RU2073204C1 - Compass for sporting orientation - Google Patents

Abstract

FIELD: sporting orientation. SUBSTANCE: compass has body 2 with supporting flange 7 and shank 4, directional plate 1 with supporting plane 8 and hole 6 in which shank 5 of body 2 is located and fixed from axial displacement upward by flexible retainers 3. The latter enter body of shank 5 with their one part, and resting, with their other part, on a row of supporting areas 10 in walls of hole 6 of plate 1. The second supporting plane 8 is located on the other side of hole 6, on plate 1. Additional row of supporting areas 10 for retainers 3 is made at the distance from the second supporting plane 8, equalling the distance from the first supporting plane 8 to a row of supporting areas 10 for retainers 3 in wall of hole 6 of plate 1. EFFECT: higher efficiency. 1 cl, 1 dwg

Description

 The invention relates to the field of measuring equipment and can be used in the construction of magnetic compasses, mainly for use in orienteering.

 Known compasses for orienteering "Sport-3", [1] and "Sport-4" [2] produced by the German Democratic Republic, containing a housing with a movable magnetic arrow in it. In the middle part of the housing, by its height, there is a flat support flange rigidly connected to the housing. Below the flange on the body there is a cylindrical shank, in the body of which an annular groove is made. The housing with its shank is inserted into the through cylindrical hole of the rectangular directional plate until it stops with the flange on the supporting plane of the plate. From moving and falling of the housing from the plate up, the housing is fixed in the hole of the plate with an elastic retainer in the form of a flat, thin and wide split ring. This ring, being unclenched, is inserted with its internal part into the annular groove of the shank, embracing it, and after compression with its external part (plane), it is supported on the supporting platform in the walls of the plate opening. This site is made in the form of a single plane, i.e. in the form of an external annular bore on the lower side of the hole to such a depth that the ring (retainer) does not protrude beyond the lower plane of the plate. The shank of the body also does not advocate for this plane.

 Due to the annular groove in the shank and the annular bore in the lower part of the plate hole, all three elements of the body, plate and retainer have the possibility of axial rotation to provide the necessary ease of rotation of the body in the plate.

 The disadvantage of these compasses is that when running the course plate in a form convenient for pressing it against the map, which is in the palm of your hand, with the thumb of the same hand, this compass can be used only for one hand for the right or left, because only the shape of the plate determines the hand for which the compass is intended.

 It is with such a course plate that the Temp-4 compass produced by the Arzamassky Design Bureau Temp was made. The compass has all the features described in the first analogue, but with the shape of the directional plate, convenient for pressing it with the thumb of the hand to the map in the same hand. The latch here is made in the form of an expandable polygon of elastic wire.

 The objective of the invention is the creation of a compass for orienteering, which can be used to conveniently press it to the map with the thumb of any hand by the athlete himself at his request.

 The problem is solved due to the fact that in the compass for orienteering, comprising a housing with a magnetically sensitive direction indicator to the north, with a support flange and a shank, a course plate with a plane supporting under the flange and with an opening passing through this plane and through the plate, in which the shank of the casing is fixed all the way down to the stop by a flange in the support plane on the plate; it is fixed in the hole from axial displacement upwards by elastic clamps that are part of the shank body and are supported by other its part to prevent the housing from moving upward on a number of supporting platforms in the walls of the plate hole, on the other side of the hole on the plate there is a second plane supporting the flange and at a distance from it equal to the distance from the first supporting plane under the flange to a number of supporting platforms for the clamps, in the walls of the hole of the plate made an additional row of support under the clamp pads.

 This technical solution allows not only to insert the compass case with its shank into an inverted directional plate, i.e. on its other side, until the flange stops in the second plane of the plate supporting the flange, but fix it on the back side of the plate hole in the same way as in the first case, only by supporting the parts of the clamps on an additional row of supporting platforms in the walls of the plate hole. In this case, the plate turned upside down becomes in shape a mirror image in relation to its initial position. This means that the plate, and therefore the compass as a whole, have become adapted for use in the other hand. The shank and the latch also do not protrude beyond the lower plane of the plate.

 The supporting pads on both sides of the plate in the walls of the hole can be made in the form of external annular bores, as in the above analogues, forming a single supporting platform in each bore, and in the form of external local samples (recesses) facing the outer surfaces of the plate . The places of entry of the retainers into the body of the shank can also be made in the variants of an annular groove or local blind samples (pockets) in the body of the shank at some distance from its end.

 Moreover, the combination of the first options, i.e. An annular bore in the plate and an annular groove in the shank gives the freest possible rotation of the body in the plate, because, as in the analogue, here all three elements of the body, plate and latches are movable relative to each other.

 The combination of the second options, i.e. samples, gives the angular fixation of the case in the plate, and a removable version of the case from the plate is necessary here for remaking the compass on the other hand.

 The combination of any first embodiment of one element with another variant of another element also makes it possible to rotate the housing in the plate, but with an angular fixation of the latch in one of these elements.

 The drawing shows a compass.

 The compass consists of a heading plate 1, a housing 2, a retainer 3, in the form of a split pentahedron from an elastic wire.

 The housing 2 contains a magnetic arrow 4 and is inserted with its cylindrical shank 5 into the cylindrical bore hole 6 of the plate 1 until its flange 7 rests on the supporting plane 8 of the plate 1. On both sides of the hole 6 of the plate 1, two external annular bores 9 are made with horizontal supporting pads 10. These pads are equally distant from the opposite supporting planes for the flange 8. On the shank 5 of the housing 2 there is an annular groove 11, which includes the sides of the pentagonal retainer 3, with its angles the retainer 3 supporting tsya on the support surface 10, thereby not allowing to leave the body 2 of the plate 1 upward. In view of the flat retainer 3, the groove 11 is made at the same distance from the flange 7 as the supporting platforms 10 are made from the supporting planes 8. There is a course line 12 on the plate 1. A parallel cut 13 is made in it in the plate 1, which can also serve as course line. Scale divisions are plotted on the steep side of the cutout 14. On the plate 1 there are two through slots 15 for threading through them an elastic retainer to the thumb. Due to this design of the plate 1, when it is flipped to the other side, i.e., from the bottom up, a complete reproduction of its shape is obtained according to the law of mirror image, which is required to change the purpose of the compass as an application to the other hand.

 To rearrange the housing 2 on the other side of the plate 1, the sides or ends of the pentagon are pushed apart with the needles and the latch 3 is removed from its location. The housing 2 is inserted on the other side of the plate in exactly the same way as with the first, and due to the same distance of the support pads 10 from the opposing supporting planes 8, the latch 3 freely snaps the body 2 in the plate 1.

 In this design of the compass, support surfaces under the latches 3 of the platform 10 can serve as supporting surfaces for the flange 7.

 As an embodiment, the support pads 10 can be made not in the form of an annular bore 9, but in the form of a series of local milled samples around the circumference of the hole. In this case, the clamps can be made in another form in the form of several pieces of elastic wire, antennae and other shapes of a more complex shape. Samples of the claimed compass were made, which easily made it possible to change the purpose of the compass for any hand.

Claims (1)

 A compass for orienteering, comprising a housing with a magnetically sensitive north direction indicator, with a support flange and with a shank, a direction plate with a plane supporting under the flange and with a hole passing through them, in which the housing shank, which is fixed in the hole from axial movement upward by elastic retainers, which enter part of the body of the shank and rest its other part on a number of supporting platforms in the walls of the plate hole, characterized in that on the other sides The holes on the plate have a second plane supporting the flange and at a distance from it equal to the distance from the first supporting plane under the flange to a number of supporting pads for the pads, an additional number of pads supporting the pads are made in the walls of the plate holes.