DE202008013842U1 - Membrane-type miniature manometer with a plastic pin core - Google Patents

Abstract

Membrane-type miniature pressure gauge with a plastic sapwood core which is correspondingly embedded from above at the bottom with a measuring device cover (7), a pointer (8), an upper C-shaped collar (9) embedded in the inner side wall of the measuring device housing (1), a dial (28) and an inner part (2) is formed within the meter housing, wherein at its bottom at the upper opening of the intermediate connection space (10) a membrane (5) is provided, characterized in that a stop (4) with a flanged Through hole (41) in the middle, which is embedded in the inner wall of the meter housing, between the inner part (2) and the diaphragm (5) is provided, wherein the inductive end of the inner part (2) through the flanged through hole (41) and in contact with the diaphragm (5), and wherein a lower C-shaped collar (3) embedded in the inner sidewall of the meter housing (1) is interposed between the attachment lag (4) and the inner part (2) is arranged.

Description

[Technical area]

The Utility model relates to a membrane-like miniature pressure gauge with a plastic sapwood core, belonging to the field of measuring devices.

[Background]

Measuring devices of the state the technology, the pressures of gases or liquids Show in systems become common provided with interior parts made of a metallic material (such as copper) are made. The bottom of the pressure gauge housing is with a gas or liquid system connected and a diaphragm is on the upper opening of the interconnection space welded. When the rising pressure of the gas or fluid system is a lifting Deformation of the diaphragm causes the lifting diaphragm to become to a movement of the inductive end and the drive parts in lead the inner part; and they will eventually the pointer on the dial to vibrate and display a Drive pressure value. When the pressure of the gas or liquid system decreases, the membrane recovers from its deformation; the drive parts in the inner part will gradually drive the pointer backwards. A manometer with such a structure has an inner part, which is made of a metallic material, in particular a copper inner part, the consuming and uncomfortable to process is.

[Subject of Utility Model]

The technical problem to be solved and the raised technical object of the utility model is to remedy the deficiencies of the prior art in order to provide a membrane-type miniature pressure gauge with a plastic saplin core that operates safely and sensitively at a low manufacturing cost and ease of processing. For this purpose, the present utility model uses the following technical principle:
The membranous miniature pressure gauge with a plastic saplin core, which is with a meter housing, a pointer, a C-shaped upper collar, which is embedded in the inner Be tenwand of the meter housing, a dial and a core (inner part), respectively from above to the bottom inside of the meter body, at the bottom of which at the upper opening of the interconnection space a membrane is provided, characterized in that between the inner part and the diaphragm there is provided a wing stop with a flanged through hole in the middle, located in the inner wall of the meter housing is embedded. The inductive end of the inner part passes through the flanged through hole and is in contact with the membrane. A lower C-shaped collar embedded in the inner sidewall of the meter housing is disposed between the stopper and the inner member. As the pressure of the gas or liquid system increases and causes lifting deformation of the diaphragm, the diaphragm pushes the inductive end to move the drive transmission members in the inner member so that the up and down motion of the diaphragm converts to horizontal swinging motion of the pointer becomes. If the pressure exceeds a normal measuring range of the pressure gauge, no excessive deformation of the diaphragm is caused due to the addition of the stopper above the diaphragm; As a result, the inner part is protected against deformation; the possibility of the membrane pushing the inner part out of the meter housing is thereby reduced. Thus, the internal parts of a manometer of the same measurement range can be manufactured with other cheap and moldable materials (such as plastic) at lower production costs while maintaining product quality and operating safety. The lower C-shaped collar is installed in the annular groove of the inner side of the meter housing to limit the stopper from being lifted by the compressive force of the diaphragm, so that the plastic inner part is not deformed or falls out of the meter housing; thus, the quality and operation safety of the product is ensured. The flange of the flanged through-hole, which is thicker than the other part of the stopper, can increase the strength of the stopper.

To perfect and supplement the above technical principle, the following technical features or the combination thereof may be added:
The inner part (core) consists of the upper and lower chips or bars (splints), which are parallel to each other. A plurality of vertical columns are arranged between the upper and lower strips. The upper and lower strips and columns are all made of plastic. The lower bar of the inner part is provided with a movable ejector pin which operates as an inductive end of the inner part. The upper end of the ejector pin engages a sector gear wrapped on the vertical axis. The oscillating end of the sector gear is engaged with the drive shaft which extends vertically through the upper bar of the inner part. At the bottom of the drive axle, a coil spring is provided. In operation, by increasing the pressure of the gas or liquid system, the diaphragm will push the ejector pin to swing in the vertical direction. And the sector gear is driven to swing in the horizontal direction to push the drive axle and around the pointer, which is wrapped at the upper end of the drive axle, swing horizontally about the vertical axis. The upper and lower moldings and columns are all made of plastic, which greatly reduces production costs and avoids processing steps for metallic materials. They can be made by direct injection molding, which allows easy processing. The coil spring is used to reset the drive axle and the pointer.

The Center of the membrane has a recess. The periphery of the membrane is provided with an annular groove that is the same as the recess is directed. The bottom inside the meter housing is with a receiving groove provided in which the annular groove is embedded. The floor and the outer side wall the annular groove are welded to the inner surface of the meter housing. Of the Bottom of the recess is over the bottom of the ring groove. The highest Point of the inner sidewall of the annular groove is lower than the highest point the outer sidewall the ring groove. The flange of the flanged through hole hangs in the Recess. The inductive end of the inner part is at the top surface the recess in contact. The working part is the recess with both the upper and the lower surfaces being suspended, which allows a free up and down movement and sensitive induction. If the pressure exceeds the normal measuring range, it will interfere with the extent of the recess the upper surface against the hole flange of the flanged through hole of the wing hinge and can not with the rising and pressing continue the inductive end. The recess becomes with the expansion proceed and gradually become flat, the surrounding inner sidewall the annular groove becomes an outward stretch forced to keep the outer side wall the annular groove performs a compressing of the inner wall of the meter housing, whereby the vertical pressure is distributed in lateral directions. The side wall of the meter housing for picking up a part of the exceeding one Pressure forced to protect the inner part from deformation; Consequently will the possibility that the membrane pushes the inner part out of the meter housing, reduced. Thus, can a plastic for the manufacture of parts for the construction of a manometer be used with the same pressure ranges to be maintained to reduce production costs, while product quality and the Operating safety be maintained.

The columns are integrally provided on the lower strips of the inner part; Pillar holes, corresponding to the columns, are provided on the upper strips of the inner part. The upper and lower strips can by inserting the columns attached in the corresponding column holes become. The assembly of the inner part can be simple and fast be made.

If the pressure exceeds the measuring range, can the utility model by adding the stop and the bottom C-shaped Collar the membrane from deformation or even falling out from the meter housing. The membrane with unique structure can reduce the vertical pressure, which exceeds the measuring range, distribute in lateral directions and creates that sidewall of the meter housing the excessive pressure absorbed, so the possibility that the membrane presses the inner part out of the meter housing, is further reduced. Consequently can be the use of a plastic material for producing the pillars and upper and lower last, under the condition of warranty of the measuring range and the operating safety are realized, accordingly the production costs are significantly reduced; and the processing becomes easy.

[Description of the figures]

1 is a schematic diagram of the assembly according to the embodiment of the utility model;

2 is the schematic diagram of the embodiment of the utility model in section;

• Wobei: 1. Messgerätgehäuse, 11. Aufnahmenut, 2. Innenteil, 21. Antriebsachse, 22. obere Leiste des Innenteils, 23. Spiralfeder, 24. untere Leiste des Innenteils, 25. Zahnsegment, 26. Säule, 27. Ausdrückstift, 28. Ziffernscheibe, 29. vertikale Achse, 3. unterer C-förmiger Kragen, 4. Anschlag, 41. geflanschtes Durchgangsloch, 5. Membran, 51. Ausnehmung, 52. Ring nut, 6. Lötmittel, 7. Messgeräteabdeckung, 8. Zeiger, 9. oberer C-förmiger Kragen, 10. Zwischenverbindungshohlraum

3 is the plan view of the embodiment of the utility model.

• In which: 1 , Meter housing, 11 , receiving groove, 2 , Inner part, 21 , Drive axle, 22 , upper strip of the inner part, 23 , Coil spring, 24 , lower strip of the inner part, 25 , Toothed segment, 26 , Pillar, 27 , ejector, 28 , Number plate, 29 , vertical axis, 3 , lower C-shaped collar, 4 , Attack, 41 , flanged through hole, 5 , Membrane, 51 , recess 52 , Ring groove, 6 , Solder, 7 , Meters cover 8th , Pointer, 9 , upper C-shaped collar, 10 , Intercommunication cavity

[embodiment of the utility model]

In combination with the figures and the embodiment, a further description of the essential features of the utility model is given below:
As in the 1 to 2 are shown for the membrane-like miniature pressure gauge with a plastic sapwood core from top to bottom a meter cover 7 , a pointer 8th , an upper C-shaped collar 9 located in the inner sidewall of the meter housing 1 is embedded, and an inner part 2 inside the meter housing 1 provided. The upper opening of the Zwi rule communication space 10 at the bottom of the meter housing 1 is with a membrane 5 provided. The middle of the membrane 5 defines a recess 51 , The periphery of the membrane 5 is with an annular groove 52 provided, which is the same as the recess directed. The floor inside the meter housing 1 is with a receiving groove 11 provided in which the annular groove 52 is embedded. The bottom and outer sidewall of the annular groove are flush with the inner surface of the meter housing 1 through a solder 6 welded. The bottom of the recess 51 is above the bottom of the ring groove 52 , The highest point of the inner side wall of the annular groove is lower than the highest point of the outer side wall of the annular groove. The inner part 2 consists of the upper and lower last 22 . 24 that are parallel to each other, many vertical columns 26 that are integral to the lower ridges 24 are provided. The top bar 22 is with column holes, according to the columns 26 , provided. The upper and lower last 22 . 24 and columns 26 are all made of plastic. The lower bar of the inner part 2 is with a movable ejector pin 27 provided which operates as the inductive end of the inner part. The upper end of the ejector pin 27 stands with a toothed segment 25 engaged, which is a vertical shaft 29 envelops. The swinging end of the toothed segment 25 stands with the drive axle 21 engaged, vertically through the top bar of the inner part 22 runs. A spiral spring 23 is at the bottom of the drive axle 21 provided. A wing stop 4 with a flanged through hole 41 in the middle, which runs in the outer side wall of the annular groove, is between the inner part 2 and the membrane 5 provided. The flange of the flanged through-hole 41 extends to the recess 51 , The ejector pin 27 passes through the flanged through hole 41 and comes with the upper surface of the recess 51 in contact. A lower C-shaped collar 3 , which is embedded in the inner sidewall of the meter housing, is between the stopper 4 and the inner part 2 arranged.

As in 3 shown is the meter cover 7 made of transparent material and on the meter housing 1 attached; the dial 28 is glued on the top bar of the inner part; the fixed end of the pointer 8th deviates from the middle of the dial 28 from.

In operation, the recess will 51 deform under pressure according to the utility model, and in the vicinity of the inner side wall of the annular groove 52 extend and lift upwards to push them; the ejector pin 27 is used to drive the dental segment 25 pressed to swing in a horizontal direction; and the drive axle 21 and the pointer 8th , which is the upper end of the drive axle 21 wrapped, is pressed to swing about the vertical axis in the horizontal direction; after the pressure dwindles, the coil spring becomes 23 the drive axle 21 and the pointer 8th to reset.

If the pressure exceeds the measuring range, the recess is supported 51 against the edge of the flanged through-hole and can not continue to expand and lift up; the lower C-shaped collar, stop 4 and the upper C-shaped collar 9 become the membrane at the pressing out of the inner part 2 from the meter housing 1 prevent.

The membranous miniature gauge with a plastic sapwood core, as in 1 to 3 is the embodiment of the utility model, which has been presented with the essential characteristics and improvement according to the utility model. Changes to their shape, specification, material and colors, etc. may be made as needed and will not be detailed here.

The membranous miniature pressure gauge with a plastic sapwood core belongs to the field of measuring instruments. In the prior art, the inner part is made of a metal, which is complicated and uncomfortable for processing. The utility model, correspondingly from the top to the bottom with a meter cover, a pointer, an upper C-shaped Collar embedded in the inner sidewall of the meter body is a number of discs and an inner part provided within the meter housing is at the bottom of a membrane at the upper opening of the interconnect cavity is provided, is characterized in that: a wing stop provided with a flanged through hole in the middle is in the inner wall of the meter housing between the inner part and the membrane is embedded. The inductive end of the inner part passes through the flanged through hole and is in contact with the membrane. A lower C-shaped Collar embedded in the inner sidewall of the meter body is, is disposed between the stopper and the inner part. Its advantages are: By adding of the stop, the lower C-shaped Collar and the membrane with a uniform structure can do that Utility model the membrane before creating a deformation of the inner part or even restrict it from falling out of the meter housing if the pressure exceeds the metering range. Using plastic material for making the pillars and the Upper and lower strips, thus, on the assumption of warranty of the measuring range and the service security are realized, accordingly the manufacturing costs are enormously reduced and the processing gets easier.

Claims (4)

Membrane-type miniature manometer with a plastic sapwood core, which is correspondingly from the top to the bottom with a meter cover ( 7 ), a pointer ( 8th ), an upper C-shaped collar ( 9 ) located in the inner sidewall of the meter housing ( 1 ), a dial ( 28 ) and an inner part ( 2 ) is formed within the meter housing, wherein at its bottom at the upper opening of the interconnection space ( 10 ) a membrane ( 5 ), characterized in that a stop ( 4 ) with a flanged through hole ( 41 ) in the middle, which is embedded in the inner wall of the meter housing, between the inner part ( 2 ) and the membrane ( 5 ), wherein the inductive end of the inner part ( 2 ) through the flanged through hole ( 41 ) and with the membrane ( 5 ) and wherein a lower C-shaped collar ( 3 ) located in the inner sidewall of the meter housing ( 1 ) is embedded between the stop ( 4 ) and the inner part ( 2 ) is arranged. The membranous miniature pressure gauge with a plastic saplin core as set forth in claim 1, characterized in that the inner part ( 2 ) the upper and the lower strips ( 22 ) 24 ), which are parallel to each other, with many vertical columns ( 26 ) between the upper and lower strips ( 22 ) 24 ) and the upper and lower strips ( 22 ) 24 ) and columns ( 26 ) are made of plastic, wherein the lower bar of the inner part ( 24 ) with a movable ejector pin ( 27 ) acting as the inductive end of the inner part, the upper end of the ejector pin ( 27 ) with a toothed segment ( 25 ) acting together, which is a vertical axis ( 29 ), wherein the oscillating end of the toothed segment ( 25 ) is connected to the drive axle ( 21 ) acting vertically through the upper bar of the inner part ( 22 ) and wherein a coil spring ( 23 ) at the bottom of the drive axle ( 21 ). The membrane-type miniature manometer with a plastic saplin core as set forth in claims 1 or 2, characterized in that the center of the membrane ( 5 ) a recess ( 51 ), the periphery of the membrane ( 5 ) with an annular groove ( 52 ), which is directed to the recess, the bottom within the meter housing ( 1 ) with a receiving groove ( 11 ) is provided, in which the annular groove ( 52 ), the bottom and the outer side wall of the annular groove with the inner surface of the meter housing ( 1 ) are welded, the bottom of the recess ( 51 ) above the bottom of the annular groove ( 52 ), the highest point of the inner side wall of the annular groove is lower than the highest point of the outer side wall of the annular groove, the flange of the flanged through hole ( 41 ) in the recess ( 51 ) and the inductive end of the inner part with the upper surface of the recess ( 51 ) is in contact. The membranous miniature manometer with a plastic saplin core as set forth in claim 2, characterized in that the columns ( 26 ) integrally on the lower strip of the inner part ( 24 ) are provided and the column holes corresponding to the columns ( 26 ) on the upper bar of the inner part ( 22 ) are provided.