CN213257166U - Composite tool apron for lathe - Google Patents

Abstract

The utility model relates to a composite tool apron for a lathe, which comprises a tool apron body; the method is characterized in that: the tool apron body is provided with a first tool mounting part for inserting and mounting a first turning tool and/or a second tool mounting part for inserting and mounting a second turning tool; the tool apron body is also provided with a first mounting hole communicated with the first lathe tool mounting part and/or a second mounting hole communicated with the second lathe tool mounting part; the first mounting hole is used for being connected with a first fastening unit, and the first fastening unit at least partially penetrates through the first mounting hole and acts on the first turning tool so that the first turning tool is fixedly mounted on the tool apron body; the second mounting hole is used for connecting a second fastening unit, and the second fastening unit at least partially penetrates through the second mounting hole and acts on the second turning tool so that the second turning tool is fixedly mounted on the tool apron body. The composite tool apron for the lathe can be used for simultaneously installing a plurality of tools, so that the complex steps of tool changing procedures can be saved, the idle running time during tool changing is shortened, and efficient machining and cost saving are realized.

Description

Composite tool apron for lathe

Technical Field

The utility model relates to a spare part for the lathe specifically is a compound blade holder for lathe.

Background

The tool apron can only install a cutter at every turn on the existing lathe, when the cutter is required to be changed, the cutter needs to be changed through a complex cutter changing program, the cutter changing efficiency is low, the running time is long during cutter changing, the energy consumption is wasted, and the machining efficiency of products is directly influenced by the inefficient cutter changing operation.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide a composite blade holder for lathe, this composite blade holder for lathe can install many cutters simultaneously, and then can save the complicated step of tool changing procedure, and the idle running time when shortening the tool changing has realized high-efficient processing and has practiced thrift the cost.

The purpose of the utility model is realized like this:

a composite tool apron for a lathe comprises a tool apron body; the method is characterized in that: the tool apron body is provided with a first tool mounting part for inserting and mounting a first turning tool and/or a second tool mounting part for inserting and mounting a second turning tool; the tool apron body is also provided with a first mounting hole communicated with the first lathe tool mounting part and/or a second mounting hole communicated with the second lathe tool mounting part; the first mounting hole is used for being connected with a first fastening unit, and the first fastening unit at least partially penetrates through the first mounting hole and acts on the first turning tool so that the first turning tool is fixedly mounted on the tool apron body; the second mounting hole is used for connecting a second fastening unit, and the second fastening unit at least partially penetrates through the second mounting hole and acts on the second turning tool so that the second turning tool is fixedly mounted on the tool apron body.

The first lathe tool mounting part is a slotted hole extending along an x axis, a y axis or a z axis, and one end or two ends of the first lathe tool mounting part are provided with openings; the second cutting wheel mounting part is a slotted hole extending along an x axis, a y axis or a z axis, and one end or two ends of the second cutting wheel mounting part are provided with openings.

The extending direction of the first lathe tool mounting part is vertical to the extending direction of the second lathe tool mounting part.

The first mounting holes are more than one, and the more than one first mounting holes are arranged at intervals along the extending direction of the first lathe tool mounting part; the first fastening unit is a bolt, and an internal thread is arranged on the first mounting hole.

The second mounting holes are more than one and are arranged at intervals along the extending direction of the second lathe tool mounting part; the second fastening unit is a bolt, and an internal thread is arranged on the second mounting hole.

The first lathe tool mounting parts are arranged in one or more than two, and the two or more than two first lathe tool mounting parts are arranged side by side or in a staggered manner; the second turning tool mounting part is provided with one or more than two second turning tool mounting parts which are arranged side by side or in a staggered manner.

The tool apron body is provided with an assembling hole for installing a third fastening unit, and the third fastening unit penetrates through the matching hole and is connected with the lathe body, so that the tool apron body is connected with the lathe body.

The tool apron body is provided with a positioning boss, and the positioning boss is embedded in the lathe body.

The first turning tool is an outer diameter tool; the turning tool II is a boring tool.

The utility model has the advantages as follows:

through setting up a plurality of lathe tool installation departments on the blade holder body, the simplex position that realizes the blade holder carries out the design of multitool position, can carry out combined machining such as turning, drilling, tapping with corresponding cutter to the terminal surface of product, side etc. through the different position of conversion, can solve the problem of arranging the not enough space of sword for the customer simultaneously, the chip removal is convenient moreover, and product machining efficiency improves.

Drawings

Fig. 1 and fig. 2 are perspective views of a tool holder according to an embodiment of the present invention in different orientations, respectively.

Fig. 3 is a top view of the tool holder according to an embodiment of the present invention.

Fig. 4 is a sectional view taken in the direction H-H in fig. 3.

Fig. 5 is a sectional view taken along the direction J-J in fig. 3.

Fig. 6 is a cross-sectional view taken along the direction K-K in fig. 3.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1 to 6, the composite tool apron for the lathe comprises a tool apron body 1; the tool apron body 1 is provided with a first tool mounting part 3 for inserting and mounting a first turning tool and a second tool mounting part 5 for inserting and mounting a second turning tool; the tool apron body 1 is also provided with a first mounting hole 4 communicated with the first tool mounting part 3 and/or a second mounting hole 6 communicated with the second tool mounting part 5; the first mounting hole 4 is used for connecting a first fastening unit, and the first fastening unit at least partially penetrates through the first mounting hole 4 and acts on the first turning tool so that the first turning tool is fixedly mounted on the tool apron body 1; the second mounting hole 6 is used for connecting a second fastening unit, and the second fastening unit at least partially penetrates through the second mounting hole 6 and acts on the second turning tool, so that the second turning tool is fixedly mounted on the tool apron body 1. Through set up a plurality of lathe tool installation departments (including more than one first lathe tool installation department 3 and more than one second lathe tool installation department 5) on blade holder body 1, realize that the simplex position of blade holder carries out multiple-tool-position design, can carry out combined machining such as turning, drilling, tapping with corresponding cutter to the terminal surface of product, side equipotential through the different position of conversion, can solve the problem of dress row sword not enough space for the customer simultaneously.

Further, the first lathe tool mounting part 3 is a slotted hole extending along the z axis, and two ends of the first lathe tool mounting part 3 are respectively provided with an opening; the second lathe tool mounting part 5 is a slotted hole extending along the y axis, and two ends of the second lathe tool mounting part 5 are respectively provided with an opening.

Further, the first blade mounting portion 3 extends in a direction perpendicular to the second blade mounting portion 5 for allowing an editor to change the blades.

Furthermore, more than one first mounting hole 4 is arranged, and the more than one first mounting holes 4 are arranged at intervals along the extending direction of the first lathe tool mounting part 3; first fastening unit is the bolt, is equipped with the internal thread on the first mounting hole 4, and first fastening unit tip stretches into first lathe tool installation department 3 and presses inboard lathe tool, makes a lathe tool obtain effectual fixed. The second mounting holes 6 are more than one, and the more than one second mounting holes 6 are arranged at intervals along the extending direction of the second wheel mounting part 5; the second fastening unit is a bolt, an internal thread is arranged on the second mounting hole 6, and the end part of the second fastening unit extends into the second lathe tool mounting part 5 and presses the second lathe tool inside, so that the second lathe tool is effectively fixed.

Further, two first cutter mounting parts 3 are arranged, and the two first cutter mounting parts 3 are arranged side by side with each other; the second wheel blade mounting portions 5 are provided in two, and the two second wheel blade mounting portions 5 are arranged in a staggered manner. The composite cutter holder can be simultaneously provided with 6-7 cutters and can be used for processing, cutting, chamfering, drilling, tapping and threading the section of the excircle of the shaft.

Further, the tool apron body 1 is provided with an assembling hole 2 for mounting a third fastening unit, the third fastening unit penetrates through the transferring hole 2 and is connected with the lathe body, so that the tool apron body 1 is connected with the lathe body, and the third fastening unit is a bolt.

Furthermore, a convex positioning boss 7 is arranged on the tool apron body 1, and the positioning boss 7 is embedded in the lathe body, so that the tool apron is more stable and reliable to mount.

Further, the first turning tool is an outer diameter tool; the turning tool II is a boring tool.

Further, the tool apron body 1 comprises a tool mounting body 101 and a tool apron mounting body 102 which are connected with each other, the tool mounting body 101 extends along a z axis, the tool apron mounting body 102 extends along a y axis, and the whole tool apron body 1 is bent; the first lathe tool mounting part 3 is arranged on the inner side of the lathe tool mounting body 101, two openings at two ends of the first lathe tool mounting part 3 are respectively arranged on a top end surface 1011 and a bottom end surface 1012 on the lathe tool mounting body 101, and the first mounting hole 4 extends from a left end surface 1013 or a right end surface 1014 on the lathe tool mounting body 101 to be communicated with the corresponding lathe tool mounting part; the second turning tool mounting portion 5 is disposed inside the tool mounting body 101, two end openings of one second turning tool mounting portion 5 are respectively opened on a front end surface 1015 or a rear end surface of the tool mounting body 101, two end openings of the other second turning tool mounting portion 5 are respectively opened on a front end surface 1015 of the tool mounting body 101 and a rear end surface of the tool holder mounting body 102, and the second mounting hole 6 extends from a top end surface 1011 on the tool mounting body 101 to communicate with the corresponding turning tool mounting portion.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A composite tool apron for a lathe comprises a tool apron body (1); the method is characterized in that: the tool apron body (1) is provided with a first tool mounting part (3) for inserting and mounting a first turning tool and/or a second tool mounting part (5) for inserting and mounting a second turning tool; the tool apron body (1) is also provided with a first mounting hole (4) communicated with the first tool mounting part (3) and/or a second mounting hole (6) communicated with the second tool mounting part (5); the first mounting hole (4) is used for being connected with a first fastening unit, and the first fastening unit at least partially penetrates through the first mounting hole (4) and acts on a first turning tool so that the first turning tool is fixedly mounted on the tool apron body (1); the second mounting hole (6) is used for being connected with a second fastening unit, and the second fastening unit at least partially penetrates through the second mounting hole (6) and acts on the second turning tool, so that the second turning tool is fixedly mounted on the tool apron body (1).

2. The composite seat for lathe of claim 1, wherein: the first lathe tool mounting part (3) is a slotted hole extending along an x axis, a y axis or a z axis, and one end or two ends of the first lathe tool mounting part (3) are provided with openings; the second lathe tool mounting part (5) is a slotted hole extending along an x axis, a y axis or a z axis, and one end or two ends of the second lathe tool mounting part (5) are provided with openings.

3. The composite seat for lathe of claim 2, wherein: the extending direction of the first lathe tool mounting part (3) is perpendicular to the extending direction of the second lathe tool mounting part (5).

4. The composite seat for lathe of claim 1, wherein: more than one first mounting hole (4) is formed, and the more than one first mounting holes (4) are arranged at intervals along the extending direction of the first lathe tool mounting part (3); the first fastening unit is a bolt, and an internal thread is arranged on the first mounting hole (4).

5. The composite seat for lathe of claim 1, wherein: the number of the second mounting holes (6) is more than one, and the more than one second mounting holes (6) are arranged at intervals along the extending direction of the second lathe tool mounting part (5); the second fastening unit is a bolt, and an internal thread is arranged on the second mounting hole (6).

6. The composite seat for lathe of claim 1, wherein: the first lathe tool mounting parts (3) are arranged in one or more than two, and the more than two first lathe tool mounting parts (3) are arranged side by side or in a staggered manner; the second turning tool mounting portions (5) are arranged in one or more than two modes, and the second turning tool mounting portions (5) are arranged side by side or in a staggered mode.

7. The composite seat for lathe of claim 1, wherein: the tool apron body (1) is provided with an assembly hole (2) for installing a third fastening unit, and the third fastening unit penetrates through the assembly hole (2) and is connected with the lathe body, so that the tool apron body (1) is connected with the lathe body.

8. The composite seat for lathe of claim 7, wherein: the lathe tool apron is characterized in that a positioning boss (7) is arranged on the lathe tool apron body (1), and the positioning boss (7) is arranged on a lathe machine body in an embedded mode.

9. The composite seat for lathe of claim 1, wherein: the first turning tool is an outer diameter tool; the turning tool II is a boring tool.

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