CN213264897U - Mica tape winding machine with placing mechanism - Google Patents

Abstract

The utility model relates to a mica tape is around rolling up technical field, provides a mica tape is around book machine with mechanism is put to pendulum, including the organism, still include unwinding mechanism and the winding mechanism that the direction that transports along the mica tape set gradually, in unwinding mechanism with still be equipped with on the mica tape transport route between the winding mechanism and drive hold-down mechanism and a plurality of delivery wheel swings with the cooperation the mechanism is put in to the winding mechanism rolling, put the mechanism unreeling mechanism and winding mechanism all install in on the vertical installation face of organism. The utility model discloses a mica tape is around book machine with mechanism is put to pendulum drives through the mechanism of putting and transports the wheel and hold-down mechanism swings, and the mica tape just can arrange on rolling refill layer by layer like this to in order to obtain the finished product that the article accuse is good.

Description

Mica tape winding machine with placing mechanism

Technical Field

The utility model relates to a mica tape specifically is a mica tape is around book machine with put mechanism around rolling up technical field.

Background

The products such as early mica tapes are mostly single-disc, the length of the products is more than 500-1000 m, and the products need to be connected by manpower frequently in use, which is very troublesome.

In the prior art, machines are considered to wind the splicing tape to replace manual splicing tape, but various problems often occur in the actual application process. For example:

1. the whole automation degree of the equipment is not high, and the labor cost is wasted because the belt is connected in an auxiliary way.

2. In the winding stage, the raw materials cannot be well locked, so that the problem of raw material separation occurs in the working process.

3. In the feeding process, the problem that the mica tape is too tight or too loose often occurs due to the tension problem, and the mica tape is separated from the existing conveying line after being used for a period of time.

4. The problem of pan feeding angle can't be solved when the pan feeding, can lead to unable transporting steadily, and the product type of adaptation is few.

5. In the feeding process, the mica tape cannot be stably conveyed due to the problem of the swing amplitude.

6. In the actual conveying process, the grooved pulley with a fixed width is used, more than twenty specifications are required to be configured, the cost is high, and the whole conveying device is required to be replaced, so that the conveying device is very troublesome.

7. The mica tape is a flexible material, and the axial movement of the mica tape is not limited during the transportation process, so that the mica tape exceeds the winding range, and the produced product cannot meet the requirements on appearance and use.

8. The existing equipment is not coordinated in winding on the winding side, and manual auxiliary winding is often needed, so that the equipment is extremely inconvenient.

9. The existing winding equipment has the defects of small quantity of conveying wheels, few functions, dissonance in arrangement and incapability of ensuring the stable conveying of the mica tapes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mica tape is around book machine with put mechanism drives through putting the mechanism and transports the wheel and hold-down mechanism swings, and the mica tape just can arrange on the rolling refill layer by layer like this to in order to obtain the finished product that the article accuse is good.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the utility model provides a mica tape is around book machine with mechanism is put, includes the organism, still includes unwinding mechanism and the winding mechanism that sets gradually along the direction that the mica tape transported, in unwinding mechanism with still be equipped with on the mica tape transport route between the winding mechanism and can drive hold-down mechanism and a plurality of conveying wheel swings with the cooperation the mechanism is put in the winding of winding mechanism, put the mechanism unwinding mechanism and winding mechanism all install in on the vertical installation face of organism.

Further, the placing mechanism comprises a cylinder which is perpendicular to the vertical mounting surface, a sliding block which is sleeved on the cylinder in a sliding mode, and a driving assembly which is used for driving the sliding block to move along the direction that the cylinder is perpendicular to the vertical mounting surface, and the sliding block is provided with a placing position for installing the pressing mechanism and the conveying wheels.

Further, the drive assembly comprises a screw rod and a driving piece, wherein the screw rod is arranged in the direction perpendicular to the vertical mounting surface of the cylinder, the driving piece drives the screw rod to rotate, the sliding block is in threaded connection with the screw rod, and the sliding block and the screw rod form a screw rod transmission structure.

Furthermore, the placing mechanism further comprises a guide shaft for guiding, the guide shaft extends along the length direction of the wire rod, and the sliding block is sleeved on the guide shaft.

Furthermore, the number of the guide shafts is two, and the two guide shafts are arranged in parallel.

Furthermore, the sliding block includes can in cylinder surface gliding two slide bars, two the slide bar interval sets up, hold-down mechanism installs two on the slide bar, just hold-down mechanism is located two between the slide bar.

Furthermore, an angle adjusting device used for adjusting the feeding angle of the mica tapes is further arranged on a mica tape conveying path between the unwinding mechanism and the winding mechanism.

Further, angle adjusting device includes pay-off angle adjustment wheel and is used for adjusting the multi-angle of the position of pay-off angle adjustment wheel is adjusted the support, the pay-off angle adjustment wheel is installed on the multi-angle adjusts the support.

Further, the multi-angle adjusting support comprises a bottom plate driven by the placing mechanism to swing in the direction perpendicular to the vertical mounting surface, a connecting plate mounted on the bottom plate, and an inclined plate connected with one end, far away from the bottom plate, of the connecting plate, the feeding angle adjusting wheel is mounted at the end, far away from the connecting plate, of the inclined plate, and the bottom plate is mounted on the two sliding rods.

Compared with the prior art, the beneficial effects of the utility model are that: a mica tape winding machine with a placing mechanism drives a conveying wheel and a pressing mechanism to swing through the placing mechanism, so that mica tapes can be arranged on a winding paper core layer by layer, and finished products with good quality control can be obtained.

Drawings

Fig. 1 is a perspective view of a winding machine according to an embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

fig. 3 is a side view of a winding machine according to an embodiment of the present invention;

fig. 4 is a schematic view of a mounting shaft of an unwinding mechanism of a winding machine according to an embodiment of the present invention;

fig. 5 is a schematic view of a locking member of an unwinding mechanism of a winding machine according to an embodiment of the present invention;

fig. 6 is a schematic view of a multi-angle adjusting bracket of an angle adjusting device of a winding machine according to an embodiment of the present invention;

fig. 7 is a schematic view of a position-locking piece of an angle adjusting device of a winding machine according to an embodiment of the present invention;

fig. 8 is a schematic view of a width adjusting wheel of a winding machine according to an embodiment of the present invention;

fig. 9 is a schematic partial structural diagram of a placement mechanism of a winding machine according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a pressing mechanism of a winding machine according to an embodiment of the present invention;

fig. 11 is a schematic view of a wheel body with a cambered surface of a winding machine according to an embodiment of the present invention;

in the reference symbols: 1-an unwinding mechanism; 10-mounting a shaft; 11-a locking member; 12-an inflation port; 13-a keybar; 14-locking groove; 15-anti-drop cover; 16-a locking lever; 17-a hand-held portion; 18-a via hole; 20-a first clipping component; 21-a second clipping component; 22-a first optical axis; 23-a first mounting plate; 24-a first clipping interval; 25-a second optical axis; 26-a second mounting plate; 27-a second clipping interval; 3-a buffer device; 30-a movable rod; 31-buffer rollers; 32-upper limiting column; 33-a lower restraint post; 40-a tension detection wheel; 41-linear velocity detection wheel; 50-fixing a reversing wheel; 51-a motion reversing wheel; 6-angle adjusting means; 60-a feeding angle adjusting wheel; 61-multi-angle adjusting bracket; 62-a bottom plate; 63-connecting plate; 64-inclined plates; 65-a card position sheet; 66-a linker; 67-arc hook; 68-a reinforcing plate; 7-width adjusting wheel; 70-roller shaft; 71-a roller; 72-an adjustment ring; 73-a carrying surface; 74-a positioning element; 75-circlip; 8-a spinneret cloth wheel; 9-a winding mechanism; 90-a winding shaft; 100-a placing mechanism; 101-a column; 102-a slider; 103-a screw rod; 104-a guide shaft; 105-a sliding bar; 200-a pressing mechanism; 201-connecting arm; 202-hanging rod; 300-button operation box; 301-touch screen control box; x-body; x1-vertical mounting surface; x2-tension controller; a-a wheel body; b-arc surface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, 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 belong to the protection scope of the present invention.

Please refer to fig. 1 to 11, an embodiment of the present invention provides a winding machine, which comprises a machine body X, an unwinding mechanism 1 for arranging raw materials, an amplitude limiting mechanism for limiting the swing amplitude of a mica tape, a buffering mechanism 3 for adjusting the tension degree of the mica tape, an angle adjusting device 6 for adjusting the feeding angle of the mica tape and a winding mechanism 9 for winding the mica tape, wherein the unwinding mechanism 1, the amplitude limiting mechanism, the buffering mechanism 3, the angle adjusting device 6 and the winding mechanism 9 are sequentially arranged along the conveying direction of the mica tape. In the embodiment, the problem of the swing amplitude of the mica tape in the feeding process can be limited through the amplitude limiting mechanism, so that the mica tape is ensured to be stably conveyed; the tensioning degree of the mica tape can be adjusted through the buffer device 3, the effect of tensioning the mica tape is achieved, and the mica tape is prevented from being too tight or too loose and further being separated from an existing conveying line; the feeding angle of the mica tapes can be adjusted through the angle adjusting device 6, so that the mica tapes can be stably conveyed, and the adaptive product types are multiple. Preferably, a touch screen control box 301 is arranged on one side of the machine body. In the following embodiments, the tension detecting wheel 40, the linear velocity detecting wheel 41, the buffer roller 31, the fixed reversing wheel 50, the moving reversing wheel 51, the feeding angle adjusting wheel 60, the width adjusting wheel 7, and the spinneret cloth wheel 8 are all conveying wheels for conveying the mica tapes.

The following are specific examples:

the first embodiment is as follows:

as an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, the unwinding mechanism 1 includes a mounting shaft 10 for mounting the raw material and a locking member 11 for locking the raw material on the mounting shaft 10, the mounting shaft 10 is installed on a vertical mounting surface X1 of the machine body X, and the locking member 11 is installed on the mounting shaft 10. In this embodiment, the shaft 10 and the locking member 11 are arranged to ensure the locking of the material, so as to avoid the problem of material separation during the operation, which may affect the feeding.

Further optimizing the above scheme, please refer to fig. 1, fig. 2, fig. 3 and fig. 4, the mounting shaft 10 includes a shaft body for sleeving the raw material, the shaft body is installed on the machine body X, an inflation inlet 12 is disposed at one end of the shaft body away from the machine body X, a key bar 13 capable of being jacked up to clamp the raw material during inflation is disposed on the shaft body, and the locking member is disposed at the inflation inlet 12 of the shaft body. In this embodiment, the shaft body is inflated through the inflation port 12, the key strips 13 can be jacked up to clamp the raw materials, so as to achieve the purpose of placing the raw materials, and then the raw materials are locked through the locking piece to ensure that the raw materials cannot be separated. The structure here is similar to existing inflatable shafts.

With reference to fig. 1, fig. 2, fig. 3 and fig. 4, the inflation inlet 12 is a concave inflation inlet 12, and the concave inflation inlet 12 is embedded in the shaft body. Preferably, the axis body is kept away from organism X's one end still is equipped with locking groove 14, be equipped with first screw thread in the locking groove 14, locking piece threaded connection be in locking groove 14 is last. Preferably, the inflation port 12 and the locking groove 14 are located at the same position, and they may share one port or may be located at different positions.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3 and fig. 5, the locking piece includes an anti-separation cover 15 capable of covering the raw material on the shaft body and a locking rod 16 perpendicular to the anti-separation cover 15, and the locking rod 16 has a second thread capable of being connected with the first thread in the locking groove 14 in a matching manner. In this embodiment, the locking of the locking member is achieved by a screw connection, but may also be achieved by a form of snap connection, adhesion, etc., which is not limited in this embodiment.

To further optimize the above solution, referring to fig. 1, fig. 2, fig. 3 and fig. 5, a hand-held portion 17 is disposed on a side of the anti-drop cover 15 away from the locking rod 16. Preferably, the hand-held portion 17 has a through hole 18 for inserting a force-bearing rod. In this embodiment, in order to facilitate the screw locking, a force can be applied through the hand holding portion 17, and for better force application, a force receiving rod can be inserted into the through hole 18, and a force is applied to the force receiving rod.

Example two:

as the embodiment of the utility model discloses an optimization scheme please refer to fig. 1 and fig. 3, the amplitude limiting mechanism is including carrying out the first amplitude limiting subassembly 20 of first time amplitude limiting, first amplitude limiting subassembly 20 includes two parallel arrangement's first optical axis 22 and supplies two the first mounting panel 23 that first optical axis 22 installed, first mounting panel 23 is according to fixing on the organism X, two interval between the first optical axis 22 is for supplying the first amplitude limiting interval 24 that the mica tape passed. In the present embodiment, the amplitude limiting is limited by the distance between the two first optical axes 22, so as to limit the oscillation amplitude of the mica tape within this range. Preferably, both of the first optical axes 22 are parallel to the body of the mounting shaft 10.

As an optimization scheme of the embodiment of the utility model, please refer to fig. 1 and fig. 3, the clipping mechanism further includes a second clipping component 21 for performing clipping for the second time, the second clipping component 21 is located directly over the first clipping component 20, and the first clipping component 20 and the second clipping component 21 are laid in sequence along the conveying path of the mica tape. Preferably, the second amplitude limiting component 21 includes two parallel arrangement's second optical axis 25 and supplies two the second mounting panel 26 that the second optical axis 25 installed, the second mounting panel 26 is fixed on the organism X, two the interval between the second optical axis 25 is for supplying the second amplitude limiting interval 27 that the mica tape passed. In the present embodiment, the amplitude limiting manner of the second amplitude limiting component 21 is the same as the amplitude limiting manner of the first amplitude limiting component 20, and both the amplitude limiting manner and the amplitude limiting manner are achieved by limiting the swing amplitude of the mica tape. The above first and second are defined for convenience of description, and the first and second are used only for distinction and are not otherwise limiting.

Preferably, the two second optical axes 25 are both horizontally arranged, and the two second optical axes 25 are both perpendicular to the shaft body of the mounting shaft 10. In this embodiment, the two are not arranged in the same direction, which can change the feeding angle.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the first amplitude limiting component 20 and the second amplitude limiting component 21 are all installed on the left side edge of the machine body X, and two of the first optical axis 22 and two of the second optical axis 25 all extend out of the machine body X. In this embodiment, extending them outside the body X may facilitate the layout of the vertical mounting surface X1 of the body X.

As the utility model discloses the optimization scheme, two interval and two between the first optical axis 22 interval between the second optical axis 25 is adjustable interval. In this embodiment, the adjustable spacing is such that they can adjust the spacing between the two optical axes to change the magnitude of the limiting amplitude, depending on the actual situation. The specific adjustment mode can make the optical axis can dismantle the connection on the mounting panel, has a plurality of installation position moreover on the mounting panel, through changing the interval between installation position in order to adjust two optical axes.

Example three:

as an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the buffering device 3 includes a movable rod 30 capable of swinging back and forth and a buffering roller 31 for partially wrapping the mica tape, the buffering roller 31 is provided with a portion for wrapping the mica tape below the buffering roller 31, the buffering roller 31 is installed at one end of the movable rod 30, the other end of the movable rod 30 is hinged to the machine body X, and the swinging track of one end of the buffering roller 31 installed by the movable rod 30 is consistent with the direction of transporting the mica tape. In the embodiment, the mica tape lifts the buffer roller 31 upwards, and the mica tape sinks downwards due to gravity, so that the buffer effect can be achieved, and the function of tensioning the mica tape in real time is achieved. Preferably, the damping device 3 further comprises a driving member for driving the movable rod 30. The driving mode can be gravity sinking, and also can be mechanical driving, such as a gas spring.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the buffering device 3 further includes an upper limiting column 32 and a lower limiting column 33 both mounted on the machine body X, the upper limiting column 32 and the lower limiting column 33 are sequentially arranged along the height direction, and the movable rod 30 is located between the upper limiting column 32 and the lower limiting column 33. In this embodiment, whether the unwinding mechanism 1 has a raw material or not can be determined by setting the limiting column, and the determination can be made according to whether the movable rod 30 touches the upper limiting column 32 and the lower limiting column 33. Preferably, the buffering device 3 further includes a first sensor for sensing whether the movable rod 30 touches the lower limiting column 33, and the first sensor is disposed in the machine body X. The buffering device 3 further includes a second sensor for sensing whether the movable rod 30 touches the upper limiting column 32, and the second sensor is also disposed in the machine body X and can sense through the sensor.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 3 and fig. 11, the buffer roller 31 includes a wheel body a and positioning bearings disposed on two sides of the wheel body a, wherein one of the positioning bearings is disposed at one end of the movable rod 30. Preferably, the outer surface of the wheel body a is a convex cambered surface b. In the embodiment, the slightly convex radian can well limit the axial movement of the mica tape on the mica tape during high-speed movement, and the leveling effect on the end face of the product is greatly improved. The mica tape is a flexible material, because the mica tape needs to be rewound into a belt group as required, and the belt has a pulling force parallel to the winding shaft 90 in the swinging process, so that the mica tape has a tendency of axial movement, if the axial movement of the mica tape cannot be limited, the belt will exceed the winding range, meanwhile, the neatness of the end face cannot be ensured, and the produced product cannot meet the requirements on appearance and usability. Intuitively, the mica tape utilizes the radian, increases the axial resistance and reduces the left-right swing of the mica tape.

Example four:

as an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3, fig. 6 and fig. 7, the angle adjusting device 6 includes a feeding angle adjusting wheel 60 and a multi-angle adjusting bracket 61 for adjusting the position of the feeding angle adjusting wheel 60, and the feeding angle adjusting wheel 60 is installed on the multi-angle adjusting bracket 61. In this embodiment, the multi-angle adjusting bracket 61 is mounted on the machine body X by a placing mechanism. The position of the feeding angle adjusting wheel 60 can be adjusted through the multi-angle adjusting support 61, so that the feeding angle adjusting wheel can be properly adjusted according to different belt widths, the requirement of the feeding angle adjusting device for the belt with different widths is increased, and the feeding angle adjusting device can be suitable for more products.

In order to further optimize the above solution, referring to fig. 1, 2, 3, 6 and 7, the multi-angle adjusting bracket 61 includes a bottom plate 62 driven by a placing mechanism to swing in a direction perpendicular to the vertical mounting surface X1, a connecting plate 63 mounted on the bottom plate 62, and an inclined plate 64 connected to an end of the connecting plate 63 far from the bottom plate 62, and the feeding angle adjusting wheel 60 is mounted on an end of the inclined plate 64 far from the connecting plate 63. Preferably, the bottom plate 62 has a coupling groove into which the coupling plate 63 is inserted. In this embodiment, the multi-angle adjusting bracket 61 is configured to facilitate the adjustment of the position of the feed angle adjusting wheel 60, and it is also configured to facilitate the mounting of the placement mechanism for swinging movement therewith. Preferably, the feeding angle adjusting wheel 60 is locked on the inclined plate 64 by a pin shaft.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3, fig. 6 and fig. 7, the angle adjusting device 6 further includes a position-locking piece 65 disposed on a connection portion between the connection plate 63 and the inclined plate 64. In this embodiment, the position-locking piece 65 is provided to facilitate the linkage between the angle-adjusting device 6 and the pressing mechanism, so as to change the swing form of the pressing mechanism. The following examples are specifically described in detail. Preferably, the position-locking piece 65 includes a long connecting body 66, one end of the connecting body 66 is mounted on the connecting portion between the connecting plate 63 and the inclined plate 64, and one end of the connecting body 66 away from the connecting portion is provided with a plurality of arc hooks 67, and each of the arc hooks 67 is sequentially arranged along the length direction of the connecting body 66. A horizontally arranged reinforcing plate 68 is arranged at the position of the connecting body 66 close to the arc hook 67. In this embodiment, the hook 67 is adapted to engage with a hanging rod, and the reinforcing plate 68 can reinforce the strength of the locking piece 65.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1 and 11, the feeding angle adjusting wheel 60 includes a wheel body a and positioning bearings disposed on two sides of the wheel body a, and the outer surface of the wheel body a is a convex arc surface b. In the embodiment, the slightly convex radian can well limit the axial movement of the mica tape on the mica tape during high-speed movement, and the leveling effect on the end face of the product is greatly improved. The mica tape is a flexible material, because the mica tape needs to be rewound into a belt group as required, and the belt has a pulling force parallel to the winding shaft 90 in the swinging process, so that the mica tape has a tendency of axial movement, if the axial movement of the mica tape cannot be limited, the belt will exceed the winding range, meanwhile, the neatness of the end face cannot be ensured, and the produced product cannot meet the requirements on appearance and usability. Intuitively, the mica tape utilizes the radian, increases the axial resistance and reduces the left-right swing of the mica tape.

Example five:

as an optimized scheme of the embodiment of the present invention, please refer to fig. 1 and 3, the winding mechanism 9 includes a winding shaft 90 for the paper core to be sleeved and a driving member for driving the winding shaft 90 to rotate counterclockwise, the winding shaft 90 is vertically installed on the vertical installation surface X1, and the driving member is internally installed in the machine body X. In this embodiment, the winding mechanism 9 is a conventional winding device, which rotates only counterclockwise to collect the raw material.

Example six:

as an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the winding machine further includes a linear velocity detection wheel 41, the linear velocity detection wheel 41 is located between the buffering device 3 and the angle adjusting device 6 along the direction of transporting the mica tape, the linear velocity detection wheel 41 is located at the top of the machine body X, the linear velocity detection wheel 41 has a wheel surface for wrapping the mica tape, the end surface of the linear velocity detection wheel 41 is parallel to the vertical mounting surface X1, and the linear velocity detection wheel 41 is connected with a velocity detection and length accumulation mechanism. In this embodiment, the linear velocity detection wheel 41 is not moved relative to the belt, and is driven to rotate by the belt movement, and is connected to a speed detection and length accumulation mechanism to convert the rotation into speed and length, and transmit the speed and length to the control system.

Example seven:

as an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the winding machine further includes a fixed reversing wheel 50 and a moving reversing wheel 51 capable of following the movement of the placing mechanism 100, the fixed reversing wheel 50 and the moving reversing wheel 51 are sequentially arranged along the direction of conveying the mica tape, the fixed reversing wheel 50 and the moving reversing wheel 51 are both located between the buffering device 3 and the angle adjusting device 6, the end surfaces of the fixed reversing wheel 50 and the moving reversing wheel 51 are both perpendicular to the vertical mounting surface X1, and the fixed reversing wheel 50 and the moving reversing wheel 51 are both provided with wheel surfaces for partially wrapping the mica tape. In the embodiment, the movement reversing wheel 51 moves along with the placing mechanism 100, so that the feeding angle is changed to 90 degrees and then enters the feeding angle adjusting wheel 60; the fixed reverser wheel 50 is fixed and changes the feeding angle by 90 degrees. The moving reversing wheel 51 and the fixed reversing wheel 50 can eliminate the maximum swing amplitude of the incoming materials, and ensure that follow-up action is not interfered by the front end.

To further optimize the above solution, please refer to fig. 1, fig. 3 and fig. 11, the fixed reverse wheel 50 includes a wheel body a and positioning bearings disposed on two sides of the wheel body a, and an outer surface of the wheel body a is a convex arc surface b. In the embodiment, the slightly convex radian can well limit the axial movement of the mica tape on the mica tape during high-speed movement, and the leveling effect on the end face of the product is greatly improved. The mica tape is a flexible material, because the mica tape needs to be rewound into a belt group as required, and the belt has a pulling force parallel to the winding shaft 90 in the swinging process, so that the mica tape has a tendency of axial movement, if the axial movement of the mica tape cannot be limited, the belt will exceed the winding range, meanwhile, the neatness of the end face cannot be ensured, and the produced product cannot meet the requirements on appearance and usability. Intuitively, the mica tape utilizes the radian, increases the axial resistance and reduces the left-right swing of the mica tape.

Example eight:

as an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 3 and fig. 8, a width adjusting wheel 7 for conveying the mica tape is further disposed on the mica tape conveying path between the unwinding mechanism 1 and the winding mechanism 9, the width adjusting wheel 7 is located behind the angle adjusting device 6 along the conveying direction of the mica tape, and the width adjusting wheel 7 includes a conveying surface 73 for partially wrapping the mica tape and a width adjusting component capable of adjusting the width of the conveying surface 73. In this embodiment, the width adjusting mechanism can limit the range of left and right movement of the material, and the width of more than twenty specifications is generally required to be configured according to the width of the material to be produced, which greatly increases the cost.

In order to further optimize the above solution, please refer to fig. 1, fig. 3 and fig. 8, the width adjusting wheel 7 further includes a roller shaft 70 and a roller 71 sleeved on the roller shaft 70, the width adjusting assembly includes adjusting rings 72 movably sleeved on two ends of the roller 71, and a wheel surface of the roller 71 between the two adjusting rings 72 is the conveying surface 73. In the present embodiment, the width of the conveying surface 73 can be adjusted by the adjusting ring 72. Preferably, the two adjusting rings 72 are tightly held on the roller 71 by screws, and the two adjusting rings 72 are slidably sleeved on the roller 71. When the screw is adjusted specifically, the screw can be loosened and adjusted to a proper position and then clasped. Of course, other adjustment methods are possible, and will not be described in detail here.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 3 and fig. 8, the width adjusting wheel 7 further includes positioning members 74 sleeved at two ends of the roller shaft 70, and the two positioning members 74 are both located between the roller shaft 70 and the roller 71. Preferably, one end of the roller shaft 70 is mounted on the machine body X through a placing mechanism, and the other end of the roller shaft 70 is provided with a circlip 75. In this embodiment, the positioning member 74 is used to position the bearing.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1 and 3, a tension detection wheel 40 for conveying the mica tape is further disposed on the mica tape conveying path between the unwinding mechanism 1 and the winding mechanism 9, the tension detection wheel 40 is disposed at the top of the machine body X, the tension detection wheel 40 also has a wheel surface for partially wrapping the mica tape, the end surface of the tension detection wheel 40 is parallel to the vertical mounting surface X1, and the tension detection wheel 40 is connected to a tension controller X2 and a tension detector. In this embodiment, the tension controller X2 and the tension detector connected to the tension detecting wheel 40 can ensure the tension on the belt surface to be a set value, and the control method is prior art and will not be described in detail here. Preferably, the tension controller X2 is installed on one side of the machine body X, and the unwinding mechanism 1 is installed on the tension controller X2.

To further optimize the above solution, please refer to fig. 1 and 11, the tension detecting wheel 40 includes a wheel body a and positioning members disposed on two sides of the wheel body a, and an outer surface of the wheel body a is a convex arc surface b. In the embodiment, the slightly convex radian can well limit the axial movement of the mica tape on the mica tape during high-speed movement, and the leveling effect on the end face of the product is greatly improved. The mica tape is a flexible material, because the mica tape needs to be rewound into a belt group as required, and the belt has a pulling force parallel to the winding shaft 90 in the swinging process, so that the mica tape has a tendency of axial movement, if the axial movement of the mica tape cannot be limited, the belt will exceed the winding range, meanwhile, the neatness of the end face cannot be ensured, and the produced product cannot meet the requirements on appearance and usability. Intuitively, the mica tape utilizes the radian, increases the axial resistance and reduces the left-right swing of the mica tape.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the winding machine further includes a spinning head cloth wheel 8, the spinning head cloth wheel 8 is disposed behind the width adjusting wheel 7 along the mica tape conveying direction, the spinning head cloth wheel 8 has a wheel surface for the mica tape to partially wrap, and the end surface of the spinning head cloth wheel 8 is also parallel to the vertical mounting surface X1. In the present embodiment, the spinneret cloth wheel 8 is followed by a take-up mechanism 9, which is arranged close to the take-up mechanism 9.

Example nine:

as an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, a placing mechanism 100 capable of driving a pressing mechanism 200 and a plurality of transporting wheels to swing to cooperate with the rolling mechanism 9 for rolling is further disposed on the mica tape transporting path between the unwinding mechanism 1 and the winding mechanism 9. In this embodiment, the placing mechanism 100 is configured to drive the conveying wheel and the pressing mechanism 200 to swing, so that the mica tapes can be arranged on the winding paper core layer by layer, so as to obtain a finished product with good quality control.

In order to further optimize the above solution, referring to fig. 1, fig. 2 and fig. 3, the placing mechanism 100 includes a cylinder 101 installed perpendicular to the vertical installation surface, a sliding block 102 slidably sleeved on the cylinder 101, and a driving component for driving the sliding block 102 to move along a direction perpendicular to the vertical installation surface X1 of the cylinder 101, where the sliding block 102 has a setting position for installing the pressing mechanism 200 and each of the transport wheels. In the present embodiment, the direction of swinging is swinging in a direction perpendicular to the vertical mounting surface X1 of the machine body X, i.e., in the direction inside the paper of fig. 1 and 2. The way of swinging is by sliding the slide block 102 to swing with the pressing mechanism 200 and the angle adjusting device 6 mounted on the slide block 102. Preferably, the end of the column 101 away from the vertical mounting surface is provided with a button operation box 300.

In order to further optimize the above solution, referring to fig. 1, fig. 2, fig. 3, and fig. 9, the driving assembly includes a screw 103 disposed along the direction perpendicular to the vertical mounting surface of the column 101, and a driving element for driving the screw 103 to rotate, the sliding block 102 is screwed on the screw 103, and the sliding block 102 and the screw 103 form a screw transmission structure. In the embodiment, the power supply mode is the transmission of the screw rod 103, and the stable swing can be ensured. Of course, other driving forms besides this driving form are also feasible, and the present embodiment does not limit this. Preferably, the sliding block 102 includes two sliding rods 105 capable of sliding on the surface of the cylinder 101, the two sliding rods 105 are disposed at intervals, the pressing mechanism 200 is mounted on the two sliding rods 105, and the pressing mechanism 200 is located between the two sliding rods 105. This configuration is the mating of hold-down mechanism 200 with slider 102.

To further optimize the above solution, referring to fig. 1, fig. 2, fig. 3 and fig. 9, the placing mechanism 100 further includes a guide shaft 104 for guiding, the guide shaft 104 extends along the length direction of the screw 103, and the slide block 102 is sleeved on the guide shaft 104. In this embodiment, the guide shaft 104 may be provided for guiding. Preferably, there are two guide shafts 104, and the two guide shafts 104 are arranged in parallel.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3 and fig. 9, an angle adjusting device 6 for adjusting a feeding angle of the mica tape is further disposed on a mica tape conveying path between the unwinding mechanism 1 and the winding mechanism 9. The angle adjusting device 6 comprises a feeding angle adjusting wheel 60 and a multi-angle adjusting support 61 used for adjusting the position of the feeding angle adjusting wheel, and the feeding angle adjusting wheel 60 is installed on the multi-angle adjusting support 61. The multi-angle adjusting bracket 61 comprises a bottom plate 62 driven by the swinging mechanism 100 to swing in a direction perpendicular to the vertical mounting surface X1, a connecting plate 63 mounted on the bottom plate 62, and an inclined plate 64 connected to an end of the connecting plate 63 far from the bottom plate 62, wherein the feeding angle adjusting wheel 60 is mounted on an end of the inclined plate 64 far from the connecting plate 63, and the bottom plate 62 is mounted on two sliding rods 105. In this embodiment, the angle adjusting device 6 is connected to the sliding rod 105 through the bottom plate thereof, so as to realize the linkage of the two.

Example ten:

as an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3 and fig. 10, a pressing mechanism 200 is further disposed on the mica tape conveying path between the unwinding mechanism 1 and the winding mechanism 9, the pressing mechanism 200 includes a plurality of connecting arms 201 disposed in sequence, and an included angle is formed between two adjacent connecting arms 201. Preferably, two adjacent connecting arms 201 are hinged. In the embodiment, by imitating the structure of the biological spine and adding a plurality of bends, the stress condition is greatly improved, the jumping amplitude of the pressing mechanism 200 is reduced in the operation process of the equipment, the adhering condition of the belt ball and the end surface flatness are greatly improved, and the mica tape is stably conveyed.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3 and fig. 10, wherein several of the connecting arms 201 have a conveying wheel for conveying the mica tape and an installation position for installing the placement mechanism 100 for placing the mica tape. In the present embodiment, the connecting arm 201 has a plurality of mounting positions, and the mounting positions can be provided for each carrying wheel and the placing mechanism 100. There are many ways of installation, and the present embodiment does not limit this.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3, fig. 6, fig. 7 and fig. 10, an angle adjusting device 6 for adjusting a feeding angle of the mica tape is further disposed on a mica tape conveying path between the unwinding mechanism 1 and the winding mechanism 9. Angle adjusting device 6 includes pay-off angle adjustment wheel 60 and is used for adjusting the multi-angle of pay-off angle adjustment wheel 60's position is adjusted support 61, pay-off angle adjustment wheel 60 is installed on the multi-angle adjusts support 61, be located terminal one of them connecting arm 201 supports on the multi-angle adjusts support 61. The multi-angle adjusting bracket 61 comprises a bottom plate 62 driven by the placing mechanism 100 to swing in a direction perpendicular to the vertical mounting surface, a connecting plate 63 mounted on the bottom plate 62, and an inclined plate 64 connected to one end of the connecting plate 63 far away from the bottom plate, wherein the feeding angle adjusting wheel 60 is mounted on the end of the inclined plate 64 far away from the connecting plate 63, and one of the connecting arms 201 at the tail end abuts against the bottom plate. In the embodiment, namely, the connection arm 201 and the multi-angle adjusting bracket are matched, so that the mounting structure can be more compact.

To further optimize the above solution, referring to fig. 1, fig. 2, fig. 3, fig. 6, fig. 7 and fig. 10, the angle adjusting device 6 further includes a position-locking piece 65 disposed at a connection portion of the connecting plate 63 and the inclined plate 64. The screens 65 includes rectangular form connector 66, wherein one end of connector 66 is installed connecting plate 63 with hang plate 64 on the connection position, just connector 66 keeps away from the one end at connection position is equipped with a plurality of arc hooks 67, each arc hook 67 is followed the length direction of connector 66 lays in proper order, one of them install on the connecting arm 201 and can block into arbitrary arc hook 67's peg 202. Preferably, a horizontally arranged reinforcing plate 68 is installed at a position of the connecting body 66 close to the arc hook 67. In the present embodiment, the connection between the locking piece and the pressing mechanism 200 is in the form of a hook engaged by the hanging rod 202, so that the swing form of the pressing mechanism 200 can be adjusted.

Example eleven:

as an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, in unwinding mechanism 1 with still be equipped with on the mica tape transport route between winding mechanism 9 and transport the wheel subassembly, transport the wheel subassembly including buffer roller 31, pay-off angle regulating wheel 60 and width wheel 7 that the direction of transporting along the mica tape laid in proper order, buffer roller 31 pay-off angle regulating wheel 60 and width wheel 7 all have the wheel face that supplies the mica tape to wrap partially, unwinding mechanism 1 with winding mechanism 9 all install in on the vertical installation face X1 of organism, buffer roller 31, pay-off angle regulating wheel 60 and width wheel 7's terminal surface all is on a parallel with vertical installation face X1. In the present embodiment, the mica tape can be stably transported by the cooperation of the respective transport wheels.

In order to further optimize the above solution, referring to fig. 1, fig. 2 and fig. 3, the transportation assembly further includes a tension detection wheel 40 disposed in front of the buffer roller 31 along the transportation direction of the mica tape, the tension detection wheel 40 is disposed at the top of the machine body, the tension detection wheel 40 also has a wheel surface for wrapping the mica tape, an end surface of the tension detection wheel 40 is also parallel to the vertical installation surface, and the tension detection wheel 40 is connected to a tension controller and a tension detector. In this embodiment, the tension on the belt surface can be ensured to be a set value in real time by the tension detecting wheel 40.

Further optimizing the above scheme, referring to fig. 1, fig. 2 and fig. 3, the conveying assembly further includes a linear velocity detection wheel 41 disposed between the tension detection wheel 40 and the buffer roller 31 along the conveying direction of the mica tape, the linear velocity detection wheel 41 is also disposed at the top of the machine body, the linear velocity detection wheel 41 has a wheel surface for partially wrapping the mica tape, an end surface of the linear velocity detection wheel 41 is also parallel to the vertical mounting surface, and the linear velocity detection wheel 41 is connected with a velocity detection and length accumulation mechanism. In this embodiment, the linear velocity detection wheel 41 is not moved relative to the belt, and is driven to rotate by the belt movement, and is connected to a speed detection and length accumulation mechanism to convert the rotation into speed and length, and transmit the speed and length to the control system.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1, the conveying assembly further includes a fixed reversing wheel 50 disposed behind the buffer roller 31 along the conveying direction of the mica tape, the fixed reversing wheel 50 has a wheel surface for partially wrapping the mica tape, and an end surface of the fixed reversing wheel 50 is perpendicular to the vertical mounting surface X1. The conveying assembly further comprises a moving reversing wheel 51 capable of moving along with the placement mechanism 100, the moving reversing wheel 51 is arranged behind the fixed reversing wheel 50 along the conveying direction of the mica tapes, the moving reversing wheel 51 is provided with a wheel surface for wrapping the mica tapes, and the end surface of the moving reversing wheel 51 is perpendicular to the vertical mounting surface. The fixed reversing wheel 50 and the moving reversing wheel 51 are both positioned between the buffer roller 31 and the feeding angle adjusting wheel 60. The fixed reversing wheel 50 comprises a wheel body a and positioning bearings arranged on two sides of the wheel body a, and the outer surface of the wheel body a is a raised cambered surface b. The conveying assembly further comprises a spinning head cloth wheel 8, the spinning head cloth wheel 8 is arranged behind the width adjusting wheel 7 along the conveying direction of the mica tapes, the spinning head cloth wheel 8 is provided with a wheel surface for partially wrapping the mica tapes, and the end face of the spinning head cloth wheel 8 is parallel to the vertical mounting surface. In the embodiment, the movement reversing wheel 51 moves along with the placing mechanism 100, so that the feeding angle is changed to 90 degrees and then enters the feeding angle adjusting wheel 60; the fixed reverser wheel 50 is fixed and changes the feeding angle by 90 degrees. The moving reversing wheel 51 and the fixed reversing wheel 50 can eliminate the maximum swing amplitude of the incoming materials, and ensure that follow-up action is not interfered by the front end. The slightly convex radian can well limit the axial movement of the mica tape on the mica tape during high-speed movement, and has great effect on the flattening effect of the end face of a product. The mica tape is a flexible material, because the mica tape needs to be rewound into a belt group as required, and the belt has a pulling force parallel to the winding shaft 90 in the swinging process, so that the mica tape has a tendency of axial movement, if the axial movement of the mica tape cannot be limited, the belt will exceed the winding range, meanwhile, the neatness of the end face cannot be ensured, and the produced product cannot meet the requirements on appearance and usability. Intuitively, the mica tape utilizes the radian, increases the axial resistance and reduces the left-right swing of the mica tape.

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 (9)

1. The utility model provides a mica tape is around book machine with put mechanism, includes the organism, its characterized in that: still include unwinding mechanism and the winding mechanism that sets gradually along the direction that the mica tape transported, in unwinding mechanism with still be equipped with on the mica tape transport route between the winding mechanism and can drive hold-down mechanism and a plurality of delivery wheel swings in order to cooperate the mechanism of putting of winding, put the mechanism unreel mechanism and winding mechanism all install in on the vertical installation face of organism.

2. A mica tape winder with a placement mechanism as set forth in claim 1, wherein: the placing mechanism comprises a cylinder, a sliding block and a driving assembly, wherein the cylinder is perpendicular to the vertical mounting surface, the sliding block is sleeved on the cylinder in a sliding mode, the driving assembly is used for driving the sliding block to move along the direction, perpendicular to the vertical mounting surface, of the cylinder, and the sliding block is provided with a placing position for the pressing mechanism and each conveying wheel to be installed.

3. A mica tape winder with a placement mechanism as set forth in claim 2, wherein: the driving assembly comprises a lead screw and a driving piece, the lead screw is arranged in the direction perpendicular to the vertical mounting surface of the cylinder, the driving piece drives the lead screw to rotate, the sliding block is in threaded connection with the lead screw, and the sliding block and the lead screw form a lead screw transmission structure.

4. A mica tape winder with a placement mechanism as set forth in claim 3, wherein: the placing mechanism further comprises a guide shaft for guiding, the guide shaft extends along the length direction of the wire rod, and the sliding block is sleeved on the guide shaft.

5. The mica tape winder with a placement mechanism as set forth in claim 4, wherein: the guide shafts are arranged in parallel.

6. A mica tape winder with a placement mechanism as set forth in claim 2, wherein: the sliding block comprises two sliding rods which can slide on the surface of the cylinder, the two sliding rods are arranged at intervals, the pressing mechanism is arranged on the two sliding rods, and the pressing mechanism is positioned between the two sliding rods.

7. The mica tape winder with a placement mechanism as set forth in claim 6, wherein: and an angle adjusting device for adjusting the feeding angle of the mica tape is further arranged on a mica tape conveying path between the unwinding mechanism and the winding mechanism.

8. A mica tape winder with a placement mechanism as set forth in claim 7, wherein: the angle adjusting device comprises a feeding angle adjusting wheel and a multi-angle adjusting support used for adjusting the position of the feeding angle adjusting wheel, and the feeding angle adjusting wheel is installed on the multi-angle adjusting support.

9. A mica tape winder with a placement mechanism as set forth in claim 8, wherein: the multi-angle adjusting support comprises a bottom plate driven by the placing mechanism to swing in the direction perpendicular to the vertical mounting surface, a connecting plate mounted on the bottom plate, and an inclined plate connected with one end, far away from the bottom plate, of the connecting plate, the feeding angle adjusting wheel is mounted at the end, far away from the connecting plate, of the inclined plate, and the bottom plate is mounted on the two sliding rods.

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