CN207263554U - A kind of cable bend detection device - Google Patents

Abstract

The utility model provides a kind of cable bend detection device, including：Babinet, built-in control system, wherein, at least provided with a shaft on babinet, on the side wall of babinet；At least one bending mechanism, one end are connected with shaft, and the other end is to fixed tested cable, and the bending mechanism of fixed cable one end can rotate in a circumferential direction, and be rotated by control system drive shaft, drive bending mechanism to rock back and forth, realize the curved detection of cable.A kind of cable bend detection device provided by the utility model, rotated by control system drive shaft, so as to drive bending mechanism to rock back and forth, realize the curved detection of cable, rotate in a circumferential direction simultaneously as the bending mechanism of fixed cable one end can be realized, so that in the state of constant moving-wire cable fixed position, its direction is rotated by 90 °, so as to ensure that the folding line of crooked test twice is maintained at the same position of cable, and then improves the reliability of cable bend test.

Description

A kind of cable bend detection device

Technical field

The utility model belongs to field of mechanical technique, is related to a kind of detection device, and particularly a kind of cable bend detection is set It is standby.

Background technology

Cable has a unshakable status in communication apparatus, and cable has many derived products, and plug wire Plate is exactly one kind therein.Connected between the socket and plug of wiring board by the cable of strip, and wiring board is when in use, Cable thereon is typically in case of bending, and bending can cause cable to be ruptured in the bending section for a long time, Jin Erfa Raw leaky, has security risk, so before wiring board dispatches from the factory, can carry out curved detection to the cable on wiring board, And be directed to the cable of circular cross-section when detecting, it is necessary to detect two direction, i.e. left and right directions and anteroposterior direction, but existing The crease line when crease line that detection device is difficult to when left and right directions is detected is detected with anteroposterior direction is located at the same of cable In one position, cause the curved detection of cable on wiring board nonstandard, detection data are without reference value.

When in summary, it is necessary to designing one kind and be able to ensure that cable detection, the crease line in both direction is located at cable The cable bend detection device at same position.

The content of the invention

The purpose of this utility model is that there are the above problem for existing technology, it is proposed that one kind is able to ensure that cable is examined During survey, the crease line in both direction is located at the cable bend detection device at the same position of cable.

The purpose of this utility model can be realized by following technical proposal：A kind of cable bend detection device, including：Case Body, built-in control system, wherein, at least provided with a shaft on babinet, on the side wall of babinet；At least one bending machine Structure, one end are connected with shaft, and the other end is to fixed tested cable, and the bending mechanism of fixed cable one end can rotate in a circumferential direction, Rotated by control system drive shaft, drive bending mechanism to rock back and forth, realize the curved detection of cable.

In a kind of above-mentioned cable bend detection device, the quantity of shaft and bending mechanism is two, respectively positioned at case The both sides of body, wherein, each bending mechanism is connected in corresponding shaft.

In a kind of above-mentioned cable bend detection device, the shaft of babinet both sides is separately set.

In a kind of above-mentioned cable bend detection device, the shaft of babinet both sides is coaxially arranged concentrically.

In a kind of above-mentioned cable bend detection device, bending mechanism includes one piece of riser being connected with shaft, and with The bent plate that riser is detachably connected, and at least one set of crooked assembly being removably connected on bent plate.

In a kind of above-mentioned cable bend detection device, bent plate can be moved up and down along the length direction of riser.

In a kind of above-mentioned cable bend detection device, connected between riser and bent plate using slide fit, and pass through screw thread Fastener is fixed.

In a kind of above-mentioned cable bend detection device, the quantity of crooked assembly is two, is removably connected to respectively On bent plate, and two crooked assemblies are arranged side by side.

In a kind of above-mentioned cable bend detection device, set several oval on the bent plate of one end that is connected with riser Hole, to change be connected between the crooked assembly on bent plate and riser before and after opposite offsetting distance.

In a kind of above-mentioned cable bend detection device, coordinated between crooked assembly and bent plate using sliding, and pass through Crooked assembly is fixed on bent plate by threaded fastener.

In a kind of above-mentioned cable bend detection device, crooked assembly includes the base being detachably connected with bent plate, and The rotation section being detachably connected with base, and the fixture with rotation section nested encryptions.

In a kind of above-mentioned cable bend detection device, crooked assembly further includes at least one drag-line, is detachably connected In the back side of base, to lock position of the fixture on base.

In a kind of above-mentioned cable bend detection device, fixture is set in inverted T-shaped, wherein, fixture includes and circle The bottom plate of ring nested encryptions, the baffle being detachably connected by connector and bottom plate, and the clamping being detachably connected with baffle Portion.

In a kind of above-mentioned cable bend detection device, some groups of connecting holes are provided with baffle, and in the shape of array Formula is set, wherein, clamping part is connected in connecting hole.

Compared with prior art, a kind of cable bend detection device provided by the utility model, is driven by control system Shaft rotates, so as to drive bending mechanism to rock back and forth, realizes the curved detection of cable, simultaneously as fixed cable one end Bending mechanism can be realized and rotated in a circumferential direction so that in the state of constant moving-wire cable fixed position, its direction is rotated by 90 °, so that Ensure that the folding line of crooked test twice is maintained at the same position of cable, and then improve the reliability of cable bend test, and be somebody's turn to do Cable has certain reference value by the experimental data obtained by crooked test.

Brief description of the drawings

Fig. 1 is a kind of structure diagram of cable bend detection device of the utility model.

Fig. 2 is the structure diagram of bending mechanism in one preferred embodiment of the utility model.

Fig. 3 is the structure diagram under crooked assembly first state in one preferred embodiment of the utility model.

Fig. 4 is the structure diagram under the second state of crooked assembly in one preferred embodiment of the utility model.

In figure, 100, babinet；110th, shaft；200th, control system；300th, bending mechanism；310th, riser；320th, bent plate； 321st, slotted hole；330th, crooked assembly；331st, base；332nd, annulus；333rd, fixture；333a, location hole；333b, bottom plate； 333c, connector；333d, baffle；333e, clamping part；333f, connecting hole；334th, drag-line.

Embodiment

It is specific embodiment of the utility model and with reference to attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these embodiments.

As depicted in figs. 1 and 2, a kind of cable bend detection device provided by the utility model, including：Babinet 100, it is built-in Control system 200, wherein, at least provided with a shaft 110 on babinet 100, on the side wall of babinet 100；It is at least one Bending mechanism 300, one end are connected with shaft 110, and the other end is tested cable, and the bending mechanism of fixed cable one end to fixed 300 can rotate in a circumferential direction, and be rotated by 200 drive shaft 110 of control system, drive bending mechanism 300 to rock back and forth, realize cable Curved detection.

When one end of cable is fixed on bending mechanism 300, rotated, realized by 200 drive shaft 110 of control system Bending mechanism 300 rocks back and forth so that first of folding line is formed on detected cable；It is curved when rotation fixed cable one end During bent mechanism 300, and rotation angle is 90 degree, is rotated again by 200 drive shaft 110 of control system, realizes bending mechanism 300 rock back and forth so that second folding line is formed on detected cable, wherein, due to being only merely rotoflector mechanism 300, without changing the distance between fixed cable one end and first folding line, so postrotational bending mechanism 300 acts on Second folding line and first of folding line on cable are in together in same level, that is, ensure circular cable in anteroposterior direction and a left side The folding line stayed in right direction ensure that the reliability of cable bend detection device on the same position of cable.

A kind of cable bend detection device provided by the utility model, is rotated by 200 drive shaft 110 of control system, So as to drive bending mechanism 300 to rock back and forth, the curved detection of cable is realized, simultaneously as the bending machine of fixed cable one end Structure 300 can be realized and rotated in a circumferential direction so that in the state of constant moving-wire cable fixed position, its direction is rotated by 90 °, so as to protect The folding line for demonstrate,proving crooked test twice is maintained at the same position of cable, and then improves the reliability of cable bend test, and the line Cable has certain reference value by the experimental data obtained by crooked test.

It is further preferred that as depicted in figs. 1 and 2, the quantity of shaft 110 is two, respectively positioned at the two of babinet 100 Side, corresponding thereto, the quantity of bending mechanism 300 is also two, is connected in the shaft 110 of 100 both sides of babinet, can Realize that more cables are carried out at the same time crooked test, wherein, the shaft 110 of 100 both sides of babinet is separately set, i.e., wherein side is (single Side) operation bending mechanism 300 when, the bending mechanism 300 in opposite side shaft 110 is unaffected, ensure that unilateral bending machine The independence of structure 300, you can realize that both sides bending mechanism 300 can carry out the crooked test of cable in different periods.It can be achieved Different cables carry out crooked test in different periods or same period, improve the flexibility of cable bend detection device.

It is further preferred that the shaft 110 of 100 both sides of babinet can be realized and is coaxially arranged concentrically, i.e. two shafts 110 can be with A shaft 110 is merged into, or connects the shaft 110 of 100 both sides of babinet respectively by the 3rd shaft 110 so that three Shaft 110 forms integrative-structure, and at this time, two bending mechanisms 300 of 100 both sides of babinet can realize that the synchronous cable with the period is curved Song detection, increases the quantity of same model cable crooked test.

Preferably, as depicted in figs. 1 and 2, bending mechanism 300 includes one piece of riser 310 being connected with shaft 110, and with The bent plate 320 that riser 310 is detachably connected, and at least one set of crooked assembly 330 being removably connected on bent plate 320, its In, bent plate 320 can be moved up and down along the length direction of riser 310, so as to change the terrain clearance of crooked assembly 330, be suitable for The cable of different length carries out crooked test, it is further preferred that being connected between riser 310 and bent plate 320 using slide fit, and leads to Cross threaded fastener to fix, so when adjusting the terrain clearance of crooked assembly 330, it is not necessary to crooked assembly 330 will be connected with Bent plate 320 remove and be adjusted from riser 310, but directly the threaded fastener of fastening is unscrewed, easily slides onto institute After needing height, tighten again threaded fastener can, reduce adjust 330 terrain clearance of crooked assembly time, improve Work efficiency.

It is further preferred that as depicted in figs. 1 and 2, the quantity of crooked assembly 330 is two, is removably connected to respectively On bent plate 320, and two crooked assemblies 330 are arranged side by side, and realize that two on the same side crooked assemblies 330 synchronously rock back and forth Pendulum so that bending mechanism 300 within the same period, can carry out the synchronous curved detection of both threads cable, so as to add line The quantity of cable curved detection, improves work efficiency.

It is further preferred that as depicted in figs. 1 and 2, several length are set on the bent plate 320 of one end that is connected with riser 310 Circular hole 321, to opposite offsetting distance before and after changing between the crooked assembly 330 and riser 310 that are connected on bent plate 320, The cable for preventing from being fixed on crooked assembly 330 mutually touches with other equipment when carrying out crooked test, causes cable bend to be surveyed The experimental data for trying gained is not accurate enough.

It is further preferred that as depicted in figs. 1 and 2, coordinated between crooked assembly 330 and bent plate 320 using sliding, and lead to Cross threaded fastener crooked assembly 330 is fixed on bent plate 320, wherein the cunning by crooked assembly 330 on bent plate 320 Move, change the relative position between two neighboring crooked assembly 330 so that cable is being bent on two crooked assemblies 330 Test, it is independently of each other, non-interference, so that the data of cable bend experiment gained have certain reliability and business valency Value.

Preferably, as shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, crooked assembly 330 includes what is be detachably connected with bent plate 320 Base 331, and the rotation section being detachably connected with base 331, rotation section are preferably annulus 332, and it is nested with annulus 332 even One end of cable, when cable carries out crooked test, is fixedly installed on fixture 333, such as Fig. 3 institutes by the fixture 333 connect first Show, then 200 drive shaft 110 of control system rotates, and is connected to by riser 310 and bent plate 320, drive on bent plate 320 Crooked assembly 330 rock back and forth, realize crooked test of the cable in the side direction, and first of folding is formed on cable Trace, when the lateral bend test wave number reach setting numerical value when, being rotated by 90 ° by fixture 333 around annulus 332 (can up time Pin rotates), as shown in figure 4, change the direction of cable bend test, but since position of the cable on fixture 333 does not change Become, i.e., the distance between the fixing end of cable and first folding line do not change, and are then driven again by control system 200 Shaft 110 rotates, and drives rocking back and forth for crooked assembly 330, realizes that cable carries out bending survey on the direction after being rotated by 90 ° Examination, and second folding line is formed on cable, and second folding line and first of folding line are at the same position of cable.

Preferably, shown in Fig. 2, Fig. 3 and Fig. 4, crooked assembly 330 further includes at least one drag-line 334, is detachably connected (live apart with fixture 333 in the back side of base 331 and be located at the opposite side of fixture 333 in the both sides of base 331, i.e. drag-line 334), use To lock position of the fixture 333 on base 331, ensure cable when carrying out crooked test, fixture 333 is with respect to base 331 not Rotate, i.e. cable limits the circumferential free degree of fixture 333 when carrying out crooked test, that is, annulus 332 of not forgiving is rotated, carried Reliability during high cable bend test.Wherein, during the operation principle of drag-line 334, one end end and the fixture 333 of drag-line 334 On location hole 333a be nested, the other end of drag-line 334 is the pull head with spring function, when needing rolling clamp 333 Angle when, pull pull head so that with one of location hole 333a be nested end retraction drag-line 334 in, that is, release Locking of the drag-line 334 to fixture 333, after fixture 333 is rotated to required position, decontrols pull head, and pull head is in the effect of spring Under, the end of drag-line 334 is stretched out, again insertable into another location hole 333a, and then locks fixture 333.

It is further preferred that as shown in Fig. 2, Fig. 3 and Fig. 4, fixture 333 is set in inverted T-shaped, wherein, fixture 333 Including the bottom plate 333b with 332 nested encryptions of annulus, the baffle 333d being detachably connected by connector 333c and bottom plate 333b, And the clamping part 333e being detachably connected with baffle 333d, by varying connector 333c on bottom plate 333b link position, Adjustable horizontal levels of the baffle 333d on bottom plate 333b, so that change the area that annulus 332 is blocked by baffle 333d, into And realize the crooked test of different thicknesses cable.

It is further preferred that as shown in Fig. 2, Fig. 3 and Fig. 4, some groups of connecting hole 333f are provided with baffle 333d, and Set in the form of array, wherein, clamping part 333e is connected in connecting hole 333f, by varying clamping part 333e in baffle Link position on 333d is, it can be achieved that any position on cable is fixed, you can carries out crooked test to any position on cable. It is further preferred that clamping part 333e is adjustable, i.e. relative distance between clamping part 333e and baffle 333d is adjustable, i.e. clamping part Grasping part between 333e and baffle 333d is adjustable, adapts to the thickness of different cable and damper ends, improves the flexible of bending mechanism 300 Property and generality.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Described specific embodiment can be done various modifications or additions or using similar by belonging to those skilled in the art Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (9)

1. A kind of 1. cable bend detection device, it is characterised in that including：Babinet, built-in control system, wherein, on babinet at least A shaft is provided with, on the side wall of babinet；At least one bending mechanism, one end are connected with shaft, and the other end is to solid Surely cable is tested, and the bending mechanism of fixed cable one end can rotate in a circumferential direction, and be rotated by control system drive shaft, drive curved Bent mechanism rocks back and forth, and realizes the curved detection of cable；

   Bending mechanism includes one piece of riser being connected with shaft, and the bent plate being detachably connected with riser, and at least one set can Dismantling connection is in the crooked assembly on bent plate.
2. 2. a kind of cable bend detection device according to claim 1, it is characterised in that shaft and the quantity of bending mechanism It it is two, and shaft and the position distribution of bending mechanism correspond.
3. 3. a kind of cable bend detection device according to claim 1, it is characterised in that using cunning between riser and bent plate With connection.
4. 4. a kind of cable bend detection device according to claim 1, it is characterised in that adopted between crooked assembly and bent plate Coordinated with sliding.
5. 5. a kind of cable bend detection device according to claim 1, it is characterised in that the quantity of crooked assembly is two It is a, it is removably connected to respectively on bent plate, and two crooked assemblies are arranged side by side.
6. 6. a kind of cable bend detection device according to claim 1, it is characterised in that crooked assembly includes can with bent plate The base of dismantling connection, and the rotation section being detachably connected with base, and the fixture with rotation section nested encryptions.
7. 7. a kind of cable bend detection device according to claim 6, it is characterised in that crooked assembly further includes at least one A drag-line, is removably connected to the back side of base, to lock position of the fixture on base.
8. 8. a kind of cable bend detection device according to claim 6, it is characterised in that fixture includes connect nested with annulus The bottom plate connect, the baffle being detachably connected by connector and bottom plate, and the clamping part being detachably connected with baffle.
9. 9. a kind of cable bend detection device according to claim 8, it is characterised in that some groups of companies are provided with baffle Hole is connect, and is set in the form of array, wherein, clamping part is connected in connecting hole.