CN219542491U - High life stable form numerical control metal cutting machine tool - Google Patents

Abstract

The utility model provides a high-service-life stable numerical control metal cutting machine tool, which relates to the technical field of lathes and comprises an integral structure and a collecting structure, wherein the collecting structure is arranged in the integral structure; the integrated structure comprises a body, wherein a first sliding block is slidably connected to one side of the inner surface of the rear side of the body, and a second sliding block is slidably connected to the other side of the inner surface of the rear side of the body, which is close to the bottom.

Description

High life stable form numerical control metal cutting machine tool

Technical Field

The utility model relates to the technical field of lathes, in particular to a high-service-life stable numerical control metal cutting machine tool.

Background

The lathe is mainly used for machining shafts, discs, sleeves and other workpieces with rotating surfaces, is the most widely used machine tool in machinery manufacturing and repairing factories, and in the early twentieth century, a lathe with a gear box driven by a single motor is appeared, and after the first world war, various efficient automatic lathes and specialized lathes are rapidly developed due to the requirements of the munition, automobiles and other mechanical industries.

When the existing metal cutting machine tool processes metal materials, a large amount of scrap is generated on the table surface of the workbench, and if the scrap is not cleaned in time, the scrap can be accumulated on the surface of the workbench, so that the work of the subsequent cutting machine tool can be influenced.

Disclosure of Invention

The utility model aims to solve the problem that in the prior art, when a metal cutting machine tool processes metal materials, a large amount of scrap is generated on the table surface of a working table, so that if the scrap is not cleaned in time, the scrap can be accumulated on the surface of the working table, and further the working of a subsequent cutting machine tool can be influenced.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the long-life stable numerical control metal cutting machine tool comprises an integral structure and a collecting structure, wherein the collecting structure is arranged in the integral structure;

the integrated structure comprises a body, one side of the inner surface of the rear side of the body is close to the top and is slidingly connected with a first sliding block, the other side of the inner surface of the rear side of the body is close to the bottom and is slidingly connected with a second sliding block, one side of the inner surface of the front side of the body is close to the top and is slidingly connected with a first rack, the other side of the inner surface of the front side of the body is close to the bottom and is slidingly connected with a second rack, the opposite sides of the first sliding block and the first rack are fixedly connected with a first cleaning piece, the opposite sides of the second sliding block and the second rack are fixedly connected with a second cleaning piece, and the center of the outer surface of the front side of the body is rotationally connected with a rotating shaft.

Preferably, the motor is fixedly arranged at the position of the front outer surface of the body, which is located on the rotating shaft, and the gear is fixedly connected with the rear end surface of the rotating shaft and is meshed with the first rack and the second rack.

Preferably, one end of the rotating shaft penetrates through the surface of the body and is fixedly connected with the driving end of the motor, and the other end of the rotating shaft is fixedly connected with the outer surface of the front side of the gear.

Preferably, a flow guide piece is fixedly connected to the center of the inner top of the body.

Preferably, the collecting structure comprises a groove, a collecting box is slidably connected to the center of the inner bottom of the groove, and a third sliding block is slidably connected to the inner surfaces of the two sides of the groove close to the bottom.

Preferably, electric telescopic rods are fixedly arranged at the positions, close to the bottoms, of the two sides of the inner surface of the rear side of the groove, the extending ends of the electric telescopic rods are fixedly connected with the outer surfaces of the rear side of the third sliding block, and the outer surfaces of the third sliding block are fixedly connected with the outer surfaces of the two sides of the collecting box.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. in the utility model, when the rotation shaft rotates through the motor, the gear can be driven to rotate together, the first rack and the second rack which are meshed with the gear can move left and right in a small amplitude with powerful power, and when the first rack and the second rack can move, the first cleaning piece, the second cleaning piece, the first sliding block and the second sliding block are driven to move together, so that the first cleaning piece and the second cleaning piece can clean the top of the body back and forth, and further, the chips are cleaned into the guide piece, and the situation of excessive accumulation is avoided.

2. According to the utility model, the scraps and the scraps are conveyed through the guide piece and finally conveyed into the collecting box, the collecting box is arranged, the collection of the scraps and the scraps by a user is facilitated, after the collection is finished, the electric telescopic rod starts to extend, the third sliding block can be pushed to move, and when the third sliding block can move, the collecting box is driven to move together, the collecting box can be moved out, and further, the labor force of the user can be reduced.

Drawings

Fig. 1 is a schematic diagram of a three-dimensional structure of a numerical control metal cutting machine tool with a stable long service life;

FIG. 2 is a schematic diagram showing the rear view structure of FIG. 1 of a numerical control metal cutting machine tool with a stable long service life;

FIG. 3 is a schematic cross-sectional view of FIG. 1 showing a high life stable numerical control metal cutting machine in accordance with the present utility model;

FIG. 4 is an enlarged view of FIG. 1 at A;

fig. 5 is an enlarged view at B in fig. 2.

Legend description: 1. an integral structure; 2. a collection structure; 101. a body; 102. a motor; 103. a rotation shaft; 104. a first slider; 105. a first cleaning member; 106. a second cleaning member; 107. a second slider; 108. a gear; 109. a second rack; 110. a flow guide; 111. a first rack; 201. a groove; 202. an electric telescopic rod; 203. a collection box; 204. and a third slider.

Detailed Description

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.

Embodiment 1, as shown in fig. 1-5, a high life stable numerical control metal cutting machine tool comprises a whole structure 1 and a collecting structure 2, wherein the collecting structure 2 is arranged inside the whole structure 1; the integral structure 1 comprises a body 101, a first sliding block 104 is slidingly connected to one side of the inner surface of the rear side of the body 101 close to the top, a second sliding block 107 is slidingly connected to the other side of the inner surface of the rear side of the body 101 close to the bottom, a first rack 111 is slidingly connected to one side of the inner surface of the front side of the body 101 close to the top, a second rack 109 is slidingly connected to the other side of the inner surface of the front side of the body 101 close to the bottom, a first cleaning piece 105 is fixedly connected to one side opposite to the first sliding block 104 and the first rack 111, a second cleaning piece 106 is fixedly connected to one side opposite to the second sliding block 107 and the second rack 109, and a rotating shaft 103 is rotationally connected to the center of the outer surface of the front side of the body 101.

As shown in fig. 2, fig. 4 and fig. 5, when the rotation shaft 103 can rotate, the gear 108 is driven to rotate together, so that after the gear 108 can normally rotate, the first rack 111 and the second rack 109 which are meshed with the gear 108 can move back and forth on the inner surface of the front side of the body 101 in a small amplitude, and when the first rack 111 and the second rack 109 can move, the first cleaning member 105 and the second cleaning member 106 are driven to move together, so that the first slider 104 and the second slider 107 are driven, and then the cleaning operation of the first cleaning member 105 and the second cleaning member 106 can be performed on the top surface of the body 101 back and forth.

In embodiment 2, as shown in fig. 1-5, a motor 102 is fixedly installed at a position of a front outer surface of a body 101 located on a rotating shaft 103, a gear 108 is fixedly connected to a rear end surface of the rotating shaft 103, the gear 108 is meshed with a first rack 111 and a second rack 109, one end of the rotating shaft 103 penetrates through the surface of the body 101 and is fixedly connected with a driving end of the motor 102, the other end of the rotating shaft 103 is fixedly connected with the front outer surface of the gear 108, a flow guide 110 is fixedly connected to the center of the inner top of the body 101, a collecting box 203 is slidingly connected to the center of the inner bottom of the groove 201, a third slider 204 is slidingly connected to inner surfaces of two sides of the groove 201 near the bottom, an electric telescopic rod 202 is fixedly installed at two sides of the rear inner surface of the groove 201 near the bottom, and an extending end of the electric telescopic rod 202 is fixedly connected with the rear outer surfaces of the third slider 204, and the outer surfaces of the third slider 204 are fixedly connected with the outer surfaces of two sides of the collecting box 203.

The effect achieved in the whole embodiment 2 is that the arrangement of the guide member 110 can more intensively convey the scraps and the waste materials into the collection tank 203, as shown in fig. 3, when the electric telescopic rod 202 is extended or retracted, the electric telescopic rod will drive the third sliding block 204 together, and when the third sliding block 204 can move, the third sliding block 204 will drive the collection tank 203 to move together, so that the collection tank 203 can be normally moved out.

Working principle: when the cleaning operation is needed, the motor 102 starts to run, so that the rotation shaft 103 starts to rotate, when the rotation shaft 103 can rotate, the gear 108 is driven to rotate together, then the first rack 111 and the second rack 109 which are meshed with the gear 108 can move back and forth in a small amplitude on the inner surface of the front side of the body 101, then the first rack 111 and the second rack 109 simultaneously drive the first cleaning member 105 and the second cleaning member 106 to move, then the first sliding block 104 and the second sliding block 107 are driven together, then the first cleaning member 105 and the second cleaning member 106 can clean the top surface of the body 101 back and forth, then the scrap waste is cleaned into the guide member 110, then the scrap is conveyed through the guide member 110, and finally the scrap is conveyed into the collection box 203 in a concentrated mode, after the conveying is finished, the electric telescopic rod 202 extends out, so that the third sliding block 204 can be pushed to move, and meanwhile, the collection box 203 is driven together, and when the collection box 203 moves to a certain position, then the scrap can be removed to the outside.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. A high life stable numerical control metal cutting machine, comprising:

a monolithic structure (1) and a collecting structure (2), the collecting structure (2) being arranged inside the monolithic structure (1);

the utility model provides a body (1) is including body (101), rear side internal surface one side of body (101) is close to top position sliding connection has first slider (104), rear side internal surface opposite side of body (101) is close to bottom position sliding connection has second slider (107), front side internal surface one side of body (101) is close to top position sliding connection has first rack (111), front side internal surface opposite side of body (101) is close to bottom position sliding connection has second rack (109), the opposite side fixedly connected with first clearance piece (105) of first slider (104) and first rack (111), the opposite side fixedly connected with second clearance piece (106) of second slider (107) and second rack (109), front side external surface center department rotation of body (101) is connected with rotation axis (103).

2. The life-stable numerically controlled metal cutting machine according to claim 1, wherein: the motor (102) is fixedly arranged at the position, located on the rotary shaft (103), of the front outer surface of the body (101), a gear (108) is fixedly connected to the rear end face of the rotary shaft (103), and the gear (108) is in meshed connection with the first rack (111) and the second rack (109).

3. The life-stable numerically controlled metal cutting machine according to claim 2, wherein: one end of the rotating shaft (103) penetrates through the surface of the body (101) and is fixedly connected with the driving end of the motor (102), and the other end of the rotating shaft (103) is fixedly connected with the outer surface of the front side of the gear (108).

4. The life-stable numerically controlled metal cutting machine according to claim 1, wherein: the center of the inner top of the body (101) is fixedly connected with a flow guide piece (110).

5. The life-stable numerically controlled metal cutting machine according to claim 1, wherein: the collecting structure (2) comprises a groove (201), a collecting box (203) is slidably connected to the center of the inner bottom of the groove (201), and a third sliding block (204) is slidably connected to the inner surfaces of the two sides of the groove (201) close to the bottom.

6. The life-stable numerically controlled metal cutting machine according to claim 5, wherein: electric telescopic rods (202) are fixedly mounted on two sides of the inner surface of the rear side of the groove (201) close to the bottom, the extending ends of the electric telescopic rods (202) are fixedly connected with the outer surfaces of the rear side of a third sliding block (204), and the outer surfaces of the third sliding block (204) are fixedly connected with the outer surfaces of two sides of the collecting box (203).