RU165275U1 - CERAMIC PIN PIN HAMMER USED IN THERMAL FIBER OPERATION DEVICE - Google Patents

Abstract

1. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber containing the main part of the hammer and the frame of the hammer, while the specified frame of the hammer is provided with a mounting hole corresponding to the main part of the hammer, while the specified main part of the hammer is located in the specified mounting hole, characterized the fact that the specified main part of the hammer is a ceramic pin assembly, while the specified ceramic pin assembly contains a part in the form of a ceramic pin, while m characteristics of this part in the form of a ceramic pin are as follows: degree of purity 99.999%, particle size 20 ~ 60 nm, concentricity ≤0.001 mm, hardness 1200 HMU, bending strength 1200 MPa. 2. A hammer with a ceramic pin used in a device for thermal splicing of optical fiber according to claim 1, characterized in that said part in the form of a ceramic pin has a cylindrical part and a non-cylindrical part, wherein said cylindrical part and non-cylindrical part are a single unit; accordingly, the indicated mounting hole of the hammer frame consists of the mounting hole for the cylindrical part made at the top and the mounting groove for the non-cylindrical part made at the bottom, corresponding to the specified part in the form of a ceramic pin. 3. A hammer with a ceramic pin used in a device for thermal splicing of optical fiber according to claim 2, characterized in that it further comprises a fixing element that is connected to the upper part of the specified frame of the hammer; and contains an elastic element, while the specified elastic element is located between the specified

Description

Technical field

This utility model relates to devices for switching optical fiber, in particular to a hammer with a ceramic pin used in a device for thermal splicing of optical fiber.

State of the art

Thermal fiber splicing devices are mainly used in the creation and maintenance of fiber optic cables, mainly by arc welding of two fiber optic cables while using the collimation principle to gradually advance to splicing the surface of the fiber. The hammer used in the device for thermal splicing of optical fiber is mounted on the inside of the cover of the device for thermal splicing of optical fiber. When splicing the fiber, close the lid, the hammer presses on the V-groove on the lid of the device where the fiber is placed, for precise positioning when splicing the optical fiber. The main component of the fiber core is SiO2, its diameter is only 0.125 mm, therefore, the hammer should provide uniform pressure on the fiber, without causing crushing of the fiber, the end for pressing the fiber of the hammer should not have cracks at the corners of the edge, it should be smooth enough to meet the requirements to ensure that the rough surface of the hammer does not damage the fiber optic cable and does not interfere with the smooth movement of the fiber, the hammer must have a high wear resistance They are characterized by high processing efficiency and low cost of the processing process, therefore, market

the requirements for such a hammer are very high. JPB 0003288112 and JPU 1986101706 describe hammers used in devices for thermal splicing of optical fibers, but they have the above disadvantages. CN 201220075841.5, which belongs to the same applicant, discloses a plastic hammer that can overcome such difficulties of the production process as low processing efficiency and high cost of the processing process, however, compared to ceramic material, plastic has much less wear resistance.

JPA 1995140342 describes the closest analogue of the claimed invention. In particular, it is disclosed in the said document that the hammer comprises an element, which may be something like a square ceramic or iron block. However, such a hammer has the following disadvantages:

1. The complexity of the processing, low processing efficiency, which makes it difficult to achieve that the hammer will exert uniform pressure on the fiber.

2. The heavy weight of the hammer, which can cause crushing of the fiber.

Thus, there is a need to provide an improved hammer used in devices for thermal splicing of optical fiber, which would help solve the above problems.

The essence of the utility model

The utility model is intended to solve the above problems, for which the device for thermal splicing of the optical fiber is equipped with a hammer with a ceramic pin that contains the main part of the hammer and the frame of the hammer, while the specified frame of the hammer is provided with a mounting hole corresponding to the main part of the hammer, while the specified main part of the hammer located in the mounting hole, while the specified main part of the hammer is a node of a ceramic element, while the specified node of the ceramic element nta contains a part in the form of a ceramic pin, wherein said part in the form of a ceramic pin is an article obtained by processing a standard part in the form of a ceramic pin, while the specified part in the form of a ceramic pin has an end for pressing the optical fiber. According to this utility model, an existing standard piece of ceramic pin for use in the main body is machined to form a piece of ceramic pin with an end for pressing the optical fiber so as to satisfy the requirement that the surface of the pressure end of the ceramic pin of the main body of the hammer had no diagonal cracks at the corners of the edge, so the degree of smoothness reaches the effect of a mirror; in addition, the weight of a hammer with a ceramic pin is lighter than conventional hammers, and the optical fiber is not easily crushed; as well as the combined design prevents the rotation of the main part of the hammer during operation and a slight deviation from the correct position, and thus, the proper pressing of the optical fiber is achieved, the cost of production is reduced and the process is simplified.

The technical solution according to the present utility model is as follows.

The hammer with a ceramic pin used in the device for thermal splicing of optical fiber contains the main part of the hammer and the hammer frame, while the specified hammer frame is provided with a mounting hole corresponding to the main part of the hammer, while the specified main part of the hammer is located in the specified mounting hole, while The main part of the hammer is a ceramic pin assembly.

Preferably, said ceramic element assembly comprises a ceramic pin member, wherein said ceramic pin member is an article obtained by treating a standard component in the form of a ceramic pin.

Preferably, said ceramic pin-shaped part has a cylindrical portion and a non-cylindrical portion, wherein said cylindrical portion and a non-cylindrical portion are integral, wherein said non-cylindrical portion is obtained by treating the cylindrical end of a standard piece in the form of a ceramic pin.

Accordingly, the specified mounting hole of the hammer frame consists of a mounting hole for the cylindrical part made at the top and a mounting groove for the non-cylindrical part made at the bottom, corresponding to the specified part in the form of a ceramic pin.

Preferably, the hammer further comprises a locking element that is connected to the upper part of the specified frame of the hammer.

In addition, the hammer contains an elastic element, wherein said elastic element is located between said cylindrical part of the part in the form of a ceramic pin and said fixing element.

Preferably, said ceramic pin assembly consists of a piece in the form of a ceramic pin and a connecting fixing element, wherein said piece in the form of a ceramic pin has an end for pressing the optical fiber, wherein said piece in the form of a ceramic pin is a piece of a standard piece in the form of a ceramic pin.

The specified node of the ceramic element is connected by means of a connecting fixing element with a hammer frame.

Preferably, the hammer further comprises a locking element that is connected to the upper part of said hammer frame;

In addition, the hammer comprises an elastic element, wherein said elastic element is located between said connecting fixing element of a ceramic pin assembly and said fixing element.

The hammer with a ceramic pin used in the device for thermal splicing of optical fiber contains the main part of the hammer and the hammer frame, while the specified hammer frame is provided with a mounting hole corresponding to the specified main part of the hammer, while the specified main part of the hammer is located in the mounting hole, while the main part of the hammer is a ceramic element assembly, wherein said ceramic element assembly comprises a piece in the form of a ceramic pin;

In addition, the characteristics of the specified part in the form of a ceramic pin are as follows: degree of purity 99.999%, particle size 20 ~ 60 nm, concentricity: ≤0.001 mm, hardness 1200 HMU, bending strength 1200 MPa, surface finish of the processed product reaches the effect of a mirror surface of a standard part in the form of a ceramic pin of cylindrical shape made of zirconium dioxide.

Preferably, said ceramic element assembly comprises a ceramic pin member, wherein said ceramic pin member has a cylindrical portion and a non-cylindrical portion, wherein said cylindrical portion and a non-cylindrical portion are a single unit, wherein said non-cylindrical portion is obtained by processing one the cylindrical end of the standard part in the form of a ceramic pin.

Therefore, the specified mounting hole of the hammer frame consists of a mounting hole for the cylindrical part made at the top and a mounting groove for the non-cylindrical part made at the bottom, corresponding to the specified part in the form of a ceramic pin.

Preferably, said ceramic element assembly comprises a ceramic pin and a connecting fixing member, said ceramic pin having an end for pressing the fiber, said ceramic pin being a piece of a standard ceramic pin.

In addition, the specified node of the ceramic element is connected by means of a connecting fixing element with the frame of the hammer.

Compared with the prior art, the beneficial effect of the utility model is as follows:

1. The utility model uses the bulk of a stable size, containing a standard part in the form of a ceramic pin, the outer surface of which is mirror-polished, has no pores or holes to satisfy the requirements for a hammer with a ceramic pin; it can be used only in simple manufacturing processes for simple processing of standard parts, showing high efficiency and simplicity of the processing process, significantly reducing the complexity of processing;

2. in comparison with the main parts of conventional hammers with ceramic pins, the part used in the form of a ceramic pin used according to this utility model is smaller than a standard part in the form of a ceramic pin, its weight is less, it does not easily crush the optical fiber, the results are better;

3. In a preferred embodiment of the utility model, the main part is designed so that during operation the main part of the hammer does not move from a predetermined position, allowing the optical fiber to be pressed correctly. In particular, in a preferred embodiment, the main part of the hammer uses a combined structure, which consists of a cylindrical part and a flat part of the cylinder; the cylindrical part in the upper part is designed for quick installation of the elastic element, and through the mounting hole of the cylindrical shape provided in the hammer frame, guides and positions the main part of the hammer; the flat non-cylindrical part of the part in the form of a ceramic pin in the lower part together with the protrusions at the junction of the flat and cylindrical parts also plays an important role in positioning, in particular the flat non-cylindrical part in the lower part of the main part and the mounting groove in the lower part of the hammer frame completely coincide; this prevents the rotational movement of the hammer, avoids rotation and deviation of the fiber optic cable from the correct position, and thus allows the fiber optic cable to be precisely spliced.

Description of graphic materials

FIG. 1 is a schematic diagram according to Embodiment 1 of a utility model.

FIG. 2 is a schematic cross-sectional view according to Embodiment 1 of a utility model.

FIG. 3 is a schematic illustration of a mounting hole of a hammer frame according to embodiment 1 of the utility model.

FIG. 4 is a schematic illustration of a main part according to Embodiment 1 of a utility model.

Utility Model Embodiments

The technical solution according to the present utility model is described below using preferred embodiments, however, the following embodiments may not limit the scope of legal protection of the present utility model.

Embodiment 1

In FIG. 1, 2, 3 and 4 shows a hammer with a ceramic pin used in a device for thermal splicing of an optical fiber, comprising a main part 4 of a hammer and a frame 1 of a hammer, the frame 1 of the hammer having a mounting hole corresponding to the main part 4 of the hammer, the main part 4 hammers located in the mounting hole; in addition, the main part 4 of the hammer is a ceramic pin assembly, and in this utility model, the ceramic pin assembly is a part in the form of a ceramic pin, namely, a product obtained by processing a standard part in the form of a ceramic pin. In addition, the characteristics of the standard part in the form of a ceramic pin are as follows: degree of purity 99.999%, particle size 20 ~ 60 nm, concentricity ≤0.001 mm, hardness 1200 HMU, bending strength 1200 MPa, surface finish reaches the effect of a mirror surface of the standard part in the form ceramic pin of cylindrical shape made of zirconia. The outer diameter is 2.499 ± 0.0005 mm, the length is -10.5 mm.

In this embodiment, the ceramic pin part 4 consists of a cylindrical part 41 and a non-cylindrical part, wherein the non-cylindrical part is a flat elongated part 42, while the cylindrical part 41 and the flat elongated part 42 are integrally formed; a flat elongated portion 42 is obtained by forming two arms by grinding and removing material at one end of a standard part in the form of a ceramic pin; at the same time, at the junction of the flat elongated part 42 and the cylindrical part 41, flat adapter parts 43 are formed. Thus, the mounting hole of the hammer frame 1 consists of a mounting hole 11 for the cylindrical part made at the top and a mounting groove 12 for the flat elongated part made at the bottom, coaxially compatible and corresponding parts 4 in the form of a ceramic pin. In a particular embodiment, any non-cylindrical part that is capable of preventing the rotation of part 4 in the form of a ceramic pin relative to the frame 1 of the hammer can also be used as the non-cylindrical part of the hammer; in addition, the non-cylindrical part of the standard part in the form of a ceramic pin can be made not only by grinding, but also by other methods, such as casting; only one example is described here, therefore, this description is not required or limiting.

In this embodiment, the hammer also contains a locking element, here a hammer cover 2, which is located in the upper part of the hammer frame 1 and is rigidly connected to it; it also contains an elastic element, namely, a compression spring 3, while the compression spring 3 is located between the cylindrical part 41 of the part in the form of 4 ceramic pins and the cover 2 of the hammer; the two ends of the spring are connected respectively to the cylindrical part 41 and the cover 2 of the hammer. In this embodiment, a locking element can also be used, otherwise connected to the hammer frame, which is rigidly connected to the elastic element; The main function of the elastic element is to allow the main part of the hammer to move up and down to press the optical fiber.

As shown in FIG. 2, in this embodiment, in the case of mounting a hammer with a ceramic pin, the main part 4 of the hammer is installed in the mounting hole of the hammer frame 1; then the clamping spring 3 is installed in the mounting hole 11 made at the top for the cylindrical part of the hammer frame 1 over the cylindrical part 41 of the main part 4 of the hammer; then the hammer cover 2 is installed on the upper part of the hammer frame 1 by connecting a screw 5 with a cylindrical head to it, which leads to the necessary compression of the compression spring 3. In addition, the main part 4 of the hammer compresses the optical fiber due to the elasticity of the compression spring 3, with the vertical direction and positioning is due to the interaction of the cylindrical part 41 with the mounting hole 11 made at the top for the cylindrical part of the hammer frame 1; due to the interaction of the flat elongated part of the cylinder 42 with the mounting groove 12 made below for the flat elongated part of the hammer frame 1, the rotation of the main part 4 of the hammer is prevented.

In this embodiment, by using a standard part in the form of a ceramic pin, the main part of the hammer is obtained by simple processing, which, provided that it is possible to meet the performance requirements of the hammer with a ceramic pin, and also thanks to the design based on the combination of a cylindrical part and a flat elongated part, allows to avoid rotation and deviation from the correct position during operation and, thus, allows you to quite accurately pinch fiber optic cable.

Embodiment 2

The hammer with a ceramic pin used in the device for thermal splicing of optical fiber contains the main part of the hammer and the hammer frame, while the hammer frame is provided with a mounting hole corresponding to the main part of the hammer, while the main part of the hammer is located in the mounting hole, while the main part of the hammer represents a ceramic pin assembly.

In this embodiment, the ceramic pin assembly comprises a piece in the form of a ceramic pin and a connecting fixing member, wherein the piece in the form of a ceramic pin has an end for pressing the optical fiber; a ceramic pin part is a segment of a standard part in the form of a ceramic pin of a certain length, while the characteristics of the standard part in the form of a ceramic pin are as follows: purity 99.999%, particle size 20 ~ 60 nm, concentricity: ≤0.001 mm, hardness 1200 HMU, bending strength 1200 MPa, surface finish reaches the effect of a mirror surface of a standard part in the form of a ceramic pin of cylindrical shape made of zirconium dioxide; the ceramic pin assembly is connected by means of a connecting fixing element to the hammer frame. In particular, the main part of the hammer by means of the specified connecting fixing element is installed in the mounting hole of the hammer frame and is connected to the hammer frame.

In this embodiment, the connecting fixing element may be made of plastic, metal or other materials, wherein the connecting fixing element is rigidly connected to the ceramic pin part, in particular the ceramic pin part and the connecting fixing element can be connected in this way, as injection molding using a mold of a certain size, as well as in a joining method such as bonding. In a specific embodiment, it is also possible to use a standard piece in the form of a ceramic pin for pressing fiber optic cable in other ways, other forms of inserts and holes in the lower part of the main part of the hammer; moreover, this description is not obligatory or limiting.

In the present embodiment, the hammer also comprises a locking member that is connected to the upper part of the hammer frame; it also contains an elastic element, wherein the elastic element is located between the connecting fixing element of the ceramic pin assembly and the fixing element; wherein the two ends of the spring are connected respectively to the fixing element of the ceramic pin assembly and the fixing element; The main function of the elastic element is to allow the main part of the hammer to move up and down to press the optical fiber. Due to the fact that the end for pressing the fiber optic part in the form of a ceramic pin is obtained by processing a standard part in the form of a ceramic pin, so it can satisfy the performance requirements of the hammer, it does not easily crush the optical fiber, and the results of use are improved.

Embodiment 3

This embodiment differs from the described embodiment 2 in that the connecting fixing element of the ceramic pin assembly is made of plastic, while the connecting fixing element and the part in the form of a ceramic pin are connected by gluing.

The above embodiments are merely descriptions of the contents of the utility model, and in addition to the above embodiments of the utility model, other embodiments are possible; the use of an equivalent replacement or an equivalent technical solution is included in the scope of legal protection of the utility model.

Claims (7)

1. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber containing the main part of the hammer and the frame of the hammer, while the specified frame of the hammer is provided with a mounting hole corresponding to the main part of the hammer, while the specified main part of the hammer is located in the specified mounting hole, characterized the fact that the specified main part of the hammer is a ceramic pin assembly, while the specified ceramic pin assembly contains a part in the form of a ceramic pin, while m characteristics of the specified parts in the form of a ceramic pin are as follows: degree of purity 99.999%, particle size 20 ~ 60 nm, concentricity ≤0.001 mm, hardness 1200 HMU, bending strength 1200 MPa. 2. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber, according to claim 1, characterized in that said part in the form of a ceramic pin has a cylindrical part and a non-cylindrical part, wherein said cylindrical part and non-cylindrical part are a single unit; accordingly, said mounting hole of the hammer frame consists of a mounting hole for the cylindrical part made at the top and a mounting groove for the non-cylindrical part made at the bottom, corresponding to the specified part in the form of a ceramic pin. 3. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber, according to claim 2, characterized in that it further comprises a fixing element that is connected to the upper part of the specified frame of the hammer; and contains an elastic element, wherein said elastic element is located between said cylindrical part of the part in the form of a ceramic pin and said fixing element. 4. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber, according to claim 1, characterized in that said node of the ceramic pin consists of a part in the form of a ceramic pin and a connecting fixing element, wherein said part in the form of a ceramic pin contains an end for pressing fiber; wherein said node of the ceramic element is connected by means of a connecting fixing element to the hammer frame. 5. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber, according to claim 4, characterized in that it further comprises a fixing element that is connected to the upper part of the specified frame of the hammer; and contains an elastic element, wherein said elastic element is located between said connecting fixing element of a ceramic pin assembly and said fixing element. 6. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber, according to claim 4, characterized in that said node of the ceramic element contains a part in the form of a ceramic pin, while this part in the form of a ceramic pin has a cylindrical part and a non-cylindrical part, wherein said cylindrical part and non-cylindrical part are a single whole; therefore, said mounting hole of the hammer frame consists of a mounting hole for the cylindrical part made at the top and a mounting groove for the non-cylindrical part made at the bottom, corresponding to the specified part in the form of a ceramic pin. 7. The hammer with a ceramic pin used in the device for thermal splicing of optical fiber according to claim 3, characterized in that said node of the ceramic pin contains a part in the form of a ceramic pin and a connecting fixing element, wherein the specified part in the form of a ceramic pin has an end for pressing fiber; wherein said ceramic element assembly is connected by means of a connecting fixing element to the hammer frame.

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