CN210817720U - Section bar material loading conveyer - Google Patents

Abstract

The utility model belongs to the technical field of door and window curtain wall processing equipment, in particular to a section material feeding and conveying device; the structure of the device comprises a feeding mechanism, a rack, a conveying frame, a transmission shaft, a guide rail and a transmission motor; the feeding mechanism is arranged on the guide rail, and the guide rail is arranged on the rack; the conveying frames are provided with a plurality of conveying frames, and each conveying frame comprises a synchronous belt wheel, a belt wheel plate, a profile bracket, a synchronous belt, an aluminum profile, a horizontal cylinder, a vertical cylinder, a guide rail plate, a rolling shaft, a vertical roller seat, a rotating shaft seat, a vertical roller, a horizontal roller seat and a roller shaft seat; the utility model discloses a horizontal roller, perpendicular roller snap-on make horizontal roller and perpendicular roller remain throughout into the vertical state on fixed section bar, utilize the synchronous belt to convey the position that will stop raw and other materials, perpendicular cylinder utilizes the guide shaft to make the guide rail group go up and down to target in place, recycles horizontal cylinder and makes the roller bearing compress tightly raw and other materials, makes raw and other materials be in the roll state of compressing tightly, then feeding mechanism just can utilize the guide rail to realize the pay-off.

Description

Section bar material loading conveyer

Technical Field

The utility model belongs to the technical field of door and window curtain processing equipment, concretely relates to section bar material loading conveyer.

Background

Along with the continuous development of door and window curtain processing enterprises, the requirement on door and window curtain processing equipment is also higher and higher, wherein, the cutting unloading of section bar is an important step of door and window curtain course of working, however, the horizontal roller of pay-off platform and the vertical roller of current section bar cutting machine all utilize the cylinder to realize the oscilaltion motion. Once the air supply is insufficient, the situation that the horizontal roller cannot lift to the place occurs; moreover, the vertical roller also moves up and down, so that the stability of the vertical roller is poor when the vertical roller is lifted up and down, and the vertical roller is not vertical to the horizontal roller; therefore, the section material loading and conveying device capable of ensuring that raw materials are not deformed in the feeding process has a good application prospect.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an invention aim at overcome the shortcoming that prior art exists, propose design a section bar material loading conveyer to solve among the prior art because the horizontal roller that appears when atmospheric pressure is unstable goes up and down not to the position condition, and because vertical roller oscilaltion motion, poor stability when causing vertical roller oscilaltion appears vertical roller and the problem of horizontal roller out of plumb.

The utility model relates to a section material feeding and conveying device, which comprises a main body structure, a feeding mechanism, a frame, a conveying frame, a transmission shaft, a guide rail and a transmission motor; the feeding mechanism is arranged on the guide rail, and the guide rail is arranged on the rack; the conveying frames are provided with a plurality of conveying frames, and each conveying frame comprises a synchronous belt wheel, a belt wheel plate, a profile bracket, a synchronous belt, an aluminum profile, a horizontal cylinder frame, a vertical cylinder frame, a guide rail plate, a guide rail sliding block pair, a rolling shaft, a vertical roller seat, a rotating shaft seat, a vertical roller, a horizontal roller seat and a rolling shaft seat; each conveying frame is fixedly connected above the rack through the horizontal parts of the two L-shaped section bar brackets; the vertical part of the section bar bracket is fixedly connected with the section bar; the aluminum profile is perpendicular to the guide rail, and two ends of the aluminum profile are fixedly provided with belt wheel plates; synchronous belt pulleys are rotatably connected to the belt pulley plates at the two ends of the aluminum profile; a synchronous belt is arranged on the synchronous belt wheel; the aluminum profile is positioned on the inner side of the synchronous belt; the synchronous belt wheel of each conveying frame, which is close to the guide rail, is connected with the transmission shaft through the rotating shaft seat; the transmission shaft is in transmission connection with the transmission motor; the horizontal roller is connected to the aluminum profile through a horizontal roller seat; the vertical roller is connected to the aluminum profile through a vertical roller seat; the horizontal roller and the vertical roller are respectively positioned on two sides of the aluminum profile; an L-shaped vertical cylinder frame is fixedly arranged on the aluminum profile; the lower part of the horizontal part of the vertical cylinder frame is fixedly connected with the vertical cylinder; the output end of the vertical cylinder penetrates through the center of the vertical cylinder frame and is fixedly connected with the guide rail plate; a horizontal cylinder frame is vertically arranged on one side of the guide rail plate, which is far away from the vertical roller; a horizontal cylinder is fixedly connected to the horizontal cylinder frame; the output end of the horizontal cylinder penetrates through the horizontal cylinder frame to be fixedly connected with the guide rail sliding block pair; the guide rail sliding block pair is arranged on the guide rail plate and is relatively connected with the guide rail plate in a sliding manner; the upper surface of the guide rail sliding block pair is fixedly connected with the rolling shaft through a rolling shaft seat.

Furthermore, two linear bearings are arranged on the vertical cylinder frame; the two linear bearings are respectively positioned at two sides of the vertical cylinder; guide shafts are sleeved in the two linear bearings; the top end of the guide shaft is fixedly connected with the guide rail plate; the vertical cylinder acts and the guide shaft moves up and down in the linear bearing to lift the guide rail plate in place.

Compared with the prior art, the utility model, have following advantage: the utility model discloses a horizontal roller, perpendicular roller snap-on make horizontal roller and perpendicular roller remain throughout into the vertical state on fixed section bar, utilize the hold-in range to stop after conveying the position that will stop to the raw and other materials that will process of hold-in range, perpendicular cylinder utilizes the guide shaft to make guide rail set go up and down to target in place, recycles horizontal cylinder and makes the roller bearing compress tightly raw and other materials, makes raw and other materials be in the roll state of compressing tightly, then feeding mechanism just can utilize the guide rail to realize the pay-off.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of a portion of the structure of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure of the conveying frame of the present invention;

fig. 4 is an enlarged view of a portion of the structure of fig. 3 according to the present invention;

the device comprises a feeding mechanism 1, a rack 2, a conveying frame 3, a transmission shaft 4, a guide rail 5, a transmission motor 6, a synchronous pulley 7, a pulley plate 8, a section bar support 9, a synchronous belt 10, an aluminum section bar 11, a horizontal cylinder 12, a horizontal cylinder frame 13, a vertical cylinder 14, a vertical cylinder frame 15, a guide rail plate 16, a guide shaft 17, a guide rail slider pair 18, a linear bearing 19, a rolling shaft 20, a vertical rolling shaft seat 21, a rotating shaft seat 22, a vertical rolling shaft 23, a horizontal rolling shaft 24, a horizontal rolling shaft seat 25 and a rolling shaft seat 26.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

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

Example 1:

the main structure of the section material loading and conveying device in this embodiment includes a feeding mechanism 1, a frame 2, a conveying frame 3, a transmission shaft 4, a guide rail 5, and a transmission motor 6; the feeding mechanism 1 is arranged on a guide rail 5, and the guide rail 5 is arranged on the rack 2; the conveying frame 3 comprises six conveying frames, and each conveying frame 3 comprises a synchronous belt wheel 7, a belt wheel plate 8, a profile bracket 9, a synchronous belt 10, an aluminum profile 11, a horizontal cylinder 12, a horizontal cylinder frame 13, a vertical cylinder 14, a vertical cylinder frame 15, a guide rail plate 16, a guide rail sliding block pair 18, a rolling shaft 20, a vertical roller base 21, a rotating shaft base 22, a vertical roller 23, a horizontal roller 24, a horizontal roller base 25 and a roller shaft base 26; each conveying frame 3 is fixedly connected above the frame 2 through the horizontal parts of two L-shaped section bar brackets 9; the vertical part of the section bar bracket 9 is fixedly connected with an aluminum section bar 11; the aluminum profile 11 is perpendicular to the guide rail 5, and the two ends of the aluminum profile are fixedly provided with the pulley plates 8; the belt pulley plates 8 at the two ends of the aluminum profile 11 are rotatably connected with synchronous belt pulleys 7; a synchronous belt 10 is arranged on the synchronous belt wheel 7; the aluminum profile 11 is positioned at the inner side of the synchronous belt 10; the synchronous belt wheel 7 of each conveying frame 3 close to the guide rail 5 is connected with the transmission shaft 4 through the rotating shaft seat 22; the transmission shaft 4 is in transmission connection with a transmission motor 6; the horizontal roller 24 is connected to the aluminum profile 11 through a horizontal roller seat 25; the vertical roller 23 is connected to the aluminum profile 11 through a vertical roller seat 21; the horizontal roller 24 and the vertical roller 23 are respectively positioned at two sides of the aluminum profile 11; an L-shaped vertical cylinder frame 15 is fixedly arranged on the aluminum profile 11; the lower part of the horizontal part of the vertical cylinder frame 15 is fixedly connected with the vertical cylinder 14; the output end of the vertical cylinder 14 passes through the center of the vertical cylinder frame 15 and is fixedly connected with the guide rail plate 16; a horizontal cylinder frame 13 is vertically arranged on one side of the guide rail plate 16 far away from the vertical roller 23; a horizontal cylinder 12 is fixedly connected to the horizontal cylinder frame 13; the output end of the horizontal cylinder 12 passes through the horizontal cylinder frame 13 and is fixedly connected with the guide rail sliding block pair 18; the guide rail sliding block pair 18 is arranged on the guide rail plate 16 and is relatively connected with the guide rail plate 16 in a sliding manner; the upper surface of the guide rail sliding block pair 18 is fixedly connected with the roller 20 through a roller seat 26.

The vertical cylinder frame 15 of the present embodiment is provided with two linear bearings 19; two linear bearings 19 are respectively positioned on two sides of the vertical cylinder 14; the two linear bearings 19 are sleeved with guide shafts 17; the top end of the guide shaft 17 is fixedly connected with the guide rail plate 16; the vertical cylinder 14 is operated and the guide shaft 17 is moved up and down in the linear bearing 19 to raise the guide rail plate 16 to a proper position.

The vertical cylinder frame 15 and the vertical roller 23 are positioned on the same side of the aluminum profile 11.

The working principle is as follows:

the conveying device described in the embodiment has 6 conveying frames, the horizontal roller 24 and the vertical roller 23 of each conveying frame are respectively adjusted to the coplanar requirement, then the raw material is placed on the synchronous belt 10, the synchronous belt 10 runs by the synchronous belt wheel 7 on the belt wheel plate 8, the synchronous belt wheel 7 is connected with the transmission shaft 4 through the rotating shaft seat 22 and is driven by the transmission motor 6 to run, and the synchronous belt 10 drives the raw material to stop at the horizontal roller 24 and the vertical roller 23, so that the horizontal planes of the raw material are in the same plane; meanwhile, the vertical surfaces of the raw materials can be positioned on the same plane, so that the horizontal and vertical deformation caused by the self weight of the raw materials is reduced; then a vertical cylinder 14 arranged on a vertical cylinder frame 15 on the aluminum profile 11 acts, and a guide shaft 17 moves up and down in a linear bearing 19 to enable a guide rail plate 16 to be lifted in place; and then the horizontal cylinder 12 moves, so that the roller 20 utilizes the guide rail slide block pair 18 arranged on the guide rail plate 16 to move back and forth to compress the raw materials, thus the raw materials are in a rolling and compressing state, the feeding mechanism 1 can utilize the guide rail 5 on the frame 2 to realize feeding, and the problems of deformation and the like of the raw materials in the feeding process are solved.

The above embodiments are only specific cases of the present invention, and the protection scope of the present invention includes but is not limited to the forms and styles of the above embodiments, and any suitable changes or modifications made thereto by those skilled in the art according to the claims of the present invention shall fall within the protection scope of the present invention.

Claims (3)

1. A section material loading and conveying device comprises a main structure, a conveying mechanism (1), a rack (2), a conveying frame (3), a transmission shaft (4), a guide rail (5) and a transmission motor (6); the method is characterized in that: the feeding mechanism (1) is arranged on the guide rail (5), and the guide rail (5) is arranged on the rack (2); the conveying frames (3) are provided with a plurality of conveying frames, and each conveying frame (3) comprises a synchronous belt wheel (7), a belt wheel plate (8), a profile support (9), a synchronous belt (10), an aluminum profile (11), a horizontal cylinder (12), a horizontal cylinder frame (13), a vertical cylinder (14), a vertical cylinder frame (15), a guide rail plate (16), a guide rail sliding block pair (18), a rolling shaft (20), a vertical roller seat (21), a rotating shaft seat (22), a vertical roller (23), a horizontal roller (24), a horizontal roller seat (25) and a roller seat (26); each conveying frame (3) is fixedly connected above the rack (2) through the horizontal parts of the two L-shaped section bar brackets (9); the vertical part of the section bar bracket (9) is fixedly connected with an aluminum section bar (11); the aluminum profile (11) is perpendicular to the guide rail (5), and the two ends of the aluminum profile are fixedly provided with the pulley plates (8); the belt pulley plates (8) at the two ends of the aluminum profile (11) are rotationally connected with synchronous belt pulleys (7); a synchronous belt (10) is arranged on the synchronous pulley (7); the aluminum profile (11) is positioned on the inner side of the synchronous belt (10); a synchronous belt wheel (7) of each conveying frame (3) close to the guide rail (5) is connected with the transmission shaft (4) through a rotating shaft seat (22); the transmission shaft (4) is in transmission connection with a transmission motor (6); the horizontal roller (24) is connected to the aluminum profile (11) through a horizontal roller seat (25); the vertical roller (23) is connected to the aluminum profile (11) through a vertical roller seat (21); the horizontal roller (24) and the vertical roller (23) are respectively positioned at two sides of the aluminum profile (11); an L-shaped vertical cylinder frame (15) is fixedly arranged on the aluminum profile (11); the lower part of the horizontal part of the vertical cylinder frame (15) is fixedly connected with the vertical cylinder (14); the output end of the vertical cylinder (14) penetrates through the center of the vertical cylinder frame (15) and is fixedly connected with the guide rail plate (16); a horizontal cylinder frame (13) is vertically arranged on one side of the guide rail plate (16) far away from the vertical roller (23); a horizontal cylinder (12) is fixedly connected to the horizontal cylinder frame (13); the output end of the horizontal cylinder (12) penetrates through the horizontal cylinder frame (13) and is fixedly connected with the guide rail sliding block pair (18); the guide rail sliding block pair (18) is arranged on the guide rail plate (16) and is relatively connected with the guide rail plate (16) in a sliding manner; the upper surface of the guide rail sliding block pair (18) is fixedly connected with a roller (20) through a roller seat (26).

2. A profile feeding conveyor according to claim 1, characterized in that: two linear bearings (19) are arranged on the vertical cylinder frame (15); the two linear bearings (19) are respectively positioned at two sides of the vertical cylinder (14); guide shafts (17) are sleeved in the two linear bearings (19); the top end of the guide shaft (17) is fixedly connected with the guide rail plate (16).

3. A profile feeding conveyor according to claim 1, characterized in that: the vertical cylinder frame (15) and the vertical roller (23) are positioned on the same side of the aluminum profile (11).

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