JP2012511140A - Yarn clearer measuring head housing - Google Patents

Abstract

  The housing (2) for the yarn clearer measuring head (1) has a measuring slit (3) that defines the longitudinal direction (x) in order to receive the yarn (9) from which the defective part is to be removed. The housing (2) can be completely enclosed by the virtual envelope cuboid (4). The length (X) of the envelope cuboid is defined as the dimension of the housing (2) in the longitudinal direction (x). The height (Y) and width (Z) of the envelope cuboid are defined as the side length of the rectangle of the envelope cuboid in the plane (yz) perpendicular to the longitudinal direction (x), and this rectangle is the plane (yz). Completely encloses the projection of the housing (2) onto the rectangle and has the smallest perimeter and / or area of this rectangle. The length (X) of the envelope cuboid (4) is between 41 mm and 47 mm and / or the height (Y) of the envelope cuboid is between 61 mm and 70 mm and / or the envelope cuboid (4) The width (Z) is between 96 mm and 106 mm. The housing (2) provides as much space as possible for the components housed therein and can be integrated into as many machines as possible.

Description

  The present invention is in the field of fiber quality inspection. The present invention relates to a housing for a yarn clearer measuring head according to the superordinate concept of claim 1. Such a housing for a yarn clearer measuring head is typically used in a spinning machine or a winder.

  In order to guarantee the yarn quality, so-called yarn clearers are used in spinning machines or winders. Such yarn clearers are known, for example, from EP 1 249 422 A1. The purpose of the yarn clearer is to detect thick spots, thin spots or foreign parts such as foreign objects in the yarn, evaluate them according to specific quality standards, and possibly remove them. The yarn clearer measuring head therefore includes at least one sensor that scans the moving yarn. Sensor principles that are often used are capacitive principles (see, for example, EP 0 925 513) or optical principles (eg WO 93/13407). The yarn clearer measuring head further includes an electronic circuit that evaluates the sensor signal and compares this signal to a predetermined quality criterion, such as a defect removal limit. Depending on the use, the yarn clearer measuring head can also include a cutting tool to cut out defective portions of the yarn. The structure of the yarn clearer measuring head is described in US Pat. No. 6,422,072.

  The aforementioned components of the yarn clearer are accommodated in the measuring head housing. The measuring head housing serves to protect sensitive components against mechanical forces, dirt, moisture, electromagnetic radiation and other external influences. It also takes on another role, for example the release of heat that occurs in the electrical circuit. Examples of such measuring head housings can be found in European Patent Application Publication No. 1302426, International Publication No. WO 2007/045298 or Chinese Patent Application No. 20003120.

  Regarding the dimensions of the measuring head housing, it is important to match the two requirements opposite to each other. On the one hand, the largest possible dimensions are desired in order to accommodate the necessary components well and to reduce heat generation per unit volume. On the other hand, however, the measuring head housing must be located where it is provided in a machine, for example a spinning machine or a winder. The measuring head housings known so far fulfill these requirements for only one machine type or a few machine types.

  The object of the present invention is therefore to provide a housing for a yarn clearer measuring head which on the one hand provides as much space as possible for the components to be accommodated and on the other hand can be integrated into as many machines as possible.

  This and other problems are solved by a housing according to the invention as defined in claim 1. Advantageous embodiments are given in the dependent claims.

  The present invention was preceded by a long and careful study of site conditions in existing and future machines. The study results were subsequently analyzed. At that time, the concept of a rectangular parallelepiped was used. This concept allows complex housing shapes and complex free spaces in the machine to be easily handled and matched to each other. The envelope cuboid should satisfy the minimum condition. The measuring head housing according to the invention is the result of an analysis. The various components of the yarn clearer had to be formed and arranged so that they fit into the housing.

  The housing for a yarn clearer measuring head according to the present invention has a measuring slit for defining a longitudinal direction for receiving a yarn from which a defective portion is to be removed. An envelope cuboid in which the housing can be completely enclosed by the virtual envelope cuboid, the length of the envelope cuboid is defined as the dimension of the housing in the longitudinal direction, and the height and width of the envelope cuboid are in a plane perpendicular to the longitudinal direction This rectangle completely surrounds the projection of the housing onto this surface, has a minimum perimeter and / or area of the rectangle, and the height of the envelope cuboid is less than the width of the envelope cuboid Or equal to the width. The length of the envelope cuboid is between 41 mm and 47 mm and / or the height of the envelope cuboid is between 61 mm and 70 mm and / or the width of the envelope cuboid is between 96 mm and 106 mm. Therefore, this first definition of the envelope cuboid is derived from the longitudinal direction of the measurement slit. At that point, the length in the characteristic direction is measured.

  Instead, the yarn clearer measuring head housing according to the present invention can be completely enclosed by a virtual envelope cuboid having a length, height and width. An enveloping cuboid is defined as a cuboid having a minimum surface area and / or a minimum volume among all possible cuboids that completely enclose the housing, and the length of the enclosing cuboid is less than or equal to its height, The height of the cuboid is less than or equal to its width. The length of the envelope cuboid is between 41 mm and 47 mm and / or the height of the envelope cuboid is between 61 mm and 70 mm and / or the width of the envelope cuboid is between 96 mm and 106 mm. This second definition of the envelope cuboid is thus far from the longitudinal direction of the measurement slit or yarn. However, in many cases this second definition will be consistent with the first definition.

In a preferred embodiment, the housing according to the invention can be virtually divided into two parts, each of which is completely surrounded by a virtual part envelope. The partial envelope cuboids do not intersect, are adjacent to each other and together are in the envelope cuboid. The first partial envelope cuboid, preferably including the measurement slit, has a length between 25 mm and 28 mm and / or a height between 34 mm and 37 mm and / or a width between 1 mm and 22 mm. The second partial envelope cuboid has a length between 41 mm and 47 mm and / or a height between 61 mm and 70 mm and / or a width between 71 mm and 83 mm. According to the terminology used in this specification, the following elements do not belong to the housing.
Protruding thread guide elements or thread introducing elements, such as thread clamps or thread guide plates,
An electrical interface between the measuring element and its surroundings, such as a plug, fitting or cable,
Mechanical interface between the measuring head and its surroundings such as a support for mounting the measuring head to the machine and pneumatic interface such as a compressed air supply element

  The invention is explained below with the aid of the drawings.

  1 shows a schematic housing according to the invention with a thread in a perspective view.   1 shows an envelope cuboid for a housing according to the present invention.   The housing of FIG. 1 is shown with the envelope cuboid of FIG.   1 shows an embodiment of a housing according to the invention in a perspective view from one viewing direction.   An embodiment of the housing as seen from different directions is shown in a perspective view.

  FIG. 1 schematically shows a housing 2 according to the invention for a yarn clearer measuring head 1. The housing includes a measuring slit 3 for receiving the yarn 9 from which the defect is to be removed. The yarn is moved along its longitudinal direction which coincides with the longitudinal direction x of the measuring slit 3. A sensor for scanning the yarn is provided in the range of the measurement slit 3 of the housing 2. The housing 2 also houses electronic evaluation means for evaluating the sensor signal. Furthermore, the housing 2 can include cutting means for cutting off unacceptable defects in the thread 9. The cutting means is usually accommodated in the portion of the housing 2 shown in the lower right of FIG. The connection for the cable (not shown) that transmits data to or from the yarn clearer measuring head 1 and is also used to supply energy to the yarn clearer measuring head 1 is not visible in FIG. It is provided on the side to partition.

  The housing 2 according to the invention comprises two parts: a measuring part 3 comprising a measuring slit 3 and at least the main part of the sensor, and a main part of the evaluation means and, if present, the main part of the cutting means, immediately adjacent thereto. It can be divided into evaluation parts 22 including. In the example of FIG. 1, the sensor portion 21 is in the left half of the figure and the evaluation portion 22 is in the right half of the figure. The evaluation part 22 has a longer length than the sensor part 21 in order to accommodate the cutting means and act on the thread 9.

  FIG. 2 shows a virtual envelope cuboid 4 that completely encloses the entire housing 2 according to the invention in a dashed line. That is, the entire housing is accommodated in the envelope rectangular parallelepiped 4 so that no part of the housing 2 protrudes from the envelope rectangular parallelepiped 4.

The envelope rectangular parallelepiped 4 is designed to satisfy the minimum condition. How the envelope cuboid 4 is placed around the housing 2 in the preferred embodiment and what the minimum conditions are is shown below.
The length X of the envelope rectangular parallelepiped 4 is the dimension of the housing 2 in the longitudinal direction x of the measurement slit 3. More specifically, the dimension in the longitudinal direction x of the projection of the housing 2 onto a plane containing the longitudinal direction x (eg xy or xz). The longitudinal direction x coincides with the longitudinal direction of the yarn.
The height Y of the envelope cuboid 4 is defined as the shorter side length of the rectangle in the plane yz perpendicular to the longitudinal direction x, which completely encloses the projection of the housing 2 on this plane yz, The perimeter and / or area of this rectangle is minimal. In the example of FIG. 1, the height Y is the dimension of the housing 2 in the direction y perpendicular to the longitudinal direction x, in which the thread 9 can be introduced into the measuring slit 3 or the measuring slit 3 This direction y extends from back to front.
The width Z of the envelope cuboid is defined as the longer side of the rectangle lying in the plane yz perpendicular to the longitudinal direction x, which completely encloses the projection of the housing 2 on this plane yz. Have a minimum perimeter and / or area. In the example of FIG. 1, the width Z is the dimension of the housing 2 in the direction z perpendicular to the longitudinal direction x and the height direction y and thus extends from left to right in FIG. On a typical winder, the width direction z is the axial direction of the cheese to which the yarn 9 is attached.

  Alternatively, the envelope cuboid can be defined as a cuboid having a minimum surface area and / or a minimum volume among all possible cuboids that completely enclose the housing 2.

Similarly, FIG. 2 shows two virtual partial envelopes 41 and 42 that enclose each specific part of the housing 2 according to the present invention. A first partial envelope cuboid 41 having a side length Z ₁ indicated by a short broken line surrounds the sensor portion 21 of the housing 2. A second partial envelope cuboid 42 having side lengths X ₂ , Y ₂ , Z ₂ indicated by long broken lines surrounds the evaluation portion 22 of the housing 2. Both partial envelope cuboids 41, 42 can have different dimensions. They do not intersect but are immediately adjacent in the width direction z, i.e. each have one boundary surface 51, 52, and both boundary surfaces 51, 52 are at least partially coincident. Therefore, the sum of the widths Z ₁ and Z ₂ is equal to the width Z of the envelope rectangular parallelepiped 4.
Z = Z ₁ + Z ₂

The length X and the height H of the envelope cuboid 4 are derived from the larger values of the partial envelope cuboids 41 and 42, respectively.
X = max (X ₁ , X ₂ )
Y = max (Y ₁ , Y ₂ )

In the example of FIG. 2, the second partial envelope cuboid 42 determines the length X and the height Y of the envelope cuboid 4 as follows.
X = X ₂
Y = Y ₂

  FIG. 3 shows the combination of FIGS. 1 and 2, ie the housing 2 and the envelope cuboid 4 according to the invention.

The following table shows ranges and preferred values in mm for the side lengths of the envelope cuboid 4 and the partial envelope cuboids 41 and 42.

  FIG. 4 shows an embodiment of a yarn clearer measuring head 1 with a housing 2 according to the invention as seen from two different viewing directions, the viewing direction of FIG. 4 (a) substantially corresponding to the viewing direction of FIG. The viewing direction of (b) is such that the lower side can be seen. In this embodiment, the bottom surface 6 that divides the evaluation portion in the longitudinal direction x is inclined in a range far from the sensor portion 21. This is advantageous in order to be able to form the housing 2 with a larger width Z without being inconsistent with a particular winder part. The slope is substantially formed as a slope that descends by about 9 mm as much as 7 to 11 m at a distance of about 25 mm as much as possible in the width direction z.

  Obviously, the invention is not limited to the embodiments described above. Knowing the invention, the person skilled in the art will be able to infer other variants belonging to the subject matter of the invention.

DESCRIPTION OF SYMBOLS 1 Yarn clearer measuring head 2 Housing 21 Sensor part 22 Evaluation part 3 Measurement slit 4 Envelope rectangular parallelepiped 41 1st partial envelope rectangular parallelepiped 42 2nd partial envelope rectangular parallelepiped 51,52 The boundary surface 6 of partial envelope rectangular parallelepiped 6 Bottom face of housing 9 Yarn x Longitudinal direction X Envelope cuboid length y Height direction Y Envelope cuboid height z Width direction Z Envelope cuboid width

Claims (5)

A housing (2) for a yarn clearer measuring head (1) having a measuring slit (3) defining a longitudinal direction (x) for receiving a thread (9) from which a defective part is to be removed, the housing (2) It can be completely surrounded by the virtual envelope cuboid (4),
The length of the envelope cuboid (X) is defined as the dimension of the housing (2) in the longitudinal direction (x),
The height (Y) and width (Z) of the envelope cuboid are defined as the side length of the rectangle of the envelope cuboid in the plane (yz) perpendicular to the longitudinal direction (x), and this rectangle is the plane (yz). Completely encloses the projection of the housing (2) onto the rectangle and has a minimum perimeter and / or area of the rectangle;
In the case where the height (Y) of the envelope cuboid (4) is smaller than or equal to the width (Z) of the envelope cuboid (4),
The length (X) of the envelope cuboid (4) is between 41 mm and 47 mm and / or the height (Y) of the envelope cuboid is between 61 mm and 70 mm and / or the envelope cuboid (4) A housing, characterized in that its width (Z) is between 96 mm and 106 mm. A housing (2) for a yarn clearer measuring head (1), which is completely enclosed by a virtual envelope cuboid (4) having a length (X), a height (Y) and a width (Z) Is possible,
An envelope cuboid (4) is defined as a cuboid having a minimum surface area and / or a minimum volume of all possible cuboids that completely enclose the housing (2);
The length (X) of the envelope cuboid (4) is less than or equal to its height (Y);
In the case where the height (Y) of the envelope cuboid (4) is less than or equal to its width (Z),
The length (X) of the envelope cuboid (4) is between 41 mm and 47 mm and / or the height (H) of the envelope cuboid (4) is between 61 mm and 70 mm and / or the envelope cuboid A housing characterized in that the width (Z) of (4) is between 96 mm and 106 mm.   The length (X) of the envelope cuboid (4) is between 42 mm and 46 mm and / or the height (Y) of the envelope cuboid (4) is between 63 mm and 67 mm and / or the envelope cuboid The housing according to claim 1 or 2, wherein the width (Z) of (4) is between 97 mm and 101 mm.   The length (X) of the envelope cuboid (4) is 43 mm and / or the height (Y) of the envelope cuboid (4) is 65 mm and / or the width (Z) of the envelope cuboid (4) is 98 mm. The housing according to claim 3, wherein The housing (2) can be virtually divided into two parts (21, 22), each of both parts (21, 22) being completely surrounded by a virtual part envelope cuboid (41, 42) The partial envelope cuboids (41, 42) do not intersect, are adjacent to each other and together are in the envelope cuboid (4);
The first partial envelope cuboid (41), preferably including the measurement slit (3), has a length (X ₁ ) between 25 mm and 28 mm and / or a height (Y ₁ ) between 34 mm and 37 mm and / or Or having a width (Z ₁ ) between 1 mm and 22 mm,
The second partial envelope cuboid (42) has a length (X ₂ ) between 41 mm and 47 mm and / or a height (Y ₂ ) between 61 mm and 70 mm and / or between 71 mm and 83 mm. Has a width (Z ₂ ),
A housing according to one of the preceding claims.

Images