possible to help ensure reliable quality maintenance.
FIG. 13 is an assembly diagram showing an example of the thermometer internal unit of the present invention.

[Effect of the embodiment]
Less than. The effect of the embodiment of the present invention will be described.
Conventional pressure gauges, vacuum gauges, differential pressure gauges, thermometers, altimeters, hygrometers, and other instruments have been used as switches by using a microswitch or the like when a control function is required.
According to the present invention, it has become possible to provide a temperature sensor type thermometer capable of obtaining a signal that is not a conventional temperature switch by a single type of internal unit incorporating a sensor. First of all, the switch has a structure that makes it easy to set prices in fields that are difficult to use due to its high price. In this field, the thermometer has been managed to appeal to the eyes by coloring the scales such as “red” or “blue”.
In addition, the sensor is a non-contact type and durability is improved.
Furthermore, providing instruments that not only measure but “shake” can contribute to industry.

  Next, the instrument called “switch” has a uniform specification, but according to the present invention, it is really simple, such as extracting a complicated signal. 40 to 43 ° C for hot springs and public baths, 0 to -15 ° C for the refrigeration industry, -30 to 50 ° C for general households, and -30 to 120 ° C for general industrial use. Technology.

Next, effects of the embodiment of the present invention according to claim 1 will be described.
Functions that can be freely set in different industries, such as thermometers for greenhouse management in households, thermometers for household use, etc., as sensors for all industrial fields, all production sites, and refrigerator equipment It is an indispensable technique for generalizing every time.
In addition, the instruments that are measuring instruments by interposing an expansion mechanism called an internal machine based on the lever principle can easily provide a control function according to the principle of the present invention. In addition, it is a technology that can also be installed in instruments such as fire alarms and frost alarms.

Next, the effect of the embodiment of the present invention according to claim 2 will be described.
In Japan, the labor market is demanded overseas, and the work management for maintaining the quality in the field where living with foreigners in Japan is becoming a past system. As the ISO standard is generalized at every site, it can be constructed as a management system that directly communicates abnormalities in production lines to individuals. If the total cost is reduced with a temperature sensor at an appropriate price, and it deviates from the registration standard in this era of the ISO standard, it is possible to realize management that makes the operator feel directly bull.
In addition, since it is possible to transmit temperature information measured by a wired or wireless electrical signal, the long conduit part that was the biggest drawback of the pressure-type indicating thermometer (remote thermometer) It is no longer necessary, and improvements in thermometer accuracy, price and handling are immeasurable.

[Other Embodiments]
Furthermore, other embodiments will be described below.
First, another embodiment of the present invention will be described. In another embodiment, the method shown in FIG. 14 may be used. That is, the sensor passage light blocking plate mechanism 7 may be attached to the lower plate 5 (the back side of the internal unit).
More specifically, this is a method based on a mechanism in which the sensor passage light blocking plate mechanism 7 is obtained on the sector shaft 8 protruding from the lower plate 5. The sensor passage light blocking plate mechanism 7 is formed by cutting a part of a circular plate into a substantially fan shape and providing irregularities.
First, the sensor 16 is attached to the lower plate 5 of the internal unit, and the sensor passage light blocking plate mechanism 7 that passes through the sensor 16 is attached to the sector shaft 8. The sector shaft 8 protrudes toward the lower plate 5 side.

Next, FIG. 15 shows a method using a mechanism in which the sensor passage light blocking plate mechanism 7 that passes through the sensor 16 is obtained on the pinion shaft 9 protruding from the lower plate 5.
First, the sensor 16 is attached to the lower plate 5 of the internal unit, and the sensor passage light blocking plate mechanism 7 that passes through the sensor 16 is attached to the pinion shaft 9. The pinion shaft 9 protrudes toward the lower plate 5 side.

In this case, the sensor passing light-shielding plate mechanism 7 is a lower plate of the internal unit. A method in which the lower plate 5 is configured as shown in FIG. 16 will be described.
First, the sensor 16 is attached to the partition plate 51. A sensor passage light blocking plate mechanism 7 that passes through the sensor 16 is attached to the pinion shaft 9.
Here, the internal unit on the upper side of the partition plate 51 is the internal unit A of the present invention. A vibration preventing disk 52 can be attached to the pinion shaft 9 to prevent vibration.

Further, a method in which the internal unit A of the present invention is configured on the upper side of the partition plate 51 and configured on the lower side as shown in the figure will be described with reference to FIG. "Vibration-resistant type" (inner unit of oil-filled thermometer).
First, the pinion shaft 9 is projected below the inner machine A of the invention. The contact point with the partition plate 51 is a pinion shaft 9 that uses the sealant 54, and has a port 55 for putting oil to attach a resistance device 53 that stirs the oil. Seal and install. The oil 57 is put through the mouth 55 for putting oil (a cap is put on). In the figure, reference numeral 56 denotes an earthquake-resistant synthetic resin packing.

Next, a description will be given of a method in which a normal internal unit B is configured as shown in FIG. 18 with the partition plate 51 as a boundary (internal unit of a thermometer containing vibration-resistant oil).
The internal unit B without the sensor 16 but protruding from the pinion shaft 9 is sealed with a seismic synthetic resin packing and a sealant 54 to be assembled to the partition plate 51, and an oil-filled box 52 is attached with the sealant 54. Keep it.
Next, the sensor 16 is attached to the partition plate 51, and the sensor passage light blocking plate mechanism 7 that passes through the tip portion of the sensor 16 is attached to the pinion shaft 9. Oil 57 is put into the tip of the pinion shaft 9 through a port 55 into which oil for attaching a rotating plate 58 that reduces vibration is put (cap is put).

Further, the internal unit A of the present invention will be described by a method configured as shown in FIG. 19 with the partition plate 51 as a boundary (vibration-resistant thermometer internal unit).
The internal unit A of the present invention having the “sensor for the internal unit A” 16 and the “sensor for turning on and off the coil of the internal unit A” 16 ′ is attached to the partition plate 51. Next, a frame 59 made of an aluminum round bar is attached to the pinion shaft 9, and a coil 58 having four cores is installed around the frame 59 made of an aluminum round bar. The “ON / OFF sensor for the coil of the internal unit A” 16 ′ is arranged in sequence so that a signal is sent and electricity is sent to the coil when heating is started. Turn off the power at the end of heating.

  In the present invention, an inner unit assembled separately with a rod, a pinion, a balance spring, a sector, etc., having a column between an upper plate and a lower plate, which is separately assembled at the end of a Bourdon tube that moves according to the temperature of the fluid. In the thermometer internal machine which is connected and functioned with the lot pin, the internal machine of the present invention can be formed also in the following embodiment.

  Die-casting method, forging method, synthetic resin molding method, metal plate caulking method, etc., thermometer stock and thermometer main mechanism pinion, balance spring, sector, etc. struts are integrally molded and assembled There are several methods of construction, so they will be explained with reference to the figures. FIG. 20 is a view showing still another aspect of the internal unit of the present invention, FIG. 20 (a) is an explanatory side view, and FIG. 20 (b) is a plan view.

A thermometer stock 63 is also integrated with a base 64 of a die-cast product having four bosses 61 and having a Bourdon tube insertion port 62 formed as shown in FIG.
First, a Bourdon tube 65 with a Bourdon tube tip 66 is pushed into and fixed to the Bourdon tube insertion port 62 of the base 64 of the die cast product. A pipe is soldered to the fixed portion of the Bourdon tube 65 as an introduction pressure port, and this is pushed into the hole 70 connecting the pipe of the Bourdon tube, integrated with the thermometer stock 63, sealed and fixed.
Next, the lower plate of the inner unit, which is separately formed on the caulking bottom of the four bosses 61, is caulked and fixed (not shown in the figure).
After that, as described in claim 1, the rod, pinion, balance spring, and sector are completed by caulking the upper plate 69 between the lower plate and the upper plate (however, they are not shown in the figure). .
One or a plurality of sensor 71 mechanisms for detecting the movement of the sector 72 of the assembled sensor 71 are assembled to the upper plate 69 of the internal unit and pass through the sensor portion at the tip of the sensor 71. Then, the sensor passage light blocking plate mechanism 73 (which turns the sensor ON / OFF) taken out from the sector 72 is taken out, and the assembly is completed, and a thermometer stock equipped with the thermometer internal machine of the present invention is completed.

Also, the internal unit of the present invention can be formed in the following embodiments.
That is, an output that expands and contracts mechanically, in this case, a mechanism that detects the movement of the Bourdon tube 81 is attached to the upper plate or lower plate of the inner unit 83 with a mechanism formed by one or more sensors. A method based on a mechanism obtained for the Bourdon tube may be used as the sensor passage light blocking plate mechanism 84 that passes through the portion of the sensor 82. This will be described with reference to the drawings.
As shown in FIG. 21, the sensor 82 is attached to the inner unit 83, and the sensor passage light blocking plate mechanism 84 that passes through the sensor 82 is attached to the Bourdon tube 81.

With reference to FIG. 22, a method from the tip of a Bourdon tube will be described.
The sensor 92 is attached to the internal unit 93, and a sensor passage light blocking plate mechanism that passes through the sensor 92 is attached to the pipe tip 94 or the rod 95 attached to the Bourdon tube 91.

A method of turning on and off the electric signal transmission mechanism by taking out (attaching) the arm from the sector.
A mechanism for detecting the movement of the sensor 102 is a sensor-passing light-shielding plate mechanism in which a sensor mechanism formed by one or a plurality of sensors is attached to the upper plate or lower plate of the internal unit and passes through the part of the sensor 102. 103 may be a method based on a mechanism obtained on an axis on both the upper plate side and the lower plate side of the sector axis (described on the method of the upper plate side, but a plurality of signals can be given by attaching both the upper and lower sides).
This will be described with reference to FIG.
The sensor 102 is attached to the upper plate 104 of the internal unit, and the sensor passage light blocking plate mechanism 103 that passes through the sensor 102 is attached to the sector shaft 105.

A method of amplifying the fine rotation of the pinion shaft 115 and turning on / off the electric signal transmission mechanism with the output.
One or a plurality of mechanisms in which a mechanism for detecting the movement of the pinion 115 is formed by one or a plurality of sensors on the upper plate or the lower plate of the inner unit, and a sensor passing light shielding plate that passes through the sensor portion. The mechanism 114 may be a mechanism obtained on a shaft on both the upper plate side and the lower plate side of the pinion shaft 115 (which will be described on the upper plate side in any case, but a plurality of signals can be given by attaching both the upper and lower sides).

  For example, as shown in FIG. 24, one or a plurality of mechanisms are attached to the upper plate 113 of the sensor 112, and a sensor passage shading plate mechanism 114 that passes through the sensor 112 is attached to the pinion shaft 115.

  Also, as shown in FIG. 25, one or more sensors 122 are attached to the upper plate 123 of the internal unit, and the mechanism that passes through the sensor part is attached to the pinion shaft in order to reduce the output level to the pinion. The small gear 125 is attached to the shaft on the upper plate side of the pinion shaft 124 using a gear of a gear 126 (a gear having a rotating notched disk) larger than the small gear 125. A gear 126 that has a gear that meshes with a small gear 125 that is attached to a pinion shaft and that has a disk with a notch formed so as to pass through the portion of the sensor 122 is assembled.

A method of turning the electrical transmission mechanism on and off at the center of the pointer inserted into the pinion shaft.
As shown in FIG. 26, the pinion axis 134 for pushing the pointer 136 into the pinion shaft, which indicates the scale of the dial plate, is first formed so as to pass through the tip of the sensor portion 132. The disc 135 is attached, and then the disc 135 is attached to the pinion shaft 134. After adjusting the position, the disc 135 is fixed, and the sensor 132 is fixed on the internal unit.

A method of turning on and off the electrical transmission mechanism at the axis for inserting the pointer into the pinion shaft, which indicates the scale of the dial.
As shown in FIG. 27, the pointer 146 has a pointer shaft 147 for driving onto the pinion shaft, and the pointer shaft 147 is formed so as to pass through the tip of the sensor portion 142 and has a notch. The plate 145 is attached, and then the disc 145 with a notch is attached to the pinion shaft center 144, and the position is adjusted and then fixed. The needle 146 and the pinion shaft center 144 may be interlocked with each other. Further, the sensor 142 is installed so that it can slide in the direction of the arrow.

As another embodiment of the first aspect, the following may be used.
(1) When the output of the Bourdon tube expands and contracts as a direct movement and the sensor passage light shielding plate mechanism is turned on and off. In this case, by changing the length of the sensor passage light shielding plate mechanism (changing the length) The sensor passage light blocking plate mechanism can be turned on and off.

(2) When the sensor passing light blocking plate mechanism is turned on and off using a rod In this case, as shown in FIG. 28, the sensor passing light blocking plate mechanism is changed by changing the cutting width (changing the cutting width). It can be turned on and off.

(3) When the arm is taken out (attached) from the sector axis and the sensor passage light shielding plate mechanism is turned ON / OFF. In this case, as shown in FIG. 29, the length of the sensor passage light shielding plate mechanism is changed (change in length) ) And changing the cutting width (changing the cutting width), the sensor light-shielding plate mechanism can be turned on and off.

(4) When the fine rotation of the pinion shaft is amplified and the sensor passing light shielding plate mechanism is turned ON / OFF by the output thereof. In this case, as shown in FIG. By changing the notch width (changing the notch width), the sensor passage light blocking plate mechanism can be turned on and off.

(5) When a plurality of sensors and lead wire mechanisms are installed In this case, various methods such as the method shown in FIG. 31 are possible.

Next, an external view of another embodiment of the first aspect is shown in FIG.
FIG. 32 is an external view of a display method according to another method (with the most easily understood external view). In the figure, reference numeral 151 indicates a pointer, reference numeral 152 indicates a boss, and reference numeral 153 indicates a set value display pointer.

  FIG. 33 shows a finishing diagram (reference diagram) according to claim 1.

  In another embodiment of the present invention, the internal unit of the present invention may be mounted on a thermometer, a thermometer switch, a hygrometer, a hygrometer switch, or the like.

The functions that can be set freely, such as thermometers in every industrial field, every production site, agricultural greenhouse management, etc., with different specifications for each industry, are indispensable technologies for generalization in each industry.
In addition, the instruments that are measuring instruments by interposing an expansion mechanism called an internal machine based on the lever principle can easily provide a control function according to the principle of the present invention.
In ordinary households, the use of electricity is immeasurable. It is possible to provide a completely new product called “alarm thermometer” that issues an alarm at the set temperature by changing the temperature in the room at the bedside of a fire such as an electrical problem. In addition, it is possible to cultivate the field of alarm thermometers that responds to frequent frost damage due to global warming and the rapid change in the greenhouse temperature of flowers, vegetables and fruits.
Also, in Japan, the labor market is demanded overseas, and the work management for maintaining the quality in the field where living with foreigners in Japan is becoming a past system for visual management. . As the ISO standard is generalized at every site, it can be constructed as a management system that directly communicates abnormalities in production lines to individuals. If the total cost is reduced with a temperature sensor at an appropriate price, and it deviates from the registration standard in this era of the ISO standard, it is possible to realize management that makes the operator feel directly bull.

DESCRIPTION OF SYMBOLS 1 Upper plate 1A Lead wire stop plate 2 Bush 3 Sensor mechanism base 3B Base gear 4 Post 5 Lower plate 6 Sector 7 Sensor passage light-shield plate mechanism 8 Sector shaft 9 Pinion shaft 10 Adjuster 11 Rod 12 Rod pin 13 Inner unit upper plate support Hole 14 Strut hole of inner machine lower plate 15 Strut 16 Sensor 17 Sensor mounting board 18 Sensor mounting base 19 Lead wire 20 Sensor board 21 Red pointer base 22 Gear 23 Boss mechanism 24 Fan gear 25 Gear 26 Red base 27 28 Guideline indicating measured value 29 Boss strut 30 Boss rotation guide scale 31 D-type stock with Bourdon tube 32 Bourdon tube 33 Pipe tip 34 Inner unit and thermometer frame retaining hole 35 Special rivet 36 LED mounting hole 37 LED
38 Dial 39 LED cover 40 Dial stop screw 41 Thermometer frame 42 Thermometer D-type stock stop screw 43 Outer frame glass window 44 Boss turning window 45 Boss turning window concealed cap 46 Water intrusion prevention cap 47 Device box 48 Alarm device 49 Transmitter 50 Vibrating tool 51 Temperature sensing part

Claims (2)

  The movement of the Bourdon tube tip is moved through the rod, the pinion meshing with the sector is turned, and transmitted to the needle driven on the pinion shaft, and the Bourdon tube displacement is enlarged and shown An internal pipe thermometer has a sensor mechanism having one or a plurality of sensors for detecting the movement of the sector, and a sensor passing light-shielding plate mechanism that passes through a sensor portion of the sensor mechanism is a sector of the sector. It is attached to the shaft; the boss strut provided on the upper plate of the internal unit has a sector gear with a gear and an internal gear, and a boss mechanism having a setting boss on the head is dropped, The hole of the pillar of the sensor mechanism pedestal is dropped into the bush provided on the plate, and the gear of the boss mechanism is meshed with the pedestal gear provided on the sensor mechanism pedestal. After setting, the red pointer attached to the pinion shaft provided on the upper plate of the internal unit by meshing the internal gear of the sector gear formed in the boss mechanism with the gear on the base to which the red pointer is attached Bourdon tube temperature built-in a Bourdon tube thermometer, which has a mechanism in which the red pointer is attached to the pedestal to which the red pointer is attached after setting the dial and the dial; Total.   The Bourdon tube thermometer according to claim 1, further comprising an alarm device and a transmission device.

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