阅读说明：本技术 除静电机构及帘布导开装置 (Static electricity removing mechanism and cord fabric unwinding device ) 是由 官炳政 黄秀娥 史本玉 纪怡 陈怀宇 李奇 于 2020-12-31 设计创作，主要内容包括：本发明提供了一种除静电机构及帘布导开装置,除静电机构用于去除脱离帘布后的贴膜上的静电,除静电机构包括：两个导体组件,两个导体组件分别设置在分离机构的两侧,以分别与脱离帘布的两个贴膜导电接触,其中,导体组件采用柔性结构,导体组件的一端设置在贴膜的上方,导体组件的另一端在重力作用下抵接在贴膜上；接地组件,接地组件与两个导体组件均连接,以将导体组件上的电流导入大地。本发明的除静电机构解决了现有技术中的胶料帘布在去除贴膜的过程中,贴膜上存留静电的问题。(The invention provides a static electricity removing mechanism and a cord fabric unwinding device, wherein the static electricity removing mechanism is used for removing static electricity on a film which is separated from a cord fabric, and comprises: the two conductor assemblies are respectively arranged on two sides of the separating mechanism to be in conductive contact with the two sticking films separated from the curtain cloth respectively, the conductor assemblies are of flexible structures, one ends of the conductor assemblies are arranged above the sticking films, and the other ends of the conductor assemblies are abutted against the sticking films under the action of gravity; and the grounding assembly is connected with both the conductor assemblies so as to lead the current on the conductor assemblies to the ground. The static electricity removing mechanism solves the problem that static electricity is remained on the sticking film in the process of removing the sticking film of the sizing material cord fabric in the prior art.)

1. A static electricity removing mechanism for removing static electricity on a film (11) which is separated from a curtain cloth, is characterized by comprising:

the two conductor assemblies (90) are respectively arranged on two sides of the separating mechanism (52) to be in conductive contact with the two sticking films (11) separated from the curtain cloth, wherein the conductor assemblies (90) adopt flexible structures, one ends of the conductor assemblies (90) are arranged above the sticking films (11), and the other ends of the conductor assemblies (90) are abutted against the sticking films (11) under the action of gravity;

a grounding assembly (91), wherein the grounding assembly (91) is connected with both conductor assemblies (90) so as to lead the current on the conductor assemblies (90) to the ground.

2. The static discharge mechanism as recited in claim 1, wherein said conductor assembly (90) comprises:

the one end of chain is fixed the top of pad pasting (11), the other end of chain is free fall state flagging under the action of gravity, wherein, the chain top is to the distance of pad pasting (11) is less than the length of chain, so that the bottom of chain all the time with pad pasting (11) contact is connected.

3. The static eliminating mechanism according to claim 2, wherein the number of the chains is plural, and the plural chains are provided at intervals in the width direction of the film (11) to be in conductive contact with different positions on the film (11).

4. The static discharge mechanism as recited in claim 3, wherein said conductor assembly (90) further comprises:

and the conductive plate (92), the conductive plate (92) is connected with the grounding assembly (91), wherein, the conductive plate (92) is parallel to the film (11) and extends along the width direction of the film (11), and a plurality of chains are arranged on the conductive plate (92) at intervals along the extending direction of the conductive plate (92).

5. The static discharge mechanism according to claim 2, wherein the chain is a copper chain.

6. The static discharge mechanism as recited in claim 1, wherein said conductor assembly (90) comprises:

the one end of wire is fixed the top of pad pasting (11), the other end of wire is free fall state flagging under the action of gravity, wherein, the wire top is to the distance of pad pasting (11) is less than the length of wire, so that the bottom of wire all the time with pad pasting (11) contact is connected.

7. The static discharge mechanism as recited in claim 6, wherein said conductor assembly (90) further comprises:

the conductive wire comprises a plurality of conductive balls (93), wherein the conductive balls (93) are sequentially arranged along the length direction of the conductive wire, and at least one conductive ball (93) is positioned at the bottom end of the conductive wire and is in conductive contact with the adhesive film (11).

8. A curtain fabric unwinding device, comprising a separating mechanism (52), wherein the separating mechanism (52) is used for separating the film sticking (11) on the two sides of the curtain fabric, and is characterized by further comprising a static removing mechanism, and the static removing mechanism is the static removing mechanism in any one of claims 1 to 7.

9. A curtain opening device according to claim 8, characterized in that it further comprises:

the two film pasting rolls are respectively arranged on two sides of the separating mechanism (52) so as to store the film pasting (11) separated by the separating mechanism (52);

the film roll driving assembly is connected with the film roll so as to roll up the film (11) by driving the film roll to rotate;

wherein a conductor assembly (90) of the de-static mechanism is disposed between the roll of film and the separating mechanism (52).

10. A curtain opening device according to claim 9, characterized in that it further comprises:

two guide roller assemblies (95), the two guide roller assemblies (95) being respectively disposed between the film roll and the conductor assembly (90) to guide the discharged film (11) to the film roll.

Technical Field

The invention relates to the technical field of rubber tires, in particular to a static electricity removing mechanism and a cord fabric unwinding device.

Background

The surface of the rubber cord fabric is generally covered with the plastic adhesive film for preventing adhesion, the adhesive film needs to be torn off when the rubber cord fabric is used, when the plastic adhesive film is torn off, more static ions can be formed and exist on the adhesive film, and the static ions can be electrified to an operator, so that inconvenience is brought to the operation of the operator.

Disclosure of Invention

The invention mainly aims to provide a static electricity removing mechanism and a cord fabric unwinding device, and aims to solve the problem that static electricity remains on a film in the process of removing the film of a rubber cord fabric in the prior art.

In order to achieve the above object, according to one aspect of the present invention, there is provided a static electricity removing mechanism for removing static electricity from a patch after being detached from a curtain fabric, the static electricity removing mechanism comprising: the two conductor assemblies are respectively arranged on two sides of the separating mechanism to be in conductive contact with the two sticking films separated from the curtain cloth respectively, the conductor assemblies are of flexible structures, one ends of the conductor assemblies are arranged above the sticking films, and the other ends of the conductor assemblies are abutted against the sticking films under the action of gravity; and the grounding assembly is connected with both the conductor assemblies so as to lead the current on the conductor assemblies to the ground.

Further, the conductor assembly includes: the one end of chain is fixed in the top of pad pasting, and the other end of chain is free fall state flagging under the action of gravity, and wherein, the distance of chain top to pad pasting is less than the length of chain to the bottom that makes the chain is connected with the pad pasting contact all the time.

Furthermore, the chain is a plurality of, and the width direction that a plurality of chains pressed the pad pasting sets up at interval to with different positions on the pad pasting electrically conductive contact.

Further, the conductor assembly further comprises: the current-conducting plate, the current-conducting plate is connected with the ground connection subassembly, and wherein, the setting that the current-conducting plate is on a parallel with the pad pasting and extends along the width direction of pad pasting, and a plurality of chains set up on the current-conducting plate along the extending direction interval of current-conducting plate.

Further, the chain is a copper chain.

Further, the conductor assembly includes: the one end of wire is fixed in the top of pad pasting, and the other end of wire is free fall state flagging under the action of gravity, and wherein, the distance of wire top to pad pasting is less than the length of wire to the bottom that makes the wire is connected with the pad pasting contact all the time.

Further, the conductor assembly further comprises: the conductive balls are sequentially arranged along the length direction of the lead, and at least one conductive ball is positioned at the bottom end of the lead and is in conductive contact with the adhesive film.

According to another aspect of the invention, the cord fabric unwinding device comprises a separating mechanism for separating the films attached to the two sides of the cord fabric, and a static removing mechanism which is the static removing mechanism.

Further, the curtain fabric unwinding device still includes: the two film pasting rolls are respectively arranged on two sides of the separating mechanism so as to store the film pasted by the separating mechanism after separation; the film sticking roll driving assembly is connected with the film sticking roll so as to roll up the film sticking by driving the film sticking roll to rotate; wherein, the conductor assembly of static-removing mechanism is arranged between the film roll and the separating mechanism.

Further, the curtain fabric unwinding device still includes: and the two guide roller assemblies are respectively arranged between the corresponding film pasting roll and the conductor assembly so as to guide the discharged film pasting to the film pasting roll.

The static electricity removing mechanism is used for removing static electricity on the sticking film, particularly, when the separating mechanism separates the sticking films stuck on two sides of the curtain cloth, a large amount of static electricity can be generated on the sticking films, and operators can feel uncomfortable when contacting the sticking films, so the static electricity removing mechanism is arranged for removing the static electricity on the separated sticking films, particularly, the conductor assembly is arranged between the sticking film roll and the separating mechanism so as to lead the static electricity on the sticking films into the ground through conductive connection with the sticking films, particularly, the conductor assembly adopts a flexible structure, one end of the conductor assembly is hung above the sticking films, the other end of the conductor assembly droops under the action of gravity, the bottom end of the conductor assembly is always connected with the sticking films, in addition, the flexible structure is adopted, the sticking films cannot be damaged when contacting the sticking films, the abrasion is small, and the conductor assembly can move up and down according to the tensioning amplitude of the sticking films, and the problem that the curtain cloth in the prior art removes the sticking, the sticking film has the problem of static electricity.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view showing the structure of an embodiment of a conveying assembly of the curtain fabric unwinding device of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the static discharge mechanism of the present invention;

fig. 3 shows a schematic structural view of an embodiment of a curtain opener according to the invention.

Wherein the figures include the following reference numerals:

10. a cord reel; 11. pasting a film; 20. a mounting frame; 21. a first support column; 22. a suspension assembly; 23. climbing a ladder; 30. a transfer assembly; 50. a delivery assembly; 51. a movable frame; 52. a separating mechanism; 53. a first film roll; 54. a second film roll; 60. a drive assembly; 61. a drive motor; 62. a drive chain mechanism; 70. a joint assembly; 80. a detection component; 90. a conductor assembly; 91. a ground component; 92. a conductive plate; 93. a conductive ball; 101. a first operating space; 102. a second operating space.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The invention also provides a cord fabric unwinding device, which comprises a separating mechanism, wherein the separating mechanism is used for separating the sticking films 11 on the two sides of the cord fabric, the cord fabric unwinding device also comprises a static removing mechanism, so that the static electricity generated when the sticking films 11 are separated from the cord fabric body is taken out after the sticking films 11 on the two sides of the cord fabric are separated from the cord fabric body, and the static removing mechanism comprises:

the two conductor assemblies 90 are respectively arranged on two sides of the separating mechanism to be respectively in conductive contact with the two sticking films 11 separated from the curtain cloth, wherein the conductor assemblies 90 are of a flexible structure, one end of each conductor assembly 90 is arranged above the sticking film 11, and the other end of each conductor assembly 90 is abutted against the sticking film 11 under the action of gravity; and the grounding component 91, wherein the grounding component 91 is connected with both conductor components 90 so as to lead the current on the conductor components 90 to the ground.

In the embodiment, when the separating mechanism separates the sticking films 11 stuck on two sides of the curtain cloth, a large amount of static electricity can be generated on the sticking films 11, and the contact of operators can be uncomfortable, therefore, the static electricity removing mechanism is arranged to remove the static electricity on the separated sticking films 11, specifically, the conductor assembly 90 is arranged between the sticking film roll and the separating mechanism so as to lead the static electricity on the sticking films 11 into the ground through the conductive connection with the sticking films 11, specifically, the conductor assembly 90 adopts a flexible structure, one end of the conductor assembly 90 is hung above the sticking films 11, the other end of the conductor assembly 90 sags under the action of gravity, the bottom end of the conductor assembly 90 is always connected with the sticking films 11, in addition, the flexible structure is adopted to not damage the sticking films 11 when being in contact with the sticking films 11, the abrasion is small, and can move up and down according to the tensioning amplitude of the sticking films 11, and the problem that in the prior art, when the, the sticking film 11 has a problem of static electricity remaining thereon.

The conductor assembly 90 includes: the one end of chain is fixed in the top of pad pasting 11, and the other end of chain is free fall state flagging under the action of gravity, and wherein, the distance of chain top to pad pasting 11 is less than the length of chain to the bottom that makes the chain is connected with pad pasting 11 contact all the time. The plurality of chains are provided at intervals in the width direction of the film 11 so as to be in conductive contact with different positions on the film 11.

As shown in fig. 1 and 2, the conductor assembly 90 in this embodiment adopts a metal chain for conducting, specifically, the chain is suspended above the film 11, the upper end of the chain is conductively connected with the grounding assembly 91, the lower end of the chain is laid on the film 11, a plurality of chains are arranged at intervals along the width direction of the film 11, each chain is independently contacted with the film 11, the plurality of films 11 are respectively contacted with the film 11 to ensure the conducting performance of the whole conductor assembly 90, and even if a part of the chains is temporarily separated from the film 11 under the action of external force, the conducting performance is not affected.

The conductor assembly 90 further includes: and a conductive plate 92 connected to the grounding assembly 91, wherein the conductive plate 92 is disposed parallel to the adhesive film 11 and extends along the width direction of the adhesive film 11, and a plurality of chains are disposed on the conductive plate 92 at intervals along the extending direction of the conductive plate 92.

The conductor assembly 90 in this embodiment is further provided with a conductive plate 92, the conductive plate 92 is fixed on the movable frame, a plurality of chains are arranged on the conductive plate 92 at intervals along the width direction of the adhesive film 11, and the plurality of chains are respectively connected with the conductive plate 92 in a conductive manner and then connected with the grounding assembly 91 through the conductive plate 92.

Preferably, the chain is a copper chain.

The conductor assembly 90 includes: the one end of wire is fixed in the top of pad pasting 11, and the other end of wire is the flagging of free fall state under the action of gravity, and wherein, the distance of wire top to pad pasting 11 is less than the length of wire to the bottom that makes the wire contacts with pad pasting 11 all the time and is connected. The conductor assembly 90 further includes: a plurality of conductive balls 93, a plurality of conductive balls 93 set up along the length direction of wire in order, and wherein, at least one conductive ball 93 is located the bottom of wire to with pad pasting 11 conductive contact.

In this embodiment, the wire is a metal wire, one end of the wire is tied to the conductive plate 92, and the other end of the wire is laid down on the film 11, wherein a string of copper balls is strung on the wire, the copper balls are arranged at intervals along the extending direction of the wire, that is, a plurality of copper balls are tied to the wire from top to bottom, the bottom end of the wire is also provided with a copper ball, the conductor assembly 90 and the film 11 are in contact with the film 11 through the conductive ball 93, the conductive ball 93 is of a spherical structure, the film 11 cannot be broken, safety is ensured, and meanwhile, the wire naturally sags and falls onto the film 11 due to the self gravity of the conductive ball 93.

The conductive balls 93 are copper balls.

The curtain fabric unwinding equipment still includes: the two film pasting rolls are respectively arranged at two sides of the separating mechanism so as to store the film pasting 11 separated by the separating mechanism; the film sticking roll driving assembly is connected with the film sticking roll so as to roll up the film sticking 11 by driving the film sticking roll to rotate; wherein the conductor assembly 90 of the destaticizing mechanism is disposed between the film roll and the separating mechanism.

Two pad pasting book in this embodiment are first pad pasting book and second pad pasting book respectively to set up respectively in separating mechanism's both sides, in order to be used for collecting the pad pasting 11 after the separation, drive assembly includes the motor for the pad pasting, and motor drive pad pasting book rotates in order to collect pad pasting 11.

The curtain fabric unwinding equipment still includes: two guide roller assemblies, which are respectively disposed between the corresponding film roll and the conductor assembly 90, to guide the discharged film 11 to the film roll.

In the invention, a guide roller assembly is also arranged between the film roll and the separating mechanism and is used for guiding the film 11 separated by the separating mechanism to the film roll for collection.

The delivery assembly 50 further comprises: a first guide roller provided on the moving frame 51 to guide the cord drawn from the cord reel 10 to the separating mechanism 52.

The curtain cloth winding shaft 10 is pulled by the conveying assembly 30, the curtain cloth firstly moves horizontally to the first guide roller through the space below the stool bottom, the curtain cloth moves upwards along the vertical direction after passing through the first guide roller, the sticking films on two sides of the curtain cloth are removed through the separating mechanism 52, the remaining curtain cloth continuously moves upwards to the conveying assembly 30, and the conveying assembly 30 conveys the curtain cloth to the material receiving winding drum for receiving.

Referring to fig. 3, a curtain unwinding device for unwinding a curtain from a curtain reel 10 includes: a mounting frame 20; a transfer assembly 30, the transfer assembly 30 being disposed on the mounting frame 20 for transferring the curtain on the curtain reel 10; the slide rail assembly is arranged on one side of the mounting frame 20; the conveying assembly 50 is movably arranged on the slide rail assembly, the curtain cloth reel 10 is arranged on the conveying assembly 50, the conveying assembly 50 is provided with a working position and a temporary storage position, the conveying assembly 50 moves between the working position and the temporary storage position, and when the conveying assembly 50 moves to the working position, the conveying assembly 30 is connected with the conveying assembly 50; and the driving assembly 60 is arranged at the bottom of the slide rail assembly, and the driving assembly 60 is connected with the conveying assembly 50 so as to drive the conveying assembly 50 to move along the slide rail assembly.

The invention provides a curtain fabric unwinding device which is arranged at one side of a curtain fabric reel 10 and is used for pulling curtain fabric on the curtain fabric reel 10, the curtain fabric unwinding device comprises a mounting frame 20 fixed on the ground, a conveying assembly 30 is fixed on the mounting frame 20 and is used for pulling and conveying curtain fabric, in order to improve the working efficiency, the conveying assembly 50 is movably arranged relative to the conveying assembly 30, a plurality of conveying assemblies 50 can be arranged, when the curtain fabric of the curtain fabric reel 10 on one conveying assembly 50 is unwound, the conveying assembly 50 is removed, then a driving assembly 60 drives the conveying assembly 50 staying at a temporary storage position to rapidly move to a working position to be connected with the conveying assembly 30, so as to continue the curtain fabric unwinding work, thus the curtain fabric unwinding efficiency is accelerated, and if the equipment on the conveying assembly 50 is abnormal or the curtain fabric is unwound in the curtain fabric unwinding process, because the driving assembly 60 or some other dangerous objects of electrical elements are arranged at the bottom of a sliding rail assembly, the operator has enough channels to smoothly reach the position between the conveying component 50 and the mounting frame 20 or one side of the conveying component 50 to process the conveying component 50, so that the efficiency of exception handling is improved, and the production efficiency of the unwinding device is accelerated.

The conveying assembly 50 includes a moving frame 51, and the driving assembly 60 includes: a drive motor 61; the driving chain mechanism 62 is connected with the driving motor 61, the driving chain mechanism 62 is further connected with the moving frame 51, and the driving motor 61 drives the moving frame 51 to move along the sliding rail assembly through the driving chain mechanism 62.

As shown in fig. 1, the driving assembly 60 in this embodiment uses a chain transmission to drive the moving frame 51 to move, and in addition, for moving convenience, the moving frame 51 is disposed on the cart to move the curtain reel 10 along the slide rail assembly on the moving frame 51 of the cart, four pulleys are disposed on the bottom of the cart to move along two opposite slide rails of the slide rail assembly, and the driving motor 61 drives the cart to move through the transmission chain mechanism 62 to drive the conveying assembly 50 to move between the temporary storage position and the working position.

The mount 20 includes: the first supporting column 21, the first supporting column 21 is fixed on the ground; and a hanging assembly 22, wherein the hanging assembly 22 is connected with the first supporting column 21 for installing the conveying assembly 30, and the conveying assembly 50 is arranged at a distance from the first supporting column after moving to the working position to form a first operating space 101.

The mounting frame 20 in this embodiment further includes a second supporting column, the second supporting column is disposed in parallel with the first supporting column 21, the second supporting column is located on one side of the first supporting column 21 away from the working position of the conveying assembly 50, a suspension assembly 22 is disposed above the mounting frame 20, the suspension assembly 22 includes a cross beam and a suspension arm, the cross beam is welded to top ends of the first supporting column 21 and the second supporting column and extends towards the working position, one end of the conveying assembly 30 is fixed on the first supporting column 21, and the other end of the conveying assembly is connected with the suspension arm, so that the operating space is located under the conveying assembly 30, and the first supporting column 21, the suspension assembly 22 and the conveying assembly 50 are enclosed to enable an operator to handle the conveying assembly 50 at this position when the conveying assembly 50 is abnormal.

The delivery assembly 50 includes: a moving frame 51; and a separating mechanism 52, wherein the separating mechanism 52 is arranged on the moving frame 51 and positioned at one side of the curtain cloth reel 10 for separating the films at two sides of the curtain cloth after being unfolded. The delivery assembly 50 further comprises: a first film roll 53 and a second film roll 54, wherein the first film roll 53 and the second film roll 54 are respectively arranged on the moving frames 51 at two sides of the separating mechanism 52 so as to store the films separated by the separating mechanism 52; wherein, the curtain cloth scroll 10, the first film roll 53, the separating mechanism 52 and the second film roll 54 are sequentially arranged on the moving frame 51 along a preset direction, and the first operating space 101 is positioned between the second film roll 54 and the first support column 21.

The conveying assembly 50 in this embodiment includes a cart, a moving frame 51, a separating mechanism 52, a first film roll 53, a second film roll 54, and a curtain fabric reel 10, wherein the separating mechanism 52, the first film roll 53, the second film roll 54, and the curtain fabric reel 10 are respectively located on the moving frame 51, a second operating space 102 is provided between the curtain fabric reel 10 and the first film roll 53, and a stool is further provided on the moving frame 51 so that an operator steps on the stool to operate the first film roll 53 or the curtain fabric reel 10.

When the conveying assembly 50 moves to the working position, the second film roll 54 is spaced from the first support column 21 by a distance d1, and d1 is greater than or equal to 0.5 m. The curtain cloth roller 10 and the first film roll 53 are arranged at intervals to form a second operation space 102, wherein when the conveying assembly 50 moves to the working position, the curtain cloth roller 10 and the first film roll 53 are separated by a distance d2, and d2 is greater than or equal to 0.5 m.

In order to facilitate the handling of the abnormal situation on the conveying assembly 50 by the operator, the first operating space 101 and the second operating space 102 are defined in the present embodiment to ensure that the operator has enough operating space to handle the abnormal situation.

The conveying assembly 30 is arranged at the upper part of the mounting frame 20 and is positioned above the slide rail assembly so as to pull the curtain cloth separated by the separating mechanism 52 to move after the conveying assembly 50 moves to the working position. The mounting bracket 20 is further provided with a ladder 23, wherein the ladder 23 is arranged on the first support column 21 and extends along the height direction of the first support column 21.

Conveying assembly 30 in this embodiment sets up on mounting bracket 20 upper portion, form the ascending upper and lower position relation of vertical side with conveying assembly 50 on the operating position, the space has been saved, the whole unwinding device structure that makes is compacter, it is littleer to take up an area of the space, meanwhile in order to make things convenient for operating personnel to in time handle when conveying assembly 30 appears unusually, cat ladder 23 has still been set up on first support column 21 in this embodiment, operating personnel can maintain conveying assembly 30 on mounting bracket 20 upper portion through cat ladder 23, and is convenient and fast.

The curtain fabric unwinding equipment still includes: a connector assembly 70, wherein the connector assembly 70 is arranged between the separating mechanism 52 and the conveying assembly 30 so as to connect the cord fabric separated by the separating mechanism 52 with the conveying assembly 30; a detection assembly 80, the detection assembly 80 being disposed on the transport assembly 30 to detect the position of the curtain on the transport assembly 30; and the controller is connected with the detection assembly 80 to receive the signal detected by the detection assembly 80 and control the moving frame 51 to move according to the signal so as to adjust the position of the curtain cloth.

In the embodiment, an automatic joint assembly 70 and a detection assembly 80 are further arranged between the conveying assembly 50 and the conveying assembly 30, the automatic joint assembly 70 is arranged on the suspension assembly 22, and can be used for butting the changed curtain cloth with the curtain cloth before the change after the conveying assembly 50 is changed, so that the conveying assembly 30 can continuously pull the curtain cloth on the curtain cloth reel 10. The detecting assembly 80 comprises a position detecting sensor for detecting the position of the curtain cloth on the conveying assembly 30, when the curtain cloth deviates, the detecting assembly 80 sends the abnormal information of the curtain cloth to the controller, and the controller is connected with the driving assembly 60 to control the driving assembly 60 to rotate so as to drive the conveying assembly 50 to move correspondingly, so that the position of the curtain cloth conveyed from the conveying assembly 50 to the conveying assembly 30 is ensured to be centered.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the static electricity removing mechanism provided by the invention is used for removing static electricity on a film, particularly, when a separating mechanism separates the films 11 stuck on two sides of a curtain cloth, a large amount of static electricity can be generated on the film 11, and an operator can feel uncomfortable when contacting the films, therefore, the static electricity removing mechanism provided by the invention is used for removing the static electricity on the separated films 11, particularly, a conductor component 90 is arranged between a film roll and the separating mechanism so as to guide the static electricity on the films 11 to the ground through conductive connection with the films 11, particularly, the conductor component 90 adopts a flexible structure, one end of the conductor component 90 is hung above the films 11, the other end of the conductor component droops under the action of gravity, the bottom end of the conductor component 90 is always connected with the films 11, in addition, the flexible structure does not damage the films 11 when contacting the films 11, has small abrasion and can move up and down according to the tensioning amplitude of the films 11, the problem of among the prior art cord fabric in the in-process of getting rid of pad pasting 11, remain static on the pad pasting 11 is solved.

The curtain fabric unwinding device of the invention is arranged at one side of a curtain fabric winding shaft 10 for pulling curtain fabric on the curtain fabric winding shaft 10, and comprises a mounting frame 20 fixed on the ground, a conveying assembly 30 fixed on the mounting frame 20 for pulling and conveying curtain fabric, in order to improve the working efficiency, a conveying assembly 50 is movably arranged relative to the conveying assembly 30, the conveying assembly 50 can be arranged in a plurality, when the curtain fabric of the curtain fabric winding shaft 10 on one conveying assembly 50 is unwound, the conveying assembly 50 is removed, then a driving assembly 60 drives the conveying assembly 50 staying at a temporary storage position to rapidly move to a working position to be connected with the conveying assembly 30, so as to continue the curtain fabric unwinding work, thus the curtain fabric unwinding efficiency is accelerated, and if the equipment on the conveying assembly 50 is abnormal or the curtain fabric is unwound in the curtain fabric unwinding process, because the driving assembly 60 or some other electric element dangerous objects are arranged at the bottom of a sliding rail assembly, the operator has enough channels to smoothly reach the position between the conveying component 50 and the mounting frame 20 or one side of the conveying component 50 to process the conveying component 50, so that the efficiency of exception handling is improved, and the production efficiency of the unwinding device is accelerated.

As shown in figure 1, the invention provides a curtain fabric unwinding device with an operation channel, which mainly comprises a piece conveying assembly 30, a deviation-rectifying detection assembly 80, an automatic joint assembly 70, a trolley, a ladder stand 23, a station-changing driving assembly 60, a transmission chain mechanism 62 and a wiring bridge.

A cross beam with proper length is arranged on a suspension assembly 22 on the mounting frame 20, an upper rib plate and a lower rib plate reinforcing structure are arranged, part of the lower rib plate is removed, and the operating height of the first operating space is increased. The driving motor 61, the transmission chain mechanism 62, the wiring and other structures which are arranged in the conventional unwinding device in the channel are cleaned, the driving motor 61, the transmission chain mechanism 62 and the wiring are moved to the bottom of the sliding rail assembly, the operation channel is completely cleaned, and an accessible operation space and a channel are formed.

Meanwhile, in order to match the structure of the mounting frame 20, the trolley structure is redesigned to ensure that the curtain cloth can be vertically and upwards led to enter the conveying assembly 30, the suspension assembly 22 is further provided with automatic joints and a deviation-correcting detection assembly 80, and the suspension assembly 22 comprises a cross beam connected with the first support column 21 and suspension arms arranged at the end parts of the cross beam and is used for installing and fixing the conveying assembly 30, the automatic joints and the deviation-correcting detection assembly 80.

In particular use, when the first and second pasting film rolls 53 and 54 are abnormal, an operator can quickly enter the first or second operation space 101 or 102 to perform abnormality processing on the corresponding pasting film rolls.

The invention designs a simple and easy-to-use static removing mechanism, the static removing mechanism is arranged at the position where the plastic film-pasting cord fabric is just stripped and separated from the rubber cord fabric, and static electricity is conducted out as soon as the plastic film-pasting cord fabric contacts the sticking film.

The static electricity removing mechanism of the embodiment mainly comprises a copper chain mounting frame with galvanized surface, a conductive plate and a plurality of groups of copper chains. The hole on the conducting plate can be connected with a conducting wire, and the conducting wire is independently connected to the general grounding wire, so that the static ions are not influenced and are completely led out.

When in specific use, the main process steps are as follows: after the cord fabric is stripped by the film, the film is wound on the film roll, and the copper chain of the static removing device is ensured to be in full contact with the upper film.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. 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, further discussion thereof is not required in subsequent figures.

In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and in the case of not making a reverse description, these orientation words do not indicate and imply that the device or element being referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be considered as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of the present invention should not be construed as being limited.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.