DE1498785C - Portable measuring device for the detection of gases operated underground - Google Patents

Description

In underground operations, it is known to work with portable measuring devices for investigation and determination the content of various gases in the air flow. This is especially true for the acquisition of Methane, carbon monoxide and other dangerous gases.

Known portable measuring devices consist of the actual electrical measuring device with display and / or warning device (measuring part) and a rechargeable battery as an electrical one Power source (energy part). The measuring part and the energy part are combined into one structural unit, with according to the type of gas to be detected, the measuring device distinguishes between the individual measuring devices. This system is disadvantageous in that measuring devices are used by each user only for a specific one Time can be carried because of the required handiness of the devices of the accumulator must be kept small and is therefore exhausted after a certain number of measurements. The operational readiness is therefore limited and usually only lasts for one shift. After that the accumulator must be brought to the surface at the end of the shift. Taking in addition, that from time to time a control of the measuring instruments has to be carried out, the result follows: that for each shift a full set of measuring devices and replacement devices must be available. However, this is very complex.

ίο It has already been done in order to reduce this effort proposed, on the one hand, the measuring part from electrical measuring device with display and / or warning device and on the other hand the energy part, which essentially contains the accumulator, in particular To accommodate housing parts and releasably connect the two housing parts to one another. Through this it is achieved that the measuring part is used by several users in immediately successive layers can be carried, with the handover to the next user at the workplace and only the part of the energy used up in the previous shift against one carried by the successor, freshly charged energy part is exchanged. The empty energy part is detached from it User taken to the surface where it is recharged. The respective user can also Carry several energy parts and they also during increased power consumption of the measuring part change one shift. The energy part becomes more efficient through such an exchange, without reducing the handiness of the measuring device. So it is z. B. possible a faster measurement sequence perform. However, this embodiment is also disadvantageous insofar as the measuring parts each can only be exchanged among users who are responsible for capturing the same component of the Weather stream are used. When changing shifts, this requires cumbersome measures to ensure that that everyone receives the measuring part corresponding to his measuring task. Particular difficulties occur when different measuring tasks in successive shifts at the same workplace should be perceived.

A portable measuring device for the detection of gases in underground operations is also known (See the German patent specification 648 669), which consists of an electrical measuring device with display and / or warning device (measuring part) for a mode of operation that enables the simultaneous detection of several types of gas on the one hand and electrical power source (energy part) on the other hand. With this well-known The measuring device is the measuring part and the energy part are a structural unit Out measuring chambers, in which by means of catalytic combustion or due to the thermal conductivity the content of the various components is determined quantitatively. The one at the beginning The portable measuring device described disadvantages are also in the last embodiment explained not eliminated.

For the rest, it is on its own, e.g. in the case of electrical measuring devices such as voltage, current and / or resistance measuring devices; . known to provide plug-in devices to extend and / or switch over the measuring range. This is evident from the problems encountered with portable measuring devices of the type in question present nothing to do.

The invention is based on the object of providing a

Bares measuring device for the detection of gases in underground operations to create that for the most varied of measuring tasks also in several successive ones Layers can be used, while at the same time it should be ensured that the respective user can only carry out the measuring task incumbent on him in order to avoid incorrect measurements.

The invention relates to a portable measuring device for the detection of gases in underground operations, consisting of consisting of an electrical measuring device with display and / or warning device (measuring part) for a separate one or simultaneous detection of several types of gas enabling operation on the one hand and electrical Power source (energy part) on the other hand and consists in the fact that the measuring part with the individual modes of operation corresponding separate contacts arranged in a plug part of a plug-in device is provided that special energy parts as independent components detachable and against each other are interchangeably connected to the measuring part and corresponding to the contacts of the measuring part Contacts are provided in a separate plug part that the arranged in the measuring and / or energy part Plug parts of the connector are provided with a cover plate, which corresponds to the Energy part assigned respective mode of operation of the measuring part has outbreaks, the release and Contacting the contacts of the plug-in device corresponding to this particular mode of operation are used, and is movably mounted in the plug parts in such a way that it is in the disconnected state of measuring and the energy part completely covers the contacts, but when they are put together in one, the respective one Contacts releasing layer pivots.

In particular, there are various possibilities for designing the measuring device according to the invention. So the measuring part and the energy part can be housed in special housings, the energy part can but also be designed as an insert for the housing of the measuring part. Appropriately, the cover plate be interchangeably fastened in the plug-in device, so that the energy part can also be used in other modes of operation of the measuring part can be converted.

The advantages achieved by the invention are varied. On the one hand, the measuring parts themselves for different measurement tasks, can be exchanged directly among several users, with the mode of operation of the measuring devices according to the invention according to those carried along by the individual users Energy sharing is set automatically. Incorrect operation of the measuring devices and thus incorrect This means that measurement results are practically excluded. On the other hand, a measuring part can have several Users are assigned or a user can carry several energy parts and within one Change shift. Thus, a higher energy consumption of the measuring parts is permissible without the Measuring devices would have to be equipped with larger accumulators at the expense of handiness. This can be used advantageously to, for. B. separate scale lights for each mode of operation of the measuring part to be provided on the display devices, which further facilitates operation will. Due to the possibility of higher current consumption, it is also permissible to combine all of them in one measuring part Carry out measurement options next to each other if the cover plate is suitable for this Has breakouts. So it is B. possible methane and carbon monoxide measurements with the same measuring device to be carried out in close succession during a shift. In addition, an energy part can be used for the different modes of operation of the measuring parts a single accumulator or several with different Have electrical parameters if different for the modes of operation of the measuring parts Current and voltage values are required. Such a requirement can also apply to a single Accumulator can be met with the help of several transistorized control loops that are responsible for the generate the voltages required by the individual measuring parts and keep them constant. Each measuring part can also have be provided with a monitoring device indicating the charge status of its accumulator. in the so the whole energy part can be optimally adapted to the operating mode of the assigned to it Lay out the measuring part.

The described features of the invention are given below on the basis of merely exemplary embodiments illustrative drawing explained in more detail; it shows in a schematic representation

F i g. 1 a measuring device made up of a measuring and energy part,

F i g. 2 another embodiment of a measuring device,

F i g. 3 the plug-in device for combining the measuring and energy part in the embodiment of Measuring device according to Fig. 1,

4 shows a section in the direction AB through the object according to FIG. 3,

F i g. 5 shows a section through the object according to FIG. 4,

F i g. 6 the plug-in device in the embodiment of the measuring device according to FIG. 2 without inserted Energy part,

F i g. 7 the subject of FIG. 6 with inserted energy part and

F i g. 8 shows a view in the direction of arrow C of the object according to FIG. 7th

The F i g. 1 and 2 show a portable measuring device for the detection of gases in underground operations. The measuring device consists on the one hand of a measuring part 1, in the measuring devices with display and / or optical or acoustic in a manner not shown Warning devices are combined, which are preferably a separate or simultaneous detection of several Operating mode allowing gas types, on the other hand, from an energy part 2, on the other hand, the essentially a power source, e.g. one or more accumulators, for feeding the measuring part 1 contains. Measuring part 1 and energy part 2 can be separated from one another. Each mode of operation of the measuring part 1 special energy parts 2 are assigned, which are detachable and interchangeable as independent components are connected to the measuring part 1. For this purpose, measuring part 1 and energy part 2, as shown in FIG. 1 shown, be housed in special housings. The energy parts 2 can also according to Fi g. 2 as inserts in the housing of the measuring part 1 be used.

The electrical connection of measuring part 1 and energy part 2 is done by means of a plug-in device, which connects only those circuits of the measuring part 1 with the power part 2 that are in the respective Operation of the measuring part 1 assigned to the energy part 2 correspond. In the F i g. 3 to 5 is one for this particularly suitable plug-in device for the execution

form according to fig. 1 of the measuring device. The corresponding to the individual modes of operation of the measuring part 1 Circuits are connected to separate contacts 3 of a plug part arranged in the measuring part 1 connected to the connector, so that by connecting each of these contacts 3 with Associated contacts 4 of the plug part in the power part 2, the corresponding circuits of the measuring part 1 can be put into an operational state. The release and contacting of the assigned Contacts 3, 4 takes place in accordance with the mode of operation determined by the energy part 2 used of the measuring part 1 by means of outbreaks 6 provided in a cover plate 5 The state of measuring part 1 and energy part 2 is movable in the connector parts at a pivot point 7 mounted cover plate 5 is pressed laterally by a spring 8 against the contacts 3, 4 and lifts by means of of the bevels 9 provided on the outbreaks 6 of the cover plate 5 and the contacts 3, 4 Contacts 3.4 against the contact pressure caused by contact springs 10 from each other until the cover plate 5 slides over the contacts 3, 4 and completely covers them.

When assembling the measuring and energy part 1.2, however, is activated by pressing the mechanical Cohesion-effecting screws 11 a rack 12 via a screw 11 connected pinion 13 is moved in the direction of the cover plate 5 and this via inclined surfaces 14 pushed back against the pressure of the spring 8 until the contacts 3, 4 on the inclined surfaces 9 of the cover plate 5 slide off and come into contact with one another as far as the cutouts 6 in the cover plate 5 allow this. In order to be able to convert the energy part 2 for other modes of operation of the measuring part 1, the cover plates 5 in the plug-in device can be exchanged for those with other cutouts 6 attached.

The F i g. 6 to 8 show another simple plug-in device in the case of the embodiment of the measuring device according to FIG. 2, although here too a plug-in device of the type already described can of course be used with success. Like F i g. 6th shows, when the energy part 2 is missing, a recess 15 provided for this purpose is provided by means of a pivotably mounted one Cover plate 16, which is mounted on a pivot point 17, closed. By introducing the energy part 2, the cover plate 16 is in the form shown in FIG. 7 position shown, for. B. against the pressure of a not illustrated spring, folded back. At the same time, the contacts 18 of the energy part 2 lie under the pressure of a spring 19 against contact points 20 on the cover plate 16 and contact points 21 on the housing of the measuring part 1 and in this way cause the electrical connection of the energy part 2 with the measuring part 1. Depending on the circuitry of the measuring circuit in the measuring part 1, the contact points 21 with the housing of the measuring part 1 be conductively connected or electrically isolated from this. Through the cover plate 16 further contacts 23 of the measuring part 1 can be actuated. You can either take power serve from the cover plate 16, but can also if the cover plate 16 on the top is covered with a bridge that is isolated from the cover plate and connects the contacts 23, as pure Switch-on device can be used. The contacts 18 are in grooves 24 for guidance of the measuring part 1 or the energy part 2 is arranged.

In detail, FIG. 8 another display device 25, with which the state of charge of a Current source 22 is monitored.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. Portable measuring device for the detection of gases in underground operations, consisting of electrical Measuring device with display and / or warning device (measuring part) for the separate or simultaneous detection of several types of gas enabling operation on the one hand and electrical Power source (energy part) on the other hand, characterized in that the measuring part (1) corresponds to the individual modes of operation separate contacts (3) arranged in a plug part of a plug-in device is provided that special energy parts (2) as independent components detachable and against each other are interchangeably connected to the measuring part (1) and to the contacts (3) of the measuring part (1) corresponding contacts (4) are provided in a separate plug part that the measuring and / or power part (1, 2) arranged plug parts of the plug-in device with a cover plate (5) are provided, corresponding to the respective operating mode of the energy part (2) assigned Measuring part (1) has outbreaks (6) for releasing and contacting the respective Operating mode corresponding contacts (3, 4) of the connector are used, and in the connector parts is movably mounted in such a way that it is in the disconnected state of the measuring and energy part (1, 2) completely covers the contacts (3, 4), but when assembling it into one Contacts (3, 4) swivels releasing position. 2. Portable measuring device according to claim 1, characterized in that the measuring part (1) and the energy part (2) are housed in special housings or that the energy part (2) as an insert for the housing of the measuring part (1) is formed. 3. Portable measuring device according to claim 1 or 2, characterized in that the cover plate (5) is exchangeably fastened in the connector.