CN215159846U - Floating wire storage device of cable - Google Patents

Abstract

The utility model relates to a unsteady accumulator of cable, it is including setting up the tension sensor on static anti-return runner subassembly or remove at least one of runner subassembly, and it is used for producing the instruction the first detected signal of the tensile force that the cable received. According to the floating wire storage device for the cable, the tension sensor is arranged, so that a signal of the tension of the cable can be obtained in real time, and the position of the movable rotating wheel assembly is adjusted through the air cylinder assembly according to the tension signal, so that the tension of the cable is always kept at a desired value.

Description

Floating wire storage device of cable

Technical Field

The application relates to cable production equipment, especially relates to the storage ware on the cable manufacture line.

Background

With the vigorous development of the cable market, the silica gel cable is used as one of the cables, the market demand is increasing day by day, and in order to meet the increasing market demand, the silica gel cable production line needs to be upgraded and updated along with the change of the market. The silica gel cable production line in the existing market basically adopts an infrared irradiation mode to produce, and because the production line speed is continuously improved, old type production equipment can not meet the mutual coordination work of each equipment of the production line, and the equipment of the production line needs to be readjusted, designed and optimized, so that the high-speed characteristic is met.

The wire storage device on the current market is only used for striving for time for replacing a pay-off reel or a take-up reel and the like, the whole wire can not be stopped due to the replacement of the wire reel, the wire storage device mainly adopts a mechanical control principle, and the wire storage device has the defects of jitter, high cost and the like during operation. Meanwhile, the wire storage device on the current market is designed horizontally, the plant can be arranged only by the fact that the plant has enough length, and the plant with insufficient length can not be installed and used.

Therefore, a wire storage device with high automation degree, which saves the floor area of the wire storage device and saves the manufacturing cost of the machine is needed to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aim at realize the automatic line that stores up of the vertical accumulator of cable conductor in silica gel cable production line, automatic unwrapping wire, the function of automatic tensioning solves the customer because of cable tension is not in the ideal scope, influences the problem that cable quality and customer are because of factory building space is not enough etc to reach simple structure, with low costs, safe and reliable, the fault rate is low, makes things convenient for effects such as maintenance, improves cable production line's high intellectuality simultaneously.

An object of the utility model is to solve above-mentioned problem, provide an improved generation structure of cable manufacture equipment.

In order to achieve the above objects, one aspect of the present invention provides a floating wire storage device for cables, including a vertical bracket including a main body and an extension portion extending from the main body in a vertical direction; a cylinder assembly including a cylinder block fixed to the main body of the upright support, and a cylinder rod movable from the cylinder block, the cylinder rod being oriented to be extendable toward the extension and retractable toward the main body; the movable bracket component is fixed on the cylinder rod; a stationary anti-return pulley assembly coupled to the main body of the upright bracket and configured to be rotatable; a mobile swivel wheel assembly coupled to the mobile carriage assembly such that it is translatable therewith, and the mobile swivel wheel assembly and the stationary swivel wheel assembly support the cable; and a tension sensor disposed on at least one of the stationary idler assembly or the moving idler assembly for generating a detection signal representative of a tension experienced by the cable.

In some embodiments, further comprising a guide rail coupled to the extension along a length of the extension; the mobile carriage assembly is coupled to the rail to be translatable along the rail.

In some embodiments, the guide rail extends the entire length of the extension.

In some embodiments, the cylinder assembly is configured to be coupled to a pneumatic control element.

In some embodiments, a control system is further included, the control system being configured to be in electrical communication with the tension sensor 6A and the pneumatic control element.

In some embodiments, a path position sensor is also included, the path position sensor being electrically connected to the control system.

In some embodiments, further comprising a guard rail having an opening above the guard rail to allow at least a portion of the extension to protrude upward.

In some embodiments, the emergency stop switch and the start button are both arranged on the guard rail; the emergency stop switch and the start button are electrically connected with the control system.

The utility model discloses a unsteady accumulator of cable has the position of the adjustable removal swivel wheel subassembly of removal bracket component to can be when the cable too lax with the cable tensioning to the degree of expectation, and when the cable too tensioning, then loosen the cable to the degree of expectation. The tension sensor is arranged to obtain a signal of the tension of the cable in real time, and the position of the movable rotating wheel assembly is adjusted through the air cylinder assembly according to the tension signal, so that the tension of the cable is always kept at a desired value.

Drawings

Fig. 1 is a schematic view of the structure of a floating reservoir of a cable according to an embodiment of the present application, viewed from a first angle;

fig. 2 is a schematic view of the structure of a floating accumulator of a cable according to an embodiment of the present application, viewed from a second angle.

Detailed Description

The floating storage of the cable according to the present invention will be described in detail with reference to the accompanying drawings in conjunction with the embodiments.

The embodiments described herein are only some embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall fall within the protection scope of the present invention. Features in the embodiments in the present application may be combined with each other without conflict. The terms "first," "second," and the like in the description and in the claims, and in the drawings, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order, and the terms so used may be interchanged under appropriate circumstances.

Referring to fig. 1 and 2, an embodiment of the present invention, a floating wire storage device 100 includes a vertical support 1 including a main body 11 and an elongated extension 12; the extension may be an elongated rod or beam. A cylinder assembly 3 is fitted on the main body of the vertical stand 1, the cylinder assembly 3 including a cylinder block 31 fixed to the main body 11 of the vertical stand, and a cylinder rod 32 movable from the cylinder block 31, the cylinder rod being oriented to be extendable in the direction of the extension 12 and retractable in the direction of the main body 11. On the cylinder rod 32, the moving bracket assembly 2 is preferably fixed at an end portion, so that the cylinder rod can drive the moving bracket assembly 2 to make a linear motion together, in order to make the motion of the moving bracket 2 more stable, the moving bracket assembly 2 can be made to be matched with the guide rail 5, for example, one surface of the moving bracket assembly is attached to the surface of the guide rail 5, or the moving bracket assembly has a limiting portion and is matched with the side surface of the guide rail, so that the moving bracket assembly 2 can be smoothly translated along the guide rail 5. The guide rail 5 may extend in the longitudinal direction of the extension 12 and be fixed to the extension 12. The guide rail may be plate-shaped. Preferably, the guide track extends the entire length of the extension.

The moving carriage assembly 2 is coupled to the moving swivel wheel assembly 4 such that the moving swivel wheel assembly 4 moves in translation with the moving carriage assembly 2 in response to movement of the cylinder rod. The mobile swivel wheel assembly 4 may have a swivel wheel base fixed to the mobile carriage assembly 2; and one or more wheels that pivot relative to the wheel base; the wheel may have a guide channel within which the cable is supported.

Stationary swivel assembly 9 and mobile swivel assembly 4 together support a cable, which is coupled to the main body 11 of the stand 1, and which may likewise include a swivel base secured to the main body 11 and one or more swivels configured to pivot relative to the swivel base. Stationary here means that the base part of the wheel does not move relative to the vertical support 1.

The tightness of the cables on the production line can be adjusted by actuating the pneumatic assembly so that the cylinder rod drives the mobile carriage 2 in translation, and therefore the mobile swivel wheel assembly 4 thereon in translation, to approach or to move away from the stationary swivel wheel assembly 9.

A tension sensor 6A may be provided on one or both of the stationary turret wheel assembly 9 and the moving turret wheel assembly 4 to detect tension in the cable on the production line in real time. The tension sensor 6A may be, for example, model M1391-C manufactured by Tensomesmestechnik GmbH. The tension sensor 6A is electrically connected, wired or wirelessly, to a local control system 8 for transmitting the electrical signals generated by the tension sensor 6A to the control system 8 in real time, the control system 8 being for example any well known processing system, such as a control unit having a processor and memory architecture. The control system 8 is also electrically connected to the pneumatic control element 7 of the cylinder assembly 3 to transmit control signals to the pneumatic control element 7, for example control signals controlling the action of the extension or retraction of the cylinder rod.

The control mechanism of the pneumatic control element 7 by the control system 8 to achieve translation of the moving return roller assembly 4 within the stroke L shown in fig. 2 is explained below by way of example with the tension sensor 6A being provided on the stationary return roller assembly 9.

The stationary anti-return pulley assembly 9 is first moved to the position of the return pulley assembly 4 preset with a preset tension.

As the static anti-return pulley assembly 9 moves the return pulley assembly 4 to transmit the cable, the tension sensor 6A transmits a first detection signal of the tension of the cable to a control system in real time;

after receiving the first detection signal from the tension sensor 6A, the control system determines the relationship between the signal and a given threshold value representing the desired tension, and if the relationship is greater than the given threshold value, sends a control signal to the pneumatic control element 7 to make the cylinder rod of the air cylinder act to make the moving bracket 2 with the moving return pulley assembly 4 move towards the body 11 of the upright bracket 1 to reduce the distance between the moving return pulley assembly 9 and the moving return pulley assembly 4, so as to reduce the tension of the cable by the moving return pulley assembly 9 and the return pulley assembly 4 until receiving the subsequent first detection signal equal to the given threshold value; conversely, if less than a given threshold, a control signal is sent to the pneumatic control element 7 so that the action of the cylinder rod of the cylinder causes the movement of the mobile carriage 2 with the mobile swivel assembly 4 in the direction of the extension 12 of the upright 1 to increase the distance between the mobile swivel assembly 4 and the mobile swivel assembly 9, thus increasing the tension of the cable by the mobile swivel assembly 9 moving the swivel assembly 4 until the subsequent first detection signal is received equal to the given threshold. It should be understood that the threshold may be a range of thresholds, and correspondingly, the determination is made as a maximum value greater than the range of thresholds and a minimum value less than the range of thresholds.

Because the wire storage device is started and stopped at any time according to the detection condition of the tension sensor arranged on the fixed wheel, the wire storage device is used for ensuring that the cable is in a preset certain tension range to ensure the quality of the cable,

referring to fig. 1 and 2, the floating wire storage may further include a path position sensor 6B, and the path position sensor 6B is electrically connected to the control system 8 and may be disposed on the extension or the guide rail 5 to provide a second detection signal to the control system 8 whether the moving rack 2 exceeds a preset position.

In some embodiments, the second detection signal may be used as a basis for the cylinder rod, such as a basis for determining a position where the cylinder rod has been extended or retracted, and the control system 8 may be configured to determine that the cylinder rod has been extended or retracted to a limit position according to the second detection signal, for example, a preset limit position value is exceeded, but the cable tension is not within a preset threshold value, that is, when the first detection signal fed back by the tension sensor 6A indicates that the cable tension is still not equal to the preset threshold value or within the preset threshold value, the control system 8 sends an alarm signal corresponding to the situation to an external general control system (not shown in the figure), and the general control system sends an instruction according to the alarm signal to actuate an external take-up and pay-off reel (not shown in the figure) until the cable tension indicated by the first detection signal is equal to the preset threshold value or within the preset threshold value, so as to ensure the tension of the production line to be within a set range and meet the production requirements.

And simultaneously sending the alarm signal to the external master control system, sending a signal to the pneumatic control element 7 to stop the movement of the cylinder rod, so as to help accurately determine the current movement position of the cylinder rod and more accurately control the action amplitude of the take-up and pay-off reel.

When the action of the take-up and pay-off reel enables the tension of the cable indicated by the first detection signal to reversely exceed the preset threshold value or the preset threshold value range, the step of adjusting the pneumatic control element 7 according to the first detection signal is continuously executed, so that the tension of the cable is equal to the preset threshold value or within the preset threshold value range.

The amount of the accumulated wire can also be calculated by the second detection signal of the path position sensor 6B.

Referring to fig. 1 and 2, the floating storage may further include a guard rail 10, which may have a door lock 103 thereon. The guard rail 10 may have an opening therein to allow at least a portion of the extension 12 to extend upwardly out of the guard rail. As a part of the protection system, the protection system further comprises an emergency stop switch 101 and a start button 102 which are both arranged on the guard rail; the emergency stop switch and the start button are electrically connected with the control system 8 to realize emergency stop and start and stop of the wire storage device.

While the disclosure includes various specific embodiments, those skilled in the art will recognize that these embodiments can be practiced with modification within the spirit and scope of the disclosure and claims.

It is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including," "comprising," or "having" and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless specified or limited otherwise, the terms "mounted," "connected," "supported," and "coupled" and variations thereof are used broadly and encompass both direct and indirect mountings, connections, supports, and couplings. Further, "connected" and "coupled" are not restricted to physical or mechanical connections or couplings.

Reference throughout this specification to "one embodiment" or "an embodiment" may mean that a particular feature, structure, or characteristic described in connection with the particular embodiment may be included in at least one embodiment of claimed subject matter. Thus, the appearances of the phrase "in one embodiment" or "an embodiment" in various places throughout this specification are not necessarily referring to the same embodiment or to any one particular embodiment described. Furthermore, it is to be understood that the particular features, structures, or characteristics described may be combined in various ways in one or more embodiments. Of course, in general, these and other issues may vary depending on the particular context of use. Thus, the particular context of description or use of these terms may provide useful guidance regarding inferences to be drawn for that context.

Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific procedures described herein. Such equivalents are considered to be within the scope of this disclosure. Various substitutions, alterations, and modifications may be made to the embodiments without departing from the spirit and scope of the disclosure. Other aspects, advantages, and modifications are within the scope of the disclosure. This disclosure is intended to cover any adaptations or variations of the specific embodiments discussed herein. Therefore, it is intended that this disclosure be limited only by the claims and the equivalents thereof.

Unless otherwise indicated, all numbers expressing feature sizes, quantities, and physical properties used in the specification and claims are to be understood as being modified by the term "about". Accordingly, unless indicated to the contrary, the numerical parameters set forth in the foregoing specification and attached claims are approximations that can vary depending upon the desired properties sought to be obtained by those skilled in the art utilizing the teachings disclosed herein.

The foregoing describes preferred embodiments of the present invention, but the spirit and scope of the present invention is not limited to the specific disclosure herein. Those skilled in the art can freely combine and expand the above embodiments in accordance with the teachings of the present invention to make further embodiments and applications within the spirit and scope of the present invention. The spirit and scope of the present invention are not to be limited by the specific embodiments but by the appended claims.

Claims (8)

1. A floating wire storage device of a cable is characterized in that: comprises that

A vertical stand (1) including a main body (11) and an extension portion (12) extending from the main body in a vertical direction;

a cylinder assembly (3) comprising a cylinder block fixed to the main body (11) of the upright support, and a cylinder rod movable from the cylinder block, the cylinder rod being oriented so as to be extendable towards the extension and retractable towards the main body (11);

the moving bracket component (2) is fixed on the cylinder rod;

a static anti-rotation wheel assembly (9) coupled to the main body of the upright bracket and configured to be rotatable;

a mobile swivel wheel assembly (4) coupled to the mobile carriage assembly (2) so that it can translate together with the mobile carriage assembly (2), and the mobile swivel wheel assembly (4) and the static anti-swivel wheel assembly (9) support the cable; and

a tension sensor (6A) disposed on at least one of the stationary or moving swivel wheel assemblies (4) for generating a first detection signal indicative of a tension experienced by the cable.

2. The floating accumulator of cables of claim 1, wherein: further comprising a guide rail (5) coupled to the extension (12) along the length of the extension (12); the mobile carriage assembly (2) is coupled to the guide rail so as to be translatable along the guide rail.

3. The floating accumulator of cables of claim 2, wherein: the guide rail extends the entire length of the extension (12).

4. A floating storage of cables as claimed in claim 1 or 2 or 3, wherein: the cylinder assembly (3) is configured to be coupled to a pneumatic control element (7).

5. The floating accumulator of cables of claim 4, wherein: further comprising a control system (8) configured to be electrically connected with the tension sensor (6A) and the pneumatic control element (7).

6. The floating accumulator of cables of claim 5, wherein: a path position sensor (6B) is also included, the path position sensor (6B) being electrically connected with the control system (8) to provide a second detection signal indicative of the position of the cylinder rod to the control system (8).

7. The floating accumulator of cables of claim 1, wherein: further comprising a guard rail having an opening above the guard rail to allow at least a portion of the extension (12) to protrude upwardly.

8. The floating accumulator of cables of claim 5, wherein: the emergency stop switch and the start button are both arranged on the protective guard; the emergency stop switch and the start button are electrically connected with the control system (8).

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