CN215160002U - Tension device for processing coiled materials - Google Patents

Abstract

The utility model relates to a tension device is used in coiled material processing, its characteristics lie in including the tension device body, and its characteristics lie in still including the guide plate body, first cylinder, and wherein the one end of first cylinder articulates on the tension device body, the guide plate body articulates on the output of tension device body to make the guide plate body be connected with the drive of first cylinder mutually. The utility model discloses can improve the coiled material effectively and drag, fixed convenience to help improving the efficiency of coiled material processing, and it still has advantages such as convenient to use, reliability height, stability are good, the suitability is strong.

Description

Tension device for processing coiled materials

Technical Field

The utility model relates to a coiled material processing equipment field, especially a tension device is used in coiled material processing.

Background

At present, before the coiled material is coiled, the coiled material is generally drawn to a coiling device through a tension device to be coiled. Wherein in order to improve the rolling volume of coiling mechanism and make things convenient for operating personnel to carry out the operation, reserve between tension device and coiling mechanism and have great space. Like this when tension device output is followed to the tip of coiled material, need the workman to lift up with the hand and drag the coiled material tip to the coiling mechanism on, and when fixed coiled material tip on the coiling mechanism, because it is unsettled to have longer coiled material between tension device and the coiling mechanism, want to get off coiled material tip fixed very inconveniently like this, and the process of dragging of coiled material tip is also comparatively loaded down with trivial details to easily lead to the efficiency reduction of coiled material processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a tension device is used in coiled material processing, this tension device is used in coiled material processing can improve the coiled material effectively and drag, fixed convenience to help improving the efficiency of coiled material processing, and it still has advantages such as convenient to use, reliability height, stability are good, the suitability is strong.

The technical scheme of the utility model is realized like this:

the tension device for processing the coiled materials comprises a tension device body and is characterized by further comprising a material guide plate body and a first air cylinder, wherein one end of the first air cylinder is hinged to the tension device body, the material guide plate body is hinged to the output end of the tension device body, and the material guide plate body is in driving connection with the first air cylinder.

Preferably, the material guiding plate body is horizontally arranged, one end of the material guiding plate body is hinged to the output end of the tension device body, the other end of the material guiding plate body can swing up and down, the first air cylinder is arranged below the material guiding plate body, and two ends of the first air cylinder are respectively hinged to the bottom of the material guiding plate body and the tension device body.

Preferably, the material guide plate body includes chassis, second cylinder, flexible baffle, the one end of chassis articulates on the tension device body to make the chassis articulated mutually with the one end of first cylinder, the second cylinder sets up on the chassis, flexible baffle can set up on the chassis with horizontal slip, and make flexible baffle be connected with the drive of second cylinder mutually.

Preferably, the chassis includes articulated frame, two support rods, the one end of articulated frame articulates on the tension device body, the one end of first cylinder articulates on articulated frame, and two support rods are arranged side by side around being to make the one end of two support rods connect on articulated frame's the other end, flexible baffle overlap joint is on articulated frame and two support rods, the both ends of second cylinder are connected respectively on articulated frame, flexible baffle.

Preferably, the bottom of the telescopic guide plate is slidably connected to the two support rods.

Preferably, the bottom surface of the telescopic guide plate is provided with two sliding sleeve parts, and the two sliding sleeve parts are respectively sleeved on the two bearing rods in a sliding manner.

Preferably, the hinge frame comprises a longitudinal rod and a hinge lug, the two support rods are transversely arranged, one ends of the two support rods are connected to one side of the longitudinal rod, the hinge lug is connected to the other side of the longitudinal rod and enables the hinge lug to be hinged to the tension device body, and one end of the first air cylinder is hinged to the longitudinal rod.

Preferably, the second cylinder is arranged between two support rods.

Preferably, the bottom surface of the telescopic guide plate is provided with a hinged convex part, one end of the second cylinder is hinged on the hinged convex part, and the other end of the second cylinder is hinged on the other end of the hinged frame.

The utility model has the advantages that: in the tension device for processing the coiled material, the material guide plate body is hinged on the output end of the tension device body and is in driving connection with the first air cylinder. Therefore, the material guide plate body can swing outside the output end of the tension device body through the first air cylinder. When the coiled material end part is output from the tension device body, the coiled material can be guided and supported by the material guide plate body, so that the coiled material end part can conveniently and smoothly enter the coiling device. And when the end part of the coiled material is fixed on the winding device, the material guide plate body can play a good supporting role on the coiled material so as to reduce the pulling of the coiled material to the end part. Therefore, the convenience of dragging and fixing the coiled material can be effectively improved, and the tension device for processing the coiled material is very convenient to use, so that the efficiency of processing the coiled material is improved. Through the setting of guide plate body, can improve accuracy and stability that the coiled material was transferred effectively, and accomplish at the tip of coiled material around adorning the back, can make the swing of guide plate body open, this just can avoid the guide plate body to influence the volume of packing of coiled material to and avoid the guide plate body to influence other relevant operations, reduce the frictional force of coiled material in addition, avoid the coiled material the condition of fish tail to appear, this tension device for coiled material processing has advantages such as the reliability is high, good stability, the suitability is strong like this.

Drawings

Fig. 1 is a schematic structural view of the horizontal state of the middle material guiding plate body of the utility model.

Fig. 2 is a schematic structural view of the inclined state of the material guiding plate body of the utility model.

Detailed Description

As shown in fig. 1, the tension device for processing coiled material, including a tension device body 1, for realizing the purpose of the invention of the present invention, the tension device further includes a material guiding plate body 2 and a first cylinder 3, wherein one end of the first cylinder 3 is hinged on the tension device body 1, the material guiding plate body 2 is hinged on the output end of the tension device body 1, and the material guiding plate body 2 is connected with the first cylinder 3 in a driving manner.

In the tension device for processing the coiled material, the material guide plate body 2 is hinged on the output end of the tension device body 1, and the material guide plate body 2 is in driving connection with the first air cylinder 3. This allows the guide plate body 2 to swing outside the output end of the tension device body 1 by the first cylinder 3.

When the coiled material tip is exported from tension device body 1 like this, can play the purpose of guide, bearing to the coiled material through guide plate body 2 to make the coiled material tip can conveniently, smoothly get into on the coiling mechanism.

And when fixing the coiled material tip on the coiling mechanism, guide plate body 2 can play fine supporting effect to the coiled material to reduce the coiled material self to the pulling of its tip. Therefore, the convenience of dragging and fixing the coiled material can be effectively improved, and the tension device for processing the coiled material is very convenient to use, so that the efficiency of processing the coiled material is improved.

Through the setting of guide plate body 2, can improve accuracy and stability that the coiled material was transferred effectively, and accomplish at the tip of coiled material around adorning the back, can make guide plate body 2 swing open, this just can avoid guide plate body 2 to influence the volume of packing of coiled material, and avoid guide plate body 2 to influence other relevant operations, reduce the frictional force of coiled material in addition, avoid the coiled material the condition of fish tail to appear, this tension device for coiled material processing has the reliability height like this, good stability, advantages such as the suitability is strong.

As shown in fig. 1, the material guiding plate body 2 is horizontally disposed, one end of the material guiding plate body 2 is hinged to the output end of the tension device body 1, the other end of the material guiding plate body 2 can swing up and down, the first cylinder 3 is disposed below the material guiding plate body 2, and two ends of the first cylinder 3 are respectively hinged to the bottom of the material guiding plate body 2 and the tension device body 1. Can play better bearing effect like this, and when not using guide plate body 2, can make the other end downward sloping of guide plate body 2, more can reduce guide plate body 2 like this and carry out the influence of relevant operation to the operation workman, and can reduce the space like this and occupy the volume to help further improving this tension device for coiled material processing's reliability and suitability.

As shown in fig. 1 and 2, the material guiding plate body 2 includes a bottom frame 21, a second cylinder 22, and a telescopic guide plate 23, wherein one end of the bottom frame 21 is hinged to the tension device body 1, and the bottom frame 21 is hinged to one end of the first cylinder 3, the second cylinder 22 is disposed on the bottom frame 21, and the telescopic guide plate 23 is disposed on the bottom frame 21 in a horizontally slidable manner, and the telescopic guide plate 23 is in driving connection with the second cylinder 22. In this guide plate body 2, can drive flexible baffle 23 through second cylinder 22 and accomplish the concertina movement, enable guide plate body 2 to be closer to the coiling mechanism like this to help further improving the coiled material and transfer, fixed convenience, and then help further improving this tension device for coiled material processing's reliability and suitability.

Because the winding shaft on the winding device is of a cylindrical structure, and the coiled material is generally fixed on the top surface of the winding shaft. And because the material guide plate body 2 swings to enter the side of the material rolling shaft, the material guide plate body 2 cannot directly swing to the top surface of the material rolling shaft due to the limitation of the arc surface of the material rolling shaft, so that a certain distance still exists between the top surface of the material rolling shaft and the end part of the material guide plate body 2. But after the telescopic guide plate 23 is arranged, the end part of the telescopic guide plate 23 can be close to the top of the coiling shaft, so that coiled materials can conveniently and rapidly and accurately enter the top of the coiling shaft through the material guide plate body 2, and the convenience of transferring and fixing the coiled materials can be further improved.

The telescopic guide plate 23 can move away from or close to the output end of the tension device body 1 under the driving of the second air cylinder 22. Thus, the use requirement can be well met.

As shown in fig. 1, the base frame 21 includes a hinge frame 211 and two support rods 212, one end of the hinge frame 211 is hinged to the tension device body 1, one end of the first cylinder 3 is hinged to the hinge frame 211, the two support rods 212 are arranged side by side in the front-back direction, one ends of the two support rods 212 are connected to the other end of the hinge frame 211, the telescopic guide plate 23 is overlapped on the hinge frame 211 and the two support rods 212, and two ends of the second cylinder 22 are respectively connected to the hinge frame 211 and the telescopic guide plate 23. The structure of the bottom frame 21 is very simple and reliable, which contributes to the convenience of manufacturing the material guide plate body 2.

As shown in fig. 1, the bottom of the telescopic guide plate 23 is slidably connected to two support rods 212. Therefore, the stability and the reliability of the installation and the positioning of the telescopic guide plate 23 can be further improved, the sliding accuracy of the telescopic guide plate 23 can be further improved, and the reliability of the tension device for processing the coiled material is further improved.

As shown in fig. 1, two sliding sleeve members 230 are disposed on the bottom surface of the telescopic guide plate 23, and the two sliding sleeve members 230 are slidably fitted over the two support rods 212, respectively. With such a structural design, it is possible to further improve the accuracy and stability of the movement of the telescopic guide plate 23, and thus to further improve the reliability and applicability of the tension device for coil processing.

As shown in fig. 1, the hinge bracket 211 includes a longitudinal rod 213 and a hinge lug 214, the two support rods 212 are arranged transversely, the right ends of the two support rods 212 are connected to the left surface of the longitudinal rod 213, the hinge lug 214 is connected to the right surface of the longitudinal rod 213, the hinge lug 214 is hinged to the tension device body 1, and one end of the first cylinder 3 is hinged to the longitudinal rod 213. This further simplifies the structure of the stock guide plate body 2, and contributes to further improvement of the convenience of manufacturing the stock guide plate body 2 and further contributes to further improvement of the applicability of the tension device for coil processing.

As shown in fig. 1, the second cylinder 22 is disposed between two support rods 212. Therefore, the second cylinder 22 can be hidden conveniently, the space occupation can be reduced, the probability that an operator contacts the second cylinder 22 can be reduced, and the applicability and the safety of the tension device for processing the coiled materials can be improved.

As shown in fig. 1, a hinge protrusion 231 is provided on a bottom surface of the telescopic guide plate 23, one end of the second cylinder 22 is hinged to the hinge protrusion 231, and the other end of the second cylinder 22 is hinged to the other end of the hinge bracket 211. By adopting the hinge structure at the two ends of the second cylinder 22, the stability and reliability of driving the telescopic guide plate 23 are improved, the probability of clamping stagnation of the movement of the telescopic guide plate 23 is reduced, and the reliability of the tension device for processing the coiled material is further improved.

Claims (9)

1. The utility model provides a tension device for coil processing, includes tension device body (1), its characterized in that: the material guide device is characterized by further comprising a material guide plate body (2) and a first cylinder (3), wherein one end of the first cylinder (3) is hinged to the tension device body (1), the material guide plate body (2) is hinged to the output end of the tension device body (1), and the material guide plate body (2) is in driving connection with the first cylinder (3).

2. The tension device for coil processing according to claim 1, wherein: the material guide plate body (2) is horizontally arranged, one end of the material guide plate body (2) is hinged to the output end of the tension device body (1), the other end of the material guide plate body (2) can swing up and down, the first air cylinder (3) is arranged below the material guide plate body (2), and two ends of the first air cylinder (3) are hinged to the bottom of the material guide plate body (2) and the tension device body (1) respectively.

3. The tension device for coil processing according to claim 2, wherein: guide plate body (2) include chassis (21), second cylinder (22), flexible baffle (23), the one end of chassis (21) articulates on tension device body (1) to the one end that makes chassis (21) and first cylinder (3) is articulated mutually, second cylinder (22) set up on chassis (21), flexible baffle (23) can set up on chassis (21) with horizontal slip, and make flexible baffle (23) be connected with second cylinder (22) looks drive.

4. The tension device for coil processing according to claim 3, wherein: chassis (21) are including articulated frame (211), two support rods (212), the one end of articulated frame (211) articulates on tension device body (1), the one end of first cylinder (3) articulates on articulated frame (211), and two support rods (212) are around arranging side by side to the one end that makes two support rods (212) is connected on the other end of articulated frame (211), flexible baffle (23) overlap joint is on articulated frame (211) and two support rods (212), the both ends of second cylinder (22) are connected respectively on articulated frame (211), flexible baffle (23).

5. The tension device for coil processing according to claim 4, wherein: the bottom of the telescopic guide plate (23) is connected to the two supporting rods (212) in a sliding manner.

6. The tension device for coil processing according to claim 4 or 5, wherein: two sliding sleeve members (230) are arranged on the bottom surface of the telescopic guide plate (23), and the two sliding sleeve members (230) are respectively sleeved on the two bearing rods (212) in a sliding mode.

7. The tension device for coil processing according to claim 4, wherein: the hinged frame (211) comprises a longitudinal rod (213) and a hinged lug (214), the two bearing rods (212) are transversely arranged, one ends of the two bearing rods (212) are connected to one side of the longitudinal rod (213), the hinged lug (214) is connected to the other side of the longitudinal rod (213), the hinged lug (214) is hinged to the tension device body (1), and one end of the first air cylinder (3) is hinged to the longitudinal rod (213).

8. The tension device for coil processing according to claim 4, wherein: the second cylinder (22) is arranged between two support rods (212).

9. The web processing tension device as recited in claim 8, wherein: the bottom surface of the telescopic guide plate (23) is provided with a hinged convex part (231), one end of the second cylinder (22) is hinged to the hinged convex part (231), and the other end of the second cylinder (22) is hinged to the other end of the hinged frame (211).

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