RU188894U1 - Portable Induction Metal Detector - Google Patents

Abstract

The utility model relates to individual technical means of electrical exploration, designed to search and detect metal-containing objects, including explosive ones, in various dielectric and low-conducting environments (soil, water, snow, concrete ...). A portable induction metal detector that includes a sensor pivotally connected to a telescopic bar, an electronic signal processing unit (BIOS), a replaceable power supply unit and a switching cable connected at one end to the sensor, and the opposite side connected to the BIOS . One of the lugs of the hollow symmetrical plug is provided with a soldering recess on the outer side surface and with holes in the hermetic lead-in of the coils of the sensor and the switching cable; the lower end of the pentagonal rod is provided with a symmetrical horizontal hollow cylindrical axis with a sealed lead in the patch cable into the unsoldered niche, and its opposite end is made with a plug of a sealed electromechanical connection to the BIOS. The signal processing unit is designed as an elongated Z-shaped box in which the upper end front part is designed as a pentagonal outlet with a latch for electromechanical connection with a bar and a switching cable, and an on / off toggle switch is located on its lower part, toggle switch for switching modes of “Search” / “Refinement” and sensitivity control; at the same time, the rear part of the box is equipped with a built-in compartment for fixed placement of a replaceable power supply unit in the form of a cassette container with a lock. 1 il.

Description

The utility model relates to individual technical means of electrical exploration, intended for searching and detecting metal-containing objects, including explosive ones, in various dielectric and low-conducting environments (soil, water, snow, concrete ...).

Analogues of the utility model are portable search devices based on the induction principle of sensing and wire transmission of information from the sensor to the electronic signal processing unit. Among those of Russia are the inductive metal detector portable selective IMPS manufactured by JSC TZIA [1], the selective inductive metal detector SIM developed by SFTI TSU [2] and adopted for supply IMP-S2 produced by CJSC Zashchita-YuTTA [3].

The listed analogs include a sensor in the form of a dielectric frame pivotally connected to a telescopic rod, an electronic signal processing unit (BFB) with a power supply kit, a switching cable inside the rod, connecting the sensor to the BFB and an audible and / or visual indication system; they have similar search characteristics, differ from each other in design features and, as a result, in technical results.

Known metal detectors IMPS and SIM are made in the form of a collapsible collapsible design and differ from each other in the geometry of the sensors - a circular sensor in the IMPS, rectangular in the SIM. The design features of these analogs are: the signal processing unit is attached to the upper knee of the rod with the help of mechanical fastening “dovetail”; the patch cable is connected to the biofeedback with a bayonet connector; electrical connection of the switching cable with the sensor is carried out by soldering on its lower plane. A positive technical result is the advantages of a block design, in which, if necessary, it is relatively easy to remove the BFU for the purpose of its replacement or convenience of work due to the reduction in the weight of the remaining bar in the hand with the sensor.

The disadvantage of the considered analogs is the impossibility of repairing or replacing the sensor without compromising its tightness, due to the lack of special connectors for connecting and soldering the wires of the sensor and the switching cable directly in the sensor. In addition, the disadvantages include the insecurity of the switching cable, since it goes outside to connect the signal processing unit to the sensor, and the non-compactness of the mounting structure of the signal processing unit to the rod using a yoke and “dovetail”.

The well-known analogue of IMP-C2 is a modification of IMPS, made in the form of a folding non-collapsible structure, in which the signal processing unit is made by a cylinder fixed with clamps on the upper knee of the rod with an opening of the pressure cable of the switching cable to the ASB without going outside; electro-switching of cable wires is performed by soldering directly into the box of the signal processing unit. And from the lower knee of the rod, the switching cable goes outside, through the pressure seal on the lower plane of the sensor, is put into the sensor, where it is made with the receiving and radiating inductance coils. A positive technical result of this design is the compactness of the product in the working configuration and the exclusion of a trailing cable from the upper knee of the rod.

The main disadvantages of analogue IMP-C2, worsening its technical characteristics:

- The design is folding, non-separable, repair-acceptable in field conditions, which is caused by the non-detachable switching of the ends of the switching cable with the sensor and the electronic signal processing unit - switching is performed by direct wiring of the wires in the respective blocks;

- The patch cable is not protected from external mechanical influences, due to the fact that the swivel connection of the sensor with the rod is not intended for the internal conduction of the patch cable to the sensor and this wiring is performed outside - the cable comes out of the lower knee of the rod and is inserted into the sensor from the bottom through a sealed lead-in; while working with the device cable hangs under the sensor.

Other Russian and foreign analogues have similar disadvantages. For most of them, the patch cable is not protected at all (wrapped around the rod) or partially protected, like in IMP-C2.

The closest to our model is a miniature induction metal detector Mimid of the Austrian company Schiebel [4], chosen by us as a prototype.

The Mimid prototype is a collapsible mono-design that includes a frame sensor pivotally connected to a rectangular telescopic rod, an electronic signal processing unit, a switching cable placed completely inside the bar, a power supply unit, an audio and video display system, an operator's handle and an armrest that are pivotally connected with the end of the upper knee barbell.

The design features of the prototype:

- Folding non-separable design;

- Switching the wires of the sensor and the signal processing unit with the switching cable is carried out directly in the sensor and in the signal processing unit by desoldering;

- Telescopic rod of rectangular cross section, its lower knee ends in a hollow horizontal articulated axis with openings in the hermetic insertion of a switching cable to the sensor for desoldering;

- The case of the signal processing unit is made in the form of a flat rectangular box, the narrow side is integrally bonded to the side surface of the upper knee of the rod;

- The upper knee of the bar ends in a closed swivel with the handle of the operator and the armrest. Through this hinge, through a sealed bore (pressure input), a patch cable is inserted into the signal processing unit for desoldering.

A positive technical result of the prototype design consists in its compactness in any configurations and full protection of the patch cable.

The main design flaw of the prototype is immiscible and, as a result, repairing the weathering by replacing defective elements, which is due to the non-detachable switching in the sensor and in the signal processing unit of the corresponding wires of the switching cable - switching is done by soldering. The disadvantages include the single-hinged joint of the sensor with the rod, which weakens the mechanical strength of the hinge.

The technical objective of the claimed utility model is to improve the technical characteristics of the device based on the elimination of the design flaws of the analogues and the prototype. The design must be quick disconnectable, maintainable by prompt replacement of defective structural elements with full protection of the patch cable from external mechanical influences and preservation of compactness in any configurations.

The solution of the technical problem is carried out using the pentagonal rod and the original design of the quick-release electromechanical butt-rod connection with the signal processing unit and the soldering recess on the side surface of the hinged sensor rack.

The claimed device is a portable induction metal detector made in the form of a collapsible folding structure (Fig. 1), which includes a frame sensor (1) pivotally connected to a telescopic rod of pentagonal cross-section (2) and an electronic signal processing unit (3 ) with replaceable power supply unit (4).

Distinctive design features of the utility model:

1. One of the lugs of the hollow articulated fork is provided on the outer side surface with a soldering recess (5) with pressure leads in it to the wires of the sensor coils and the switching cable. A similar hole in the cable gland is also provided with a hinged hollow axis. As a result, it became possible to solder the wires of the patch cable and the sensor in a specialized niche outside the sensor plane. This design provides the ability to quickly replace the sensor without violating its integrity.

2. The upper end of the rod is made with a detachable pentagonal plug of electromechanical connection to the signal processing unit; Correspondingly, the front end part of the signal processing unit is made in the form of a pentagonal socket of the socket type (7) with a lock (8) for an electromechanical connection with a rod and a switching cable. At the same time, the pentagonal geometry of the connector ensures the correctness of the electrical connection. The advantages of such a mechanism for connecting a signal processing unit with a rod and a cable are obvious - the need to solder the cables of the switching cable directly in the signal processing unit is eliminated and this makes it possible to quickly assemble and disassemble the structure without mechanical damage.

An example of the implementation of the claimed invention is a portable induction metal detector, made of PLA plastic additive 3D - printing technology; his photo is presented on (Fig. 1) in expanded form for work and in disassembled views; the design is assembled from three blocks - the search item; signal processing unit and replaceable power supply unit. Search element - pivotally connected sensor and rod. The sensor is a dielectric frame (240 × 110 × 12) mm with placed in a special groove around the perimeter on the lower plane of the radiating and receiving inductance coils, the ends of which are drawn hermetically into the unsoldered niche through a hinged rack. The four-knee pentagonal telescopic rod is made according to the patent [5] with the fact that the upper knee end is made with a pentagonal plug-type connector, and the opposite end of the rod is equipped with a hollow cylindrical hinge axis of the connecting cable to the soldering niche. The patch cable is completely placed in the rod without going out, its ends are soldered in a soldering niche on the side surface of the hinge rack and on the plug-type connector. The signal processing unit is made elongated box; its front end upper part is made of a pentagonal socket-type socket with a lock for electromechanical connection with a rod; and on the lower end part there are controls for the operation of the device; A replaceable power supply unit is located in the back of the BS. The power supply unit is made in the form of a container cassette with a lock. The process of translating devices into position is as follows. The eccentric clip (8) (Fig. 1) of the socket-type connector retainer clip (7) on the biofeedback opens and the plug-type connector (6) of the search element (2) is buttly inserted into it, the connector snaps and closes the retainer (8). Then alternately open the latches (clips) (9) on the rod and push the knee to the required length and close the clamp (9) until it clicks and so on the other three knees of the rod. The working fixed length of a bar (350-1200) mm. The clamp (10) selects and fixes the required working angle of the sensor to the test surface. The device is ready for operation. The process of moving the device from the working to the assembled position is carried out in the reverse order.

The utility model and its practical implementation, in contrast to the prototype, have the advantage of a block design.

Thus, the set of design features of the new utility model led to the following positive technical result:

- Improved technical characteristics of the device, in particular, the design maintainable by replacing defective blocks; the design provides quick and convenient deployment of the device in working condition; simplified design and, as a result, improved portability of the product in any configuration. In this case, the switching cable is placed in the rod and protected from external mechanical influences.

The technical result is achieved due to the structures of the quick-release electromechanical joint of the rod butt with the signal processing unit and the soldering niche on the lateral surface of the articulated stand of the sensor.

Literature:

1. Selective portable induction mine detector IMP-C2 [Electronic resource]: Encyclopedia / Ministry of Defense of the Russian Federation. - URL: https://encyclopedia.mil.ru/encyclopedia/weapons/more.htm?id=1201053 4 @ morfMilitaryModel.

2. Selective portable induction metal detector "IMPS" [Electronic resource]: Machinery for special services / Bureau of Scientific and Technical Information. - URL: http://www.bnti.ru/des.asp?itm=2448&tb1=07.01.01.

3. Donchenko V.A., Parvatov G.N., Potekaev A.I., Svetlichny V.A., Synkov S.A., Sayfutdinov R.Kh., Zambalov S.D., Yakovlev I.A., Yakovleva S.V. / Selective induction metal detector // Patent of the Russian Federation for utility model № RU 159147 U1, priority date 05.05.2015. Posted 02/10/2016. Bul №4.

4. Miniature mine detector "MIMID" [Electronic resource]: Equipment for special services / Bureau of scientific and technical information. - URL: http://www.bnti.ru/des.asp?itm=623&tb1=07.01.01.

5. Donchenko V.A., Parvatov G.N., Potekaev A.I., Svetlichny V.A., Synkov S.A., Saifutdinov R.Kh., Zambalov S.D., Yakovlev I.A., Yakovleva S.V. / Pentagonal telescopic bar with quick-clamping joint // Patent of the Russian Federation for utility model № RU 168300 U1, priority date 10.02.2016. Published 01/31/2017. Bul №4.

Claims (1)

              A portable induction metal detector that includes a sensor pivotally connected to a telescopic bar, an electronic signal processing unit (BIOS), a replaceable power supply unit and a switching cable connected at one end to the sensor, characterized in that one of the lugs is hollow the hinged plug is provided with a roll-up niche on the outer side surface and with holes for hermetic insertion of wires of the sensor coils and the patch cable into it; the upper end of the rod is made with a detachable pentagonal plug of an electromechanical connection to the signal processing unit, the front end part of which is made with a pentagonal detachable socket.

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