CN210705765U - Auxiliary die matching and data taking tool - Google Patents

Abstract

The utility model relates to the technical field of die manufacturing, in particular to a die matching and data taking auxiliary tool, which comprises a tool body, a metal wire and a magnet, wherein the tool body is used for placing the metal wire; a part of the metal wire is placed on the top surface of the tool body; the magnet is embedded into the bottom surface of the tool body and is flush with the bottom surface. The utility model has the advantages that the magnet is embedded in the bottom surface of the tool body, so that the tool body can be quickly fixed and is suitable for quick access to the plane, the inclined plane and the steep surface of the die; the tool structure and the using method are simple, the number taking process is convenient and fast, the number measurement is accurate, the labor force of workers is reduced, meanwhile, the assembly efficiency of the die is improved, and the manufacturing cost of the die is further saved.

Description

Auxiliary die matching and data taking tool

Technical Field

The utility model relates to a mould manufacturing technical field, in particular to join in marriage mould and get supplementary frock of figure.

Background

The injection mold consists of a movable mold and a fixed mold, the movable mold is arranged on a movable mold plate of the injection molding machine, the fixed mold is arranged on a fixed mold plate of the injection molding machine, the movable mold and the fixed mold are closed to form a pouring system and a cavity during injection molding, and the movable mold and the fixed mold are separated to take out plastic products during mold opening. In order to solve the problem, the abrasion and the abrasion of the die are easily caused in the repeated opening and closing and the opposite collision process, the friction and the injury between matched pieces of the die are reduced by designing the wear-resisting plate in the die structure, and the service life of the die is prolonged to a certain degree. Because of the wear-resisting plate is easy to change and process relative to the part of the die, the adjustability is strong, the disassembly and the assembly are convenient, the die manufacturing cost is further saved while the processing time is saved, and the wear-resisting plate is widely applied to the die manufacturing field.

The existing wear-resisting plate assembling process comprises the steps of measuring, installing and assembling, and the standard that the reference surface and the surface of the wear-resisting plate simultaneously contact blue lead is taken as a standard, namely the assembly is in place. If the surface of the wear-resistant plate does not touch the blue lead, the number is fetched again, the wear-resistant plate is ground, the wear-resistant plate is installed, the die is assembled, and the steps are repeated until the wear-resistant plate is in place. Usually the wear plates need to be worn to an accuracy of 0.02mm and the distance from the bottom of the wear plate groove to the land blue is not directly measurable with a measuring tool, i.e. the thickness of the wear plate to be repaired cannot be directly determined.

According to the size of the die, the number of the wear-resisting plates on the die is dozens of wear-resisting plates, the process cannot ensure that the wear-resisting plates are taken in place once, the processes of repeated taking, grinding, mounting and dismounting lead to a large amount of waste of working hours and manpower, and the process steps are complicated and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides an in the correlation technique with the unable direct measurement antifriction plate tank bottom portion of measuring tool to the distance of die joint blue lead, and adopt to get repeatedly, grind, the installation leads to man-hour, manpower extravagant in a large number with dismantling, inefficiency provides a join in marriage mould and get auxiliary fixtures, and the process of getting is convenient and the number of measurings is accurate, promotes mould assembly efficiency when reducing personnel's labour.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: a match mould and get a number auxiliary fixtures, includes:

the tool body is used for placing a metal wire;

the part of the metal wire is placed on the top surface of the tool body;

and the magnet is embedded into the bottom surface of the tool body and is flush with the bottom surface.

Preferably, the height of the tool body is the same as the depth of the wear-resistant plate groove.

Preferably, the metal wire is a tin wire.

According to the preferable scheme, the side face of the tool body is provided with a wire groove, the metal wire is placed in the wire groove in a rotating mode, and one end of the metal wire is placed on the top face of the tool body in a bending mode.

Preferably, the width of the wire groove is matched with the width of the metal wire.

Preferably, the top surface of the tool body is provided with a mounting hole, and the metal wire is inserted into the mounting hole and is partially bent and placed on the top surface of the tool body.

Preferably, the top surface of the tool body is provided with 2 mounting holes, and the metal wire is bent into a n shape and inserted into the two mounting holes.

As the preferred scheme, 1 mounting hole has been seted up to the top surface of frock body, wire one end inserts in the mounting hole, and the other end is buckled and is placed in the top surface of frock body.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages that the magnet is embedded in the bottom surface of the tool body, so that the tool body can be quickly fixed and is suitable for quick access to the plane, the inclined plane and the steep surface of the die; the utility model discloses a frock structure and application method are simple, and the process of getting data is convenient and the number of surveying is accurate, promotes mould assembly efficiency when reducing personnel's labour, further makes mould manufacturing cost obtain practicing thrift.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention with the top surface up;

fig. 2 is a schematic structural view of embodiment 1 of the present invention with the bottom surface up;

fig. 3 is a schematic structural view of embodiment 2 of the present invention with the top surface on;

fig. 4 is a schematic structural view of the embodiment 2 and the embodiment 3 of the present invention with the bottom surfaces up;

fig. 5 is a schematic structural view of embodiment 3 of the present invention with the top surface on.

In the figure:

1. the tool comprises a tool body, 2, a metal wire, 3, a magnet, 4, a wire groove, 5 and a mounting hole.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Example 1

As shown in fig. 1 to 2, a die matching and numerical taking auxiliary tool comprises a tool body 1, a metal wire 2 and a magnet 3, wherein the tool body 1 is made of a cylindrical iron block, and the metal wire 2 is a tin wire which is soft, easy to deform and inelastic, so that the numerical taking is more accurate; the side surface of the tool body is provided with a wire groove 4, and the width of the wire groove 4 is matched with that of the metal wire 2, so that the metal wire 2 is fixed; the metal wire 2 is placed along the wire groove 4 in a rotating mode, and one end of the metal wire is placed on the top face of the tool body 1; magnet 3 imbeds 1 bottom surface of frock body and flushes with the bottom surface of frock body 1.

Use the mould that this company used as the example, the antifriction plate groove depth is 9mm, then 1 height of the cylindrical frock body of choosing for use also is 9mm, it is unanimous with antifriction plate groove depth, 2 diameter 2mm of wire, it is fixed in the antifriction plate inslot to rely on cylindrical magnet 3 to adsorb with the bottom surface of frock body 1 during the use, use the die joint as the benchmark during the compound die, the tin silk of 1 top surface of frock body is flattened simultaneously when die joint blue lead runs into, the height of getting 1 bottom surface of frock body to top surface tin silk this moment is promptly for the antifriction plate height of joining in marriage (the accuracy is 0.02mm), this kind of condition can be used for joining in marriage more than 9mm, be less than 11 mm's antifriction plate, if need join in marriage thick little antifriction plate again, can realize through superimposed tin silk, when the tin silk extends to 1 top surface of frock body, buckle many times or twist into one strand after buckling and realize.

If thicker wear plates are required, the wear plate groove depth is increased, for example, the wear plate groove depth may be set to 15mm, 20mm, etc. (and the height of the corresponding tool body 1 is also 15mm, 20mm, etc.), instead of overlapping tin wires.

Example 2

As shown in fig. 3 to 4, the auxiliary tool for die matching and data taking comprises a tool body 1, a metal wire 2 and a magnet 3, wherein the tool body 1 is made of a cylindrical iron block, and the metal wire 2 is a tin wire which is soft, easy to deform and inelastic, so that data taking is more accurate; the top surface of the tool body 1 is provided with 2 mounting holes 5, and the metal wire 2 is bent into an inverted U shape and inserted into the two mounting holes 5; magnet 3 imbeds 1 bottom surface of frock body and flushes with the bottom surface of frock body 1.

Use the mould that this company used as the example, the antifriction plate groove depth is 9mm, then 1 height of the cylindrical frock body of choosing for use also is 9mm, it is unanimous with antifriction plate groove depth, 2 diameter 2mm of wire, 3 adsorbs by cylindrical magnet with the bottom surface of frock body 1 during the use and is fixed in the antifriction plate inslot, use the die joint as the benchmark during the compound die, the tin silk of 1 top surface of frock body is flattened simultaneously when die joint blue lead runs into, the height of getting 1 bottom surface of frock body to top surface tin silk this moment is the antifriction plate height of repairing (the accuracy is 0.02mm), this kind of condition can be used for repairing and is greater than 9mm, be less than 11 mm's antifriction plate, if need repair thick little antifriction plate again, can realize through the superimposed tin silk, add the tin silk on lieing in the tin silk of 1 top surface part of frock body promptly and twist into one strand.

If thicker wear plates are required, the wear plate groove depth is increased, for example, the wear plate groove depth may be set to 15mm, 20mm, etc. (and the height of the corresponding tool body 1 is also 15mm, 20mm, etc.), instead of overlapping tin wires.

Example 3

As shown in fig. 4 to 5, the auxiliary tool for die matching and data taking comprises a tool body 1, a metal wire 2 and a magnet 3, wherein the tool body 1 is made of a cylindrical iron block, and the metal wire 2 is a tin wire which is soft, easy to deform and inelastic, so that data taking is more accurate; the top surface of the tool body is provided with 1 mounting hole 5, one end of the metal wire 2 is inserted into the mounting hole 5, and the other end of the metal wire is bent and placed on the top surface of the tool body 1; magnet 3 imbeds 1 bottom surface of frock body and flushes with the bottom surface of frock body 1.

Use the mould that this company used as the example, the antifriction plate groove depth is 9mm, then 1 height of the cylindrical frock body of choosing for use also is 9mm, it is unanimous with antifriction plate groove depth, 2 diameter 2mm of wire, 3 adsorbs by cylindrical magnet with the bottom surface of frock body 1 during the use and is fixed in the antifriction plate inslot, use the die joint as the benchmark during the compound die, the tin silk of 1 top surface of frock body is flattened simultaneously when die joint blue lead runs into, the height of getting 1 bottom surface of frock body to top surface tin silk this moment is the antifriction plate height of repairing (the accuracy is 0.02mm), this kind of condition can be used for repairing and is greater than 9mm, be less than 11 mm's antifriction plate, if need repair thick little antifriction plate again, can realize through the superimposed tin silk, add the tin silk on lieing in the tin silk of 1 top surface part of frock body promptly and twist into one strand.

If thicker wear plates are required, the wear plate groove depth is increased, for example, the wear plate groove depth may be set to 15mm, 20mm, etc. (and the height of the corresponding tool body 1 is also 15mm, 20mm, etc.), instead of overlapping tin wires.

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a join in marriage mould and get supplementary frock of figure which characterized in that includes:

the tool comprises a tool body (1), wherein the tool body (1) is used for placing a metal wire (2);

the part of the metal wire (2) is placed on the top surface of the tool body (1);

the magnet (3), magnet (3) embedding bottom surface and with the bottom surface of frock body (1) flush.

2. The auxiliary assembly of claim 1, wherein: the height of the tool body (1) is the same as the depth of the wear-resistant plate groove.

3. The auxiliary assembly of claim 1, wherein: the metal wire (2) is a tin wire.

4. The auxiliary assembly of claim 1, wherein: the tool comprises a tool body and is characterized in that a wire groove (4) is formed in the side face of the tool body, the metal wire (2) is placed in the wire groove (4) in a rotating mode, and one end of the metal wire is placed on the top face of the tool body (1) in a bending mode.

5. The auxiliary assembly of claim 4, wherein: the width of the wire groove (4) is matched with that of the metal wire (2).

6. The auxiliary assembly of claim 1, wherein: the tool comprises a tool body (1), wherein a mounting hole (5) is formed in the top surface of the tool body (1), and the metal wire (2) is inserted into the mounting hole (5) and is partially bent and placed on the top surface of the tool body (1).

7. The auxiliary assembly of claim 6, wherein: the top surface of the tool body (1) is provided with 2 mounting holes (5), and the metal wire (2) is bent into a U shape and inserted into the two mounting holes (5).

8. The auxiliary assembly of claim 6, wherein: the tool comprises a tool body (1), wherein the top surface of the tool body (1) is provided with 1 mounting hole (5), one end of a metal wire (2) is inserted into the mounting hole (5), and the other end of the metal wire is bent and placed on the top surface of the tool body (1).

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