CN102991858B - Cable tie assembly, method for manufacturing cable tie of cable tie assembly, and cable tie manufactured by the method - Google Patents

Abstract

The invention relates to a cable tie assembly, a method for manufacturing a cable tie of the cable tie assembly, and a cable tie manufactured by the method. More specifically, the invention relates to a cable tie assembly which can be manufactured at a low cost on a large scale and be supplied in many colors according to the demand of customers, a method for manufacturing a cable tie of the cable tie assembly, and a cable tie manufactured by the method cable tie, wherein compared with conventional cable ties, the cable tie has greater tensile force and greater binding force so as to be used safely and is coated with a nylon coating layer on the surface, the thickness of the coating layer can be randomly adjusted, and the coating layer that is coated by using the nylon coating layer is not stripped off and is almost integrated with the surface of the cable tie, so that the cable tie can be safely combined.

Description

The cable binding manufacture method of cable binding assembly and the cable binding of manufacturing with its method

Technical field

The cable binding that the present invention relates to the cable binding manufacture method of cable binding assembly and cable binding assembly and manufacture with its method, more particularly, the present invention relates to than existing increase tension force, increase binding force and can use safely, and cable binding surface-coated nylon coating layer and can adjust arbitrarily on demand the thickness of coating layer, and can not peel off almost integral and can be combined safely cable binding with cable binding surface with the coating layer of nylon coating layer coating, and produce in a large number and can cheaply manufacture, and according to client's the cable binding assembly and the cable binding manufacture method of cable binding assembly and the cable binding of manufacturing with its method that require available multicolour to provide.

Background technology

As Fig. 1 a, shown in 1b and 1c, the object of growing as a plurality of as lines of cable binding assembly binding is also held together object.

This cable binding assembly A ' comprises rectangular cable binding 1, and is fixed on described cable binding 1 the 1st end 1a and holds the joint 2 of cable binding 1 the 2nd end 1b, and the lock ball 3 of the interior reservation cable of described joint 2 binding.For can make to form described cable binding assembly A ' lock ball 3, connect large 2 and cable binding 1 in range of temperatures widely, use and there is high strength and corrosion stability, all form with stainless net.So, this cable binding assembly A ' does the used time because pin ball 3 can slide in pinning, the problem that the seizing force while use for a long time between lock ball 3 and cable binding 1 weakens.

In order to solve described problem, korean registered patent was once disclosed in for No. 10-526878 and on the 1st end 1a of cable binding 1, ran through the cable binding of circular aperture 1c to prevent from sliding between lock ball 3 and cable binding 1.

So, form aperture 1c in described patent, although be slightly improved pinning force, the tension force that this kind done used time generation in pinning only improves hoot, needs the very place of hightension to use, so need to have the cable binding assembly compared with hightension.

And, with the cable binding of corrosion-resistant steel or zincing steel sheet manufacture, in order to protect the cable surface with cable binding combination, use the cable binding of its surface with the synthetic resin coating as PVC.

But, so form the cable binding of PVC coating layer, because described PVC coating layer and cable binding surface almost do not have binding force, while applying sliding force a little, can peel off PVC coating layer, can not expect the effect of coating, so there is unsve problem in the ball-type cable binding playing an important role at friction force between cable binding and lock ball.

In order to solve described problem, use and coat powder on cable binding surface, this this heat fused of powder is attached to the lip-deep powder melts layer of cable binding coating process, although this coating process improves the coating strength of the powder melts layer that is coated on cable binding surface, the phenomenon of peeling off from cable binding but powder melts split layer produces crack fragmentation, be to make the unappeasable coating level of people, have more the problem that is difficult to adjust thickness.

There is one to be immersed in synthetic resin liquid, form epithelium on cable binding surface, the electrodeposition process that described in drying, epithelium is coated with on cable binding surface, but the maximum ga(u)ge of this electrodeposition process coating is 0.02mm, almost there is no the thickness of epithelium, in conjunction with time not only damage the surface of cable, also to cut off by the length of each cable binding, dry process after being immersed in synthetic resin liquid, its manufacturing process is not only complicated, also has the problem that product price is high.

In order to solve described problem, once disclosed nylon coating layer was coated on as the method on stainless metallic cable binding surface, in order to stick nylon when the surface sizing of corrosion-resistant steel cable binding, nylon coating layer can cut off and cannot form continuous nylon coating layer, and the method that this nylon coating layer is coated on cable binding exists unsve problem.

Summary of the invention

The technical problem to be addressed by invention

In order to solve described problem, the object of this invention is to provide between cable binding and joint and bear larger tension force, can use at the more cable binding assembly in the place of hightension of needs.

When another object of the present invention is to provide in conjunction with cable binding assembly, easily installing cables binding and the cable binding assembly that can increase work efficiency.

When another object of the present invention is to provide in conjunction with cable binding assembly, the cable binding assembly that the cable binding that combination is installed is difficult to untie.

Another object of the present invention is to provide is that cable binding surface forms nylon coating layer, still there is good tackness with the surface of cable binding, and then the durability of cable binding is good, generally can not produce peeling off of nylon coating layer, the thickness of nylon coating layer also can be adjusted arbitrarily and is easy to use, with the mode of continuous working can produce in a large number and productivity good, the cheap and cable binding that forms the cable binding manufacture method of the nylon coating layer with good price competitiveness and manufacture with its method of the coating expense of nylon coating layer.

Solve the technical scheme of problem

To comprising rectangular cable binding, be fixed on described cable binding the 1st end and hold the joint of cable binding the 2nd end, and in described joint, pinning the cable binding assembly of the lock ball of cable binding; Described object of the present invention is to form rhombus aperture by the 1st end of described cable binding, forms ball accommodation hole and provide compared with the cable binding assembly according to the present invention of hightension to complete on the bottom surface of described joint.

Described object of the present invention is by comprising: launch to be rolled into the cable binding of coiled state and step that continuous cable binding band is provided; The cable binding band surface-coated launching sticks the step of nylon adhesive; The step of sticking nylon adhesive layer of dry described cable binding band surface-coated; In the dry step according to required thickness coating nylon in adhesive layer for nylon of sticking; The step of the nylon coating layer being coated with on cooling described cable binding band surface; The cable binding manufacture method according to the present invention of drawing or coiling the step of the cable binding band of the dry nylon coating layer of formation like this completes.

Beneficial effect

According to the cable binding manufacture method of cable binding assembly of the present invention and cable binding assembly and have with the cable binding of its method manufacture: form ball accommodation hole on the bottom surface of joint, make cable binding and joint bear larger tension force and can use in the more place of hightension of needs; On the cable binding surface of cable binding assembly, be coated with nylon coating layer and can adjust arbitrarily on demand the thickness of coating layer; The coating layer being coated with by nylon coating layer is not peeled off and is almost integral and can be combined safely cable binding with cable binding surface; Launch the cable binding band of rolling up dish for steel pitch of the laps and manufacture serially, and forming the also coiling keeping serially of cable binding of nylon coating layer, can produce in a large number cable binding, can cheaply manufacture; The good result of multicolour can be provided according to client's demand.

Brief description of the drawings

Fig. 1 a, 1b, 1c is the use dress state oblique drawing of existing cable binding assembly, the 1st end oblique drawing of cable binding, in conjunction with time skiagraph;

Fig. 2 is the blank area oblique drawing of the cable binding assembly of the 1st embodiment according to the present invention;

Fig. 3 is the exploded perspective view of the ball-type cable binding assembly of the 1st embodiment according to the present invention;

Fig. 4 a is the planar view of cable binding;

Fig. 4 b is the ground plan of joint;

Fig. 4 c is the state lateral plan that the 2nd end of cable binding is inserted in joint;

Fig. 5 is the skiagraph of reaching the cable binding assembly bound fraction of bonding state;

Fig. 6 is according to the manufacturing approach craft figure that forms nylon coating layer on cable binding of the present invention surface;

Detailed description of the invention

As shown in Figure 2 to Figure 3, comprise rectangular cable binding 1 according to the cable binding assembly A of the 1st embodiment of the present invention, hold the joint 2 of cable binding 1 the 2nd end 1b with being fixed on described cable binding 1 the 1st end 1a, and the lock ball 3 of the interior pinning cable of described joint 2 binding 1.

The upper lock ball placement portion 11 that forms rhombus of described cable binding 1 the 1st end 1a of described cable binding assembly A.11 rears, described lock ball placement portion form the protruding upward salient 12 for cable binding of raising, in conjunction with time promote be placed in top cable binding 1 the 2nd end 1b to prevent untiing of cable binding 1.

The lock ball placement portion 11 of described rhombus, in the time that lock ball 3 is placed in cable binding 1 the 2nd 1b top, end and plays pinning effect, described lock ball 3 applies strength downwards, towards the tortuous cable binding 1 of pin ball placement portion 11 directions the 2nd end 1b of described cable binding 1 the 2nd end 1b below, this zigzag part, with the rhombus form complications around of lock ball placement portion 11, plays the function that prevents that lock ball 3 from departing from.Described lock ball placement portion 11 is that the state that connects solution at four local points with lock ball 3 is supported lock ball 3, so can make the strength applying concentrate downwards.Described lock ball placement portion 11 forms rhombus in the present embodiment, but is not limited to this, can be cut into ' ten ' font and can form rhombus, or also can form the form as being cut into other forms.

The Shang Yi front, bottom surface of described joint 2 is that benchmark sequentially forms ball accommodation hole 21 and hole 22 is blocked in binding.

Described ball accommodation hole 21, does in pinning the bottom surface that the used time settles lock ball 3 in the front of described joint 2, that is, be placed in cable binding 1 pin ball placement portion 11 under, with described lock ball placement portion 11 contracts, more guarantee to carry out the pinning effect of lock ball 3.

Described ball accommodation hole 21 forms with hexagon in the present embodiment, but is not limited to this, also can be formed as other forms of rhombus, octagon, circle etc.

The rear of ball accommodation hole 21 is blocked hole 22 and is arranged in described binding, is placed at it stay hook 1d that cable binding 1 the 1st 1a bottom, end forms, and cable binding 1 is fixed on joint 2.

The tortuous salient 24 for guiding that described joint 2 fronts form, in the time of the combination work of cable binding assembly A, makes the 2nd end 1b of cable binding 1 easily insert the front patchhole 25 of joint 2, and tortuous protrusion is formed on the front of joint 2.

So in the present embodiment, because the rear of joint 2 is blocked hole 22 and is arranged in the binding of described joint 2, guarantee the fixing of cable binding 1 and joint 2, so that cable binding 1 is not easy and firmer combination with separating of joint 2.

Have formation like this according to the operation of cable binding assembly A of the present invention, be described in detail as follows.

First, the 1st end 1a of cable binding 1 will insert while being fixed on joint 2, and the stay hook 1d of cable binding 1 inserts the binding of joint 2 and blocks hole 22, finishes the steady job of cable binding 1 and joint 2, use so ball-type cable binding assembly A of combination, in conjunction with the electric wire W that needs binding.

For bundled cable W, when the 2nd end 1b of cable binding 1 is inserted to the front patchhole 25 of joint 2, as shown in Fig. 4 c, protrude and formed the tortuous salient 24 of guiding near front patchhole 25 places of described joint 2, worker is easily found, the 2nd end 1b of cable binding 1 easily can be inserted in the front patchhole 25 of joint 2.

So, the 2nd end 1b of cable binding 1 inserts in the front patchhole 25 of joint 2, lock ball 3 just becomes bonding state above being placed in the 2nd end 1b, so bonding state describes according to shown in Fig. 5, in pin ball 3 in the time there is combination, the 2nd end 1b of cable binding 1 departs from according to arrow a direction and applies strength from joint 2, the pin ball 3 being so placed on the 2nd end 1b of cable binding 1 also bears the strength moving according to arrow a direction, and pin ball 3 is along moving and the 2nd end 1b of the cable binding 1 of exerting pressure downwards to the joint 2 reclinate inclination covering parts 23 in front.

When so the 2nd end 1b of cable binding 1 bears the strength that pin ball 3 exerts pressure downwards, apply strength and the 2nd end 1b of cable binding 1 can be bending towards pin ball placement portion 11 directions of the 1st end 1a under being placed in, simultaneously towards the below that is placed in the 1st 1aXiao Qiu placement portion, end 11, communicate with described pin ball placement portion 11 and form and the direction of the ball accommodation hole 21 of the described joint 2 of hollow state, the heavy burden moving down is applied on ball accommodation hole 21, effect to the bending strength of the ball accommodation hole 21 of described hollow state makes the 2nd end 1b of cable binding 1 be bent downwardly distortion, so can increase and the tension force of ball-type cable binding assembly also can increase just like the tension force as deformation extent.

Measure the result of the cable binding assembly tension force so increasing, compared to the cable binding assembly of same specification, confirm that its tension force has increased approximately more than 10%.

In addition, the cut-out free end of diastrophic cable binding 1 the 2nd end 1b like this is settled, the raise cable binding salient 12 protruding upward by the rear of described pin ball placement portion 11 promotes cable binding 1 the 2nd end 1b, thereby prevents the combination of manipulated untwisted cable binding 1.

So form nylon coating layer according to the cable binding surface of cable binding assembly A of the present invention., as shown in Figure 6, the manufacture method that forms the cable binding of this nylon coating layer comprises: launch to be rolled into the cable binding of coiled state and step that continuous cable binding band is provided; The cable binding band surface-coated launching sticks the step of nylon adhesive; The step of sticking nylon adhesive layer of dry described cable binding band surface-coated; In the dry step according to required thickness coating nylon in adhesive layer for nylon of sticking; The step of the nylon coating layer being coated with on cooling described cable binding band surface; Draw or coil the step of the cable binding band of the dry nylon coating layer of formation like this.

Described cable binding is coiled into the form of volume at coiling reel, be launched into the handover of band form in order to be coated with nylon, is called ' cable binding band ' because this reason is launched into the cable binding of form.

This cable binding band adheres to machine coating at adhesive and sticks nylon adhesive.

The described nylon adhesive that sticks comprises epoxide modified phenol resin 14 ~ 17 % by weight, silane coupled resin 0.5 ~ 1.0 % by weight, toluene 27 ~ 33 % by weight, methyl ethyl ketone 27 ~ 33 % by weight, ethyl cellosolve 17 ~ 23 % by weight.

When the content of described epoxide modified phenol resin is less than 14 % by weight, film amount after coating is few, may there is the situation that adhesion reduces, while being greater than 17 % by weight, the film amount after coating is thick, after oven dried or high frequency seasoning, foam may occur, in the subsequent technique that forms nylon coating layer, may there is bad situation, when film amount is thick, the dry sclerosis of the universe is relatively slack-off and adhesion reduces on the contrary, so the content of epoxide modified phenol resin is set in 14 ~ 17 % by weight.

When the content of described silane coupled resin is less than 0.5 % by weight, adhesion reduces and situation about may peel off can form nylon coating layer time, and while being greater than 1.0 % by weight, adhesion no longer increases, so the content of silane coupled resin is set in 0.5 ~ 1.0 % by weight.

Described toluene is solvent, and when content is less than 27 % by weight, solvency reduces, and while being greater than 33 % by weight, solvency no longer increases, and solvency reduces and the situation of liquid phase muddiness (HAZE) may occur on the contrary, so the content of toluene is limited in 27 ~ 33 % by weight.

Described methyl ethyl ketone is the good solvent of solvency, when content is less than 27 % by weight, solvency reduces, solvency is not enough and the phenomenon of muddiness (HAZE) may occur, while being greater than 33 % by weight, uncorrelated, but consider the ratio of mixing, the content of described methyl ethyl ketone is limited in 27 ~ 33 % by weight.

Described ethyl cellosolve is the subsidy solvent of round and smooth Detroit automation, and when content is less than 17 % by weight, solvency reduces, and while being greater than 23 % by weight, no longer increases solvency, therefore content is limited in 17 ~ 23 % by weight.

The described nylon adhesive that sticks is cream-yellow liquid phase liquid, and having boiling point is 86.3 DEG C, and freezing point is-90 DEG C, and vapour pressure is 110mmHg (at 26 DEG C), and proportion is 0.85, to water-insoluble, is dissolved in as character such as the organic solvents of alcohol, ether etc.

This nylon adhesive that sticks is coated on behind cable binding band surface, sticks nylon adhesive by drying heater is drying coated on surface.Described being dried is dry at the temperature of selecting in approximately 150 ~ 450 DEG C of temperature.

This cable binding band by drying heater is the thickness coating nylon coating layer to set through nylon coating machine again.

The coating thickness of nylon is that the size of first adjusting the punch die aperture that cable binding band passes through decides.

; run through nozzle that cable binding band passes through, near described nozzle settle the nylon that dissolves nylon dissolve the discharge orifice of storage tank and near described nylon dissolve punch die that the discharge orifice of storage tank arranges and cable binding band through out-of-date; when the aperture height of punch die is high; the coating layer thickness of coating is thick; when the aperture height of punch die is low, just form the nylon coating layer of thin thickness.

So the nylon coating layer of coating can be coated with the thickness of 0.02mm ~ 1.0mm broad range, also can be coated with thickness more than 1.0mm, so can bundle cable by thick nylon coating layer zero damage.

In addition, the coating thickness of nylon is that secondly the speed according to extractor described later changes.When the speed of extractor outgoing cable binding band is fast, the thickness of nylon coating layer is just thin, and when the speed of extractor outgoing cable binding band is slow, the thickness of nylon coating layer is just thick.

Because forming the nylon of nylon coating layer is water white transparency, can go up required color according to the required color of client or specific object, institute is so that select color to use.

The cable binding band that so forms nylon coating layer soaks cooling water expansion tank mortise and comes cooling, the cable binding band of so drawing from bosh is dried moisture by the 1st extractor and is drawn, stably drawn by the 2nd extractor, then by completing product coiling reel around manufacturing the cable binding that forms nylon coating layer.

Inspection have formation like this according to the cable binding manufacture method of cable binding assembly of the present invention, be coiled into the cable binding of scroll state at coiling reel, the form that is launched into continuous band is transferred with the form of cable binding band, the cable binding band of so transferring adheres to machine coating at adhesive and sticks nylon adhesive, by drying heater drying coated surface stick nylon adhesive, described baking temperature is approximately 250 DEG C.

So be dried and stick nylon with after adhesive, thickness coating by nylon coating machine to set, the height in the punch die aperture that so the cable binding band of coating nylon passes through decides its coating thickness, in the present embodiment, respectively form up and down the nylon coating layer of 0.1mm, the cable binding band that so forms nylon coating layer soaks cooling water expansion tank mortise and comes cooling, the cable binding band of drawing after so cooling in bosh is dried moisture by the 1st extractor and is drawn, being coiled into multi-layer stable by the 2nd extractor draws, the cable binding of the coating nylon of so being drawn by the 2nd extractor is by completing product coiling reel around manufacturing the cable binding that forms nylon coating layer.

So form the cable binding of nylon coating layer, Yin Nilong water white transparency, can go up required color, so can go up multicolour so that use.

In addition, cable binding 1 formed according to the present invention is to form and stick nylon adhesive layer on the surface of cable binding band, described in stick nylon and have with being coated with nylon coating layer in adhesive layer the state of sclerosis.

So, the cable binding assembly A of nylon coating layer formed according to the present invention, nylon coating layer plays the elastic reaction of certain Cheng Ding, when cable binding assembly A plays pinning effect, the lock ball being arranged in joint contacts the nylon coating layer of also exerting pressure downwards with nylon coating layer, under the state so pinning, cable binding assembly A is because the cable binding band contacting with pin ball bears strength, the nylon coating layer contacting with pin ball is pushed and is formed nylon coating layer stop block according to the rear of lock ball holding capacity, on described nylon coating layer stop block, play elastic-restoring force, anchor ball is not pushed, thereby more completely carry out pinning effect.

Industrial applicibility

The cable binding of manufacturing according to the cable binding manufacture method of cable binding assembly of the present invention and cable binding assembly and with its method, in the manufacturing industry of general cable binding, can repeatedly manufacture identical product, can say and there is the invention that utilizes possibility in industry.

Claims (4)

1. one kind comprises cable binding, be fixed on described cable binding the 1st end and hold the joint of cable binding the 2nd end, the manufacture method of described cable binding of cable binding assembly of lock ball with pin cable binding in described joint, is characterized in that comprising:

Expansion is rolled into the cable binding of coiled state and the step of continuous cable binding band is provided;

On the cable binding band surface of launching, coating comprises epoxide modified phenol resin 14 ~ 17 % by weight, silane coupled resin 0.5 ~ 1.0 % by weight, toluene 27 ~ 33 % by weight, methyl ethyl ketone 27 ~ 33 % by weight, the step of sticking nylon adhesive of ethyl cellosolve 17 ~ 23 % by weight;

The step of sticking nylon adhesive layer being coated with on dry described cable binding band surface;

In the dry step according to required thickness coating nylon in adhesive layer for nylon of sticking;

The step of the nylon coating layer being coated with on cooling described cable binding band surface;

Draw or coil the step of the cable binding band of the dry nylon coating layer of formation like this.

2. the manufacture method of cable binding according to claim 1, sticks nylon adhesive and is dried and is sticked nylon adhesive by drying heater described in it is characterized in that, described dry temperature is 150 ~ 450 DEG C.

3. the manufacture method of cable binding according to claim 1, it is characterized in that described nylon coating layer is coated with by nylon coating machine, the thickness of described nylon coating layer is to be coated with on the thickness range of 0.02mm ~ 1.0mm, and the coating thickness of nylon is that the size of adjusting the punch die aperture that cable binding band passes through decides.

4. one kind forms the cable binding of nylon coating layer, the cable binding that it is characterized in that described formation nylon coating layer is to form and comprise epoxide modified phenol resin 14 ~ 17 % by weight on cable binding band surface, silane coupled resin 0.5 ~ 1.0 % by weight, toluene 27 ~ 33 % by weight, methyl ethyl ketone 27 ~ 33 % by weight, ethyl cellosolve 17 ~ 23 % by weight stick nylon adhesive layer, described in stick nylon and harden with being coated with nylon coating layer in adhesive layer.