CN204631335U - Many sizes optical cable clamping device - Google Patents

Abstract

The utility model discloses many sizes optical cable clamping device, comprise the first plate body and second plate body of placement parallel to each other, first plate body is provided with multiple upper tooth arc towards the one side of the second plate body, the protrusion direction of upper tooth arc points to the second plate body, second plate body is provided with multiple lower tooth arc towards the one side of the first plate body, the protrusion direction of lower tooth arc points to the second plate body, simultaneously, upper tooth arc and lower tooth arc are crisscross arranged, all upper tooth arcs and lower tooth arc are all linked with hanging ring, optical fiber is successively through all hanging rings, also comprise the screw rod running through the first plate body and the second plate body.

Description

Many sizes optical cable clamping device

Technical field

The utility model relates to cable configuration, specifically many sizes optical cable clamping device.

Background technology

Optical fiber is a kind of light conduction instrument reaching the total reflection principle transmission caused in fiber that light makes at glass or plastics.Optical cable is that the optical fiber of some forms the cable heart according to certain way, is surrounded by sheath outward, the also coated outer jacket had, in order to realize a kind of communication line of optical signal transmission.In prior art, optical fiber is arranged in Loose tube, will add fine cream in Loose tube simultaneously, and fine cream is indispensable in producing as central tubular and layer-stranding cable, plays sealing, resistance to stress buffer action.

Many sizes optical cable clamping device is the clamping being applied to optical cable, its structure is roughly top board and lower platen, the face down one side of pressing plate of top board is arcwall face, lower platen is also arcwall face towards the one side of top board, and the radian of its arc is certain, cannot change, optical cable is placed into after between top board and lower platen, adopt screw to connect top board and lower platen, this clamping device can not adapt to the optical cable of different size, and range of application is narrow.

Utility model content

The purpose of this utility model is to provide many sizes optical cable clamping device, can the positioning optical waveguides of layering, plays the object of being classified by optical cable.

The purpose of this utility model is achieved through the following technical solutions: many sizes optical cable clamping device, comprise transverse plate, also be arranged on the left vertical plate on transverse plate and right vertical plate, the axis of left vertical plate and the axis of right vertical plate parallel to each other, and the axis of the axis of left vertical plate and right vertical plate is all perpendicular to the axis of transverse plate, be provided with screw rod through transverse plate, screw rod is between left vertical plate and right vertical plate, left vertical plate and right vertical plate are all provided with rectangular through hole, 2 guides are also provided with between left vertical plate and right vertical plate, guide comprises the horizontal guide rod be inserted in rectangular through hole and the vertical push rod be connected with horizontal guide rod, screw rod one end between left vertical plate and right vertical plate is connected with rubber pressing plate, the vertical push rod of 2 guides is all connected with rubber pressing plate.

The using method of said structure is: conventional pressing operation is: by left vertical plate and right vertical plate being fixed on after on a location-plate, optical cable is placed between location-plate and rubber pressing plate, at this moment, rotary screw will drive rubber pressing plate to move to optical cable direction under the guide effect of rectangular through hole, horizontal guide rod, vertical push rod, thus compacting optical cable.Unconventional pressing operation process is: left vertical plate and right vertical plate are fixed on after on a location-plate equally, optical cable is placed between location-plate and rubber pressing plate, then rotary screw, drive screw moves to away from optical cable direction, after horizontal guide rod arrives rectangular through hole fringe region, horizontal guide rod no longer moves, now vertical push rod can push up the two ends of pressure rubber pressing plate, and the central region of rubber pressing plate can continue protuberance, rubber pressing plate is deformed into a groove that Open Side Down, this groove is positioned at during the optical cable in this time, a clamping action is played to optical cable, this operation is applicable to the clamping of undersized optical cable, optical cable is avoided to suffer the extruding of hard part.

The vertical push rod of 2 guides lays respectively at screw rod both sides, and the vertical push rod of 2 guides is also connected with the two ends of rubber pressing plate respectively.

Rubber pressing plate is arc, and its protrusion direction points to screw rod.

Left vertical plate and right vertical plate are hook solid away from one end of transverse plate, when location-plate being provided with through hole, can be inserted in through hole by one end of hook solid, making left vertical plate and right vertical plate energy quick position on location-plate.

The utility model has the advantage of: corrosion-resistant, inoxidizability is stronger, sturdy and durable, can not be out of shape, be mainly used in optical cable fiber-dividing box and divide under in light box and fiber cable cross connection box and enter the fixing of optical cable, the optical cable of plurality of specifications can be fixed, ensure that optical cable does not move, thus ensure that optical cable can not be pulled off, dislocation, maintain optical cable and stablize normal optical signal transmission.

Accompanying drawing explanation

Fig. 1 is schematic diagram of the present utility model.

Reference numeral in figure is expressed as: 1, transverse plate; 2, left vertical plate; 3, right vertical plate; 4, screw rod; 5, rectangular through hole; 6, vertical push rod; 7, horizontal guide rod; 8, rubber pressing plate.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment 1:

As shown in Figure 1.

Many sizes optical cable clamping device, comprise transverse plate 1, also be arranged on the left vertical plate 2 on transverse plate and right vertical plate 3, the axis of left vertical plate 2 and the axis of right vertical plate 3 parallel to each other, and the axis of the axis of left vertical plate 2 and right vertical plate 3 is all perpendicular to the axis of transverse plate 1, be provided with screw rod 4 through transverse plate 1, screw rod 4 is between left vertical plate 2 and right vertical plate 3, left vertical plate 2 and right vertical plate 3 are all provided with rectangular through hole 5, 2 guides are also provided with between left vertical plate 2 and right vertical plate 3, guide comprises the horizontal guide rod 7 be inserted in rectangular through hole 5 and the vertical push rod 6 be connected with horizontal guide rod 7, screw rod 4 one end between left vertical plate 2 and right vertical plate 3 is connected with rubber pressing plate 8, the vertical push rod 6 of 2 guides is all connected with rubber pressing plate 8.

The using method of said structure is: conventional pressing operation is: by left vertical plate 2 and right vertical plate 3 being fixed on after on a location-plate, optical cable is placed between location-plate and rubber pressing plate 8, at this moment, rotary screw will drive rubber pressing plate 8 to move to optical cable direction under the guide effect of rectangular through hole 5, horizontal guide rod 7, vertical push rod 6, thus compacting optical cable.Unconventional pressing operation process is: left vertical plate 2 and right vertical plate 3 are fixed on after on a location-plate equally, optical cable is placed between location-plate and rubber pressing plate 8, then rotary screw, drive screw moves to away from optical cable direction, after horizontal guide rod arrives rectangular through hole 5 fringe region, horizontal guide rod no longer moves, now vertical push rod 6 can push up the two ends of pressure rubber pressing plate 8, and the central region of rubber pressing plate 8 can continue protuberance, rubber pressing plate 8 is deformed into a groove that Open Side Down, this groove is positioned at during the optical cable in this time, a clamping action is played to optical cable, this operation is applicable to the clamping of undersized optical cable, optical cable is avoided to suffer the extruding of hard part.

The vertical push rod 6 of 2 guides lays respectively at screw rod 4 both sides, and the vertical push rod 6 of 2 guides is also connected with the two ends of rubber pressing plate 8 respectively.

Rubber pressing plate 8 is arc, and its protrusion direction points to screw rod.

Left vertical plate 2 and right vertical plate 3 are hook solid away from one end of transverse plate 1.

As mentioned above, then well the utility model can be realized.

Claims (4)

1. more than size optical cable clamping device, it is characterized in that: comprise transverse plate (1), also be arranged on the left vertical plate (2) on transverse plate and right vertical plate (3), the axis of left vertical plate (2) and the axis of right vertical plate (3) parallel to each other, and the axis of the axis of left vertical plate (2) and right vertical plate (3) is all perpendicular to the axis of transverse plate (1), be provided with screw rod (4) through transverse plate (1), screw rod (4) is positioned between left vertical plate (2) and right vertical plate (3), left vertical plate (2) and right vertical plate (3) are all provided with rectangular through hole (5), 2 guides are also provided with between left vertical plate (2) and right vertical plate (3), guide comprises the horizontal guide rod (7) be inserted in rectangular through hole (5) and the vertical push rod (6) be connected with horizontal guide rod (7), screw rod (4) one end be positioned between left vertical plate (2) and right vertical plate (3) is connected with rubber pressing plate (8), the vertical push rod (6) of 2 guides is all connected with rubber pressing plate (8).

2. many sizes optical cable clamping device as claimed in claim 1, is characterized in that, the vertical push rod (6) of 2 guides lays respectively at screw rod (4) both sides, and the vertical push rod (6) of 2 guides is also connected with the two ends of rubber pressing plate (8) respectively.

3. many sizes optical cable clamping device as claimed in claim 1, is characterized in that, rubber pressing plate (8) is arc, and its protrusion direction points to screw rod.

4. many sizes optical cable clamping device as claimed in claim 1, is characterized in that, left vertical plate (2) and right vertical plate (3) are hook solid away from one end of transverse plate (1).