CN215202192U - Cutting device with rotary clamping structure and cutting bed - Google Patents

Abstract

The utility model belongs to the technical field of cutting beds, in particular to a cutting device with a rotary clamping structure and a cutting bed, which are arranged on the cutting bed and comprise a cutting ring; the clamping seat is arranged inside the machine head of the cutting machine, the bottom of the clamping seat is provided with a rotatable connecting seat, the connecting seat is connected with the clamping seat through a rotating sleeve, and the middle of the rotating sleeve is provided with a through hole for the cutting ring to pass through; at least two guide wheels are arranged in the connecting seat, the guide wheels are positioned on two sides of the cutting ring, and the connecting seat rotates to drive the guide wheels to rotate, so that the cutting ring is driven to rotate. The utility model discloses a thereby the connecting seat rotates and drives the leading wheel and rotate and drive the cutting ring and rotate, thereby provide the point with the cutting ring contact promptly through the leading wheel, and then drive the cutting ring and rotate.

Description

Cutting device with rotary clamping structure and cutting bed

Technical Field

The utility model belongs to the technical field of cutting bed, refer in particular to a tailor device and cutting bed with rotate clamping structure.

Background

The cutting bed is a cutting device used in textile clothing, leather industry, car seats, furniture industry and the like, and comprises a cutting device for cutting materials and clamping a cutter, such as 2019209266988, and the patent name is a cutting bed with a vibration cutter fixing device.

Although the patent ensures the stability of the cutter through two fixed ends, namely two points determine a straight line, the cutter has various types, the patent is suitable for a vibration cutter but not suitable for a ring cutter, because the vibration cutter of the patent can be fixed and then connected with a motor through a belt to drive due to the existence of a cutter handle and the up-and-down reciprocating movement, but the ring cutter is a long strip and moves in a single direction, so that the ring cutter has no fixable point, and cannot be directly suitable for the structure of the vibration cutter.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a tailor device and cutting bed with rotate clamping structure rotates thereby to drive the leading wheel through the connecting seat and rotates and drive the cutting ring and rotate, thereby provides the point with the cutting ring contact promptly through leading wheel one, and then drives the cutting ring and rotate, so solved the problem that the cutting bed adopted the cutting ring can not directly use vibrations sword structure.

The purpose of the utility model is realized like this:

a cutting device with a rotary clamping structure is arranged on a cutting bed and comprises a cutting ring;

the clamping seat is arranged inside the machine head of the cutting machine, the bottom of the clamping seat is provided with a rotatable connecting seat, the connecting seat is connected with the clamping seat through a rotating sleeve, and the middle of the rotating sleeve is provided with a through hole for the cutting ring to pass through;

at least two guide wheels are arranged in the connecting seat, the guide wheels are positioned on two sides of the cutting ring, and the connecting seat rotates to drive the guide wheels to rotate, so that the cutting ring is driven to rotate.

On the basis of the above scheme, a further improved or preferred scheme further comprises:

preferably, six guide wheels are arranged in the connecting seat, and every two guide wheels are in one group and respectively form a first guide wheel set, a second guide wheel set and a third guide wheel set;

the first guide wheel set, the third guide wheel set, the second guide wheel set and the third guide wheel set are sequentially arranged from high to low.

Preferably, the second driving source is arranged on the clamping seat, the rotary sleeve and the second driving source are both sleeved with gears and are meshed with each other, and the rotary sleeve is driven to rotate and is driven to rotate by the second driving source.

Preferably, the side wall of the clamping seat is provided with an opening, and the opening is communicated with the through hole and used for installing the cutting ring.

A cutting bed comprises a base body and any one cutting device, wherein the cutting device is arranged on the base body, and the base body comprises a transport table;

the conveying table is arranged on the base main body and comprises a plurality of conveying belts and two conveying wheels, the two conveying wheels are positioned on the left inner side and the right inner side of the conveying belts, and at least one conveying wheel is connected with a first driving source for driving the conveying wheels to rotate;

a plurality of idler wheels are arranged between the two conveying wheels, and when the conveying belt is driven by the conveying wheels to rotate, the idler wheels can be driven to rotate.

Preferably, be provided with three transport table in the base main part, be transport table one, transport table two and transport table three respectively, and be provided with drive assembly between transport table two and the transport table three, drive the transport wheel of transport table two and the transport wheel synchronous rotation of transport table three through drive assembly.

Preferably, the two sides of the first transportation table and the second transportation table are respectively provided with a driving assembly for driving the transportation wheels to rotate;

the driving assembly comprises a driving shaft and a first driving source, the middle part of the driving shaft is sleeved with the conveying wheel, and one end of the first driving source and one end of the driving shaft are both sleeved with a driving wheel and are connected through a first belt;

the one set of regulating plate that is equipped with of driving source, and the drive shaft cover is equipped with regulating plate two, strip hole has been seted up to regulating plate one, and regulating plate two has seted up the fixed orifices, has the regulating part to pass strip hole and fixed orifices to thereby adjust the depth of parallelism between driving source one and the drive shaft through removing the position that the regulating part is located the strip hole.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. the utility model discloses a thereby the connecting seat rotates and drives the leading wheel and rotate and drive the cutting ring and rotate, thereby provide the point with the cutting ring contact promptly through the leading wheel, and then drive the cutting ring and rotate.

2. The utility model drives the cutting ring to rotate by rotating the guide wheel around the cutting ring, thereby providing another effect for the guide wheel, further realizing one multi-purpose, and avoiding the position deviation caused by the rotation of the cutting ring due to the limit of the guide wheel;

moreover, the utility model discloses a thereby the setting of various leading wheels limits the position of cutting ring and has the effect of direction.

3. The utility model discloses a thereby open-ended setting avoids the cutting ring from the top to install and can directly get into from the side, and then is convenient for install.

4. The utility model discloses a be provided with a plurality of gyro wheel between two transport wheels, therefore when the transport belt is driven the rotation by the transport wheel, can drive the gyro wheel and rotate, thereby replace the condition of sliding friction avoiding pulling motionless through rolling friction promptly.

5. The utility model discloses a transport table includes transport table one, transport table two and transport table three to avoid single transport table overlength and the problem of installation of being not convenient for.

Simultaneously the utility model discloses a transmission assembly drives the transport wheel of transport table two and the transport wheel of transport table three and rotates in step to can make transport speed between them synchronous and then guarantee the precision of tailorring.

6. The utility model discloses a transport table one and two both sides of transport table all are provided with and are used for driving transport wheel pivoted drive assembly, and then provide the transportation area application of force from both sides and rotate to increase the pulling force and then avoid the condition of pulling motionless.

7. The utility model discloses a thereby remove the depth of parallelism that the regulating part is located the position in bar hole and adjusts between driving source and the drive shaft, and then guarantee that driving source and drive shaft are in parallel state.

Drawings

FIG. 1 is a schematic view of a cutting bed;

FIG. 2 is a schematic view of the present invention;

FIG. 3 is a schematic view of the structure of the components associated with the cutting ring;

FIG. 4 is a schematic view of the holder;

FIG. 5 is a schematic cross-sectional view of the holder;

FIG. 6 is a schematic cross-sectional view of the holder;

FIG. 7 is a schematic view of the structure of the cutting bed base

FIG. 8 is a schematic view of the structure of the transport table;

FIG. 9 is an enlarged schematic view of A of FIG. 8;

figure 10 is a schematic view of the rack;

FIG. 11 is a schematic view of the construction of a transport wheel;

FIG. 12 is a schematic view of the transmission assembly;

FIG. 13 is an enlarged schematic view of B of FIG. 13;

FIG. 14 is a schematic view of the drive assembly;

FIG. 15 is a schematic view of the first adjustment plate and the second adjustment plate.

In the figure: 1 b-a cutting bed machine head; 11-a base body; 2-a transport table; 2 a-a first transport table;

2 b-a second transport table; 2 c-a third transport table; 21-a conveyor belt; 22-transport wheels;

221-transport wheel unit; 2211-tooth one; 23-a tension wheel; 24-a roller; 241-a roller unit; 242-a connecting shaft; 243-bearing; 25-placing the rack;

251-support plate one; 252-support plate two; 253-a support; 2531-air suction holes;

26-a transmission assembly; 261-a transmission shaft; 262-a transmission wheel; 263-Belt II; 27-a drive assembly; 271-a drive shaft; 272-a drive source; 273-driving wheel; 274-a first belt; 275-adjusting plate one; 2751-strip shaped holes; 2752-connecting groove one;

276-a second adjusting plate; 2761-fixing holes; 2762-connecting groove two; 2763-connecting hole;

3-cutting with a ring cutter; 6-a clamping seat; 61-a through hole; 62-driving source two; 63-a rotating sleeve; 64-gear; 65-opening; 7-a conveying wheel; 8-a connecting seat; 81-a guide wheel; 81 a-guide wheel set one; 81 b-guide wheel group two; 81 c-guide wheel group three.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1-6, a cutting device with a rotary clamping structure, which is arranged on a cutting bed, comprises a cutting ring 3 and a clamping seat 6, wherein the clamping seat 6 is arranged inside a cutting bed head 1 b. Meanwhile, the bottom of the clamping seat 6 is provided with a rotatable connecting seat 8, the connecting seat 8 is connected with the clamping seat 6 through a rotating sleeve 63, and the middle of the rotating sleeve 63 is provided with a through hole 61 for the cutting ring 3 to pass through.

And at least two guide wheels 52 are arranged in the connecting seat 8, and the guide wheels 52 are positioned at two sides of the cutting ring 3, so that the guide wheels 52 are driven to rotate by the rotation of the connecting seat 8, and the cutting ring 3 is driven to rotate.

Therefore, in the actual use process, the rotation of the cutting ring 3 is mainly convenient for cutting materials, and the guide wheel 52 rotates around the cutting ring 3 to drive the cutting ring 3 to rotate, that is, a contact point with the cutting ring 3 is provided through the guide wheel 52, so as to drive the cutting ring 3 to rotate.

Meanwhile, the guide wheel 52 is also acted, so that the multipurpose effect is realized, and the position deviation caused by the rotation of the cutting ring 3 is avoided due to the limit of the guide wheel 52.

The structure of the guide wheel 52: first, six guide wheels 52 are installed in the connecting seat 8, and two guide wheels are respectively a first guide wheel set 81a, a second guide wheel set 81b and a third guide wheel set 81 c.

Meanwhile, the first guide wheel set 81a and the third guide wheel set 81c are located on the left side and the right side of the cutting ring 3, the second guide wheel set 81b is located on the front side and the rear side of the cutting ring 3, and the first guide wheel set 81a, the second guide wheel set 81b and the third guide wheel set 81c are sequentially arranged from high to low. Therefore, in the actual use process, the position of the cutting ring 3 can be limited and the cutting ring has a guiding function through the arrangement of various guide wheels.

And the structure of rotation does: firstly, the second driving source 62 is arranged on the clamping seat 6, the second rotary sleeve 63 and the second driving source 62 are both sleeved with the gear 64 and are meshed with each other, and the second driving source 62 drives the rotary sleeve 63 to rotate and drives the rotary sleeve 63 to rotate.

As shown in fig. 4 and 6, the rotating sleeve 63 includes an inner rod 631 and an outer rod 632, the outer rod 632 is movably sleeved outside the inner rod 631, the upper end of the inner rod 631 is connected to the clamping seat 6, the lower end of the inner rod 631 penetrates the outer rod 632, and the lower end of the outer rod 632 is connected to the connecting seat 8.

Therefore, in the actual use process, the outer rod 632 is movably sleeved outside the inner rod 631, so that the position of the outer rod can be adjusted, and the cutting area of the cutting ring knife 3 can be adjusted to adapt to materials with different heights.

Wherein the concrete structure that moves: first, the outer lever 632 is provided with a groove rail 6321 at a side wall thereof, the inner lever 631 is provided with an adjusting hole 6311 at a side wall thereof, and the mounting member is inserted through the groove rail 6321 and the adjusting hole 6311 to adjust the position of the outer lever 632 by moving the mounting member to the position of the groove rail 6321. Wherein the mounting member may be a screw.

Meanwhile, a plurality of bearings are arranged between the upper end of the inner rod 631 and the clamping seat 6, eccentric sleeves are arranged in the bearings, shaft parts or screws penetrate through the eccentric sleeves to arrange the bearings on the clamping seat 6, and the position of the inner rod 631 can be finely adjusted due to the eccentric sleeves.

As shown in fig. 4, an opening 65 is opened on the sidewall of the holder 6, and the opening 65 is communicated with the through hole 61 and is used for installing the cutting ring 3.

The utility model discloses still include a cutting bed, as shown in fig. 7-15, including base main part 11 and the aforesaid tailor the device, and tailor the device and set up on base main part 11 to base main part 11 includes transport table 2.

Meanwhile, the transport table 2 is disposed on the base body 11, and the transport table 2 includes a plurality of transport belts 21 and two transport wheels 22.

Meanwhile, two transport wheels 22 are positioned at the left and right inner sides of the transport belt 21, and at least one transport wheel 22 is connected with a driving source 272 for driving the transport wheel 22 to rotate. Therefore, in actual use, the driving source 272 drives the transport wheel 22 to rotate and then drives the transport belt 21 to rotate so as to transport the materials.

And a plurality of rollers 24 are arranged between the two transport wheels 22, so that when the transport belt 21 is driven by the transport wheels 22 to rotate, the rollers 24 are driven to rotate, namely, rolling friction replaces sliding friction so as to avoid the condition of being immovable.

Mounting structure of the roller 24: first the transport table 2 comprises a rack 25, and the rack 25 is built into the transport belt 21 between the two transport wheels 22.

Meanwhile, each roller 24 is formed by connecting a plurality of roller units 241, a first support plate 251 is transversely arranged in the placing rack 25, and a second support plate 252 is arranged at the upper end of the first support plate 251. And a connecting shaft 242 is arranged between two adjacent roller units 241 and is placed in the placing frame 25.

Therefore, when the roller unit is installed, the middle of the connecting shaft 242 is disposed between the first supporting plate 251 and the second supporting plate 252, and two ends of the connecting shaft 242 respectively penetrate through the two adjacent roller units 241 and a bearing 243 is disposed between the two adjacent roller units 241.

Also, when being installed, the roller 24 is formed by connecting a plurality of roller units 241, so that a single roller unit 241 does not need a long length, thereby not needing to secure strength by increasing a width, and thus reducing a plane contact and a floor space.

As shown in fig. 9, the related structure of the roller 24: firstly, every six rollers 24 are grouped, a support 253 is arranged between every two adjacent roller groups, and an air suction hole 2531 for air suction is formed in the support 253.

Therefore, in practical use, the rollers 24 and the support 253 are alternately arranged, so that the material is prevented from moving and the condition of being immovable is avoided.

As shown in fig. 9 and 11, the structure of the transport wheel 22: firstly, the transport wheel 22 is formed by connecting a plurality of transport wheel units 221, a plurality of teeth 2211 are uniformly arranged on the outer side of each transport wheel unit 221, and a clamping groove is formed in the lower end of the transport belt 21 corresponding to the teeth 2211. Wherein the conveyer belt 21 is a synchronous belt, so the lower end of the conveyer belt 21 is provided with a plurality of teeth III and clamping grooves are arranged between the teeth III.

Therefore, in practical use, the first tooth 2211 is matched with the clamping groove at the lower end of the conveying belt 21, so that the connection between the conveying wheel 22 and the conveying belt 21 is more stable, and a good acting point is provided when the conveying belt 21 is driven.

Meanwhile, the transport wheels 22 are formed by connecting a plurality of transport wheel units 221, so that a single transport wheel unit 221 does not need to have a long length, thereby ensuring strength without increasing the width and further reducing plane contact and occupied space.

As shown in fig. 7 and 12, the structure of the transport table 2: first, the base body 11 is provided with three transport platforms 2, namely a first transport platform 2a, a second transport platform 2b and a third transport platform 2c, so that the problem that the single transport platform 2 is too long to be conveniently installed can be avoided.

And a transmission assembly 26 is arranged between the second transport table 2b and the third transport table 2c, and the transmission assembly 26 drives the transport wheels 22 of the second transport table 2b and the transport wheels 22 of the third transport table 2c to synchronously rotate.

Therefore, in the actual use process, the conveying speeds of the second conveying table 2b and the third conveying table 2c can be synchronized through the transmission assembly 26, and the cutting precision is further ensured.

As shown in fig. 14, the first transport table 2a and the second transport table 2b are provided at both sides with driving assemblies 27 for driving the transport wheels 22 to rotate.

Therefore, in actual use, the driving assemblies 27 are arranged on two sides, so that force can be applied to the conveying belt 21 from two sides to rotate, and the pulling force is increased to avoid the condition of being immovable.

Meanwhile, the driving assembly 27 comprises a driving shaft 271 and a driving source 272, the middle of the driving shaft 271 is sleeved with the transport wheel 22, and one end of the driving source 272 and one end of the driving shaft 271 are both sleeved with a driving wheel 273 and connected through a first belt 274.

Therefore, in actual use, the driving wheel 273 at the end of the driving source 272 is driven by the driving source 272 to rotate, and the first belt 274 is driven to rotate, and then the driving wheel 273 at the end of the driving shaft 271 is driven to rotate, and the transport wheel 22 is driven to rotate.

Meanwhile, the driving source 272 is provided with a first adjusting plate 275, the driving shaft 271 is provided with a second adjusting plate 276, the first adjusting plate 275 is provided with a strip-shaped hole 2751, the second adjusting plate 276 is provided with a fixing hole 2761, and the adjusting part penetrates through the strip-shaped hole 2751 and the fixing hole 2761.

Therefore, in the actual use process, the parallelism between the driving source 272 and the driving shaft 271 can be adjusted by moving the adjusting member at the position of the strip-shaped hole 2751, thereby ensuring that the driving source 272 and the driving shaft 271 are in the parallel state.

As shown in fig. 15, a first connecting groove 2752 is formed on the inner side of the upper end of the first adjusting plate 275, a second connecting groove 2762 is formed on the outer side of the lower end of the second adjusting plate 276, the upper end of the first adjusting plate 275 is located in the second connecting groove 2762, and the lower end of the second adjusting plate 276 is located in the first connecting groove 2752.

Therefore, when the adjusting plate 275 is installed, the upper end is located in the connecting groove 2762, and the lower end of the adjusting plate 276 is located in the connecting groove 2752, so that the inner side and the outer side of the installed adjusting plate 275 and 276 are both arranged in a plane, and no protrusion exists, so that the adjusting plate interferes with other components.

And the drive assembly 27 further includes an adjustment wheel positioned within the first belt 274 to adjust the tension of the first belt 274. Meanwhile, the second adjusting plate is provided with a connecting hole 2763, and a fastener penetrates through the connecting hole 2763 and penetrates through the adjusting wheel to be connected with the second adjusting plate 276 and the adjusting wheel. Wherein the fastener is parts such as axle class or screw, and is provided with the bearing between fastener and the regulating wheel.

As shown in fig. 13, the structure of the transmission assembly 26: firstly, a transmission shaft 261 penetrates through the transportation wheel 22 of the third transportation table 2c, a transmission wheel 262 is sleeved outside one end of the transmission shaft 261, meanwhile, the transmission assembly 26 comprises a second belt 263, and the second belt 263 is sleeved outside the transmission wheel 262 and the driving wheel 273.

Therefore, in practical use, the driving wheel 273 is driven to rotate by the driving source 272, and then the belt II 263 is driven to rotate so as to drive the driving wheel 262 to rotate, and the driving shaft 261 is driven to rotate, so as to drive the transporting wheel 22 of the transporting table III 2c to rotate, thereby driving the transporting belt 21 to rotate so as to transport the material.

As shown in fig. 9 and 12, the transportation table 2 further includes two symmetrically disposed tension pulleys 23, and the tension pulleys 23 are located at the lower side of the transportation belt 21 and disposed in the transportation belt 21. Thus, during actual use, the tension of the conveyor belt 21 is adjusted by the tension pulley 23 to ensure the transportation of the conveyor belt 21.

Meanwhile, the structure of the tensioning wheel 23 is similar to that of the conveying wheel 22 and is formed by connecting a plurality of tensioning wheel units, so that a single tensioning wheel unit does not need to be long in length, the strength does not need to be ensured by increasing the width, and the plane contact and the occupied space are reduced.

And a plurality of teeth II are uniformly arranged on the outer side of each tensioning wheel unit, and the lower end of the conveying belt 21 is provided with a clamping groove corresponding to the teeth II.

Therefore, when the tension pulley is actually used, the second tooth is matched with the clamping groove at the lower end of the conveying belt, so that the tension pulley 23 is more stably connected with the conveying belt 21, and a good acting point exists when the conveying belt 21 is driven.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a tailor device with rotate clamping structure, its setting is on cutting out the bed, its characterized in that: comprises a cutting ring (3);

the clamping seat (6) is arranged inside the cutting machine head (1b), the bottom of the clamping seat (6) is provided with a rotatable connecting seat (8), the connecting seat (8) is connected with the clamping seat (6) through a rotating sleeve (63), and the middle of the rotating sleeve (63) is provided with a through hole (61) for the cutting ring (3) to pass through;

at least two guide wheels (52) are arranged in the connecting seat (8), the guide wheels (52) are located on two sides of the cutting ring (3), and the connecting seat (8) rotates to drive the guide wheels (52) to rotate so as to drive the cutting ring (3) to rotate.

2. A clipping device with rotary clipping structure according to claim 1, wherein: six guide wheels (52) are arranged in the connecting seat (8), and every two guide wheels form a group, namely a first guide wheel set (81a), a second guide wheel set (81b) and a third guide wheel set (81 c);

the guide wheel set I (81a) and the guide wheel set III (81c) are located on the left side and the right side of the cutting ring (3), the guide wheel set II (81b) is located on the front side and the rear side of the cutting ring (3), and the guide wheel set I (81a), the guide wheel set II (81b) and the guide wheel set III (81c) are sequentially arranged from high to low.

3. A clipping device with rotary clipping structure according to claim 1, wherein: be provided with driving source two (62) on grip slipper (6), and swivel sleeve (63) and driving source two (62) all overlap and be equipped with gear (64) to intermeshing drives swivel sleeve (63) through driving source two (62) and rotates and drive swivel sleeve (63) and rotate.

4. A clipping device with rotary clipping structure according to claim 1, wherein: an opening (65) is formed in the side wall of the clamping seat (6), and the opening (65) is communicated with the through hole (61) and used for installing the cutting ring (3).

5. A cutting bed is characterized in that: comprises a base body (11) and a cutting device according to any one of claims 1 to 4, wherein the cutting device is arranged on the base body (11), and the base body (11) comprises a transport table (2);

the conveying table (2) is arranged on the base main body (11), the conveying table (2) comprises a plurality of conveying belts (21) and two conveying wheels (22), the two conveying wheels (22) are positioned on the left inner side and the right inner side of the conveying belts (21), and at least one conveying wheel (22) is connected with a first driving source (272) for driving the conveying wheels (22) to rotate;

a plurality of idler wheels (24) are arranged between the two conveying wheels (22), and when the conveying belt (21) is driven by the conveying wheels (22) to rotate, the idler wheels (24) can be driven to rotate.

6. A cutting bed according to claim 5, wherein: be provided with three transport table (2) on base main part (11), be transport table one (2a), transport table two (2b) and transport table three (2c) respectively, and be provided with between transport table two (2b) and the transport table three (2c) drive assembly (26), through drive assembly (26) drive transport wheel (22) of transport table two (2b) and transport wheel (22) synchronous rotation of transport table three (2 c).

7. A cutting bed according to claim 6, wherein: two sides of the first conveying table (2a) and the second conveying table (2b) are respectively provided with a driving assembly (27) for driving the conveying wheels (22) to rotate;

the driving assembly (27) comprises a driving shaft (271) and a first driving source (272), the middle of the driving shaft (271) is sleeved with the conveying wheel (22), and one end of the first driving source (272) and one end of the driving shaft (271) are both sleeved with a driving wheel (273) and are connected through a first belt (274);

the cover of driving source (272) is equipped with regulating plate (275), and drive shaft (271) cover is equipped with regulating plate two (276), bar hole (2751) have been seted up in regulating plate (275), and fixed orifices (2761) have been seted up in regulating plate two (276), have the regulating part to pass bar hole (2751) and fixed orifices (2761) to thereby adjust the depth of parallelism between driving source (272) and drive shaft (271) through the position that removes the regulating part and is located bar hole (2751).

Images