CN220334225U - Belt anti-collision iron mechanism for printing - Google Patents

Abstract

The utility model relates to a belt anti-collision iron mechanism for printing, and belongs to the technical field of metal printing machine equipment. The technical proposal is as follows: comprises a conveying belt (2) arranged on a supporting frame body (1) and a rotating roller (6) matched with the conveying belt (2), wherein the supporting frame body (1) is also provided with a feeding limit structure (3), an anti-skid structure (4) and an anti-collision structure (5) matched with a metal plate on the conveying belt (2); the feeding limit structure (3) comprises a fixed seat (301), a sliding seat (302), a sliding rod (303) and a limit groove (304); the anti-skid structure (4) comprises a rubber anti-skid layer (401), a metal grid (402) and a PVC layer (403); the anti-collision structure (5) comprises a pulley (501), an adjusting spring (502) and a connecting block (503). The beneficial effects of the utility model are as follows: not only realizes the feeding limiting function, but also realizes the anti-collision and anti-skid functions.

Description

Belt anti-collision iron mechanism for printing

Technical Field

The utility model relates to a belt anti-collision iron mechanism for printing, and belongs to the technical field of metal printing machine equipment.

Background

The metal printer is a printer for printing on the metal surface, and one side of the metal printer is provided with a conveying device, so that a metal plate can conveniently enter the printer for printing;

in actual use, when the width of the iron sheet is close to the limit of the printing equipment and is large or small, the metal plate running at high speed can move on the conveying belt, so that iron collision occurs, the conveying belt is forced to be only slowed down, and the production is influenced.

Disclosure of Invention

The utility model aims to provide a belt anti-collision iron mechanism for printing, which not only realizes a feeding limiting function, but also realizes anti-collision and anti-skid functions, and solves the problems in the background technology.

The technical scheme of the utility model is as follows:

the anti-collision iron mechanism for the printing belt comprises a support frame body, a conveying belt arranged on the support frame body, and a rotating roller matched with the conveying belt, wherein the support frame body is also provided with a feeding limit structure, an anti-skid structure and an anti-collision structure matched with a metal plate on the conveying belt;

the feeding limiting structure comprises a fixed seat, sliding seats, sliding rods and limiting grooves, wherein two ends of the sliding rods are respectively fixed on the support frame body through the fixed seat, the two sliding seats are respectively connected onto the sliding rods in a sliding manner, and each sliding seat is provided with one limiting groove matched with the metal plate;

the anti-slip structure comprises a rubber anti-slip layer, a metal grid and a PVC layer, wherein the rubber anti-slip layer and the PVC layer are respectively fixed on the support frame body, the rubber anti-slip layer is positioned above the conveyor belt, the PVC layer is positioned below the conveyor belt, and the metal grid is arranged in the PVC layer;

the anti-collision structure comprises pulleys, adjusting springs and connecting blocks, wherein a plurality of pulleys are respectively arranged above the conveying belt, each pulley is respectively connected with the connecting blocks through the adjusting springs, and the connecting blocks are respectively fixed on the supporting frame body.

The sliding rod in the feeding limiting structure is arranged along the width direction of the conveying belt.

The limiting groove in the feeding limiting structure is of a U-shaped structure matched with the metal plate.

The rubber anti-slip layer in the anti-slip structure is matched with the metal plate on the conveyer belt.

The metal grid in the anti-skid structure is supported below the conveyer belt.

The pulleys in the anti-collision structure are arranged at equal intervals along the running direction of the conveying belt.

The beneficial effects of the utility model are as follows: not only realizes the feeding limiting function, but also realizes the anti-collision and anti-skid functions.

(1) The anti-collision structure is arranged in the support frame body, when the anti-collision device is used, in order to prevent metal plates on the conveying belt from colliding with two sides of the support frame body, pulleys are arranged in the support frame body and connected with the support frame body through adjusting springs and connecting blocks, the metal plates with different thicknesses are conveniently used to enter between the pulleys and the conveying belt, the pulleys fix the metal plates to the top end of the conveying belt through the adjusting springs, so that the anti-collision function is realized, and the pulleys can facilitate the movement of the metal plates while limiting the metal plates on the conveying belt;

(2) The feeding limiting structure is arranged on one side of the supporting frame body, the sliding seat on the sliding rod moves on the sliding rod according to the width of the metal plate for printing pictures, and the limiting groove at the top end of the sliding seat limits the metal plate, so that the feeding limiting function is realized, and the metal plate is limited during feeding;

(3) The antiskid structure sets up the top at the conveyer belt, and during the use, set up rubber skid resistant course on the top of conveyer belt, the metal sheet is difficult for sliding on rubber skid resistant course, is provided with the PVC layer in rubber skid resistant course bottom, and the metal net of PVC in situ portion setting has the supporting function, supports the conveyer belt to realized skid resistant function, increased the fixed metal sheet's of conveyer belt ability

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic side view of the feed limit structure of the present utility model;

FIG. 4 is a schematic diagram showing the structure of the anti-skid structure according to the present utility model;

fig. 5 is a schematic plan view of an anti-collision structure according to the present utility model.

In the figure: 1. a support frame body; 2. a conveyor belt; 3. a feeding limit structure; 4. an anti-slip structure; 5. An anti-collision structure; 6. A rotating roller;

301. a fixing seat; 302. a sliding seat; 303. a slide bar; 304. a limit groove;

401. a rubber anti-slip layer; 402. a metal mesh; 403. a PVC layer;

501. a pulley; 502. an adjusting spring; 503. a connecting block;

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

Referring to fig. 1-5, a belt anti-collision iron mechanism for printing comprises a support frame body 1, a conveying belt 2 arranged on the support frame body 1, and a rotating roller 6 matched with the conveying belt 2, wherein the support frame body 1 is also provided with a feeding limit structure 3, an anti-skid structure 4 and an anti-collision structure 5 matched with a metal plate on the conveying belt 2;

the feeding limit structure 3 comprises a fixed seat 301, a sliding seat 302, a sliding rod 303 and limit grooves 304, wherein two ends of the sliding rod 303 are respectively fixed on the support frame body 1 through the fixed seat 301, the two sliding seats 302 are respectively connected to the sliding rod 303 in a sliding manner, and each sliding seat 302 is respectively provided with a limit groove 304 matched with a metal plate;

the anti-skid structure 4 comprises a rubber anti-skid layer 401, a metal grid 402 and a PVC layer 403, wherein the rubber anti-skid layer 401 and the PVC layer 403 are respectively fixed on the support frame body 1, the rubber anti-skid layer 401 is positioned above the conveyor belt 2, the PVC layer 403 is positioned below the conveyor belt 2, and the metal grid 402 is arranged in the PVC layer 403;

the anti-collision structure 5 comprises pulleys 501, adjusting springs 502 and connecting blocks 503, wherein a plurality of pulleys 501 are respectively arranged above the conveying belt 2, each pulley 501 is respectively connected with the corresponding connecting block 503 through the corresponding adjusting spring 502, and the corresponding connecting block 503 is respectively fixed on the supporting frame body 1.

In this embodiment, referring to fig. 1 to 5, a feeding limit structure 3 is installed on one side of a supporting frame body 1, the feeding limit structure 3 includes a fixing seat 301, one side of the fixing seat 301 is connected with a sliding rod 303, a sliding seat 302 is installed outside the sliding rod 303, and a limit groove 304 is installed at the top end of the sliding seat 302;

the sliding rod 303 is connected with the support frame body 1 through the fixed seat 301, a welding integrated structure is formed between the fixed seat 301 and the support frame body 1, the sliding seat 302 and the sliding rod 303 form a sliding structure, the limiting groove 304 is connected with the sliding rod 303 through the sliding seat 302, and the sliding seat 302 is provided with two groups;

specifically, as shown in fig. 1 and 3, when in use, according to the width of the metal plate for the printing screen, the sliding seat 302 on the sliding rod 303 is moved on the sliding rod 303, the limiting groove 304 at the top end of the sliding seat 302 is used for limiting the metal plate, and then the sliding seat 302 is fixed on the sliding rod 303 through the knob of the sliding seat 302, so that the feeding limiting function is realized;

the conveying belt 2 is arranged in the supporting frame body 1, an anti-slip structure 4 is arranged at one end of the conveying belt 2, the anti-slip structure 4 comprises a rubber anti-slip layer 401, the rubber anti-slip layer 401 is arranged at the top end of the conveying belt 2, a PVC layer 403 is arranged at the bottom end of the rubber anti-slip layer 401, and a metal grid 402 is arranged in the PVC layer 403;

the rubber anti-slip layer 401 penetrates through one end of the conveyor belt 2, and the metal grid 402 penetrates through the PVC layer 403;

specifically, as shown in fig. 1 and fig. 4, when in use, a rubber anti-slip layer 401 is arranged at the top end of a conveyor belt 2, a metal plate is not easy to slide on the rubber anti-slip layer 401, a PVC layer 403 is arranged at the bottom end of the rubber anti-slip layer 401, and a metal grid 402 arranged inside the PVC layer 403 has a supporting function, so that the conveyor belt 2 keeps supporting force, thereby realizing the anti-slip function;

the anti-collision structure 5 is arranged in the support frame body 1, the anti-collision structure 5 comprises an adjusting spring 502, a connecting block 503 is arranged at the top end of the adjusting spring 502, and a pulley 501 is arranged at the bottom end of the adjusting spring 502;

the adjusting springs 502 are connected with the support frame body 1 through connecting blocks 503, all the connecting blocks 503 are connected with the pulleys 501 through the adjusting springs 502, and the pulleys 501 are arranged in the support frame body 1 at equal intervals;

specifically, as shown in fig. 2 and 5, when a large metal plate is used on the conveyor belt 2 during use, in order to prevent the metal plate on the conveyor belt 2 from striking both sides of the supporting frame body 1, the pulley 501 is installed inside the supporting frame body 1, the pulley 501 is connected with the supporting frame body 1 through the adjusting spring 502 and the connecting block 503, the metal plate with different thickness is conveniently used to enter between the pulley 501 and the conveyor belt 2, and the pulley 501 fixes the metal plate to the top end of the conveyor belt 2 through the adjusting spring 502, thereby realizing the crashproof function.

Working principle: when the device is used, firstly, the width of a metal plate to be printed is adjusted on the sliding seat 302 on the sliding rod 303 on one side of the supporting frame body 1, two groups of sliding seats 302 are moved on the sliding rod 303 to drive the limiting groove 304 at the top end of the sliding seat 302 to move according to the width of the metal plate, after the limiting groove 304 is moved to the corresponding position, the sliding seat 302 is fixed on the sliding rod 303 by rotating the knob at one end of the sliding seat 302, then the metal plate enters the top end of the conveying belt 2 through the limiting groove 304, the rubber anti-slip layer 401 on the surface of the conveying belt 2 has an anti-slip function, the friction force between the metal plate and the conveying belt 2 is increased, the metal grid 402 is arranged in the PVC layer 403 at the bottom end of the rubber anti-slip layer 401, the supporting degree of the conveying belt 2 is increased under the condition that the softness of the PVC layer 403 is maintained, and finally, the pulley 501 at the top end of the conveying belt 2 clamps and positions the metal plate through the adjusting spring 502 and the connecting block 503, so that the left-right displacement condition is reduced when the top end of the conveying belt 2 moves forwards and backwards.

Claims (6)

1. The utility model provides a belt anticollision iron mechanism for printing, contains support body (1), sets up conveyer belt (2) on support body (1) and with conveyer belt (2) matched with rotor (6), its characterized in that: the supporting frame body (1) is also provided with a feeding limit structure (3), an anti-skid structure (4) and an anti-collision structure (5) which are matched with the metal plate on the conveying belt (2);

the feeding limiting structure (3) comprises a fixed seat (301), sliding seats (302), sliding rods (303) and limiting grooves (304), wherein two ends of each sliding rod (303) are respectively fixed on the supporting frame body (1) through the fixed seat (301), the two sliding seats (302) are respectively connected onto the sliding rods (303) in a sliding mode, and each sliding seat (302) is respectively provided with one limiting groove (304) matched with the metal plate;

the anti-slip structure (4) comprises a rubber anti-slip layer (401), a metal grid (402) and a PVC layer (403), wherein the rubber anti-slip layer (401) and the PVC layer (403) are respectively fixed on the support frame body (1), the rubber anti-slip layer (401) is positioned above the conveying belt (2), the PVC layer (403) is positioned below the conveying belt (2), and the metal grid (402) is arranged in the PVC layer (403);

the anti-collision structure (5) comprises pulleys (501), adjusting springs (502) and connecting blocks (503), wherein a plurality of pulleys (501) are respectively arranged above the conveying belt (2), each pulley (501) is respectively connected with each connecting block (503) through each adjusting spring (502), and each connecting block (503) is respectively fixed on the supporting frame body (1).

2. The printing belt impact iron mechanism of claim 1, wherein: the sliding rod (303) in the feeding limiting structure (3) is arranged along the width direction of the conveying belt (2).

3. The printing belt impact iron mechanism of claim 2, wherein: the limiting groove (304) in the feeding limiting structure (3) is of a U-shaped structure matched with the metal plate.

4. The printing belt impact iron mechanism of claim 1, wherein: the rubber anti-slip layer (401) in the anti-slip structure (4) is matched with the metal plate on the conveying belt (2).

5. The printing belt impact iron mechanism of claim 1, wherein: the metal grid (402) in the anti-slip structure (4) is supported below the conveyor belt (2).

6. The printing belt impact iron mechanism of claim 1, wherein: a plurality of pulleys (501) in the anti-collision structure (5) are arranged at equal intervals along the running direction of the conveying belt (2).