CN211444354U - Supporting mechanism and splitting machine - Google Patents

Abstract

The application discloses a supporting mechanism, which can adjust the position of a supporting block in a first direction through a first adjusting component, and further adjust the relative heights of two ends of a winding shaft; the position of the supporting block in the second direction can be adjusted through the second adjusting assembly, and the axial direction of the winding shaft is further adjusted; therefore, after the supporting block bears the winding shaft, if the position of the winding shaft is inaccurate, the winding shaft can be conveniently adjusted through the first adjusting assembly and the second adjusting assembly, so that the winding shaft is stable in state and accurate in position; the application also discloses a cutting machine, wherein, supporting mechanism is used for accepting the rolling axle to, through the guide subassembly, can guide supporting mechanism to be close to or keep away from the rolling axle, so that the coiling of material area or the unloading of material book are rolled up.

Description

Supporting mechanism and splitting machine

Technical Field

The application relates to the technical field of battery manufacturing equipment, in particular to a supporting mechanism for supporting a winding shaft.

Background

The splitting machine is used for splitting the standard base material for preparing the battery into a plurality of groups of material belts meeting the width requirement; the winding shaft is used for winding the material belt so that the material belt forms a material coil for standby.

The two ends of the winding shaft need to be supported, so that the winding shaft can wind the material belt in a stable state. After the base material is cut, the material roll on the winding shaft needs to be fed, so that the winding shaft can wind a new material belt. At this time, the material roll needs to be taken down from one end of the winding shaft.

In the traditional splitting machine, the positions of two ends of a winding shaft are relatively fixed and are difficult to adjust; if the positions of the two ends are not accurate, the equipment needs to be debugged again, and the operation is complicated. Or at least one end of the material roll shaft is detachable relative to the frame for facilitating blanking; when blanking, the winding shaft is dismounted to take down the material roll; after blanking, the material reel is mounted back, so that the structure is complex and the operation is complicated; when the material belt is dismounted and mounted, the position of a winding shaft can have deviation, and the winding of a new material belt is influenced.

Disclosure of Invention

The application provides a supporting mechanism and a splitting machine to solve the technical defect that adjustment is difficult to realize when the position of a winding shaft is deviated in the prior art.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided a supporting mechanism for supporting a take-up reel, comprising: the supporting block is used for receiving the winding shaft; the first adjusting assembly is connected with the supporting block and is used for adjusting the position of the supporting block along a first direction; the second adjusting component is connected with the supporting block and is used for adjusting the position of the supporting block along a second direction; the relative heights of the two ends of the winding shaft can be adjusted by adjusting the position of the supporting block in the first direction; the axial direction of the winding shaft can be adjusted by adjusting the position of the supporting block in the second direction.

Furthermore, the supporting mechanism also comprises a fixing assembly, the fixing assembly comprises a fixing piece and a fixing driving piece, and the fixing driving piece is connected with and drives the fixing piece to be close to or far away from the winding shaft; after the supporting block receives the winding shaft, the fixed driving piece can drive the fixing piece to be close to the winding shaft so as to limit the position of the winding shaft.

Further, the support block includes: the supporting plate is used for receiving the winding shaft; the mounting plate is connected with the supporting plate.

Further, the first adjustment assembly includes a first adjustment member disposed toward the first direction; the first adjusting piece is arranged on the supporting plate, and the mounting plate is arranged on the first adjusting piece; or the first adjusting piece is arranged on the mounting plate, and the supporting plate is arranged on the first adjusting piece; the relative position of the supporting plate and the mounting plate in the first direction can be adjusted through the first adjusting piece.

Furthermore, one of the supporting plate and the mounting plate is provided with a threaded hole A, and the other is provided with a waist-shaped hole A; the kidney-shaped hole A has a certain length along a first direction, and the threaded hole A is exposed in the kidney-shaped hole A.

Further, the supporting mechanism still includes the locating component, and the locating component includes: the first positioning piece is connected with the rack; the second positioning piece is connected with the supporting block; after the supporting block receives the winding shaft, the first positioning piece is opposite to the second positioning piece, so that the first positioning piece is abutted to the second positioning piece, and the relative position of the winding shaft and the supporting block can be limited.

Furthermore, the second adjusting assembly comprises a second adjusting piece arranged towards the second direction, the second adjusting piece is arranged on the supporting block, and the second positioning piece is arranged on the second adjusting piece; or the second adjusting piece is arranged on the second positioning piece, and the supporting block is arranged on the second adjusting piece; the relative position of the supporting block and the second positioning piece in the second direction can be adjusted by adjusting the second adjusting piece.

Furthermore, one of the supporting block and the second positioning piece is provided with a threaded hole B, and the other one is provided with a kidney-shaped hole B; the kidney-shaped hole B has a certain length along the second direction, and the threaded hole B is exposed in the kidney-shaped hole B.

The application also provides a splitting machine which comprises the supporting mechanism and a guide assembly, wherein the guide assembly is used for guiding the supporting mechanism to be close to the winding shaft so that the supporting block can bear the winding shaft; alternatively, the support block is directed away from the take-up reel.

Further, the cutting machine still includes spacing subassembly, and spacing subassembly includes: the first limiting piece is connected with the rack; the second limiting piece is connected with the supporting mechanism; after the guide assembly guides the supporting mechanism to be far away from the winding shaft, the second limiting piece can abut against the first limiting piece, and then the position of the supporting mechanism is limited.

According to the supporting mechanism, the position of the supporting block in the first direction can be adjusted through the first adjusting assembly, and then the relative heights of the two ends of the winding shaft are adjusted; the position of the supporting block in the second direction can be adjusted through the second adjusting assembly, and the axial direction of the winding shaft is further adjusted; therefore, after the supporting block receives the winding shaft, if the position of the winding shaft is not accurate, the winding shaft can be conveniently adjusted through the first adjusting assembly and the second adjusting assembly, so that the winding shaft is stable in state and accurate in position.

Simultaneously, this application still provides a cutting machine, and wherein, supporting mechanism is used for accepting the rolling axle to, through the guide subassembly, can guide supporting mechanism to be close to or keep away from the rolling axle, so that the coiling of material area or the unloading of material book.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive efforts,

wherein:

FIG. 1 is a top view of one embodiment of a slitting machine provided herein;

FIG. 2 is a front view of the slitting machine of FIG. 1;

fig. 3 is a rear view of the support mechanism of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1-3, the present application discloses a support mechanism, which includes a support block 10 for receiving a winding shaft 1, and a first adjusting assembly 20 and a second adjusting assembly 30; the first adjusting assembly 20 is connected with the supporting block 10 and used for adjusting the position of the supporting block 10 along the first direction, and the relative heights of the two ends of the winding shaft 1 can be adjusted by adjusting the position of the supporting block 10 in the first direction; the second adjusting assembly 30 is connected to the supporting block 10 and is used for adjusting the position of the supporting block 10 along the second direction, and the axial direction of the winding shaft 1 can be adjusted by adjusting the position of the supporting block 10 in the second direction.

It should be noted that, referring to fig. 1, in a general state, one end of the winding shaft 1 is relatively fixedly disposed on the frame 2, and the other end is supported by the support mechanism. At the moment, the two ends of the winding shaft 1 are supported, the position state is stable, and the winding action can be performed.

Specifically, the frame 2 includes two parts axially disposed with respect to the winding shaft 1, one end of the winding shaft 1 is relatively fixedly disposed on one part of the frame 2, and the support mechanism is disposed on the other part of the frame 2 for supporting the other end of the winding shaft 1.

Wherein, in order to guarantee the rolling effect, the width direction parallel that rolling axle 1 need ground parallel relatively, and relative material area, that is to say, rolling axle 1 needs both ends highly uniform, and its axial is parallel to the width direction in material area. In summary, it is easy to understand that the first direction is a vertical direction, such as the direction perpendicular to the paper shown in fig. 1; the second direction is the width direction of the tape, such as the left-right direction shown in fig. 1. The material belt wound on the winding shaft 1 can be ensured to be tightly attached to the winding shaft 1 and high-quality winding can be realized only by ensuring that the heights of the two ends of the winding shaft 1 are consistent and the axial direction of the winding shaft 1 is parallel to the width direction of the material belt.

Through first adjustment subassembly 20 and second adjustment subassembly 30, fixed, when unable adjustment in the relative frame 2 of rolling axle 1 one end, can adjust the other end of rolling axle 1, be at same height to rolling axle 1 both ends, and the axial of whole rolling axle 1 is on a parallel with the width direction in material area.

The winding shaft 1 is substantially cylindrical, and in order to stably support the winding shaft 1, a groove 17 capable of accommodating the winding shaft 1 is formed in one side, close to the winding shaft 1, of the supporting block 10. Referring to fig. 2 or 3, the surface of the groove 17 for receiving the winding shaft 1 is arc-shaped, and can wrap the winding shaft 1 along the arc of the winding shaft 1 to stably support the material winding shaft 1.

It is necessary to supplement that, in order to realize the winding of the material belt, the winding shaft 1 needs to rotate. Through 1 rotation of rolling axle, can produce traction force to the material area is the material book around 1 rolling of rolling axle.

In one embodiment, one end of the winding shaft 1 is disposed on the frame 2, and the end penetrates through the frame 2 and is connected to the rotation driving member 3. The rotation driving member 3 may be a servo motor. During winding, the autorotation driving piece 3 drives the winding shaft 1 to rotate so as to drive the material belt to wind the winding shaft 1 to form a material coil. At this time, the arc-shaped groove 17 can stably support the supply reel 1, and prevent the supply reel 1 from deviating from a fixed position when it is rotated by the rotation driving member 3.

In this embodiment, further, in order to avoid excessive friction between the groove 17 and the material reel 1, the rotation of the winding reel 1 is hindered. Balls can be arranged in the grooves 17 to reduce friction; alternatively, a fixed portion may be provided at one end of the take-up reel 1, the fixed portion being connected to the take-up reel 1 but not rotating with the take-up reel 1 when the take-up reel 1 rotates. Therefore, the groove 17 receives the fixed part, the effect of bearing the winding shaft 1 can be achieved, and meanwhile, the rotation of the winding shaft 1 cannot be influenced.

Further, in order to define the position where the supporting block 10 holds the winding shaft 1, the supporting mechanism provided by the present application further includes a fixing assembly 50, where the fixing assembly 50 includes a fixing element 51 and a fixing driving element 52, and the fixing driving element 52 is connected to and drives the fixing element 51 to approach or separate from the winding shaft 1; after the supporting block 10 receives the winding shaft 1, the fixed driving element 52 can drive the fixed element 51 to be close to the winding shaft 1 so as to limit the position of the winding shaft 1.

The fixing piece 51 can be connected with the supporting block 10, and under the driving of the fixing driving piece 52, the fixing piece 51 can extend into the groove 17, and the position of the winding shaft 1 is limited by matching with the groove 17.

In one embodiment, the end surface of the fixing member 51 for contacting the winding shaft 1 may be configured to be a cambered surface or an inclined surface for fitting the surface of the winding shaft 1. Specifically, since the winding shaft 1 is substantially cylindrical, and the outer surface thereof is an arc surface, the contact surface of the fixing element 51 is an arc surface or an inclined surface that can be relatively attached to the winding shaft 1, and when the fixing driving element 52 drives the fixing element 51 to approach to the winding shaft 1, the fixing element 51 can fix the winding shaft 1 in the supporting block 10.

In another embodiment, a fixed portion may be provided at one end of the winding shaft 1, the fixed portion being connected to the winding shaft 1 but not rotating with the winding shaft 1 when the winding shaft 1 rotates. Thereby, the fixed driving member 52 can directly drive the fixing member 51 to be close to press against, or even to project into, the fixing portion, so that the position of the fixing member 51 and the fixing portion is fixed, thereby fixing the relative positions of the supporting block 10 and the takeup reel 1.

In other embodiments, when the portion of the groove 11 for accommodating the winding shaft 1 is fan-shaped, the fixing element 51 is also provided with fan-shaped, and after the fixing driving element 52 drives the fixing element 51 to extend into the groove 11, the fixing element 51 is matched with the groove 11 to form a configuration for wrapping or substantially wrapping the winding shaft 1, thereby defining the position of the winding shaft 1 in the groove 11.

The fixed driving member 52 may be a driving member such as a cylinder, a motor, etc.

In order to adjust the position of the supporting block 10 relative to the winding shaft 1, in an embodiment, the first adjusting assembly 20 and the second adjusting assembly 30 may be disposed on the frame 2, and directly adjust the relative position of the supporting block 10 and the frame 2, thereby adjusting the relative position of the supporting block 10 and the winding shaft 1.

In other embodiments, the support block 10 comprises a pallet 11 for receiving the take-up reel 1; and a mounting plate 12 to which the pallet 11 is attached.

Wherein, the groove 17 is arranged on one side of the supporting plate 11 close to the winding shaft 1.

The installation plate 12 is arranged, so that the relative position of the supporting plate 11 and the installation plate 12 can be adjusted, and the relative position of the supporting plate 11 and the winding shaft 1 can be adjusted. At this time, the mounting plate 12 may be fixedly disposed on the frame 2, or may be movably disposed on the frame 2, so that the supporting block 10 receives or releases the take-up reel 1. When the mounting plate 12 is movable on the frame 2, the pallet 11 can receive the take-up reel in the initial position as long as the mounting plate 12 is returned to the initial position after the movement. Details are described below.

At this time, the first adjusting assembly 20 includes a first adjusting member 21 disposed toward the first direction; the first adjusting piece 21 is arranged on the supporting plate 11, the mounting plate 12 is arranged on the first adjusting piece 21, and the relative position of the supporting plate 11 and the mounting plate 12 in the first direction can be adjusted by adjusting the connecting position of the mounting plate 12 and the first adjusting piece 21; alternatively, the first adjuster 21 is provided on the mounting plate 12, the pallet 11 is provided on the first adjuster 21, and the relative position of the pallet 11 and the mounting plate 12 in the first direction can be adjusted by adjusting the connecting position of the pallet 11 and the first adjuster 21.

In one embodiment, the first adjusting member 21 may be an automatic driving member, such as a cylinder, a motor, etc. The main body of the first adjusting piece 21 is fixedly arranged on the supporting plate 11, and the output end of the first adjusting piece is connected with the mounting plate 12; alternatively, the main body of the first adjusting member 21 is fixedly disposed on the mounting plate 12, and the output end thereof is connected to the supporting plate 11. Thus, the first adjustment member 21 is capable of driving one of the mounting plate 12 and the pallet 11 to move relative to the other in a first direction; the mounting plate 12 is fixed relative to the frame 2, and the relative position of the supporting plate 11 and the winding shaft 1 in the first direction is adjusted by the relative movement of the supporting plate 11 relative to the mounting plate 12 in the first direction, so that the supporting plate 11 supports one end of the winding shaft 1 and adjusts the height of the end, connected with the winding shaft 1, of the frame 2 to be consistent.

In another embodiment, the first adjustment member 21 may be a manual adjustment member, such as a manual adjustment bolt, a manual adjustment screw, etc. The fixed end of the first adjusting piece 21 is fixedly arranged on the supporting plate 11, and the movable end of the first adjusting piece is connected with the mounting plate 12; alternatively, the fixed end of the first adjusting member 21 is fixedly disposed on the mounting plate 12, and the movable end thereof is connected to the supporting plate 11. Referring to fig. 2 or 3 in particular, when the first adjusting member 21 is a manual adjusting bolt, the screw head thereof is fixedly disposed on the mounting plate 12, the screw rod thereof is in threaded connection with the supporting plate 11, and the bolt is manually screwed, so that the supporting plate 11 can move in the first direction along the screw rod, thereby achieving the relative position adjustment of the supporting plate 11 and the winding shaft 1 in the first direction.

In other embodiments, the first adjuster 21 may also be a guide member disposed along the first direction, such as a guide rod, a guide rail, etc. At this time, the first adjusting member 21 is fixedly arranged on the supporting plate 11, and the mounting plate 12 is slidably connected with the first adjusting member 21; alternatively, the first adjusting member 21 is fixedly disposed on the mounting plate 12, and the supporting plate 11 is slidably connected to the first adjusting member 21. The position of the supporting plate 11 or the mounting plate 12 on the first adjusting part 21 is adjusted manually or by a driving component, and after the position is adjusted to a required position, the supporting plate 11 or the mounting plate 12 is fixed on the first adjusting part 21, so that the relative position adjustment of the supporting plate 11 and the winding shaft 1 in the first direction can also be realized.

Further, in order to ensure that the supporting plate 11 stably moves along the first direction when adjusting the position, one of the supporting plate 11 and the mounting plate 12 may be provided with a guide rail, and the other one is slidably connected with the guide rail; alternatively, referring to fig. 2 or 3, a groove extending along the first direction may be provided at one side of the mounting plate 12, and the supporting plate 11 is engaged in the groove and can only move along the groove in the first direction.

Further, when the mounting plate 12 is provided with a groove at one side, one of the support plate 11 and the mounting plate 12 is provided with a threaded hole a13, and the other is provided with a kidney-shaped hole a 14; the kidney-shaped hole a14 has a length in a first direction, and the screw hole a13 is exposed in the kidney-shaped hole a 14.

Specifically, the relative position of the threaded hole a13 and the kidney-shaped hole a14 can be fixed by bolting a bolt between the two holes, so as to fix the supporting plate 11 and the mounting plate 12; and loosening the bolts can release the fixation of the supporting plate 11 and the mounting plate 12, so as to adjust the relative position of the supporting plate 11 and the mounting plate 12 in the first direction.

Therefore, when the relative position of the supporting plate 11 and the mounting plate 12 in the first direction needs to be adjusted, the threaded hole A13 and the waist-shaped hole A14 are loosened, the height of the supporting plate 11 is adjusted through the first adjusting piece 21, and the height of the end, supported by the supporting plate 11, of the winding shaft 1 is consistent with the height of the end, connected with the winding shaft 1 and the rack 2, of the winding shaft 1. Subsequently, the threaded hole A13 and the kidney-shaped hole A14 are locked, and the position of the supporting plate 11 and the mounting plate 12 is fixed.

Further, the support mechanism provided by the present application further includes a positioning assembly 70, where the positioning assembly 70 includes a first positioning member 71 connected to the frame 2; a second positioning member 72 connected to the supporting block 10; after the supporting block 10 receives the winding shaft 1, the first positioning piece 71 is opposite to the second positioning piece 72, so that the first positioning piece 71 is abutted to the second positioning piece 72, and the relative position of the winding shaft 1 and the supporting block 10 can be limited.

In order to ensure that the supporting block 10 stably supports the winding shaft 1, the relative position of the supporting block 10 and the winding shaft 1 needs to be fixed. It can be seen that the relative position of the winding shaft 1 and the frame 2 is fixed. Therefore, after the supporting block 10 receives the winding shaft 1, the position of the first positioning piece 71 is fixed, so that the second positioning piece 72 is abutted to the first positioning piece 71, and the relative position of the supporting block 10 and the winding shaft 1 can be fixed by fixing the relative position of the second positioning piece 72 and the first positioning piece 71.

Wherein, the frame 2 is fixed, and one end of the winding shaft 1 is relatively fixed with the frame 2. At this time, the position of the first positioning member 71 provided on the frame 2 is also fixed. After the supporting block 10 is ensured to bear the winding shaft 1, the first positioning piece 71 is opposite to the second positioning piece 72, and the second positioning piece 72 is abutted to the first positioning piece 71; that is, after the first positioning member 71 abuts against the second positioning member 72, the position of the second positioning member 72 is fixed; and the relative fixing of the supporting block 10 and the second positioning element 72, at this time, the position of the supporting block 10 is also fixed.

In one embodiment, the first positioning element 71 or the second positioning element 72 can be manually operated, and when the two positioning elements are opposite, the first positioning element 71 is close to abut against the second positioning element 72, so that the fixing is realized; alternatively, the second positioning member 72 is brought close to abut against the first positioning member 71, and fixation is achieved.

In another embodiment, the positioning assembly 70 further includes a positioning driving member 73, and the positioning driving member 73 can drive the first positioning member 71 or the second positioning member 72, so that the first positioning member 71 approaches to abut against the second positioning member 72 to realize fixing; alternatively, the second positioning member 72 is brought close to abut against the first positioning member 71, and fixation is achieved. With particular reference to fig. 1, the positioning drive 73 may have its body disposed on the frame 2 and its output end connected to the first positioning member 71. After the supporting block 10 receives the winding shaft 1 and before the second positioning element 72 appears in the first positioning element 71, the positioning driving element 73 drives the first positioning element 71 to extend out until the first positioning element 71 abuts against the second positioning element 72, so that the connection between the first positioning element 71 and the second positioning element 72 can be realized.

One of the first positioning member 71 and the second positioning member 72 may be a protrusion, and the other one may be a groove, so that the protrusion extends into the groove, and the groove can define the position of the protrusion, thereby realizing the connection between the first positioning member 71 and the second positioning member 72. Of course, the first positioning element 71 and the second positioning element 72 may also be other structures (for example, a positioning hole and a positioning pin, which are not limited in this application) that can be inserted, so that the two are joined to each other, and the two positions can be fixed, thereby fixing the relative position of the supporting block 10 and the winding shaft 1.

It should be added that another purpose of the positioning assembly 70 is to ensure that the support block 10 returns to the position in which it correctly bears the winding shaft 1 after the support block 10 has been moved with respect to the frame 2 and to fix the support block 10 in this position.

Specifically, after the material belt is wound by the winding shaft 1, the supporting block 10 is far away from the winding shaft 1, so that the material belt can be conveniently taken down from the winding shaft 1. After the material roll is fed, the supporting block 20 is close to the receiving and winding shaft 1, so that the winding shaft 1 can wind the material belt again; because the position of the supporting block 10 is adjusted by the first adjusting component 20 and the second adjusting component 30, the supporting block 10 is ensured to return to the original position capable of accurately supporting the winding shaft 1, and the two ends of the winding shaft 1 are ensured to have consistent height and the axial direction is parallel to the width direction of the material belt.

As can be seen from the above, the position of the first positioning element 71 is fixed, and the relative positions of the supporting block 10 and the second positioning element 72 are fixed; the second positioning member 72 of the supporting block 10 is opposite to the first positioning member 71, so that the supporting block 10 returns to the original accurate position.

Therefore, the first adjusting component 20 and the second adjusting component 30 adjust the position of the supporting block 10, that is, adjust the relative position of the supporting block 10 and the second positioning component 72. As long as the first receiving state is ensured, when the second positioning element 72 is abutted against the first positioning element 71 at the fixed position, the two ends of the winding shaft 1 supported by the adjusted supporting block 10 are consistent in height and are axially parallel to the width direction of the material belt; after the supporting block 10 leaves the winding shaft 1, when the winding shaft 1 is received, the supporting block 10 can return to the initial position as long as the second positioning element 72 abuts against the first positioning element 71 again, and the stable and accurate supporting effect is achieved.

In the case of the positioning assembly 70, the supporting block 10 may include a supporting plate 11 and a mounting plate 12, wherein the mounting plate 12 is fixedly connected to the second positioning member 72; the first adjusting assembly 20 and the supporting block 10 are arranged in the same manner as described above, and will not be described herein.

Alternatively, the support block 10 may include only the retainer plate 11. At this time, the second positioning member 72 may be regarded as the mounting plate 12, and the first adjusting assembly 20 is used for adjusting the relative position of the supporting plate 11 and the second positioning member 72 in the first direction. The first adjustment assembly 20 is arranged in substantially the same manner as described above, and will not be described herein.

In the case of the positioning assembly 70, the second adjusting assembly 30 includes a second adjusting member 31 disposed toward the second direction, the second adjusting member 31 is disposed on the supporting block 10, and the second positioning member 72 is disposed on the second adjusting member 31, and by adjusting the connection position of the second positioning member 72 and the second adjusting member 31, the relative position of the supporting block 10 and the second positioning member 72 in the second direction can be adjusted; alternatively, the second adjusting member 31 is disposed on the second positioning member 72, the supporting block 10 is disposed on the second adjusting member 31, and the relative position of the supporting block 10 and the second positioning member 72 in the second direction can be adjusted by adjusting the connecting position of the supporting block 10 and the second adjusting member 31.

The structure of the second adjusting assembly 30, the connection and arrangement relationship between the second adjusting assembly 30 and the second positioning element 72 and the supporting block 10 are substantially the same as the structure of the first adjusting assembly 20, and the connection and arrangement relationship between the first adjusting assembly 20 and the supporting plate 11 and the mounting plate 12, which are not described herein again.

In an embodiment, referring to fig. 2 or 3, the second adjusting member 31 may be a hand adjusting bolt, the head of which is fixedly disposed on the supporting block 10, and the screw of which is threadedly connected to the second positioning member 72 along the second direction (left and right direction shown in the figure); manually screwing the bolt, wherein the second positioning piece 72 can move along the screw rod in the second direction, so as to adjust the relative positions of the supporting block 10 and the second positioning piece 72 in the second direction; therefore, the position of the supporting block 10 in the second direction can be adjusted and changed, and finally the axial direction of the winding shaft 1 is parallel to the width direction of the base material.

Further, in order to facilitate the relative fixation of the support block 10 and the second positioning element 72 after the relative positions are adjusted, one of the support block 10 and the second positioning element 72 is provided with a threaded hole B15, and the other is provided with a kidney-shaped hole B16; the kidney hole B16 has an extension in the second direction, and the screw hole B15 is exposed in the kidney hole B16.

Specifically, the relative positions of the threaded hole B15 and the kidney-shaped hole B16 can be fixed by bolting a bolt therebetween, which plays a role in fixing the positions of the support block 10 and the second positioning member 72; and the bolts are loosened, so that the fixing of the supporting block 10 and the second positioning member 72 can be released, and the relative positions of the supporting block 10 and the second positioning member 72 in the second direction can be conveniently adjusted.

Therefore, when the relative position of the supporting block 10 and the second positioning member 72 in the second direction needs to be adjusted, the threaded hole B15 and the waist-shaped hole B16 are loosened, and the position of the supporting block 10 in the second direction is adjusted by the second adjusting member 31 until the axial direction of the winding shaft 1 is parallel to the tape width direction. Subsequently, the screw hole B15 and the kidney hole B16 are locked, and the positions of the support block 10 and the second positioning member 72 are fixed.

The application also provides a splitting machine which comprises the supporting mechanism and the guide assembly 40, wherein the guide assembly 40 is used for guiding the supporting mechanism to be close to the winding shaft 1, so that the supporting block 10 receives the winding shaft 1; alternatively, the support block 10 is guided away from the take-up reel 1.

The guide assembly 40 comprises a guide 41, the guide 41 is arranged on the frame 2, the guide 41 is arranged towards the winding shaft 1, and the support mechanism is slidably connected with the guide 41.

In one embodiment, the support mechanism is provided with a handle, and the operator may drag the support mechanism along the guide 41 by applying force to the handle.

In another embodiment, the guiding assembly 40 further includes a guiding driving member, which may be a driving member such as an air cylinder, a motor, etc., and is connected to the supporting mechanism; after the material roll is wound, when the material needs to be discharged, the guide driving piece drives the supporting mechanism to be far away from the winding shaft 1 along the guide guiding piece 41; when rewinding is required, the guiding and driving element drives the supporting mechanism to approach along the guiding and guiding element 41 to the take-up reel 1.

After the guiding assembly 40 guides the supporting mechanism to approach to the supporting and winding shaft 1, the positioning assembly 70 moves, the first positioning member 71 abuts against the second positioning member 72, and the supporting mechanism is fixed on the frame 2.

Further, in order to control the position of the guide assembly 40 after guiding the support mechanism away from the winding shaft 1 and avoid the support mechanism from sliding on the guide 41, the splitting machine further comprises a limiting assembly 60, wherein the limiting assembly 60 comprises a first limiting member 61 connected with the machine frame 2; a second limiting member 62 connected to the supporting mechanism; after the guiding assembly 40 guides the supporting mechanism away from the winding shaft 1, the second limiting member 6 can abut against the first limiting member 61 2, so as to limit the position of the supporting mechanism.

Specifically, the first limiting member 61 may be a positioning block, the second limiting member 62 may be a clamping block, and the positioning block can be clamped into the clamping block, so as to connect the first limiting member 61 and the second limiting member 62. Alternatively, the first limiting member 61 and the second limiting member 62 may also be other clamping structures (for example, a positioning column and a ball plunger, which is not limited in this application), so that the two are joined to each other, and the two positions can be fixed, thereby fixing the relative position between the supporting mechanism and the rack 2. When the supporting structure is required to support the winding shaft 1 again, a certain force is applied to the supporting structure, so that the first limiting member 61 is separated from the second limiting member 62.

Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. Such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. A support mechanism for supporting a take-up reel (1), comprising:

the supporting block (10) is used for receiving the winding shaft (1);

a first adjusting component (20) connected with the supporting block (10) and used for adjusting the position of the supporting block (10) along a first direction;

the second adjusting assembly (30) is connected with the supporting block (10) and is used for adjusting the position of the supporting block (10) along a second direction;

the relative height of two ends of the winding shaft (1) can be adjusted by adjusting the position of the supporting block (10) in the first direction; the axial direction of the winding shaft (1) can be adjusted by adjusting the position of the supporting block (10) in the second direction.

2. The support mechanism according to claim 1, further comprising a fixing assembly (50), wherein the fixing assembly (50) comprises a fixing member (51) and a fixing driving member (52), and the fixing driving member (52) is connected with and drives the fixing member (51) to approach or separate from the winding shaft (1); after the supporting block (10) receives the winding shaft (1), the fixed driving piece (52) can drive the fixing piece (51) to be close to the winding shaft (1) so as to limit the position of the winding shaft (1).

3. The support mechanism according to claim 1, wherein the support block (10) comprises:

the supporting plate (11) is used for receiving the winding shaft (1);

and the mounting plate (12) is connected with the supporting plate (11).

4. The support mechanism of claim 3, wherein the first adjustment assembly (20) includes a first adjustment member (21) disposed toward the first direction;

the first adjusting piece (21) is arranged on the supporting plate (11), and the mounting plate (12) is arranged on the first adjusting piece (21); or the first adjusting piece (21) is arranged on the mounting plate (12), and the supporting plate (11) is arranged on the first adjusting piece (21);

the relative position of the supporting plate (11) and the mounting plate (12) in the first direction can be adjusted through the first adjusting piece (21).

5. Support mechanism according to claim 3 or 4, wherein one of the support plate (11) and the mounting plate (12) is provided with a threaded hole A (13) and the other with a kidney-shaped hole A (14); the kidney-shaped hole A (14) has a certain length in the first direction, and the screw hole A (13) is exposed in the kidney-shaped hole A (14).

6. The support mechanism of any of claims 1-3, further comprising a positioning assembly (70), the positioning assembly (70) comprising:

a first positioning member (71) connected to the frame (2);

a second locating member (72) connected to the support block (10);

after the supporting block (10) receives the winding shaft (1), the first positioning piece (71) is opposite to the second positioning piece (72), so that the first positioning piece (71) is abutted to the second positioning piece (72), and the relative position of the winding shaft (1) and the supporting block (10) can be limited.

7. The support mechanism of claim 6, wherein the second adjustment assembly (30) comprises a second adjustment member (31) disposed toward the second direction,

the second adjusting piece (31) is arranged on the supporting block (10), and the second positioning piece (72) is arranged on the second adjusting piece (31); or the second adjusting piece (31) is arranged on the second positioning piece (72), and the supporting block (10) is arranged on the second adjusting piece (31);

the relative position of the supporting block (10) and the second positioning piece (72) in the second direction can be adjusted by adjusting the second adjusting piece (31).

8. The support mechanism according to claim 7, wherein one of the support block (10) and the second locating member (72) is provided with a threaded hole B (15), and the other is provided with a kidney-shaped hole B (16); the kidney-shaped hole B (16) has a length in the second direction, and the screw hole B (15) is exposed in the kidney-shaped hole B (16).

9. A cutting machine, characterized in that it comprises a support mechanism according to any one of claims 1 to 8, and a guide assembly (40), said guide assembly (40) being adapted to guide said support mechanism close to said winding shaft (1) so that said support block (10) receives said winding shaft (1); alternatively, the support block (10) is guided away from the take-up reel (1).

10. The slitting machine according to claim 9, characterized in that it further comprises a stop assembly (60), the stop assembly (60) comprising:

a first limiting piece (61) connected with the frame (2);

a second limiting member (62) connected with the supporting mechanism;

after the guide assembly (40) guides the supporting mechanism to be away from the winding shaft (1), the second limiting piece (62) can abut against the first limiting piece (61), and then the position of the supporting mechanism is limited.

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