CN109208913B - Wrapping type iron wire binding tool for sleeving soft pipe and hard pipe and binding method - Google Patents

Abstract

The invention relates to a wrapping type iron wire binding tool for sleeving soft and hard pipes and a binding method, wherein one end of a tool body is provided with an iron wire top pressure groove, the other end of the tool body is provided with a winding shaft, a cutting seam is formed on the winding shaft and is connected with a ratchet wheel, the top pressure groove on the tool body compresses an iron wire bending part, a free end is clamped into the cutting seam of the winding shaft, the iron wire wound on a hose is tightened by rotating the free end of the iron wire tightened by the winding shaft, and a telescopic rod of a positioning device on the side wall of the tool body is matched with the ratchet wheel to realize unidirectional fixation of the winding shaft and prevent the winding shaft from loosening when the iron wire is tightened; this device can be with the tensioning force conversion to iron wire free end most to the winding radial tension of iron wire on the hose, and the tensioning force of free end is very high with the conversion efficiency between the radial tension of winding iron wire on the hose, and tightens up the effect very high, labour saving and time saving.

Description

Wrapping type iron wire binding tool for sleeving soft pipe and hard pipe and binding method

Technical Field

The invention relates to the technical field of iron wire binding, in particular to a wrapping type iron wire binding tool for sleeving a soft pipe and a hard pipe and a binding method.

Background

In daily life, a hose is often bound to a hard pipe such as a steel pipe and a plastic pipe by using an iron wire to achieve the effects of fastening and connection, usually, a wrapped iron wire is wound on the hose and is tightened by using a pair of pliers to bind two extending free ends, but most of force is applied to the two free ends of the iron wire in the tightening mode, the radial tightening tension applied to the iron wire wound on the hose is small, the hose and the hard pipe are difficult to tighten, the two free ends of the iron wire need to be forcibly pulled to tighten the iron wire wound on the hose, the iron wire wound on the hose is subjected to larger radial tension to enable the contact surfaces of the iron wire and the hose to be tightly attached, the two free ends of the iron wire are subjected to larger tightening force, and the iron wire is easily broken if the iron wire is continuously tightened after being pulled; the binding mode needs to continuously drag and tighten the free end of the iron wire, the strength is not easy to master, the iron wire is easy to twist off when too much force is exerted, and the iron wire cannot be twisted when too little force is exerted, so that the conversion efficiency between the forces of the binding mode is low, much useless work is done, and time and labor are wasted.

Disclosure of Invention

In order to solve the problems, the invention provides a wrapping type for sleeving a soft pipe and a hard pipe

An iron wire binding tool and a binding method.

The technical scheme of the invention is as follows: a wrapping-type iron wire binding tool for sleeving soft and hard tubes comprises a tool body, a tension device and a fixing device, wherein the tension device and the fixing device are mounted on the tool body

A bit device, characterized in that: the tool body is a cuboid shell with openings at two ends, and a long partition plate is arranged in the tool body along the length direction to divide the interior of the tool body into two iron wire channels with matched sizes; an oblique notch is formed in an opening at one end of the tool body, the long partition plate extends out of the notch, a circular arc-shaped iron wire jacking groove is formed in the lower end of the extending portion of the long partition plate, two side walls of the opening at the other end of the tool body extend upwards to form a left supporting plate and a right supporting plate, corresponding shaft holes are formed in the left supporting plate and the right supporting plate, and an iron wire winding accommodating groove is formed between the left supporting plate and the right supporting plate; the outer surface of one side wall of the tool body is also provided with a boss A and a boss B which are vertical to the side wall, and the boss A and the boss B are provided with corresponding positioning device mounting holes;

the tensioning device comprises a rotating shaft and a ratchet wheel fixedly connected to the rotating shaft, the rotating shaft comprises a transverse winding shaft and a rotating handle, one end of the rotating handle is perpendicular to one end of the winding shaft, the size of the winding shaft is matched with that of the shaft holes and can penetrate through the two shaft holes, a cutting seam is formed from the middle part of the free end surface of the winding shaft inwards along the central plane and divides the winding shaft into two halves, the length of the cutting seam covers the width of the iron wire winding accommodating groove, and the ratchet wheel is fixedly connected to one end, close to the rotating handle, of the winding shaft;

the positioning device comprises a telescopic rod and a spring sleeved on the telescopic rod, the telescopic rod is installed in a positioning device installation hole of the boss A and the boss B, the axis of the telescopic rod is perpendicular to the central line of the ratchet wheel, one end, close to the ratchet wheel, of the telescopic rod is provided with a positioning chuck used for being clamped into a ratchet wheel tooth socket, a radial through hole is further formed in the telescopic rod, the through hole is located between the boss A and the boss B, a fixing support is installed in the through hole, and the telescopic rod between the fixing support and the boss B is sleeved with the spring.

Preferably, the fixing support comprises a transverse bolt inserted into the through hole and support legs connected to two ends of the bolt and arranged in a splayed manner, and the end parts of the two support legs are supported on the outer side wall of the tool body and can slide along the surface of the outer side wall.

Preferably, the size of the ratchet tooth groove on the ratchet wheel is matched with the size of the positioning chuck on the telescopic rod.

A method for performing soft and hard pipe sleeving and binding by using a wrapping type iron wire binding tool for soft and hard pipe sleeving comprises the following specific steps:

suit

Sleeving a hose to be connected with the hard tube on the hard tube, and folding a section of iron wire in half to form a U shape;

winding wire

The U-shaped end of the iron wire is tightly attached to the hose, the two free ends of the iron wire are wound around the pipe wall for at least one circle at the same time, and when each circle of iron wire is wound, the two free ends of the iron wire penetrate through the U-shaped end of the iron wire; mounting of binding tool

After the iron wire is wound, the lengths of two free ends of the iron wire are left with certain allowance, the two free ends of the iron wire respectively penetrate through two iron wire channels from one end of the binding tool where the iron wire top pressing groove is located, and simultaneously penetrate through a cutting seam on the winding shaft, and then the iron wire top pressing groove is clamped at the U-shaped end of the iron wire; fourthly, tightening iron wires by using binding tools

The handle is rotated in the opposite direction of the ratchet wheel teeth, so that the winding shaft is gradually wound at two free ends of the iron wire, the U-shaped end of the iron wire is clamped in the iron wire jacking groove of the binding tool, the iron wire wound on the hose is gradually tensioned while the winding shaft is wound at the free end of the iron wire, the whole iron wire is tightened on the hose, and the hose is tightened on the surface of the hard pipe; fifthly, bending the iron wire

After the hose sleeved on the hard tube is tightened, the binding tool rotates around the end of the iron wire jacking groove, so that two free ends of the iron wire are backed on the U-shaped end of the iron wire and are tightly pressed on the U-shaped end to form a bending part,

sixthly, the binding tool is taken down

The rotary handle is held and pulled transversely, the winding shaft is pulled out from the shaft hole, the iron wire wound around the winding shaft is gradually pulled out from the cutting seam, then the tool body sleeved on the iron wire is pulled out, and the binding tool is completely cancelled;

seventhly, cutting off the excessive iron wire and fastening the bent part

And then, cutting off the redundant part of the free end of the iron wire by using pliers, beating the residual iron wire head by using the pliers to fasten the iron wire head at the U-shaped end of the iron wire, and tightening and fixing the iron wire wound on the hose to finish the binding operation.

The beneficial technical effects of the invention are as follows:

one end of a tool body is provided with an iron wire jacking groove, the other end of the tool body is provided with a winding shaft, a cutting slot is formed in the winding shaft and is connected with a ratchet wheel, the iron wire bending part is tightly pressed by the jacking groove in the tool body, the free end of the iron wire is clamped into the cutting slot of the winding shaft, the iron wire wound on a hose is tightened by rotating the free end of the iron wire tightened by the winding shaft, a telescopic rod of a positioning device on the side wall of the tool body is matched with the ratchet wheel to realize unidirectional fixation of the winding shaft, and the winding shaft is prevented from loosening when the iron wire is stopped being tightened; this application only needs the free end of rotatory winding axle can taut iron wire to realize tightening up the iron wire of winding on the hose, the free end of iron wire need not revolve wrong, avoided turning round the power of iron wire to convert the problem of tightening up iron wire radial tension inefficiency, also avoided the iron wire to twist off the phenomenon, this device can convert the radial tension of iron wire on the hose in pairs to the most tensioning power conversion of iron wire free end, the tensioning power of iron wire free end and the hose on the conversion efficiency between the radial tension that the iron wire received is very high, and tighten up the effect very high, time saving and labor saving.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic elevation view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic left side view of the present invention;

FIG. 5 is an enlarged partial schematic view of FIG. 2;

FIG. 6 is a schematic structural view of a tool body according to the present invention;

FIG. 7 is a first schematic view of the iron wire winding structure of the present invention;

FIG. 8 is a schematic view showing a second structure of the present invention when iron wires are wound;

FIG. 9 is a schematic view of a wire bending and fastening structure according to the present invention;

in the drawing, 1, a tool body, 2, a long partition plate, 3, an iron wire channel, 4, a notch, 5, an iron wire jacking groove, 6, an iron wire winding accommodating groove, 601, a left supporting plate, 602, a right supporting plate, 7, a ratchet wheel, 701, a ratchet wheel tooth groove, 8, a winding shaft, 9, a rotating handle, 10, a cutting groove, 11, a telescopic rod, 12, a spring, 13, a positioning clamp, 14, a fixing support, 15, a bolt, 16, a supporting leg, 17, a shaft hole, 18, a positioning device mounting hole, 20, a boss A, 201, a boss B, 23, a hose, 24, a hard pipe, 25, a wrapped iron wire, 2501, an iron wire U-shaped end, 2502, an iron wire free end and 2503 are iron wire bending parts.

Detailed Description

First embodiment, referring to fig. 1-9, a wrapping type wire binding tool for sleeving soft and hard tubes, which comprises a tool body, and a tension device and a positioning device which are arranged on the tool body, and is characterized in that: the tool body is a cuboid shell with openings at two ends, a long partition plate is arranged in the tool body along the length direction to divide the interior of the tool body into two iron wire channels with matched sizes, and the free ends of the iron wires are clamped into the cutting seams from the channels; an oblique notch is formed in an opening at one end of the tool body, the long partition plate extends out of the notch, a circular arc-shaped iron wire jacking groove is formed in the lower end of the extending portion, the fixed end of an iron wire can be tightly jacked by the fixed pressure groove, two side walls of the opening at the other end of the tool body extend upwards to form a left supporting plate and a right supporting plate, corresponding shaft holes are formed in the left supporting plate and the right supporting plate, and an iron wire winding accommodating groove is formed between the left supporting plate and the right supporting plate; the outer surface of one side wall of the tool body is also provided with a boss A and a boss B which are vertical to the side wall, and the boss A and the boss B are provided with corresponding positioning device mounting holes;

the tensioning device comprises a rotating shaft and a ratchet wheel fixedly connected to the rotating shaft, the rotating shaft comprises a transverse winding shaft and a rotating handle, one end of the rotating handle is perpendicular to one end of the winding shaft, the size of the winding shaft is matched with that of the shaft holes and can penetrate through the two shaft holes, a cutting seam is formed from the middle part of the free end surface of the winding shaft inwards along the central plane and divides the winding shaft into two halves, the length of the cutting seam covers the width of the iron wire winding accommodating groove, the ratchet wheel is fixedly connected to one end, close to the rotating handle, of the winding shaft, the rotating handle can enable the winding shaft to rotate in the shaft holes, the free end of an iron wire is clamped in the cutting seam of the winding shaft, and the iron wire is tightened by rotating the winding shaft;

positioner include telescopic link and the spring of cover on the telescopic link, the telescopic link is installed in the positioner mounting hole of above-mentioned boss first and boss second, the axis of this telescopic link with the central line of ratchet intersects perpendicularly, and the one end that the telescopic link is close to the ratchet is equipped with the location dop that is used for the card to go into the ratchet tooth's socket, thereby guarantee that the location dop on the telescopic link can be accurate card to the ratchet tooth's socket in, still be equipped with radial through-hole on the telescopic link, this through-hole is located between boss first and the boss second, installs the fixed bolster in the through-hole, the fixed bolster must be located between boss first and the boss second, the cover has above-mentioned spring on the telescopic link between fixed bolster and the boss second to with fixed interval reciprocating motion.

The fixed bolster include horizontal bolt of inserting in the through-hole and connect the landing leg that is the splayed overall arrangement at bolt both ends, two landing leg tip support can follow the lateral wall surface slip on the lateral wall of the tool body, this landing leg can prevent that the telescopic link from taking place to rotate and avoiding the positioning chuck card not advance in the ratchet tooth's socket.

The size of the ratchet tooth groove on the ratchet wheel is matched with the size of the positioning chuck on the telescopic rod, and the size of the ratchet tooth groove and the size of the positioning chuck correspond to ensure that the positioning chuck can be clamped into the ratchet tooth groove, so that looseness is avoided.

Example two: referring to the attached drawings 1-9, a method for sleeving and binding a soft and hard tube by using the wrapping type iron wire binding tool for sleeving and binding the soft and hard tube comprises the following specific steps:

suit

Sleeving a hose to be connected with the hard tube on the hard tube, and folding a section of iron wire in half to form a U shape;

winding wire

The U-shaped end of the iron wire is tightly attached to the hose, the two free ends of the iron wire are wound around the pipe wall for at least one circle at the same time, and when each circle of iron wire is wound, the two free ends of the iron wire penetrate through the U-shaped end of the iron wire; mounting of binding tool

After the iron wire is wound, the lengths of two free ends of the iron wire are left with certain allowance, the two free ends of the iron wire respectively penetrate through two iron wire channels from one end of the binding tool where the iron wire top pressing groove is located, and simultaneously penetrate through a cutting seam on the winding shaft, and then the iron wire top pressing groove is clamped at the U-shaped end of the iron wire; fourthly, tightening iron wires by using binding tools

The handle is rotated in the opposite direction of the ratchet wheel teeth, so that the winding shaft is gradually wound at two free ends of the iron wire, the U-shaped end of the iron wire is clamped in the iron wire jacking groove of the binding tool, the iron wire wound on the hose is gradually tensioned while the winding shaft is wound at the free end of the iron wire, the whole iron wire is tightened on the hose, and the hose is tightened on the surface of the hard pipe; fifthly, bending the iron wire

After the hose sleeved on the hard tube is tightened, the binding tool rotates around the end of the iron wire jacking groove, so that two free ends of the iron wire are backed on the U-shaped end of the iron wire and are tightly pressed on the U-shaped end to form a bending part,

sixthly, the binding tool is taken down

The rotary handle is held and pulled transversely, the winding shaft is pulled out from the shaft hole, the iron wire wound around the winding shaft is gradually pulled out from the cutting seam, then the tool body sleeved on the iron wire is pulled out, and the binding tool is completely cancelled;

seventhly, cutting off the excessive iron wire and fastening the bent part

And then, cutting off the redundant part of the free end of the iron wire by using pliers, beating the residual iron wire head by using the pliers to fasten the iron wire head at the U-shaped end of the iron wire, and tightening and fixing the iron wire wound on the hose to finish the binding operation.

Claims (3)

1. A wrapping type iron wire binding tool for sleeving soft and hard pipes comprises a tool body

And install straining device and positioner on the tool body, its characterized in that: the tool body is a cuboid shell with openings at two ends, and a long partition plate is arranged in the tool body along the length direction to divide the interior of the tool body into two iron wire channels with matched sizes; an oblique notch is formed in an opening at one end of the tool body, the long partition plate extends out of the notch, a circular arc-shaped iron wire jacking groove is formed in the lower end of the extending portion of the long partition plate, two side walls of the opening at the other end of the tool body extend upwards to form a left supporting plate and a right supporting plate, corresponding shaft holes are formed in the left supporting plate and the right supporting plate, and an iron wire winding accommodating groove is formed between the left supporting plate and the right supporting plate; the outer surface of one side wall of the tool body is also provided with a boss A and a boss B which are vertical to the side wall, and the boss A and the boss B are provided with corresponding positioning device mounting holes;

the tensioning device comprises a rotating shaft and a ratchet wheel fixedly connected to the rotating shaft, the rotating shaft comprises a transverse winding shaft and a rotating handle, one end of the rotating handle is perpendicular to one end of the winding shaft, the size of the winding shaft is matched with that of the shaft holes and can penetrate through the two shaft holes, a cutting seam is formed from the middle part of the free end surface of the winding shaft inwards along the central plane and divides the winding shaft into two halves, the length of the cutting seam covers the width of the iron wire winding accommodating groove, and the ratchet wheel is fixedly connected to one end, close to the rotating handle, of the winding shaft;

the positioning device comprises a telescopic rod and a spring sleeved on the telescopic rod, the telescopic rod is arranged in positioning device mounting holes of the boss A and the boss B, the axis of the telescopic rod is vertically intersected with the central line of the ratchet wheel, one end of the telescopic rod, which is close to the ratchet wheel, is provided with a positioning chuck for clamping into a tooth socket of the ratchet wheel, the telescopic rod is also provided with a radial through hole, the through hole is positioned between the boss A and the boss B, a fixing support is arranged in the through hole, and the spring is sleeved on the telescopic rod between the fixing support and the boss B; the fixed bolster include horizontal bolt and the landing leg of connecting at the bolt both ends and being eight characters overall arrangement of inserting in the through-hole, two landing leg tip support on the lateral wall of the tool body and can follow the lateral wall surface and slide.

2. The wrapping type iron wire binding tool for hose sleeving of the soft and hard pipe as claimed in claim 1, wherein: the size of the ratchet tooth groove on the ratchet wheel is matched with the size of the positioning chuck on the telescopic rod.

3. A method for sleeving and binding a soft pipe and a hard pipe by using the wrapped iron wire binding tool for sleeving and binding the soft pipe and the hard pipe according to any one of claims 1 to 2 comprises the following specific steps:

suit

Sleeving a hose to be connected with the hard tube on the hard tube, and folding a section of iron wire in half to form a U shape;

winding wire

The U-shaped end of the iron wire is tightly attached to the hose, the two free ends of the iron wire are wound around the pipe wall for at least one circle at the same time, and when each circle of iron wire is wound, the two free ends of the iron wire penetrate through the U-shaped end of the iron wire; mounting of binding tool

After the iron wire is wound, the lengths of two free ends of the iron wire are left with certain allowance, the two free ends of the iron wire respectively penetrate through two iron wire channels from one end of the binding tool where the iron wire top pressing groove is located, and simultaneously penetrate through a cutting seam on the winding shaft, and then the iron wire top pressing groove is clamped at the U-shaped end of the iron wire; fourthly, tightening iron wires by using binding tools

The handle is rotated in the opposite direction of the ratchet wheel teeth, so that the winding shaft is gradually wound at two free ends of the iron wire, the U-shaped end of the iron wire is clamped in the iron wire jacking groove of the binding tool, the iron wire wound on the hose is gradually tensioned while the winding shaft is wound at the free end of the iron wire, the whole iron wire is tightened on the hose, and the hose is tightened on the surface of the hard pipe; fifthly, bending the iron wire

After the hose sleeved on the hard tube is tightened, the binding tool rotates around the end of the iron wire jacking groove, so that two free ends of the iron wire are backed on the U-shaped end of the iron wire and are tightly pressed on the U-shaped end to form a bending part,

sixthly, the binding tool is taken down

The rotary handle is held and pulled transversely, the winding shaft is pulled out from the shaft hole, the iron wire wound around the winding shaft is gradually pulled out from the cutting seam, then the tool body sleeved on the iron wire is pulled out, and the binding tool is completely cancelled;

seventhly, cutting off the excessive iron wire and fastening the bent part

And then, cutting off the redundant part of the free end of the iron wire by using pliers, beating the residual iron wire head by using the pliers to fasten the iron wire head at the U-shaped end of the iron wire, and tightening and fixing the iron wire wound on the hose to finish the binding operation.

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