CN214606531U - A flattening stamp device for extra-wide silk - Google Patents

Abstract

The utility model provides a flattening stamp device for extra-wide silk relates to silk processing equipment field, this a flattening stamp device for extra-wide silk, including workstation and stamp mechanism. Workstation top central authorities department pivot has connect the carry over pinch rolls, both ends all are connected with the horizontal pole about the workstation, and printing mechanism is located between right side horizontal pole and the carry over pinch rolls, and logical groove has been seted up at left side horizontal pole middle part, leads to the inslot and is equipped with two rubber sticks, and two rubber sticks can be kept away from each other, and rubber stick expansion end is articulated towards the carry over pinch rolls and is had the board that turns over, it keeps away from rubber stick one side and is connected with the spring to turn over the board. This a flattening stamp device for extra-wide silk, through electric putter, rubber stick, turn over board, gear, driving lever mutually support, make the rubber stick crooked, keep away from each other to drive and turn over the board and slide silk surface, with this smooth operation. And then the motor II winds the steel wire, so that when the rubber rod is reset, one end with the turning plate is tilted. Avoiding the silk from generating folds when resetting.

Description

A flattening stamp device for extra-wide silk

Technical Field

The utility model relates to a silk processing equipment technical field specifically is a flattening stamp device for extra-wide silk.

Background

The textile is printed in the textile processing process, so that the attractiveness of the textile can be improved to a certain extent. With the development of science and technology, silk is one of the textiles.

Silk needs to be printed by corresponding printing equipment. For example, a Chinese patent net discloses a printing device for silk fabrics, and the patent number is 201822111410. X. The automatic printing machine comprises a frame, wherein supporting legs are fixed at the bottom of the frame, transverse plates are connected between the supporting legs, a motor is fixed at one end of each transverse plate close to the supporting legs, a conveying belt is installed on the inner side of the frame, guide rollers transversely penetrate through two ends inside the conveying belt and are connected with the motor through belts, and a printing mechanism is installed right above one side of the conveying belt close to the motor. Keep away from printing mechanism's conveyer belt one side directly over be fixed with cutting mechanism, through the deckle edge of cutting mechanism cutting silk.

If the silk is extremely wide, wrinkles are easily generated in the transportation process. The device does not have the function of removing the wrinkles, and when the printing position is just at the wrinkles, the printing effect is influenced. Therefore, there is a high demand for a device for the situation.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a flattening stamp device for extra-wide silk has solved among the above-mentioned background art when traditional printing equipment carries out the printing to extra-wide silk, produces silk easily, and does not have the wrinkle removal function, influences the problem of stamp effect easily.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a leveling and printing device for extra-wide silk comprises a workbench and a printing mechanism. Workstation top central authorities department pivot has connect the carry over pinch rolls, both ends all are connected with the horizontal pole about the workstation, and printing mechanism is located between right side horizontal pole and the carry over pinch rolls, and logical groove has been seted up at left side horizontal pole middle part, leads to the inslot and is equipped with two rubber sticks, and two rubber sticks can be kept away from each other, and rubber stick expansion end is articulated towards the carry over pinch rolls and is had the board that turns over, turn over the board and keep away from rubber stick one side and be connected with the spring, the spring upper end is connected with the rubber stick.

Electric push rods are inlaid at two ends in the left cross rod and correspond to the rubber rods one to one, and one end of each electric push rod is connected with the corresponding rubber rod.

Preferably, the top of the workbench is connected with a support, the support is located above the two rubber rods, the support is pivoted with two gears, the two gears are meshed with each other, the gears are connected with a shifting lever, the shifting lever extends to a position between the two rubber rods, a groove is formed between the two rubber rods, the shifting lever can penetrate through the groove, a first motor and a single chip microcomputer are fixedly mounted on the support, and a transmission shaft of the motor is connected with one of the gears.

Preferably, the left side of the workbench is connected with a second motor, two steel wires are connected to a transmission shaft of the second motor, the steel wires correspond to the rubber bars one to one, and one ends of the steel wires, far away from the second motor, are connected with the movable part of the rubber bars.

Preferably, stamp mechanism top sliding fit has concave type slide bar, is equipped with the rag in the stamp mechanism, and the rag contacts with the workstation, and stamp mechanism is connected with the rag.

Preferably, the cross rod body is symmetrically provided with rubber rings, and the rubber rings can be in contact with silk.

(III) advantageous effects

The utility model provides a flattening stamp device for extra-wide silk. The method has the following beneficial effects:

1. this a flattening stamp device for extra-wide silk, through electric putter, rubber stick, turn over board, gear, driving lever mutually support, make the rubber stick crooked, keep away from each other to drive and turn over the board and slide silk surface, with this smooth operation. And then the motor II winds the steel wire, so that when the rubber rod is reset, one end with the turning plate is tilted. Avoiding the silk from generating folds when resetting.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial sectional view of the present invention;

FIG. 3 is a schematic view of another angle of the structure of the present invention;

FIG. 4 is an enlarged view of the structure A in FIG. 3 according to the present invention;

fig. 5 is a schematic view of the turning plate structure of the present invention.

In the figure: 1 workbench, 2 traction rollers, 3 cross bars, 31 rubber rings, 4 printing mechanisms, 41 sliding chutes, 5 concave sliding rods, 6 cleaning cloths, 7 electric push rods, 8 rubber rods, 81 grooves, 9 turning plates, 10 springs, 11 supports, 12 gears, 13 first motors, 14 deflector rods, 15 second motors, 16 steel wires and 17 single-chip microcomputers.

Detailed Description

The embodiment of the utility model provides a flattening stamp device for extra-wide silk, as shown in fig. 1-5, including workstation 1 and stamp mechanism 4, because stamp mechanism 4 is conventional prior art, therefore concrete structure, connected mode etc. and take up and have the prior art the same and do not describe in detail. The center of the top of the workbench 1 is pivoted with a traction roller 2. The pulling roll 2 is rotated by a motor, which is conventional.

Both ends all have welded horizontal pole 3 about workstation 1, and stamp mechanism 4 is located between right side horizontal pole 3 and carry over pinch rolls 2. The printing mechanism 4 is fixedly arranged with the workbench 1. Logical groove has been seted up at 3 middle parts of left side horizontal pole, leads to the inslot and is equipped with two rubber sticks 8, and two rubber sticks 8 can be kept away from each other, and 8 expansion ends of rubber stick are turned over board 9 towards carry over pinch rolls 2 and articulated, turn over board 9 and keep away from 8 one side welding of rubber stick and have spring 10, and spring 10 upper end and 8 fixed bonding of rubber stick.

Electric push rods 7 are inlaid at two ends of the left cross rod 3, the electric push rods 7 correspond to the rubber rods 8 one to one, and one ends of the electric push rods 7 are fixedly bonded with the rubber rods 8.

The flap 9 can be in contact with the silk and, due to the presence of the spring 10, the flap 9 can only be turned towards the edge of the silk. Cannot be flipped towards the middle. Therefore, when the rubber rods 8 are far away from each other, the turning plate 9 is always vertical to the workbench 1, so that the smoothing operation is performed.

In the initial state, the electric push rod 7 is extended to enable the two rubber rods 8 to lean together. The two turning plates 9 are attached to each other. The rubber bars 8 are moved away from each other by the contraction of the electric push rod 7, so that the flap 9 is drawn across the silk in the longitudinal width direction. Thereby smoothing the silk.

The top of the workbench 1 is connected with a support 11, the support 11 is positioned above the two rubber rods 8, the support 11 is pivoted with two gears 12, and the two gears 12 are meshed with each other. A driving lever 14 is welded on one side of the gear 12, and the driving lever 14 extends between the two rubber rods 8. A groove 81 is formed between the two rubber rods 8, the shifting rod 14 can penetrate through the groove 81, the first motor 13 and the single chip microcomputer 17 are fixedly mounted on the support 11, and a transmission shaft of the first motor 13 is connected with one of the gears 12.

The singlechip 17 is used for controlling the work of each electronic part.

During operation, the first motor 13 rotates to drive the two gears 12 to rotate, so that the two shift levers 14 are away from each other, the shift levers 14 apply force to the rubber bars 8, the rubber bars 8 are bent, and the electric push rod 7 is matched to contract. Thereby increasing the range of movement of the flap 9.

The rubber rod 8 has a certain toughness, so the rubber rod 8 is bent to a certain extent. When the first motor 13 controls the gear 12 to rotate reversely, the two shift levers 14 are closed, and the rubber rod 8 can restore to the original state again.

The left side of the workbench 1 is fixedly provided with a second motor 15, the transmission shaft of the second motor 15 is welded with two steel wires 16, the steel wires 16 correspond to the rubber bars 8 one to one, and one ends of the steel wires 16 far away from the second motor 15 are welded with the movable parts of the rubber bars 8.

During operation, when the driving lever 14 is drawn close to each other, the second motor 15 rotates the winding steel wire 16, so that the movable end of the rubber rod 8 is tilted, and the phenomenon that the turning plate 9 is contacted with silk to cause wrinkle generation when the rubber rod 8 is reset is avoided.

The top of the printing mechanism 4 is in sliding fit with a concave sliding rod 5, cleaning cloth 6 is arranged in the printing mechanism 4, the cleaning cloth 6 is in contact with the workbench 1, and the printing mechanism 4 and the cleaning cloth 6 are fixedly installed. The printing machine 4 is provided with a sliding groove 41 matched with the concave sliding rod 5.

When one piece of silk finishes being transported, the concave sliding rod 5 is moved back and forth, so that the cleaning cloth 6 wipes the workbench 1, and the purpose of cleaning and knotting the workbench 1 is achieved.

The cross bar 3 is symmetrically pivoted with rubber rings 31. The rubber ring 31 is arranged concentrically with the crossbar 3. It can be seen that the rubber ring 31 can rotate about the axis of the crossbar 3. The rubber ring 31 can be in contact with the silk. The rubber ring 31 plays a role in limiting the silk from shifting to the side edge.

To sum up, this a flattening printing device for extra-wide silk, through electric push rod 7, rubber stick 8, turns over board 9, gear 12, driving lever 14 and mutually support, make rubber stick 8 crooked, keep away from each other to drive and turn over board 9 and slide the silk surface, so smooth the operation. And when the rubber rod 8 is reset through a second motor 15 and a winding steel wire 16, one end with the turning plate 9 is tilted. Avoiding the silk from generating folds when resetting.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a flattening stamp device for extra-wide silk, includes workstation (1) and stamp mechanism (4), its characterized in that: the printing machine is characterized in that a traction roller (2) is pivoted at the center of the top of the workbench (1), the left end and the right end of the workbench (1) are connected with a cross rod (3), a printing mechanism (4) is positioned between the right cross rod (3) and the traction roller (2), a through groove is formed in the middle of the left cross rod (3), two rubber rods (8) are arranged in the through groove, the two rubber rods (8) can be far away from each other, the movable end of each rubber rod (8) faces the traction roller (2) and is hinged with a turning plate (9), one side of the turning plate (9), far away from each rubber rod (8), is connected with a spring (10), and the upper end of the spring (10) is connected with the rubber rods (8);

electric push rods (7) are inlaid at two ends in the left cross rod (3), the electric push rods (7) correspond to the rubber rods (8) one to one, and one ends of the electric push rods (7) are connected with the rubber rods (8).

2. The flattening and printing device for extra-wide silk according to claim 1, characterized in that: workstation (1) top is connected with support (11), and support (11) are located two rubber stick (8) tops, and support (11) pin joint has two gear (12), two gear (12) intermeshing, and gear (12) are connected with driving lever (14), and driving lever (14) extend to between two rubber stick (8), set up between two rubber stick (8) recess (81), driving lever (14) can pass recess (81), and support (11) fixed mounting has motor (13), singlechip (17), and motor (13) transmission shaft is connected with one of them gear (12).

3. The flattening and printing device for extra-wide silk according to claim 2, characterized in that: the left side of the workbench (1) is connected with a second motor (15), two steel wires (16) are connected to a transmission shaft of the second motor (15), the steel wires (16) correspond to the rubber bars (8) one to one, and one end, far away from the second motor (15), of each steel wire (16) is connected with a movable part of each rubber bar (8).

4. The flattening and printing device for extra-wide silk according to claim 1, characterized in that: stamp mechanism (4) top sliding fit has concave type slide bar (5), is equipped with rag (6) in stamp mechanism (4), and rag (6) and workstation (1) contact, stamp mechanism (4) are connected with rag (6).

5. The flattening and printing device for extra-wide silk according to claim 1, characterized in that: the cross rod (3) is symmetrically provided with rubber rings (31), and the rubber rings (31) can be in contact with silk.

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