CN210254267U - Spare shaft mechanism based on walking machine - Google Patents

Abstract

The utility model discloses a spare shaft mechanism based on a walking machine, wherein a lathe bed support is vertically fixed on the side surface of the walking machine; a lathe bed is fixed on the lathe bed support, a first servo motor is fixedly installed at one end of the lathe bed, a ball screw is fixed at the output end of the first servo motor, the ball screw penetrates through the end face of the lathe bed, and a ball linear guide rail is fixed on the end face of the lathe bed support; a motor base is fixed at one end of the lathe bed support through a motor base mounting plate, and a first servo motor is fixedly arranged in the motor base; the box body support is slidably mounted on the side surface of the machine body, and an auxiliary main shaft is fixedly mounted on the end surface of the box body support. This application is through walking heart machine one side and increasing the countershaft, and main shaft and countershaft move in coordination, have realized the high-speed synchronous butt joint of main shaft, have also avoided the secondary clamping to the product, have production efficiency height, low in production cost, the machining precision is high, characteristics that equipment area is little, and the while is walking the trouble that needs input robot or arm in the heart machine increases the countershaft and also can replace part automated production.

Description

Spare shaft mechanism based on walking machine

Technical Field

The utility model belongs to the technical field of walk the heart machine, specifically be related to a be equipped with axle mechanism based on walk heart machine.

Background

The spindle machine is called a spindle type numerically controlled lathe, and can also be called a spindle box movable numerically controlled automatic lathe, an economical turning and milling combined machine tool or a longitudinal cutting lathe. The method belongs to precision machining equipment, can simultaneously complete composite machining such as turning, milling, drilling, boring, tapping, carving and the like at one time, and is mainly used for batch machining of precision hardware and shaft special-shaped nonstandard parts. When a common core walking machine is used for machining parts with machining requirements at two ends or two surfaces, one end needs to be machined firstly, then secondary clamping is carried out manually (or by a robot) to machine the other end, and therefore time is consumed, and machining precision errors caused by secondary clamping are caused to the parts.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be equipped with axle mechanism based on walk heart machine.

The purpose of the utility model can be realized by the following technical scheme:

a standby shaft mechanism based on a walking machine is applied to the walking machine, the standby shaft mechanism is fixed on the side surface of the walking machine and comprises a machine body support, a machine body and a box body support, wherein the machine body support is vertically fixed on the side surface of the walking machine;

the lathe bed is fixed on the lathe bed support, a first servo motor is fixedly installed at one end of the lathe bed, a ball screw is fixed at the output end of the first servo motor, the ball screw penetrates through the end face of the lathe bed, and a ball linear guide rail is fixed on the end face of the lathe bed support;

a motor base is fixed at one end of the lathe bed support through a motor base mounting plate, and a first servo motor is fixedly mounted in the motor base;

the box body support is slidably mounted on the side surface of the machine body, and an auxiliary main shaft is fixedly mounted on the end surface of the box body support.

Further, the cross section of the lathe bed support is trapezoidal, the lathe bed support is fixed on the side surface of the core walking machine through a fixing block, and the fixing block is fixed on the side surface of the core walking machine through a bolt.

Furthermore, a support table is fixedly arranged on one surface of the box body support, a first sliding block and a second sliding block are fixed on the other surface of the box body support, and an adjusting plate is fixed on the bottom surface of the box body support;

the first sliding block is in sliding fit with the ball linear guide rail, and the second sliding block is in sliding fit with the ball screw.

Furthermore, an auxiliary main shaft box body is fixed on the end face of the box body support, a transmission box is fixed on the lateral surface of the auxiliary main shaft box body, and the auxiliary main shaft is fixedly arranged in the auxiliary main shaft box body and the transmission box;

further, an extension plate is fixed on the side surface of the auxiliary main spindle box body, and a second servo motor is fixed on the extension plate.

Furthermore, the transmission case comprises a first square frame and a second square frame, the first square frame and the second square frame are connected through a strip-shaped plate, and a clamping piece is fixedly mounted on the strip-shaped plate;

the clamping piece is a U-shaped frame, the end parts of the clamping piece are connected through bolts, the inner surfaces of the two opposite side walls are respectively fixed on the cylindrical bulges, and the two cylindrical bulges arranged oppositely are used for clamping and fixing the auxiliary main shaft.

The utility model has the advantages that:

the application discloses be equipped with axle mechanism based on walk heart machine through walking heart machine one side increase the countershaft, main shaft and countershaft collaborative operation have realized the high-speed synchronous butt joint of main shaft, have also avoided the secondary clamping to the product, have production efficiency height, low in production cost, the machining precision is high, characteristics that equipment area is little, increase the countershaft simultaneously and also can replace the trouble that needs put into robot or arm in the partial automated production on walking the heart machine.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the heart walking machine of the present invention.

Fig. 2 is a schematic structural view of the spare shaft mechanism of the present invention.

Fig. 3 is a schematic structural view of the spare shaft mechanism of the present invention.

Fig. 4 is a schematic structural view of the spare shaft mechanism of the present invention.

Fig. 5 is a schematic structural view of the spare shaft mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

A spare shaft mechanism based on a core moving machine is applied to the core moving machine 1, and a spare shaft mechanism 2 is fixed on the side surface of the core moving machine 1, as shown in figure 1;

the spare shaft mechanism 2 comprises a lathe bed support 3, a lathe bed 4 and a box body support 5, wherein the lathe bed support 3 is vertically fixed on the side surface of the walking machine 1, as shown in figures 2-5;

specifically, the section of the bed body support 3 is trapezoidal, the side surface of the bed body support 3 is fixed on the side surface of the core walking machine 1 through a fixing block 202, and the fixing block 202 is fixed on the side surface of the core walking machine 1 through bolts;

a lathe bed 4 is fixed on the lathe bed support 3, a first servo motor 401 is fixedly installed at one end of the lathe bed 4, a ball screw 402 is fixed at the output end of the first servo motor 401, the ball screw 402 penetrates through the end face of the lathe bed 4, and a ball linear guide rail 403 is fixed on the end face of the lathe bed support 3;

a motor base 404 is fixed at one end of the lathe bed support 3 through a motor base mounting plate 405, and a first servo motor 401 is fixedly mounted in the motor base 404;

the box body support 5 is slidably mounted on the side surface of the lathe bed 4, and an auxiliary main shaft 6 is fixedly mounted on the end surface of the box body support 5;

specifically, a support table 502 is fixedly mounted on one surface of the box support 5, a first slider 501 and a second slider 503 are fixed on the other surface, and an adjusting plate 504 is fixed on the bottom surface, wherein the first slider 501 is in sliding fit with the ball linear guide rail 403, and the second slider 503 is in sliding fit with the ball screw 402;

specifically, the end face of the box body support 5 is fixedly provided with an auxiliary main shaft box body 601, a transmission box 602 is fixedly arranged on the side surface of the auxiliary main shaft box body 601, and the auxiliary main shaft 6 is fixedly arranged in the auxiliary main shaft box body 601 and the transmission box 602;

it should be noted that one end of the auxiliary main shaft 6 is fixedly provided with an automatic stacking and blowing mechanism 7;

specifically, an extension plate 505 is fixed to a side surface of the sub spindle case 601, and a second servo motor 506 is fixed to the extension plate 505;

the second servo motor 506 is used to control the sub spindle 6;

specifically, the transmission case 602 comprises a first square frame 507 and a second square frame 508, the first square frame 507 and the second square frame 508 are connected through a strip-shaped plate 509, and a clamping piece 7 is fixedly mounted on the strip-shaped plate 509;

furthermore, the clamping member 7 is a U-shaped frame, the end portions of the clamping member 7 are connected through bolts, the inner surfaces of the two opposite side walls are respectively fixed to the cylindrical protrusions, and the two cylindrical protrusions arranged oppositely are used for clamping and fixing the auxiliary main shaft 6.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (6)

1. A standby shaft mechanism based on a walking machine is applied to the walking machine (1), and a standby shaft mechanism (2) is fixed on the side surface of the walking machine (1), and is characterized in that the standby shaft mechanism (2) comprises a machine body support (3), a machine body (4) and a box body support (5), wherein the machine body support (3) is vertically fixed on the side surface of the walking machine (1);

a lathe bed (4) is fixed on the lathe bed support (3), a first servo motor (401) is fixedly mounted at one end of the lathe bed (4), a ball screw (402) is fixed at the output end of the first servo motor (401), the ball screw (402) penetrates through the end face of the lathe bed (4), and a ball linear guide rail (403) is fixed on the end face of the lathe bed support (3);

a motor base (404) is fixed at one end of the lathe bed support (3) through a motor base mounting plate (405), and a first servo motor (401) is fixedly mounted in the motor base (404);

the box body support (5) is slidably mounted on the side surface of the machine body (4), and an auxiliary main shaft (6) is fixedly mounted on the end surface of the box body support (5).

2. A spare shaft mechanism based on a walking machine according to claim 1, characterized in that: the cross section of the lathe bed support (3) is trapezoidal, the lathe bed support (3) is fixed on the side surface of the core walking machine (1) through a fixing block (202), and the fixing block (202) is fixed on the side surface of the core walking machine (1) through a bolt.

3. A spare shaft mechanism based on a walking machine according to claim 1, characterized in that: a support table (502) is fixedly arranged on one surface of the box body support (5), a first slide block (501) and a second slide block (503) are fixed on the other surface of the box body support, and an adjusting plate (504) is fixed on the bottom surface of the box body support;

the first sliding block (501) is in sliding fit with the ball linear guide rail (403), and the second sliding block (503) is in sliding fit with the ball screw (402).

4. A spare shaft mechanism based on a walking machine according to claim 1, characterized in that: an auxiliary main shaft box body (601) is fixed on the end face of the box body support (5), a transmission case (602) is fixed on the side surface of the auxiliary main shaft box body (601), and an auxiliary main shaft (6) is fixedly installed in the auxiliary main shaft box body (601) and the transmission case (602).

5. A spare shaft mechanism based on a walking machine according to claim 4, characterized in that: an extension plate (505) is fixed on the side surface of the auxiliary spindle box body (601), and a second servo motor (506) is fixed on the extension plate (505).

6. A spare shaft mechanism based on a walking machine according to claim 4, characterized in that: the transmission case (602) comprises a first square frame (507) and a second square frame (508), the first square frame (507) and the second square frame (508) are connected through a strip-shaped plate (509), and a clamping piece (7) is fixedly mounted on the strip-shaped plate (509);

the clamping piece (7) is a U-shaped frame, the end parts of the clamping piece (7) are connected through bolts, the inner surfaces of the two opposite side walls are respectively fixed to the cylindrical bulges, and the two cylindrical bulges arranged oppositely are used for clamping and fixing the auxiliary main shaft (6).

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