DE102009035661B4 - Mount for a firearm with spring drive - Google Patents

Abstract

Holder (1) for a visor which can be placed on a prism rail (13), in particular for a firearm with spring drive, comprising at least one mounting unit (2) and a guide element (4), wherein at least one elastic restoring element is present, which holds the visor receptacles (6). relative to the mounting unit (2) leads back to a rest position, wherein at least two visor receptacles (6) via at least one guide element (4) with the mounting unit (2) are connected and have an opening (9), in which the at least one guide element (4) is slidably mounted, characterized in that the mounting unit (2) between the Visieraufnahmen (6) is arranged and for additional stabilization at least one guide rod (3) is provided for at least one elastic return element, which is arranged between the Visieraufnahmen (6).

Description

The invention relates to a holder for an attachable to a prism rail visor, in particular for a firearm with spring drive, comprising at least one mounting unit and a guide element, wherein at least one elastic return element is provided that the visor receptacles relative to the mounting unit returns to a rest position, wherein at least two Visage recordings are connected via at least one guide element with the mounting unit and have an opening in which the at least one guide element is slidably mounted.

Firing with air piston guns produces a recoil and a strong bounce. The bounce blow of some spring piston air rifles, such as a Diana 54 Airking, is so strong that no visor exists that can withstand these loads permanently. Depending on the spring used, the driven piston in the firing direction is accelerated so much that it compresses the air in the air cylinder of the weapon to several hundred bar pressure. The strongly accelerating piston hits the front of the air cylinder only a few milliseconds after the firing of the shot. The piston transfers its full energy to the system of the weapon, creating an extremely strong acceleration impulse (bounce). Such a bounce blow is opposite to the recoil. Depending on the weapon type, forces of more than 1000 kg per square centimeter act on a visor, which is permanently mounted on the firearm. As a result, the mechanics of the visor and the mounting unit can be permanently damaged.

Holding devices for the visor of a firearm are known from the prior art, in which a recoil pulse can be reduced or prevented by a resilient return elements on a sighting device. So is in the DE 27 03 990 A1 discloses a holder for a firearm with a telescopic visor, is reduced or prevented by a trained in the weft direction slide guide by means of elastic return elements, the influence of a recoil pulse on a visor. The disadvantage of such a holder for a sighting device, however, is that arranged within a carriage guide bearing blocks are fixed end to the outer ends of the carriage guide via elastic return elements, so that a relative mobility of the bearing blocks is possible, as long as a visor not in or on the bearing blocks has been fastened. On the one hand, this means that care must be taken when mounting a sighting device that the restoring elements are not put under tension, since otherwise torsion, compression or tensile stresses can occur after assembly of the aiming device on the bearing blocks, which compensates for the deflection of a bounce impact impulse prevent over a sliding movement of the bearing blocks in the carriage guide.

The US 4,027,414 A discloses an apparatus for receiving a sighting mount for a firearm, in which the entire apparatus extends over an area which is usually provided for receiving a sight mount on a barrel of a firearm. In this case, there is a restoring element guided on a guide rod between two end boundaries of the holding device. The guide rod is connected via two holding devices with clamping rings and with two visor receptacles. However, such a device has the disadvantage that a variable adjustment of a visor in a provided therefor on a firearm guide rail only in a range is possible, which can be determined by the choice of a suitable bias of the reset elements. The fact that the entire area, which is provided for receiving a sight mount on a firearm, is filled by the sight mount, an adjustment of the sighting position for the shooter depending on the choice of the attachment point on the barrel of a firearm is not possible.

The EP 0 601 824 B1 discloses a visor mount that provides an elastomeric material that is inserted between a base for receiving a visor mount on a firearm and a visor holder to provide shock absorption upon firing a shot from the weapon. The visor holder is clamped along a base with screws. The sockets for receiving the screws of the visor holder have an elastomeric material which is intended as an elastic damping means to dampen the bounce and / or recoil on delivery of a shot. However, such a device has the disadvantage that when using strong spring piston air guns an actual damping effect on the elastomeric materials used in the sockets is only limited possible. Further, the visor holder is completely pushed onto the base and occupies the entire length of the base, so that an individually adjustable position of the visor on the prism rail of the weapon for the shooter is not possible.

From the publication DE 27 03 990 A1 is a holder for the visor of a firearm known in which a long-building assembly unit is used with end stop areas. Between the attacks, the two Visieraufnahmen are arranged, which are floatingly supported by spring elements. The spring elements are based here on the attacks of Mounting unit and the visor shots off. However, such a solution allows only a small adjustability of the visor against the mounting unit.

From the patent US 6,678,988 B1 a further holder for a visor is known in which a two-part mounting unit can be set on the prism rail of a firearm and the required visor receptacles can be inserted and set in existing locking grooves. Also, such a solution discloses only a relatively small adjustment, the adjustment is not continuous, but only gradually possible.

The object of the invention is therefore to show a holder for a visor, which allows the shooter a very large adjustment for the visor and the holder and minimizes the impact of the recoil and the bounce on the mechanics of the visor.

According to the invention the object of the invention is achieved in that the mounting unit is disposed between the visor receptacles and at least one guide rod is provided for at least one elastic return element, which is arranged between the Visieraufnahmen. Further advantageous embodiments of the invention will become apparent from the dependent claims.

The mounting unit according to the invention serves as a basis for receiving a sight mount, wherein the mounting unit is fixed to the prism rail of the firearm in different positions and does not require the entire area of the prism rail, so that a variable positioning of the mounting unit can be done on the prism rail to the position optimally adapt to the shooter. Thus, a visor with the help of the mounting unit according to the invention up to 50 mm compared to conventional brackets in the weft direction or against the weft direction taken occupy a position that takes into account the physical conditions of the shooter and / or the visor size accordingly.

The mounting unit also serves to receive at least one guide element, which is slidably mounted on a breakthrough in the mounting unit. Preferably, two guide elements are used in a slide bearing or linear ball bearings to allow a sliding without tilting along the direction of the firearm. This has the advantage that occurring forces are distributed to a plurality of guide elements, whereby a perfect sliding is guaranteed. Regardless of whether one or more guide elements are present in the mounting unit, the invention provides that two visor receptacles can be connected to at least one, preferably two guide elements. The mounted on the prism rail mounting unit is therefore located between the two Visieraufnahmen, it being ensured that they can be moved over at least one guide member relative to the mounting unit sliding back and forth. Such an arrangement according to the invention has the advantage that a positioning of the mounting unit on a prism rail is slightly variable and individually adjustable for a shooter, so that an optimal adjustment of the visor in a desired position on the firearm is possible. Also, a very good mobility of the visor is given by the sliding bearing of the guide elements in the mounting unit to intercept the recoil and the bounce. The guide elements are deflected up to 50 mm from their equilibrium position before delivering a shot. The forces acting on the visor by recoil and bounce can therefore be repealed to 99.9%.

The attachment of the visor receptacles on the guide elements can be made in the entire region of the guide elements. Preferably, however, the visor receptacles are connected at the end to the guide elements in such a way that the visor receptacles terminate flush with the guide elements. Such an arrangement of the visor receptacle has the advantage that the guide elements do not protrude beyond the Visieraufnahmen and a maximum use of the existing adjustment range for the mounting unit is available. The connection of the guide elements with the Visieraufnahmen can be done by jamming, screwing and / or gluing.

To prevent unimpeded and uncontrolled sliding of the guide elements in the mounting unit, at least one elastic return element between the mounting unit and the visor receptacles is provided, which is guided over a guide rod. Here, the elastic return element serves to return the visor receptacles in a rest position relative to the mounting unit. It can thus be generated on the one hand, a bias that determines the position of the mounting unit between the Visieraufnahmen and on the other hand can be braked by the elastic return elements, the movement of the guide elements in the mounting unit. This is necessary in particular for returning the visor receptacle to a rest or initial position after delivery of a shot from the weapon, when the visor receptacles have been deflected with the guide elements in the assembly unit. The slidably disposed in the mounting unit guide elements can be at the action of a pulse through the firearm from her by the elastic Restoring element predetermined rest position are deflected and return by the elasticity of the return elements in their rest position. The kinetic energy that occurs during a shot is absorbed by the mass of the firearm. The lazy mass of the weapon opposes the negative or positive acceleration due to the recoil or bounce after the shot. The weapon moves accordingly with the mounting unit along a distance in the coaxial direction of the recoil or bounce, whereas the slidingly mounted in the mounting unit return elements remain in their rest position. Thus, the visor holders perform a relative movement relative to the mounting unit, but remain unchanged from their original position. After the maximum deflection, the elastic return elements lead the holder according to the invention back to its rest position before delivery of the shot. In this case, a guide rod for one or more elastic return elements is used to maintain their position relative to the mounting unit and the visor shots. The advantage is that by inserting and by the floating support of the guide rod in a breakthrough of the mounting unit falling out or shifting one or more elastic return elements in the relative movement relative to the firearm is prevented. Although the arrangement of an elastic return element between the Visieraufnahmen and the mounting unit without a guide rod is conceivable, but then there is a risk of falling out or an undesirable deformation. By the guide rod, which can be configured in one piece or multiple parts, the action of a force on the elastic return element is limited in the axial direction, which in particular has the advantage that in addition a bias on the elastic return element is adjustable. The guide rod according to the invention therefore advantageously serves for additional stabilization of the elastic return elements arranged between the mounting unit and the visor receptacles.

The guide rod is accommodated at one end in a blind-hole bore of a visor receptacle and at the other end guided in a breakthrough of a visor receptacle, wherein the aperture on the outwardly facing side merges into an expanding threaded bore. In the threaded hole, for example, a grub screw is screwed, which allows a determination of the guide rod, so that a punctual and location-related arrangement of one or more restoring elements is made possible after the relative movement between the mounting unit and the Visieraufnahmen. For assembly, the guide rod is guided through the opening with threaded bore of the visor receptacle and pushed a first elastic return element. The restoring element initially comes to rest between the first visor receptacle and the assembly unit. If the guide rod is guided through an opening in the assembly unit, then a second elastic return element between the mounting unit and the other end located Visieraufnahme be postponed until the guide rod is arranged in the blind hole, so that finally can be done by the grub screw fixing. However, the guide rod according to the invention can also be designed so that a combination with the grub screw includes a one-piece embodiment, wherein the guide rod is firmly connected to the grub screw. It is conceivable that identical or different elastic return elements between mounting unit and a visor mount are used. The relative position of the visor receptacles to the mounting unit is dependent on the restoring force and the elasticity of the elastic return elements to be selected. The choice of variable elastic return elements is advantageous because an individual adaptation to each firearm can be made by changing the spring pressure and thus to different biases between visor and mounting unit, in addition, the position is variable by the length of the return elements between the Visieraufnahmen relative to the mounting unit , Thus, in the case of the holder according to the invention, the choice of the elastic return elements is to be selected such that penetration of the visor receptacle against the assembly unit and, consequently, damage to a visor clamped in the visor receptacles is prevented. As elastic return elements coil springs are used, which are guided by the guide rod or possibly elastomers, which are pushed onto the guide rod. The choice and type of each applicable reset element depends on the position of the mounting unit on the weapon used. The restoring elements according to the invention ensure a balance position of the visor holders with respect to the mounting unit before delivery of a shot, wherein the equilibrium position is independent of the relative position of the firearm.

The one end in a visor with blind hole introduced guide rod is fixed in the other end existing visor with threaded hole with a grub screw. The guide rod is thus defined between the two Visieraufnahmen and ensures a guide of the elastic return elements and prevents uncontrolled sliding of the guide elements in the openings of the mounting unit. The fixation of the guide rod in the visor with extended threaded hole on a grub screw also has the advantage that in an eventual replacement of a elastic return element, the grub screw in the threaded bore of the visor with little effort is rotatable and the guide rod can be pulled out quickly and easily through the opening in the visor completely or partially. A change of guided on the guide rod elastic return elements can thus be done quickly and technically simple time, after the change of restoring elements, the guide rod on the threaded hole in the visor with the grub screw is quickly and easily fixed. Preferably, the guide rod to the eyepiece side of a visor from the Visieraufnahmen can be removed, the threaded hole should be located as possible on the periphery of the visor against the prism rail to prevent removal upon removal of a collision with the visor body. The guide rod and the guide elements can be round, square or oval. All elements of the holder according to the invention may consist of the same or different materials, in particular metals, metal alloys, plastics, carbon fibers, ceramics, cellulose or lignins can be used. The shape of the guide rod and the guide elements depends on the material used and on the design of the holder. The visor receptacles are variably adaptable to different visor diameters by receiving reducers. As a result, an adaptation of smaller visors to the holder according to the invention can take place without having to replace the visor holders.

Further, the invention provides that the mounting unit can be fixed via a dovetail guide on the prism rail. Alternatively, it can be mounted in a changing position over the entire length of the prism rail. This has the particular advantage that a relatively smooth adjustment is ensured at the same time secure grip. It is thus possible to perform a positioning of the mounting unit on the prismatic rail, which is directed to the individual needs of a shooter, with a smooth positioning of the mounting unit on the prism rail provides optimum adjustment of the visor for the shooter. It should be emphasized that the mounting unit has only a low weight between 40 and 80 grams, which means that the resulting low inertial mass additional securing the mounting unit on the prism rail is not required. Furthermore, a relatively large adjustment range for positioning on the prism rail is possible due to the short length of less than 50 mm, so that an individual adaptation of the sight setting can be made to the needs of the shooter. Due to the low weight of the mounting unit, damage to the shooter due to additional force is almost eliminated.

The mounting unit further has a dovetail-shaped guide, which is formed in one piece with the mounting unit and half opposite exists in a partial region of a pressure plate. This allows a clamping element, which preferably consists of several screws to attach the mounting unit to the existing leadership of the prism rail. This has the advantage that relative to the displacement of the mounting unit on the prism rail, a relatively easy and reversible positioning of the mounting unit can be done. Once the desired position of the mounting unit has been reached, the mounting unit can be fastened to the prism rail and then a fine adjustment by means of the elastic return element, if necessary, by an exchange.

The invention will be explained in more detail below with reference to FIGS.

It shows

1 in a perspective view of a visor holder according to the invention,

2 three sectional perspective views of the visor mount,

3 a visor holder in a cut perspective view,

4 a visor holder in a sectional perspective view with prism rail in a remote left-side position of the mounting unit,

5 a visor holder in a sectional perspective view according to 4 in a middle position of the mounting unit and

6 a visor holder in a sectional perspective view according to 4 in a right side position of the mounting unit.

1 shows a holder 1 that have an assembly unit 2 features. In the assembly unit 2 are two guiding elements 4 and a management staff 3 added. The two guide elements 4 are in the mounting unit 2 slidably mounted while the senior staff 3 in a breakthrough 7 is taken swimming. The assembly unit 2 is via clamping elements 5 on a prism rail 13 (not shown) determinable. Each at the outer end sides of the guide elements 4 there is a visor 6 , which is U-shaped and made of a lower visor mount 6a and an upper visor mount 6b which is about screws 8th can be connected to each other. The U-shaped recesses of the lower and upper Visieraufnahmen 6a . 6b are provided with the help of screws 8th to clamp a visor. Since the visor tension-free and without deformation of the visor body in the Visieraufnahmen 6 can be trapped, is a sticking of the visor in the Visieraufnahmen 6 unnecessary. The lower visor 6a has for receiving and fixing the guide elements 4 about breakthroughs 9 in which the guide elements 4 at the lower sights 6a can be attached. A visor 6a has a breakthrough at one and the same time 24 with a threaded bore that widens on the outside 10 on, over which the senior staff 3 in the lower visor 6a can be inserted. About a breakthrough 7 the mounting unit 2 the other side becomes the senior staff 3 in the blind hole 14 the lower visor 6a inserted. On the management staff 3 are for example two springs 20 . 21 deferred the position of the mounting unit 2 to the visor shots 6 establish. By a grub screw, not shown 15 or similar fittings will be the management staff 3 between the visor shots 6 established.

In 2 are three sectional perspective views of the holder according to the invention 1 shown. The intended for receiving a visor U-shaped recesses of the upper and lower Visieraufnahme 6a . 6b are about screws 8th connected with each other. By connecting the corresponding U-shaped visor shots 6a . 6b a narrow hollow cylinder forms, in which a visor with the help of screws 8th can be jammed. Furthermore, in 2 an assembly unit 2 pictured, via clamping elements 5 on a prism rail 13 can be attached. As clamping elements 5 In particular, hexagon screws are suitable. Furthermore, the mounting unit 2 a breakthrough 7 on, through which a management staff 3 to be led. The management staff 3 is in the breakthrough 7 according to the invention floating, so no obstruction of the sliding movement in the mounting unit 2 entry. At the height of the breakthrough 7 the mounting unit 2 close both ends of the management staff 3 the lower sights 6a at. A lower visor 6a has a breakthrough 24 with a widening threaded hole 10 on, over which the senior staff 3 through the lower visor 6a can be passed. The expanding threaded hole 10 can after performing the senior management 3 with the help of a grub screw 15 be closed. At the other end is the senior staff 3 in a lower visor 6a over a blind hole 14 included in the the management staff 3 can be inserted. Due to the arrangement of elastic return elements, in particular springs 20 . 21 on the management staff 3 between the lower sights 6a and the mounting unit 2 and the floating bearing of the guide rod 3 in the assembly unit 2 , can a controlled return of the visor shots 6 in their rest position after delivery of a shot on the return elements 20 . 21 respectively.

3 shows a lower and upper visor 6a . 6b that about screws 8th connected to each other. The lower visor 6a has two breakthroughs 9 and a breakthrough 24 with threaded hole 10 , wherein the guide elements 4 with the lower sights 6a are connected. Furthermore, it is off 3 to realize that the mounting unit 2 a dovetail guide 12 comprising, which consists of an integral part guide and a pressure plate 11 is due to the trapezoidal, two-piece shape of the mounting unit 2 the dovetail guide 12 arises, which is a korrospondierenden positive connection with the prism rail 13 allows. The pressure plate 11 the mounting unit 2 can thereby via clamping elements 5 , which may be formed in particular as hexagon screws, against the prism rail 13 be pressed so that a lateral jamming of the mounting unit 2 on the prism rail 13 he follows.

In 4 is a left side position of the mounting unit 2 relative to the visor shots 6 shown. The visor shots 6 are in a position they are after a successful deflection relative to the mounting unit 2 taking. The illustrated position of the bracket 1 can as the end position of a left-sided maximum deflection of the visor shots 6 opposite the mounting unit 2 after delivery of a shot can be viewed. A momentum effect by a shot on the holder 1 causes the guide elements 4 in the assembly unit 2 Slip and relative movement of the firearm with the mounting unit 2 allow towards the visor. The present is the maximum left-sided position of the visor shots 6a . 6b opposite the mounting unit 2 shown. The feathers 20 . 21 rest here endwise in a radial extension 22 . 23 the breakthroughs 7 . 24 and the blind hole 14 , 4 Therefore, shows a snapshot of a maximum left-side deflection of the holder according to the invention 1 from a rest or equilibrium position after a momentum or force.

5 shows a mounting unit 2 in a middle position between the visor shots 6 , where it can be seen that a senior staff 3 each end in two visor shots 6a . 6b is inserted. A like in 5 represented position of the mounting unit 2 between the visor mounts 6a . 6b can be generally considered as the rest or equilibrium position of the mounting unit between a deflection in which the springs 20 . 21 the assembly unit 2 to force it into a position that depends on the restoring force of the springs 20 . 21 is dependent and occupies the holder without external force. By the appropriate choice of springs 20 . 21 However, it is possible the position of the mounting unit 2 relative to the visor shots 6a . 6b to change, so the mounting unit 2 a rest or equilibrium position also beyond the middle position between two Visieraufnahmen 6a . 6b can take. A middle position like in 5 is therefore only to be considered schematically and is intended only a possible position of the holder according to the invention 1 in an equilibrium position. Furthermore, it can be seen that a lower visor 6a at one end over a blind hole 14 has a bottom visor while at the other end 6a an expanding threaded hole 10 in which a grub screw 15 can be introduced to a fixation of the management staff 3 in the threaded hole 10 to enable.

6 finally shows a holder 1 in the right-hand position of the mounting unit 2 opposite the visor shots 6 , The relative movement of the visor shots 6a . 6b along the direction of movement of the guide elements 4 Usually takes place after delivery of a shot through the firearm, with the position of the mounting unit 2 relative to the visor shots 6 from 4 to 6 changes and the chronological course of a pulse action on a holder 1 shows. The visor shots 6 Accordingly, after the force or momentum effect on the firearm with the mounting unit 2 on the guide elements 4 move in a horizontal direction along a predetermined distance, to a point of maximum deflection. Due to the restoring force of the springs 20 . 21 Then, a reversal of the movement in the opposite direction with passage through the rest or equilibrium position to a point opposite set maximum deflection. In 6 is the state of the holder according to the invention 1 shown in maximum deflection in the right-hand position, wherein the position after the counter-movement of the deflection is shown in the opposite direction until the holder 1 returns to an equilibrium position.

A like in 6 shown position of the mounting unit 2 relative to visor shots 6 can also represent an equilibrium or resting position when the springs 20 . 21 were chosen so that the visor shots 6 in a right-hand deflected position to the mounting unit 2 are forced. The running after delivery of a shot movement of the guide elements 4 and the visor shots 6 relative to the mounting unit 2 then takes place analogously to the in the 4 to 6 illustrated chronological course of a pulse action on the holder 1 ,

LIST OF REFERENCE NUMBERS

1

bracket

2

assembly unit

3

Corporate Office

4

guide element

5

clamping element

6

visor recording

6a

Lower visor

6b

Upper visor

7

breakthrough

8th

screw

9

breakthrough

10

threaded hole

11

platen

12

dovetail guide

13

Prismenschiene

14

Blind hole

15

grub screw

20

feathers

21

feathers

22

Radial extension

23

Radial extension

24

breakthrough

Claims (13)

Bracket ( 1 ) for a on a prism rail ( 13 ) attachable visor, in particular for a firearm with spring drive, comprising at least one mounting unit ( 2 ) and a guide element ( 4 ), wherein at least one elastic return element is present, which is the Visieraufnahmen ( 6 ) opposite the mounting unit ( 2 ) returns to a rest position, wherein at least two visor images ( 6 ) via at least one guide element ( 4 ) with the mounting unit ( 2 ) and a breakthrough ( 9 ), in which the at least one guide element ( 4 ) is mounted slidably, characterized in that the mounting unit ( 2 ) between the sights ( 6 ) is arranged and for additional stabilization at least one guide rod ( 3 ) is provided for at least one elastic return element, which between the Visieraufnahmen ( 6 ) is arranged. Bracket ( 1 ) according to claim 1, characterized in that the at least one guide element ( 4 ) end with the Visieraufnahmen ( 6 ) connected is. Bracket ( 1 ) according to claim 1 or 2, characterized in that the at least one guide rod ( 3 ) in a breakthrough ( 7 ) of the mounting unit is floatingly mounted. Bracket ( 1 ) according to claim 3, characterized in that as at least one return element at least one, preferably two springs ( 20 . 21 ), which are on the guide rod ( 3 ) and in radial extensions ( 22 . 23 ) of the breakthroughs ( 7 . 24 ) and a blind hole ( 14 ) einliegen. Bracket ( 1 ) according to one of claims 1 to 4, characterized in that as at least one elastic return element elastomers are provided. Bracket ( 1 ) according to one of claims 1 to 5, characterized in that the mounting unit ( 2 ) a dovetail guide ( 12 ), which on a prism rail ( 13 ) is adjustable. Bracket ( 1 ) according to claim 6, characterized in that the dovetail guide ( 12 ) in one piece with the mounting unit ( 2 ) existing partial guide and a pressure plate ( 11 ), which forms a second partial guide and with the mounting unit ( 2 ) is screwed. Bracket ( 1 ) according to one of claims 1 to 7, characterized in that in the assembly unit ( 2 ) a breakthrough ( 7 ) for receiving at least one management staff ( 3 ) is provided. Bracket ( 1 ) according to one of claims 1 to 8, characterized in that the at least one guide rod ( 3 ) at one end in a blind hole ( 14 ) of the lower visor mount ( 6a ) and at the other end in a breakthrough ( 24 ), which on the outside in an expanding threaded bore ( 10 ) passes over. Bracket ( 1 ) according to claim 9, characterized in that the threaded bore ( 10 ) is provided for receiving a screw which the guide rod ( 3 ) between both sights ( 6 ). Bracket ( 1 ) according to one of claims 1 to 10, characterized in that the mounting unit ( 2 ) has a length of less than 50 mm. Bracket ( 1 ) according to one of claims 1 to 11, characterized in that the mounting unit ( 2 ) weighs between 40 g and 80 g, preferably between 50 g and 70 g. Bracket ( 1 ) according to one of claims 1 to 12, characterized in that the guide element ( 4 ) is round, square or oval.

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