RU2205929C1 - Method of bolt manufacture and bolt - Google Patents

Abstract

FIELD: hardware. SUBSTANCE: lock bolt has head and shank. Head is made in form of separate bodies of revolution with annular grooves or protruding parts. Shank is made in form of structural member with left-hand and right-hand guides. In this case, left-hand guide is 2-shaped, and the right-hand guide, in form of rod. Bodies of revolution are kinematically connected with left-hand guide for motion along the latter and turning round their axes. EFFECT: higher resistance to breakage. 5 cl, 4 dwg

Description

 The invention relates to the field of locking devices, in particular to a method of manufacturing a crossbar and to the construction of the crossbar, and can be widely used in the manufacture of doors, locks, safes, etc.

 A known method of manufacturing a crossbar, including the manufacture of the head and shank (German patent 349511 from 03.03.22, NCI, 68 a, 74/01).

 Known bolt containing the head and shank (RF patent 2061156, E 05 B 15/10, 1996).

 The problem to which the claimed technical solutions are directed is to expand the arsenal of technical means for the method of manufacturing the crossbar and the design of the crossbar.

 The technical result that can be obtained by implementing the method of manufacturing the crossbar and the crossbar is to implement the above task - expanding the arsenal of technical means for the method of manufacturing the crossbar and the design of the crossbar.

образной формы, а правую - в виде стержня, а тела вращения размещают на левой направляющей с возможностью перемещения вдоль последней и с возможностью поворота вокруг своих осей.The essence of the proposed method lies in the fact that in the method of manufacturing the crossbar, including the manufacture of the head and shank, according to the invention, the head is made in the form of separate bodies of revolution with annular grooves or protruding parts, and the shank is made in the form of a structural element with left and right guides, while the left guide is made

shaped, and the right - in the form of a rod, and the bodies of revolution are placed on the left rail with the possibility of movement along the latter and with the possibility of rotation around their axes.

 The placement of the bodies of revolution, on the left guide, is carried out by means of annular grooves or protruding parts.

 The rod is made by pre-bending part of the left guide, placing the bent part parallel to the left guide and then fixing it relative to the left guide.

образной формы, а правая - в виде стержня, при этом тела вращения кинематически сообщены с левой направляющей с возможностью перемещения вдоль последней и с возможностью поворота вокруг своих осей.The essence of the claimed device lies in the fact that in the crossbar containing the head and shank, according to the invention, the head is made in the form of separate bodies of revolution with annular grooves or protruding parts, and the shank is made in the form of a structural element with left and right guides, while the left guide is made

shaped, and the right - in the form of a rod, while the bodies of revolution are kinematically communicated with the left guide with the possibility of movement along the latter and with the possibility of rotation around their axes.

 Bodies of revolution kinematically communicated with the left guide by means of annular grooves or protruding parts.

A comparative analysis of the proposed method of manufacturing a crossbar with a prototype shows that the inventive method has common features with the prototype:
- make a head;
- make a shank.

образной формы, а правую - в виде стержня;
- тела вращения размещают на левой направляющей с возможностью перемещения вдоль последней и с возможностью поворота вокруг своих осей;
- размещение тел вращения, на левой направляющей, осуществляют посредством кольцевых канавок или выступающих частей;
- стержень изготавливают путем предварительного отгибания части левой направляющей, размещения отогнутой части параллельно левой направляющей и последующей ее фиксации относительно левой направляющей.The inventive method of manufacturing a crossbar differs from the prototype with new features:
- the head is made in the form of separate bodies of revolution with annular grooves or protruding parts;
- the shank is made in the form of a structural element with left and right guides;
- the left guide is made

shaped, and the right - in the form of a rod;
- bodies of revolution are placed on the left rail with the possibility of movement along the latter and with the possibility of rotation around their axes;
- the placement of the bodies of revolution on the left guide is carried out by means of annular grooves or protruding parts;
- the rod is made by pre-bending part of the left guide, placing the bent part parallel to the left guide and then fixing it relative to the left guide.

A comparative analysis of the claimed crossbar with the prototype shows that the claimed crossbar has common features with the prototype:
- contains a head and a shaft.

образной формы, а правая - в виде стержня;
- тела вращения кинематически сообщены с левой направляющей с возможностью перемещения вдоль последней и с возможностью поворота вокруг своих осей;
- тела вращения кинематически сообщены с левой направляющей посредством кольцевых канавок или выступающих частей.The inventive bolt differs from the prototype with new features:
- the head is made in the form of separate bodies of revolution with annular grooves or protruding parts;
- the shank is made in the form of a structural element with left and right guides;
- the left guide is made

shaped, and the right in the form of a rod;
- bodies of revolution kinematically communicated with the left guide with the possibility of movement along the latter and with the possibility of rotation around their axes;
- bodies of revolution kinematically communicated with the left guide by means of annular grooves or protruding parts.

 From the above list of features of the proposed method of manufacturing the crossbar, the design of the crossbar and the achievement of the task clearly shows that the claimed technical solutions are a new set of features, as a combination of known and new features, providing a new technical result, unknown at the filing date of the application.

 A new technical result that can be obtained by carrying out the invention is to expand the arsenal of technical means for the method of manufacturing the crossbar and the design of the crossbar.

 The proposed method of manufacturing a crossbar and a crossbar are industrially applicable, because can be used in construction, industry, agriculture and other sectors of the economy, which use locks, doors, safes, locking devices and locking systems.

 Technical solutions of the claimed objects meet the criterion of "novelty", because they are unknown from the prior art on the date of application. Not known from the prior art, the set of essential features of the claimed technical solutions and their impact on obtaining the desired technical result.

 Technical solutions of the claimed objects meet the criterion of "inventive step", because no solutions having features matching their distinctive features have been identified, and the influence of the distinctive features on the resulting technical result is not known.

 Thus, the claimed technical solutions "Method of manufacturing a crossbar" and "Crossbar" are so interconnected that they form a single inventive concept and meet all the criteria for the invention, and provide a new technical result.

 Figure 1 shows a method of manufacturing a crossbar and a General view of the crossbar; figure 2 is a section aa of figure 1; figure 3 is an embodiment of the crossbar; figure 4 - part of the cross section aa figure 1 (embodiment of bodies of revolution).

образной формы, а правая - в виде стержня 3 (см. фиг.1 и 3). Тела вращения 1 кинематически сообщены с левой направляющей 2, посредством кольцевых канавок 4 или выступающих частей 10, с возможностью перемещения вдоль левой направляющей 2 и с возможностью поворота вокруг своих осей. Фиксатор 9 выполнен в виде болта или винта и установлен на входе или выходе из

образной полости левой направляющей 2 и предотвращает самопроизвольное извлечение тел вращения из указанной полости. Распорная втулка 5 установлена между концевыми частями левой 2 и правой 3 направляющих и обеспечивает фиксацию указанных направляющих между собой. Крепежные элементы б и 7 скрепляют между собой направляющие и выступают в роли фиксатора для тел вращения 1. Ригель, посредством правой направляющей 3, кинематически сообщен со средством перемещения ригеля 8 (не входит в комплект ригеля и на фиг.1 показан условно). Левая 2 и правая направляющие 3 могут быть выполнены или из одной детали (см. фиг. 1) или из двух деталей, скрепленных между собой (см. фиг.3). При скреплении левой 2 и правой 3 направляющих между собой могут использоваться крепежные элементы 6, или 6, 7, или сварные швы.The crossbar contains a head made in the form of separate bodies of revolution 1 (see Fig. 1, 2, 4) with annular grooves 4 (see Fig. 3) or protruding parts 10, a shank made in the form of a structural element with left 2 and right guides 3. The bolt also contains a latch 9, a spacer sleeve 5 and fasteners 6 and 7. The left guide 2 is made

shaped, and the right - in the form of a rod 3 (see figures 1 and 3). The rotation bodies 1 are kinematically connected with the left guide 2, by means of annular grooves 4 or protruding parts 10, with the possibility of movement along the left guide 2 and with the possibility of rotation around its axes. The latch 9 is made in the form of a bolt or screw and is installed at the inlet or outlet of

shaped cavity of the left guide 2 and prevents spontaneous extraction of bodies of revolution from the specified cavity. The spacer sleeve 5 is installed between the end parts of the left 2 and right 3 rails and ensures the fixation of these rails between them. The fastening elements b and 7 fasten the guides together and act as a retainer for the bodies of revolution 1. The bolt, by means of the right guide 3, is kinematically connected with the means of moving the bolt 8 (not included in the bolt kit and is shown conditionally in figure 1). Left 2 and right guides 3 can be made either from one part (see Fig. 1) or from two parts fastened together (see Fig. 3). When fastening the left 2 and right 3 guides together, fasteners 6, or 6, 7, or welds can be used.

 The method is implemented as follows.

образной формы из листового материала, а правую 3 - в виде стержня, причем стержень изготовили путем предварительного отгибания части левой направляющей 2, размещения отогнутой части параллельно левой направляющей и последующей ее фиксации относительно левой направляющей 2. Фиксацию провели путем предварительного размещения распорной втулки 5 между частями левой 2 и правой 3 направляющих и последующего их скрепления крепежными элементами 6 и 7. Фиксацию также провели путем предварительного отгибания конечной части правой направляющей 3 (см. фиг. 1) в сторону левой направляющей 2 и их последующей сварки. Изготовили левую 2 и правую 3 направляющие в виде отдельных деталей (см. фиг. З) и скрепили их между собой крепежными элементами 6. До скрепления левой 2 и правой 3 направляющей между собой ввели в кинематическое взаимодействие правую направляющую 3 со средством перемещения ригеля 8. В зависимости от исполнения средства перемещения ригеля 8 в нем может быть выполнено или отверстие, или паз (на фиг.2 условно показано пунктирными линиями). После этого ввели тела вращения 1 в полость левой направляющей 2. При исполнении тел вращения 1 с кольцевой канавкой 4 происходит кинематическое взаимодействие кольцевых канавок 4 с левой направляющей 2. При исполнении тел вращения 1 с выступающими частями 10 происходит кинематическое взаимодействие тел вращения 1 с левой направляющей 2 посредством указанных выступающих частей 10. После размещения тел вращения 1 на левой направляющей 2 установили фиксатор 9 или фиксаторы (при исполнении, как показано на фиг.3, необходимо два фиксатора 9).A head and a shank were made, the head being made in the form of separate bodies of revolution 1 with annular grooves 4 and / or protruding parts 10, and the shank was made in the form of a structural element with left 2 and right 3 guides. Left guide made

shaped from sheet material, and the right 3 - in the form of a rod, and the rod was made by pre-bending part of the left guide 2, placing the bent part parallel to the left guide and then fixing it relative to the left guide 2. Fixing was carried out by preliminary placing the spacer sleeve 5 between the parts left 2 and right 3 guides and their subsequent fastening with fasteners 6 and 7. Fixation was also carried out by preliminary bending of the end of the right rail 3 (with m. Fig. 1) in the direction of the left guide 2 and their subsequent welding. We made left 2 and right 3 guides in the form of separate parts (see Fig. 3) and fastened them together with fasteners 6. Prior to fastening the left 2 and right 3 guides, the right guide 3 was moved into kinematic interaction with the bolt 8 moving means. Depending on the design of the means of moving the crossbar 8, either a hole or a groove can be made in it (in Fig. 2, it is conventionally shown by dashed lines). After that, the rotation bodies 1 were introduced into the cavity of the left guide 2. When performing the rotation bodies 1 with the annular groove 4, the kinematic interaction of the ring grooves 4 with the left guide 2 occurs. When the rotation bodies 1 are performed with the protruding parts 10, the kinematic interaction of the rotation bodies 1 with the left guide 2 by means of these protruding parts 10. After placing the bodies of revolution 1 on the left guide 2, a latch 9 or latches were installed (when executed, as shown in FIG. 3, two latches 9 are necessary).

 The device operates as follows.

 By moving individual bodies of revolution 1 along the left guide 2, they were installed at a distance relative to each other, which is equal to the center-to-center distance between the holes made in the door frame or lock case (not included in the bolt kit and not shown conditionally in Fig.). Then, rotation bodies 1 were introduced into the indicated openings (not conventionally shown in the drawing).

 Due to the fact that the rotation bodies 1 are mounted with the possibility of movement along the left guide, it is possible to pair with holes on the frame of the door or lock case having different center-to-center distances between the centers of the holes. This circumstance allows to increase the degree of unification and standardization of the manufactured crossbars. The proposed design of the crossbar allows you to change the number of bodies of revolution 1 used in the crossbar, which is extremely important in the manufacture of crossbars for one or another class of door or locking system. Due to the fact that the rotation bodies 1 have an additional degree of freedom and are able to rotate around their axes, it is extremely difficult to saw them when a door or lock is cracked.

 Thus, the claimed technical solutions "Method of manufacturing a crossbar" and "Crossbar" ensure the achievement of the task and obtaining a new technical result.

Claims (4)

 1. A method of manufacturing a crossbar, including the manufacture of a head and a shank, characterized in that the head is made in the form of separate bodies of revolution with annular grooves or protruding parts, and the shank is made in the form of a structural element with left and right guides, while the left guide is made according to figure 2, and the right one in the form of a rod, and the bodies of revolution are placed on the left rail with the possibility of movement along the latter and with the possibility of rotation around their axes. 2. The method according to claim 1, characterized in that the placement of bodies of revolution on the left guide is carried out by means of annular grooves or protruding parts,
3. The method according to p. 1, characterized in that the rod is made by pre-bending part of the left guide, placing the bent part parallel to the left guide and then fixing it relative to the left guide.  4. A bolt containing a head and a shank, characterized in that the head is made in the form of separate bodies of revolution with annular grooves or protruding parts, and the shank is made in the form of a structural element with left and right guides, while the left guide is made in the form according to figure 2 and the right one is in the form of a rod, while the rotation bodies are kinematically connected with the left guide with the possibility of moving along the latter and with the possibility of rotation around their axes.  5. The crossbar according to claim 4, characterized in that the rotation bodies are kinematically connected with the left guide by means of annular grooves or protruding parts.

Images