CN218147225U - Open sock transfer induction device - Google Patents

Abstract

The application relates to an open sock transfer induction device, which comprises a correlation grating, an upper bracket and a lower bracket; the upper bracket is installed in hosiery machine seam head station department, and the lower carriage is installed in hosiery machine weaving opening socks station department, and first locating hole has all been seted up to the tip of two supports, and first locating hole is the waist hole of horizontal setting, and the first locating hole department at two supports is installed respectively to correlation formula grating, and the traction element of hosiery machine is when drawing the opening socks, through the detection area between the correlation formula grating. Above-mentioned opening socks transfer induction system, when getting into the opening socks in the detection area, correlation formula grating can carry out automated inspection to socks, and when the opening socks passed through the detection area completely, signal was given for the hosiery machine to correlation formula grating feedback, and the suggestion socks have left the weaving region, can produce next opening socks safely, and production flow is compacter, and production efficiency is higher.

Description

Open sock transfer induction device

Technical Field

The application relates to the field of sensing equipment, in particular to an open sock transfer sensing device.

Background

The toe-stitcher can stitch open socks, which are mainly divided into 2 knitted parts, 1 knitted open socks and 1 stitched toe, thus forming a complete sock, and the two knitting works are relatively independent. Original work flow of weaving is, accomplishes the work of weaving of opening socks earlier, then carries out the work of sewing up of undertoe with opening socks centre gripping to the margin to seam device through transfer device, only weaves when the undertoe and has accomplished, just can begin to do next socks, and the relatively waste time for the production efficiency of opening socks is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an open stocking transfer sensing device capable of improving the production efficiency of open stockings.

An open sock transfer induction device comprises a correlation grating, an upper bracket and a lower bracket; the upper bracket is installed in hosiery machine seam head station department, the lower carriage is installed and is woven opening socks station department at the hosiery machine, two first locating hole has all been seted up to the tip of support, first locating hole is the waist hole of horizontal setting, correlation formula grating is installed respectively two the first locating hole department of support, and the traction element of hosiery machine is when drawing the opening socks, the process detection area between the correlation formula grating.

Furthermore, a plurality of second positioning holes are longitudinally formed in the support.

Furthermore, the plurality of second positioning holes which are longitudinally arranged are arranged in a linear array.

Furthermore, the second positioning hole is a waist hole which is longitudinally arranged.

Furthermore, the bracket is composed of two parts which are perpendicular to each other, and the first positioning hole and the second positioning hole are respectively formed in the two parts of the bracket.

Further, the two parts of the bracket can rotate mutually.

Above-mentioned opening socks transfer induction system, set up first locating hole through the installation end at the support, and set up first locating hole into horizontal waist hole, make correlation formula grating can freely regulate and control the position of installing on first locating hole, thereby change the detection area scope of correlation formula grating, and when getting into the opening socks in the detection area, correlation formula grating can carry out automated inspection to socks, when the opening socks pass through detection area completely, signal of correlation formula grating feedback gives the hosiery machine, the suggestion socks have left and weave the region, can produce next opening socks safely, the production flow is compacter, and production efficiency is higher.

Drawings

FIG. 1 is a schematic structural view of an open sock transfer sensing device in one embodiment;

fig. 2 is a schematic structural view of the stent of fig. 1.

In the figure: 100. a correlation grating; 210. an upper bracket; 220. a lower bracket; 230. a first positioning hole; 240. a second positioning hole; 30. a hosiery machine head sewing station; 40. a stocking opening knitting station of a stocking machine; 50. and a cover plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 and 2, in one embodiment, an open sock transfer induction apparatus includes a correlation grating 100, an upper bracket 210, and a lower bracket 220; the upper bracket 210 is installed at the position 30 of the toe sewing station of the hosiery machine, the lower bracket 220 is installed at the position 40 of the opening hosiery knitting station of the hosiery machine, the end parts of the two brackets are all provided with first positioning holes 230, the first positioning holes 230 are transversely arranged waist holes, the correlation type gratings 100 are respectively installed at the first positioning holes 230 of the two brackets, and the traction part of the hosiery machine passes through the detection area between the correlation type gratings 100 when the opening hosiery machine is drawn.

When the automatic detection device is used, the traction device draws the opened socks to pass through the detection area between the correlation type optical gratings 100 when the opened socks are transferred, and once the socks enter the detection area of the correlation type optical gratings 100, the optical gratings immediately reflect and simultaneously output a control signal, so that the automatic detection of the moving socks is realized. When the open socks completely pass through, the optical grating feeds back a signal to the machine control system to prompt that the socks leave the knitting area, and the next open socks can be safely produced. Since the first positioning hole 230 formed at one end of the bracket-mounted correlation grating 100 has a horizontally-arranged waist-hole structure, the range of the detection region can be determined by the position of the grating mounted on the first positioning hole 230 when the correlation grating 100 is mounted.

Above-mentioned opening socks transfer induction system, offer first locating hole 230 through the installation end at the support, and set up first locating hole 230 into horizontal waist hole, make correlation formula grating 100 can freely regulate and control the position of installing on first locating hole 230, thereby change correlation formula grating 100's detection area scope, and when getting into the opening socks in the detection area, correlation formula grating 100 can carry out automated inspection to socks, when the opening socks pass through detection area completely, give the hosiery machine to correlation formula grating 100 feedback signal, the suggestion socks have left the weaving region, can produce next opening socks safely, the production flow is compacter, production efficiency is higher.

The first positioning hole 230 of the transverse waist hole structure formed on the bracket is also used for meeting the requirements of different socks, so that the grating can adjust the horizontal position according to the length of different socks. For example, when a sock of a certain length passes by, the edge of the grating below the sock can be hooked, and the sock is alarmed to be stopped. The horizontal position of the grating can be adjusted at the moment, and the sock passing range is guaranteed not to be close to the edge of the grating, so that the grating cannot hook.

In this embodiment, the bracket has a plurality of second positioning holes 240 formed thereon in the longitudinal direction. The second positioning hole 240 can be used to adjust the relative distance between two gratings, i.e. the height of the detection area, so as to adapt to different specifications of equipment and open socks. Illustratively, the recommended working distance between the two gratings is 400mm, and through practical machine test and continuous adjustment, the distance between the two sensors is finally determined to be 330mm, and the height of the bracket is determined.

In the present embodiment, the plurality of second positioning holes 240 arranged in the longitudinal direction are arranged in a linear array. The distance between the second positioning holes 240 is set to be the same, so that the second positioning holes 240 are relatively more regular, one-key processing can be realized during processing, and the processing cost can be effectively saved.

In the present embodiment, the second positioning hole 240 is a longitudinally disposed waist hole. The number of the holes is effectively reduced,

in this embodiment, the bracket is composed of two parts perpendicular to each other, and the first positioning hole 230 and the second positioning hole 240 are respectively opened on the two parts of the bracket. Specifically, this support is L shape or T shape structure setting, and first locating hole 230 is located the bottom end of L shape support or the top end of T shape support, and this structural setting can make the whole not same vertical line of grating and support, avoids direct itself to cause influences such as sheltering from to the detection area of grating.

In this embodiment, the two parts of the bracket are rotatable relative to each other. Two parts of the specific bracket are mutually sleeved, and the sleeved part can rotate. This structure setting makes the support adjust the detection area direction of grating through rotating certain one end for detection area can be better suit with hosiery machine equipment.

In this embodiment, the lower support 220 is installed outside the cover plate 50 at the position of the open sock knitting station, so that oil stain, yarn flying and the like can be effectively prevented from being thrown out of the open sock knitting station during production, and regular cleaning and maintenance are not needed.

The correlation type grating 100 adopted by the open sock transfer sensing device can effectively avoid delay report, false report and the like, and the stability and the efficiency are relatively better.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. An open sock transfer induction device is characterized by comprising a correlation grating, an upper bracket and a lower bracket; the upper bracket is installed in hosiery machine seam head station department, the lower carriage is installed and is woven opening socks station department at the hosiery machine, two first locating hole has all been seted up to the tip of support, first locating hole is the waist hole of horizontal setting, correlation formula grating is installed respectively two the first locating hole department of support, and the traction element of hosiery machine is when drawing the opening socks, the process detection area between the correlation formula grating.

2. The open-ended sock transfer sensing apparatus of claim 1, wherein the bracket has a plurality of second positioning holes formed therein in a longitudinal direction.

3. The open sock transfer induction apparatus of claim 2, wherein the second plurality of positioning holes arranged longitudinally are arranged in a linear array.

4. The open sock transfer sensing apparatus of claim 3, wherein the second locating hole is a longitudinally disposed waist hole.

5. The open sock transfer induction device of claim 4, wherein the bracket is formed of two parts perpendicular to each other, and the first positioning hole and the second positioning hole are respectively formed in the two parts of the bracket.

6. Open sock transfer sensing apparatus according to claim 5, wherein the two parts of the support are rotatable relative to each other.

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