CN217493542U - Section bar loading attachment of cutting machine - Google Patents

Abstract

The utility model relates to a section bar cutting technical field, in particular to section bar loading attachment of cutting machine, it including the lathe body, can pile up the section bar and can drive the section bar and be elevating movement's section bar lifting unit and can carry the section bar on the section bar lifting unit to the module is transferred to the section bar on the lathe body. Use the utility model discloses the time, the autoloading of section bar can be realized to this structure, greatly improves the efficiency of section bar material loading to the limit, reduces intensity of labour, reduces the potential safety hazard.

Description

Section bar loading attachment of cutting machine

Technical Field

The utility model relates to a section bar cutting technical field, in particular to section bar loading attachment of cutting machine.

Background

The cutting machine is used for cutting a long plate into materials with specified specifications, manual feeding is generally adopted in the conventional cutting machine, and because the length of the plate is long and the weight of the plate is heavy, two persons are generally required to respectively lift the plate at two ends of the plate and then put the plate into the cutting machine; the feeding efficiency is low, the labor intensity is high, and great potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an efficient cutting machine section bar loading attachment to prior art's defect and not enough.

In order to achieve the above object, the utility model adopts the following technical scheme:

a section bar loading attachment of cutting machine, it including the lathe body, can pile up the section bar and can drive the section bar and be elevating movement's section bar lifting means and can carry the section bar on the section bar lifting means to the module is transferred to the section bar on the lathe body.

Furthermore, the section lifting assembly comprises a third fixing plate fixed on the machine tool body, a section lifting guide shaft fixed on the third fixing plate, a section lifting guide sleeve connected with the section lifting guide shaft in a sliding manner and a section supporting plate fixed on the section lifting guide sleeve; and a lifting module used for lifting the section bar supporting plate is arranged on the third fixing plate.

Furthermore, the lifting module consists of a through screw motor and a second screw; the second screw rod is connected to the third fixing plate; the nut of the penetrating type screw rod motor is in threaded connection with the second screw rod; the penetrating screw motor is fixed on the section bar supporting plate.

Further, the section transferring module consists of two transferring assemblies respectively arranged at two ends of the machine tool body; the transfer assembly comprises a first fixing plate fixed on the machine tool body, a transfer motor with one end fixed on the first fixing plate, a first screw rod rotationally connected to the first fixing plate and a transfer nut in threaded connection with the first screw rod; the other end of the transfer motor is fixedly connected with the first screw rod; a first sliding plate is fixed on the transfer nut; the first sliding plate is in sliding connection with a first guide rail fixed on the first fixing plate; a lateral pressure cylinder is fixed on the first sliding plate; and a side pressure plate is fixed on the side pressure cylinder.

Furthermore, a plurality of profile supporting assemblies capable of ascending and descending are arranged on the machine tool body.

Furthermore, the section bar supporting assembly comprises a roller bracket, a roller lifting cylinder and a second fixing plate fixed on the machine tool body; the roller bracket is provided with a supporting roller; a roller guide sleeve is fixed on the second fixing plate; a roller guide shaft capable of sliding in the roller guide sleeve is fixed on the roller bracket; one end of the roller lifting cylinder is fixed on the second fixing plate; the other end of the roller lifting cylinder is fixed on the roller bracket.

Further, a section material arranging module and a plurality of roller supporting modules are arranged on the machine tool body; the roller supporting modules are arranged along the length direction of the machine tool body; the section material arranging component comprises a fourth fixing plate fixed on the machine tool body, a sliding cover guide rail fixed on the fourth fixing plate, a sliding cover connected on the sliding cover guide rail in a sliding way, and an arranging cylinder with one end fixed on the fourth fixing plate; the other end of the material arranging cylinder is fixed on the sliding cover; the sliding cover is provided with a material arranging roller; the roller supporting module comprises a roller guide sleeve and a roller jacking cylinder which are fixed on the machine tool body; a roller lifting shaft is connected in the roller guide sleeve in a sliding manner; a roller connecting plate is fixed at the top end of the roller lifting shaft; a plurality of rollers are arranged on the roller connecting plate along the feeding direction of the transfer component; and the piston rod end of the roller jacking cylinder is fixed on the second fixing plate.

After the structure is adopted, the utility model discloses beneficial effect does: a section bar loading attachment of cutting machine, it including the lathe body, can pile up the section bar and can drive the section bar and be elevating movement's section bar lifting means and can carry the section bar on the section bar lifting means to the section bar on the lathe body and transfer the module. When the utility model is used, a plurality of sectional materials are stacked on the sectional material lifting component in advance, and the sectional material lifting component can enable the sectional material at the topmost part to be always at the same height; the section transfer module conveys a section at the topmost part of the section lifting assembly to the machine tool body; the automatic feeding of section bar can be realized to this structure, greatly improves the efficiency of section bar material loading, reduces intensity of labour, reduces the potential safety hazard.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the transfer assembly;

FIG. 3 is a schematic structural view of a profile support assembly;

FIG. 4 is a schematic structural view of a profile lifting assembly;

FIG. 5 is a schematic structural view of a profile monolith assembly;

description of reference numerals:

1. a machine tool body;

2. a transfer assembly; 201. a transfer motor; 202. transferring the nut; 203. a first sliding plate;

204. a first lead screw; 205. side pressing plates; 206. a lateral pressure cylinder; 207. a first fixing plate;

208. a first guide rail;

3. a profile support assembly; 301. a second fixing plate; 302. a roller connecting plate; 303. a roller;

304. a roller jacking cylinder; 305. a support roller; 306. a roller support;

307. a roller guide sleeve; 308. a roller guide shaft; 309. a roller lifting cylinder;

3010. a roller guide sleeve; 3011. a roller lifting shaft;

4. a profile lifting assembly; 401. a third fixing plate; 402. a profile lifting guide shaft;

403. a profile lifting guide sleeve; 404. a second lead screw; 405. a through screw motor;

406. a profile support plate;

5. a profile conditioning assembly; 501. a material arranging cylinder; 502. a material distributing roller; 503. a sliding cover;

504. a fourth fixing plate; 505. a slide guide rail; A. and (3) a section bar.

Detailed Description

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

As shown in fig. 1, the section material loading device of the cutting machine of the present invention comprises a machine tool body 1, a section material lifting assembly 4 capable of stacking a section material a and driving the section material a to move up and down, and a section material transferring module capable of transferring the section material a on the section material lifting assembly 4 to the machine tool body 1; a plurality of sectional materials A are stacked on the sectional material lifting assembly 4 in advance, and the sectional material lifting assembly 4 can enable one sectional material A at the topmost part to be always at the same height; the section transferring module conveys the topmost section A on the section lifting assembly 4 to the machine tool body 1; the automatic feeding device can realize automatic feeding of the section A, greatly improves the section feeding efficiency, reduces the labor intensity and reduces the potential safety hazard.

As shown in fig. 4, as a preferred embodiment of the present invention, the profile lifting assembly 4 includes a third fixing plate 401 fixed on the machine tool body 1, a profile lifting guide shaft 402 fixed on the third fixing plate 401, a profile lifting guide sleeve 403 slidably connected to the profile lifting guide shaft 402, and a profile supporting plate 406 fixed on the profile lifting guide sleeve 403; a lifting module for lifting the profile supporting plate 406 is arranged on the third fixing plate 401; the profile a is placed on the profile support plate 406, and after the lifting module is started, the profile support plate 406 is driven to ascend along the profile lifting guide shaft 402, so that the profile a is lifted by a certain height.

As a preferred mode of the present invention, the lifting module comprises a through screw motor 405 and a second screw 404; the second lead screw 404 is connected to the third fixing plate 401; the nut of the through screw motor 405 is in threaded connection with the second screw 404; the through-type lead screw motor 405 is not essentially different from the prior art, and thus is not described in detail; a through screw motor 405 is fixed on the profile support plate 406; after the through screw motor 405 is started, the nut rotates on the second screw 404, and the through screw motor 405 and the profile support plate 406 perform lifting movement along the profile lifting guide shaft 402 together.

As shown in fig. 2, as a preferred mode of the present invention, the profile transfer module is composed of two transfer assemblies 2 respectively disposed at two ends of the machine tool body 1; the transfer assembly 2 comprises a first fixing plate 207 fixed on the machine tool body 1, a transfer motor 201 with one end fixed on the first fixing plate 207, a first screw rod 204 rotationally connected on the first fixing plate 207 and a transfer nut 202 in threaded connection with the first screw rod 204; the other end of the transferring motor 201 is fixedly connected with a first screw rod 204; a first sliding plate 203 is fixed to the transfer nut 202; the first sliding plate 203 is slidably connected to a first guide rail 208 fixed to a first fixing plate 207; a side pressure cylinder 206 is fixed on the first sliding plate 203; a side pressure plate 205 is fixed on the side pressure cylinder 206; the sectional material lifting assembly 4 lifts the topmost sectional material A between the two side pressure plates 205, the two side pressure cylinders 206 push the two side pressure plates 205 to move, and the topmost sectional material A is clamped and fixed; the transfer motor 201 is started to drive the first screw 204 to rotate, so that the first sliding plate 203 moves to convey a section a from the section lifting assembly 4 to the machine tool body 1.

As an optimal mode of the present invention, a plurality of liftable section bar supporting assemblies 3 are arranged on the machine tool body 1.

As shown in fig. 3, as a preferred mode of the present invention, the section bar supporting assembly 3 includes a roller bracket 306, a roller lifting cylinder 309, and a second fixing plate 301 fixed on the machine tool body 1; the roller bracket 306 is provided with a supporting roller 305; a roller guide sleeve 307 is fixed on the second fixing plate 301; a roller guide shaft 308 capable of sliding in a roller guide sleeve 307 is fixed on the roller bracket 306; one end of a roller lifting cylinder 309 is fixed on the second fixing plate 301; the other end of the roller lifting cylinder 309 is fixed on the roller bracket 306; after the roller lifting cylinder 309 is started, the supporting rollers 305 on the roller bracket 306 are driven to move up and down, so that the top surfaces of the supporting rollers 305 are positioned on the same horizontal plane, and the levelness of the section bar A is ensured.

As shown in fig. 5, as a preferred mode of the present invention, a section material monolith assembly 5 and a plurality of roller support modules are provided on the machine tool body 1; the roller supporting modules are arranged along the length direction of the machine tool body 1; the section material monolith component 5 comprises a fourth fixing plate 504 fixed on the machine tool body 1, a sliding cover guide rail 505 fixed on the fourth fixing plate 504, a sliding cover 503 connected on the sliding cover guide rail 505 in a sliding way, and a monolith cylinder 501 with one end fixed on the fourth fixing plate 504; the other end of the material arranging cylinder 501 is fixed on a sliding cover 503; a slide cover 503 is provided with a monolith roller 502; the roller supporting module comprises a roller guide sleeve 3010 fixed on the machine tool body 1 and a roller jacking cylinder 304; a roller lifting shaft 3011 is connected in the roller guide sleeve 3010 in a sliding manner; a roller connecting plate 302 is fixed at the top end of the roller lifting shaft 3011; a plurality of rollers 303 are arranged on the roller connecting plate 302 along the feeding direction of the transfer component 2; the piston rod end of the roller jacking cylinder 304 is fixed on the roller connecting plate 302; after the section A enters the machine tool body 1, the roller jacking cylinder 304 is started to drive the roller 303 on the roller connecting plate 302 to ascend to the surface of the roller 303 to lift the section A; the monolith cylinder 501 drives the sliding cover 503 to slide along the sliding cover guide rail 505, and the monolith roller 502 pushes the profile A on the surface of the roller 303 to move, so that the profile A is attached to a reference side baffle on the machine tool body 1, and the profile A is positioned in the transverse direction of the machine tool body 1.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

A plurality of profile lifting assemblies 4 are arranged on the machine tool body 1, and each profile lifting assembly 4 comprises a profile lifting guide shaft 402 fixed on a third fixing plate 401, a profile lifting guide sleeve 403 connected with the profile lifting guide shaft 402 in a sliding manner, and a profile supporting plate 406 fixed on the profile lifting guide sleeve 403; a penetrating screw rod motor 405 is fixed at the bottom of the section bar supporting plate 406, and a second screw rod 404 is connected to the third fixing plate 401 and is in threaded connection with a nut on the penetrating screw rod motor 405;

two transfer assemblies 2 are arranged at two ends of the machine tool body 1; the transfer assembly 2 comprises a first fixing plate 207 fixed on the machine tool body 1, a transfer motor 201 with one end fixed on the first fixing plate 207, a first screw rod 204 rotationally connected on the first fixing plate 207 and a transfer nut 202 screwed on the first screw rod 204; the other end of the transferring motor 201 is fixedly connected with a first screw rod 204; a first sliding plate 203 is fixed to the transfer nut 202; the first sliding plate 203 is slidably connected to a first guide rail 208 fixed to a first fixing plate 207; a side pressure cylinder 206 is fixed on the first sliding plate 203; a side pressure plate 205 is fixed on the side pressure cylinder 206;

a plurality of sectional material supporting components 3 capable of ascending and descending are arranged on the machine tool body 1; the section bar supporting component 3 comprises a roller bracket 306, a roller lifting cylinder 309 and a second fixing plate 301 fixed on the machine tool body 1; the roller bracket 306 is provided with a supporting roller 305; a roller guide sleeve 307 is fixed on the second fixing plate 301; a roller guide shaft 308 capable of sliding in a roller guide sleeve 307 is fixed on the roller bracket 306; one end of a roller lifting cylinder 309 is fixed on the second fixing plate 301; the other end of the roller lifting cylinder 309 is fixed on the roller bracket 306;

the machine tool body 1 is provided with a section material arranging component 5 and a plurality of roller supporting modules; the roller supporting modules are arranged along the length direction of the machine tool body 1; the section material monolith component 5 comprises a fourth fixed plate 504 fixed on the machine tool body 1, a sliding cover guide rail 505 fixed on the fourth fixed plate 504, a sliding cover 503 connected on the sliding cover guide rail 505 in a sliding way, and a monolith cylinder 501 with one end fixed on the fourth fixed plate 504; the other end of the material arranging cylinder 501 is fixed on a sliding cover 503; a slide cover 503 is provided with a monolith roller 502; the roller supporting module comprises a roller guide sleeve 3010 fixed on the machine tool body 1 and a roller jacking cylinder 304; a roller lifting shaft 3011 is connected in the roller guide sleeve 3010 in a sliding manner; a roller connecting plate 302 is fixed at the top end of the roller lifting shaft 3011; a plurality of rollers 303 are arranged on the roller connecting plate 302 along the feeding direction of the transfer component 2; the piston rod end of the roller jacking cylinder 304 is fixed on the roller connecting plate 302; the axis of the roller jacking cylinder 304 is perpendicular to the axis of the support roller 305.

The working principle is as follows: the profile is firstly stacked on the profile supporting plate, then the penetrating screw rod motor is started to drive the profile on the profile supporting plate to rise, the topmost profile rises to be aligned with the side pressing plates, the two side pressing cylinders extend out, the two ends of the profile are clamped and fixed through the two side pressing cylinders, the transfer motor drives the first screw rod to rotate, the first sliding plate is pushed out to one side of the machine tool body and is placed on the supporting roller; the roller jacking cylinder drives the roller connecting plate to ascend, so that the roller supports the section bar and is separated from the supporting roller, the material arranging cylinder drives the sliding cover to slide along the sliding cover guide rail, the material arranging roller pushes the section bar on the surface of the roller to move, the section bar is attached to the reference side baffle on the machine tool body, and the section bar is positioned in the transverse direction of the machine tool body.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (5)

1. The utility model provides a section bar loading attachment of cutting machine which characterized in that: the machine tool comprises a machine tool body (1), a section lifting assembly (4) and a section transferring module, wherein the section lifting assembly (4) can stack sections (A) and can drive the sections (A) to do lifting motion, and the section transferring module can convey the sections (A) on the section lifting assembly (4) to the machine tool body (1); the section lifting assembly (4) comprises a third fixing plate (401) fixed on the machine tool body (1), a section lifting guide shaft (402) fixed on the third fixing plate (401), a section lifting guide sleeve (403) in sliding connection with the section lifting guide shaft (402) and a section supporting plate (406) fixed on the section lifting guide sleeve (403); a lifting module used for lifting the profile supporting plate (406) is arranged on the third fixing plate (401); the section transferring module consists of two transferring assemblies (2) which are respectively arranged at two ends of the machine tool body (1); the transfer assembly (2) comprises a first fixing plate (207) fixed on the machine tool body (1), a transfer motor (201) with one end fixed on the first fixing plate (207), a first screw rod (204) rotatably connected to the first fixing plate (207) and a transfer nut (202) in threaded connection with the first screw rod (204); the other end of the transferring motor (201) is fixedly connected with a first screw rod (204); a first sliding plate (203) is fixed on the transfer nut (202); the first sliding plate (203) is in sliding connection with a first guide rail (208) fixed on a first fixing plate (207); a lateral pressure cylinder (206) is fixed on the first sliding plate (203); a side pressure plate (205) is fixed on the side pressure cylinder (206).

2. The section feeding device of a cutting machine according to claim 1, characterized in that: the lifting module consists of a through screw motor (405) and a second screw (404); the second screw rod (404) is connected to the third fixing plate (401); and a nut of the through screw rod motor (405) is in threaded connection with the second screw rod (404).

3. The section feeding device of a cutting machine according to claim 1, characterized in that: a plurality of profile supporting assemblies (3) capable of ascending and descending are arranged on the machine tool body (1).

4. The section feeding device of a cutting machine according to claim 3, characterized in that: the section bar supporting component (3) comprises a roller bracket (306), a roller lifting cylinder (309) and a second fixing plate (301) fixed on the machine tool body (1); a supporting roller (305) is arranged on the roller bracket (306); a roller guide sleeve (307) is fixed on the second fixing plate (301); a roller guide shaft (308) capable of sliding in a roller guide sleeve (307) is fixed on the roller bracket (306); one end of a roller lifting cylinder (309) is fixed on the second fixing plate (301); the other end of the roller lifting cylinder (309) is fixed on the roller bracket (306).

5. The section feeding device of a cutting machine according to claim 1, characterized in that: a section material arranging component (5) and a plurality of roller supporting modules are arranged on the machine tool body (1); the roller supporting modules are arranged along the length direction of the machine tool body (1); the section material monolith component (5) comprises a fourth fixing plate (504) fixed on the machine tool body (1), a sliding cover guide rail (505) fixed on the fourth fixing plate (504), a sliding cover (503) connected to the sliding cover guide rail (505) in a sliding way, and a monolith cylinder (501) with one end fixed on the fourth fixing plate (504); the other end of the material arranging cylinder (501) is fixed on a sliding cover (503); a monolith roller (502) is arranged on the sliding cover (503); the roller supporting module comprises a roller guide sleeve (3010) fixed on the machine tool body (1) and a roller jacking cylinder (304); a roller lifting shaft (3011) is connected in the roller guide sleeve (3010) in a sliding way; a roller connecting plate (302) is fixed at the top end of the roller lifting shaft (3011); a plurality of rollers (303) are arranged on the roller connecting plate (302) along the feeding direction of the transfer component (2); and the piston rod end of the roller jacking cylinder (304) is fixed on the roller connecting plate (302).

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