CN219746498U - Steel belt cutting machine - Google Patents

Abstract

The utility model relates to a steel belt cutting machine, and relates to the technical field of stainless steel belt cutting, which comprises a cutting mechanism and a positioning mechanism, wherein the cutting mechanism comprises a first upright post and a second upright post, a first air expansion shaft and a second air expansion shaft are rotatably connected between the first upright post and the second upright post, cutting components for cutting the stainless steel belt are sleeved on the first air expansion shaft and the second air expansion shaft, and the positioning mechanism comprises a frame, a bidirectional screw rod rotatably connected to the frame, connecting seats which are arranged on two sides of the bidirectional screw rod and are in threaded fit with the bidirectional screw rod, a plurality of connecting columns arranged on the connecting seats, and connecting rings rotatably connected to the connecting columns. The utility model can realize the effect of positioning the stainless steel belt before the stainless steel belt is cut and segmented by the cutting mechanism, so that the phenomenon of deviation of a cutting position does not exist when the cutting machine cuts the stainless steel belt.

Description

Steel belt cutting machine

Technical Field

The utility model relates to the technical field of stainless steel strip cutting, in particular to a steel strip cutting machine.

Background

The stainless steel band cutting machine can cut and segment the stainless steel band and has the advantages of high production efficiency, high speed and the like.

In the related art, the stainless steel strip cutting machine comprises a cutting roller rotating in opposite directions, a cutter arranged on the cutting roller and a driving piece for driving the cutting roller to rotate, when the stainless steel strip is conveyed to the cutting roller and passes between the cutting rollers rotating in opposite directions, the cutter arranged on the cutting roller cuts the stainless steel strip, and finally the cut stainless steel strip is respectively collected into rolls by a winding mechanism, so that the cutting of the stainless steel strip can be completed.

However, the conventional apparatus for cutting the stainless steel strip, which does not position the stainless steel strip before the stainless steel strip is cut into sections, causes a deviation of the cutting position, and needs to be improved.

Disclosure of Invention

In order to solve the problem that a cutting position is deviated when a cutting machine cuts a stainless steel belt, the utility model aims to provide a steel belt cutting machine.

The utility model provides a steel belt cutting machine, which adopts the following technical scheme: the utility model provides a steel band cutting machine, includes the cutting mechanism that is used for cutting the segmentation to the stainless steel band, one side of cutting mechanism is equipped with the positioning mechanism that is used for carrying out the location to the stainless steel band, positioning mechanism is including being used for supporting the frame of stainless steel band, rotating the bi-directional screw rod of connecting in the frame, setting up in bi-directional screw rod both sides and with bi-directional screw rod screw thread complex connecting seat, setting up a plurality of spliced poles on the connecting seat, rotate the go-between of connecting on the spliced pole.

Through adopting above-mentioned technical scheme, when needs carry out the cutting of stainless steel band, staff's accessible positioning mechanism is in order to realize the location of stainless steel band, and staff's accessible rotates two-way screw rod for the connecting seat that sets up in two-way screw rod both sides removes in opposite directions or moves in opposite directions, and then drives the go-between that sets up on the connecting seat and remove in opposite directions, makes the distance between the go-between that is located the go-between of stainless steel band both sides and the width of the stainless steel band that needs processing cooperate. When the stainless steel belt is conveyed to the positioning mechanism, the stainless steel belt is limited between the connecting rings due to the arrangement of the connecting rings, then the stainless steel belt enters the cutting mechanism to be cut and segmented, and finally the cut and segmented stainless steel belt is collected into a roll, so that the cutting and segmentation of the stainless steel belt can be completed. Be equipped with the spliced pole on the connecting seat, go-between and spliced pole rotate the setting of being connected for when the edge of stainless steel band contradicts with the go-between, the accessible go-between is connected with the rotation between the spliced pole, and reduces the friction between go-between and the stainless steel band, and then reduces the possibility that the stainless steel band edge damaged.

Optionally, a plurality of connecting rods which are in sliding connection with the connecting seats are arranged on the frame.

Through adopting above-mentioned technical scheme, be equipped with a plurality of connecting rods in the frame, and connecting rod and connecting seat sliding connection's setting for the slip of connecting seat in the frame is more stable, thereby makes the better stainless steel strip of location of go-between.

Optionally, a conveying roller rotatably connected with the frame is arranged on the frame, and the conveying roller is arranged between adjacent connecting rings.

Through adopting above-mentioned technical scheme, be equipped with the transfer roller of being connected with the frame rotation in the frame, the transfer roller sets up the setting between adjacent go-between, can play the effect of conveying the stainless steel strip, through the rotation between transfer roller and the frame being connected, reduces the friction between stainless steel strip and the transfer roller for the surface of stainless steel strip is smoother.

Optionally, be equipped with support piece between positioning mechanism and the cutting mechanism, support piece includes the support frame, sets up on the support frame and rotates the backing roll of being connected with the support frame.

Through adopting above-mentioned technical scheme, be equipped with the support frame between positioning mechanism and the cutting mechanism, rotate the setting that is connected with the backing roll on the support frame, can play the effect of supporting the stainless steel band, prevent to arrange the stainless steel band sagging between positioning mechanism and the cutting mechanism in, the conveying and the cutting segmentation of the stainless steel band of being convenient for, and the backing roll rotates the setting of being connected with the support frame, can reduce the friction between backing roll and the stainless steel band for the surface of stainless steel band is smoother.

Optionally, cutting mechanism includes the board, sets up first stand and second stand in the board both sides, rotates first air inflation axle and second air inflation axle of connecting between first stand and second stand, is used for driving first air inflation axle and the drive piece of second air inflation axle relative pivoted, be equipped with cutting assembly on first air inflation axle and the second air inflation.

Through adopting above-mentioned technical scheme, first stand and second stand can play the effect of supporting first physiosis axle and second physiosis axle, and when the stainless steel band got into cutting mechanism, the first physiosis axle of driving piece drive and second physiosis axle rotated in opposite directions, and the drive stainless steel band moves, and the cutting assembly of setting on first physiosis axle and second physiosis axle just can cut the segmentation to the stainless steel band, and the stainless steel band that the cutting segmentation was accomplished is collected the lapping again at last, alright accomplish the cutting segmentation of stainless steel band.

Optionally, the cutting assembly includes the lantern ring that a plurality of sleeves are located on first physiosis axle and the second physiosis axle outer wall, the cover is equipped with the rubber ring on the lantern ring outer wall, set up on the lantern ring inner wall with first physiosis axle and second physiosis axle matched with breach, the cutting assembly still includes a plurality of sleeves and locates the first metal ring on the first physiosis axle outer wall and a plurality of sleeves and locate the second metal ring on the second physiosis axle outer wall, when first metal ring cover is located on the first physiosis axle outer wall, second metal ring cover is located on the second physiosis axle outer wall, first metal ring and second metal ring are dislocation set, set up on the first metal ring inner wall with first physiosis axle matched with first recess, set up on the second metal ring inner wall with second physiosis axle matched with second recess, the rubber ring sets up between adjacent first metal ring, adjacent second metal ring.

Through adopting above-mentioned technical scheme, the cover is equipped with the rubber ring on the lantern ring outer wall, and the outer wall of rubber ring is contradicted with the surface of stainless steel strip to drive the stainless steel strip and remove. The sleeve ring is sleeved on the outer walls of the first air expansion shaft and the second air expansion shaft, and the notch matched with the first air expansion shaft and the second air expansion shaft is formed in the inner wall of the sleeve ring, so that the rubber ring can be sleeved on the outer wall of the first air expansion shaft and the outer wall of the air expansion shaft through the sleeve ring and synchronously rotate with the first air expansion shaft and the second air expansion shaft. The first metal ring is sleeved on the outer wall of the first air expansion shaft, the second metal ring is sleeved on the outer wall of the second air expansion shaft, the first groove is formed in the inner wall of the first metal ring, the second groove is formed in the inner wall of the second metal ring, and the first metal ring can synchronously rotate with the first air expansion shaft through the first groove, and the second metal ring can synchronously rotate with the second air expansion shaft through the second groove. When the first metal ring is sleeved on the outer wall of the first air expansion shaft, and the second metal ring is sleeved on the outer wall of the second air expansion shaft, the first metal ring and the second metal ring are arranged in a dislocation mode, and therefore when the stainless steel belt is in contact with the first metal ring and the second metal ring, the stainless steel belt can be cut and segmented by the first metal ring and the second metal ring. The number of the sections to be cut of the stainless steel belt can be controlled by increasing or reducing the number of the first metal rings sleeved on the outer wall of the first air expansion shaft and the number of the second metal rings sleeved on the outer wall of the second air expansion shaft, and the width of the sections to be cut of the stainless steel belt can be controlled by increasing or reducing the number of the rubber rings between the adjacent first metal rings and the number of the rubber rings between the adjacent second metal rings.

Optionally, set up on the first stand with first air shaft matched with first connecting hole and with second air shaft matched with second connecting hole, be equipped with the removal subassembly that is used for driving first stand and remove on the board, remove the subassembly including the base, set up the stopper in the base both sides, rotate the removal lead screw of being connected with the stopper, with first stand sliding connection's guide rail, remove lead screw and first stand screw thread fit.

Through adopting above-mentioned technical scheme, when the staff will increase or reduce the quantity of first metal ring and rubber ring on the first air inflation axle, increase or reduce the quantity of second metal ring and rubber ring on the second air inflation axle, accessible rotation removes the lead screw for the first stand of moving screw thread complex is through the guide rail towards the one side that keeps away from the second stand, makes first air inflation axle and first connection Kong Fenli, second air inflation axle and second connecting hole separation, alright increase or reduce the quantity of first metal ring and rubber ring on the first air inflation axle, increase or reduce the quantity of second metal ring and rubber ring on the second air inflation axle. After the worker completes the increase or decrease of the first metal ring, the second metal ring and the rubber ring, the worker can reversely rotate the movable screw rod, the first upright post slides towards one side close to the second upright post, the first air expansion shaft stretches into the first connecting hole, and the second air expansion shaft stretches into the second connecting hole, so that the increase or decrease of the first metal ring, the second metal ring and the rubber ring can be completed. The setting of stopper can play the effect of supporting the removal lead screw, and the setting of guide rail can make the slip of first stand on the base more stable and smooth.

Optionally, the moving assembly further comprises a moving motor arranged on the machine table, and an output shaft of the moving motor is connected with one end of the moving screw rod.

Through adopting above-mentioned technical scheme, compare in manual rotation of staff and remove the lead screw in order to drive first stand and remove, the setting of mobile motor for first stand removes more laborsaving and convenient, and then improves staff's work efficiency.

Optionally, a sliding rod is arranged on one side of the first upright close to the second upright, and a loop bar in sliding connection with the sliding rod is arranged on one side of the second upright close to the second upright.

Through adopting above-mentioned technical scheme, one side that first stand is close to the second stand is equipped with the slide bar, and one side that the second stand is close to the second stand is equipped with the setting of loop bar with slide bar sliding connection for the slip of first stand on the base is more stable.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the stainless steel strip cutting machine is provided with the positioning mechanism for positioning the stainless steel strip, and the positioning mechanism can position the stainless steel strip before the stainless steel strip enters the cutting mechanism to be cut into sections, so that the problem that the cutting position is deviated when the cutting mechanism cuts the stainless steel strip does not exist.

2. The positioning mechanism comprises a rack, a bidirectional screw rod rotationally connected to the rack, connecting plates arranged on two sides of the bidirectional screw rod, connecting columns arranged on the connecting plates, and connecting rings rotationally connected with the connecting columns, wherein the connecting rings are arranged through the connecting rings, so that the connecting rings can be rotationally connected with the connecting seats when positioning the stainless steel strips, friction between the connecting rings and the edges of the stainless steel strips is reduced, and damage to the edges of the stainless steel strips is avoided.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic view of a support embodying an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a positioning mechanism embodying an embodiment of the present utility model;

FIG. 4 is a schematic view of a driving member embodying an embodiment of the present utility model;

FIG. 5 is a schematic view of a collar embodying an embodiment of the present utility model;

FIG. 6 is a schematic view of a structure of a first connecting hole according to an embodiment of the present utility model;

fig. 7 is a schematic structural diagram of a mobile component embodying an embodiment of the present utility model.

In the figure, 1, a cutting mechanism; 11. a machine table; 12. a first upright; 121. a first air expansion shaft; 122. a first connection hole; 123. a second connection hole; 124. a slide bar; 13. a second upright; 131. a second inflatable shaft; 132. a loop bar; 14. a driving member; 141. a driving motor; 142. a driving tooth; 143. driven teeth; 15. a cutting assembly; 151. a collar; 152. a notch; 153. a rubber ring; 154. a first metal ring; 155. a first groove; 156. a second metal ring; 157. a second groove; 16. a moving assembly; 161. a base; 162. a limiting block; 163. moving the lead screw; 164. a guide rail; 165. a moving motor; 2. a positioning mechanism; 21. a frame; 22. a bidirectional screw; 23. a connecting seat; 24. a connecting column; 25. a connecting ring; 26. a connecting rod; 27. a conveying roller; 28. a hand wheel; 3. a support; 31. a support frame; 32. and (5) supporting rollers.

Detailed Description

The present utility model will be described in further detail below with reference to the accompanying drawings.

The embodiment discloses a steel belt cutting machine. Referring to fig. 1, a steel strip cutting machine comprises a cutting mechanism 1 and a positioning mechanism 2, wherein the cutting mechanism 1 comprises a machine table 11, a first upright post 12 and a second upright post 13 which are arranged on the machine table 11, a first air expansion shaft 121 and a second air expansion shaft 131 are rotatably connected between the first upright post 12 and the second upright post 13, a driving piece 14 for driving the first air expansion shaft 121 and the second air expansion shaft 131 to rotate in opposite directions is arranged on the second upright post 13, and a cutting assembly 15 is arranged on the first air expansion shaft 121 and the second air expansion shaft 131.

Referring to fig. 2 and 3, the positioning mechanism 2 includes a frame 21, a bidirectional screw 22 rotatably connected to the frame 21 is provided on the frame 21, a hand wheel 28 is provided at one end of the bidirectional screw 22, connecting seats 23 are screwed on two sides of the bidirectional screw 22, a plurality of connecting columns 24 are provided on the connecting seats 23, and a connecting ring 25 is rotatably connected to the connecting columns 24. When the stainless steel strip needs to be cut, a worker can rotate the bidirectional screw rod 22 by rotating the hand wheel 28, so that the connecting seats 23 arranged on two sides of the bidirectional screw rod 22 move oppositely or move oppositely, the distance between the connecting seats 23 arranged on two sides of the bidirectional screw rod 22 is adjusted, and then the connecting rings 25 arranged on the connecting seats 23 are driven to move oppositely or move oppositely, so that the distance between the connecting rings 25 arranged on two sides of the stainless steel strip is matched with the width of the stainless steel strip to be processed. When the stainless steel belt is conveyed to the positioning mechanism 2, the stainless steel belt is limited between the connecting rings 25 arranged on two sides of the bidirectional screw 22 due to the arrangement of the connecting rings 25, so that the problem that the cutting position is not deviated when the cutting assembly 15 cuts the stainless steel belt is avoided, and then the stainless steel belt enters the cutting mechanism 1 for cutting and sectioning. And the arrangement that go-between 25 and spliced pole 24 rotate the connection to when the edge of stainless steel band contradicts with go-between 25, accessible go-between 25 and spliced pole 24 rotate the connection, and reduce the friction between go-between 25 and the stainless steel band, and then reduce the possibility that the stainless steel band edge damaged.

Referring to fig. 2 and 3, a plurality of connecting rods 26 are provided on the frame 21, and the connecting rods 26 are slidably connected with the connecting seats 23, and the connecting rods 26 are provided to make the sliding of the connecting seats 23 on the frame 21 more stable, so that the connecting rings 25 can better position the stainless steel belt. And be equipped with the transfer roller 27 of being connected with the frame 21 rotation on the frame 21, transfer roller 27 sets up between adjacent go-between 25, and transfer roller 27's setting can play the effect of conveying the stainless steel strip, through the rotation between transfer roller 27 and the frame 21 being connected, reduces the friction between stainless steel strip and the transfer roller 27 for the surface of stainless steel strip is smoother. Be equipped with support piece 3 between positioning mechanism 2 and the cutting mechanism 1, support piece 3 includes support frame 31 and rotates the backing roll 32 of being connected on support frame 31, support piece 3's setting can play the effect of supporting the stainless steel strip, prevents to arrange the stainless steel strip sagging between positioning mechanism 2 and the cutting mechanism 1 in, the conveying and the cutting segmentation of the stainless steel strip of being convenient for, and backing roll 32 and support frame 31 rotate the setting of being connected, can reduce the friction between backing roll 32 and the stainless steel strip for the surface of stainless steel strip is smoother.

Referring to fig. 4, the driving member 14 includes a driving motor 141, a driving tooth 142 fixedly coupled to an output shaft of the driving motor 141, and a driven tooth 143 engaged with the driving tooth 142, the driving tooth 142 is coupled to the first air shaft 121, and the driven tooth 143 is coupled to the second air shaft 131. When the stainless steel strip enters the cutting mechanism 1, the driving motor 141 is started, the output shaft of the driving motor 141 rotates to drive the driving teeth 142 to rotate, the rotation of the driving teeth 142 drives the driven teeth 143 to rotate, and then the first air expansion shaft 121 and the second air expansion shaft 131 are driven to rotate in opposite directions, so that the stainless steel strip can be driven to move, the cutting assembly 15 arranged on the first air expansion shaft 121 and the second air expansion shaft 131 can cut the stainless steel strip, the stainless steel strip after the cutting is segmented is finally collected into a roll, and the cutting segmentation of the stainless steel strip can be completed.

Referring to fig. 5, the cutting assembly 15 includes a plurality of collars 151, the collars 151 may be sleeved on the outer wall of the first air expansion shaft 121 and the outer wall of the second air expansion shaft 131, a gap 152 matching with the first air expansion shaft 121 and the second air expansion shaft 131 is formed on the inner wall of the collars 151, and a rubber ring 153 is sleeved on the outer wall of the collars 151. The cutting assembly 15 further comprises a plurality of first metal rings 154 and second metal rings 156, the first metal rings 154 can be sleeved on the outer wall of the first air expansion shaft 121, the second metal rings 156 can be sleeved on the outer wall of the second air expansion shaft 131, first grooves 155 matched with the first air expansion shaft 121 are formed in the inner wall of the first metal rings 154, second grooves 157 matched with the second air expansion shaft 131 are formed in the inner wall of the second metal rings 156, and when the first metal rings 154 are sleeved on the outer wall of the first air expansion shaft 121 and the second metal rings 156 are sleeved on the outer wall of the second air expansion shaft 131, the first metal rings 154 and the second metal rings 156 are arranged in a staggered mode. The rubber ring 153 is disposed between the adjacent first metal rings 154 and between the adjacent second metal rings 156, and the outer wall of the rubber ring 153 abuts against the surface of the stainless steel belt to drive the stainless steel belt to move.

Referring to fig. 5, the arrangement of the collar 151 and the opening of the notch 152 on the inner wall of the collar 151 enable the rubber ring 153 to be sleeved on the outer wall of the first air expansion shaft 121 and the outer wall of the second air expansion shaft 131 through the collar 151 and rotate synchronously with the first air expansion shaft 121 and the second air expansion shaft 131. The first groove 155 is formed on the inner wall of the first metal ring 154, and the second groove 157 is formed on the inner wall of the second metal ring 156, so that the first metal ring 154 can rotate synchronously with the first air expansion shaft 121 through the first groove 155, and the second metal ring 156 can rotate synchronously with the second air expansion shaft 131 through the second groove 157. When the first metal ring 154 is sleeved on the outer wall of the first air expansion shaft 121, and the second metal ring 156 is sleeved on the outer wall of the second air expansion shaft 131, the first metal ring 154 and the second metal ring 156 are arranged in a staggered manner, so that when the stainless steel belt is in a collision position with the first metal ring 154 and the second metal ring 156, the stainless steel belt can be cut and segmented by the first metal ring 154 and the second metal ring 156. And the number of the cut segments of the stainless steel band can be controlled by increasing or decreasing the number of the first metal rings 154 sleeved on the outer wall of the first air expansion shaft 121 and the second metal rings 156 sleeved on the outer wall of the second air expansion shaft 131, and the width of the cut segments of the stainless steel band can be controlled by controlling the number of the rubber rings 153 between the adjacent first metal rings 154 and the number of the rubber rings 153 between the adjacent second metal rings 156.

Referring to fig. 6 and 7, a first connecting hole 122 and a second connecting hole 123 are formed in the first upright 12, the first connecting hole 122 is matched with the first air expansion shaft 121, the second connecting hole 123 is matched with the second air expansion shaft 131, a moving assembly 16 is arranged on the machine 11, the moving assembly 16 is used for driving the first upright 12 to move, the moving assembly 16 comprises a base 161, a limiting block 162 and a moving screw 163, the limiting block 162 is arranged on two sides of the base 161, the moving screw 163 penetrates through the limiting block 162 and is rotationally connected with the limiting block 162, the moving assembly 16 further comprises a guide rail 164 which is arranged on the base 161 and is in sliding connection with the first upright 12, a moving motor 165 which is arranged on the machine 11, and an output shaft of the moving motor 165 is connected with the moving screw 163.

Referring to fig. 6 and 7, when a worker wants to increase or decrease the number of the first metal rings 154 and the rubber rings 153 sleeved on the outer wall of the first air expansion shaft 121, increase or decrease the number of the second metal rings 156 and the rubber rings 153 sleeved on the outer wall of the second air expansion shaft 131, the moving motor 165 may be started, the output shaft of the moving motor 165 rotates to drive the moving screw 163 to rotate, and further drive the first upright 12 in threaded engagement with the moving screw 163 to move, so that the first upright 12 slides on the guide rail 164 towards the side far from the second upright 13, and the first air expansion shaft 121 is separated from the first connecting hole 122, the second air expansion shaft 131 is separated from the second connecting hole 123, and the number of the first metal rings 154 and the rubber rings 153 sleeved on the outer wall of the first air expansion shaft 121 can be increased or decreased, and the number of the second metal rings 156 and the rubber rings 153 sleeved on the outer wall of the second air expansion shaft 131 can be increased or decreased. After the worker completes the increase or decrease of the first metal ring 154, the second metal ring 156 and the rubber ring 153, the worker starts the moving motor 165 again, so that the output shaft of the moving motor 165 rotates reversely, and drives the moving screw 163 to rotate reversely, the first upright 12 slides towards the side close to the second upright 13, so that the first air expansion shaft 121 extends into the first connecting hole 122, and the second air expansion shaft 131 extends into the second connecting hole 123, and the increase or decrease of the first metal ring 154, the second metal ring 156 and the rubber ring 153 can be completed. The setting of stopper 162 can play the effect of supporting removal lead screw 163, and the setting of guide rail 164 can make the slip of first stand 12 on base 161 more stable and smooth. And compare in manual rotation of staff removes lead screw 163 in order to drive first stand 12 and remove, the setting of moving motor 165 for first stand 12 removes more laborsaving and convenient, and then improves staff's work efficiency.

Referring to fig. 7, a sliding rod 124 is disposed on a side of the first upright 12 close to the second upright 13, a sleeve rod 132 is disposed on a side of the second upright 13 close to the second upright 13, the sliding rod 124 extends into the sleeve rod 132 and is slidably connected with the sleeve rod 132, and the sliding rod 124 and the sleeve rod 132 are disposed, so that the sliding of the first upright 12 on the base 161 is more stable.

The implementation principle of the embodiment of the utility model is as follows: through being equipped with positioning mechanism 2 in one side of cutting mechanism 1, positioning mechanism 2 can be before the stainless steel band gets into cutting mechanism 1 by the cutting segmentation, can not have the problem of cutting position skew when making cutting mechanism 1 cut the stainless steel band, positioning mechanism 2 includes frame 21, rotate the bi-directional screw 22 of connecting in frame 21, hand wheel 28 be connected with bi-directional screw 22 one end, set up in bi-directional screw 22 both sides and with bi-directional screw 22 screw thread fit's connecting seat 23, set up a plurality of spliced pole 24 on connecting seat 23, rotate the go-between 25 of connecting on connecting pole 24. When the stainless steel strip needs to be cut, the worker can pass through the positioning mechanism 2 to position the stainless steel strip, the worker can rotate the hand wheel 28 to drive the bidirectional screw 22 to rotate, the connecting seats 23 arranged on two sides of the bidirectional screw 22 move in opposite directions or move in opposite directions, the connecting rings 25 arranged on the connecting seats 23 are driven to move in opposite directions or move in opposite directions, the distance between the connecting rings 25 positioned on two sides of the stainless steel strip is matched with the width of the stainless steel strip to be processed, the connecting rings 25 can position the stainless steel strip, the connecting rods 26 are rotatably connected with the connecting rings 25, friction between the connecting rings 25 and the edges of the stainless steel strip can be reduced, and damage to the edges of the stainless steel strip is avoided.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, wherein like reference numerals are used to refer to like elements throughout. Therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. A steel strip cutting machine comprising a cutting mechanism (1) for cutting segments of a stainless steel strip, characterized in that: one side of cutting mechanism (1) is equipped with positioning mechanism (2) that are used for carrying out the location to the stainless steel band, positioning mechanism (2) are including being used for supporting frame (21) of stainless steel band, rotate bi-directional screw (22) of connecting on frame (21), set up in bi-directional screw (22) both sides and with bi-directional screw (22) screw thread fit's connecting seat (23), set up a plurality of spliced pole (24) on connecting seat (23), rotate go-between (25) on spliced pole (24).

2. The steel strip cutting machine of claim 1, wherein: the frame (21) is provided with a plurality of connecting rods (26) which are in sliding connection with the connecting seats (23).

3. The steel strip cutting machine of claim 2, wherein: the machine frame (21) is provided with a conveying roller (27) which is rotationally connected with the machine frame (21), and the conveying roller (27) is arranged between adjacent connecting rings (25).

4. A steel strip cutting machine according to claim 3, wherein: a supporting piece (3) is arranged between the positioning mechanism (2) and the cutting mechanism (1), and the supporting piece (3) comprises a supporting frame (31) and a supporting roller (32) which is arranged on the supporting frame (31) and is rotationally connected with the supporting frame (31).

5. The steel strip cutting machine of claim 1, wherein: the cutting mechanism (1) comprises a machine table (11), a first upright column (12) and a second upright column (13) which are arranged on two sides of the machine table (11), a first air expansion shaft (121) and a second air expansion shaft (131) which are rotatably connected between the first upright column (12) and the second upright column (13), and a driving piece (14) for driving the first air expansion shaft (121) and the second air expansion shaft (131) to rotate in opposite directions, wherein a cutting assembly (15) is arranged on the first air expansion shaft (121) and the second air expansion shaft.

6. The steel strip cutting machine of claim 5, wherein: the cutting assembly (15) comprises a plurality of sleeves and is characterized in that the cutting assembly (15) comprises a plurality of sleeves and is sleeved on the outer walls of the first air expansion shaft (121) and the second air expansion shaft (131), rubber rings (153) are sleeved on the outer walls of the sleeves and are arranged on the inner walls of the sleeves (151), notches (152) matched with the first air expansion shaft (121) and the second air expansion shaft (131) are formed in the inner walls of the sleeves and are also arranged on the outer walls of the first air expansion shaft (121), first metal rings (154) and a plurality of sleeves and is arranged on the outer walls of the second air expansion shaft (131), second metal rings (156) are arranged on the outer walls of the first air expansion shaft (121) in a sleeved mode, the first metal rings (154) and the second metal rings (156) are arranged in a staggered mode, first grooves (155) matched with the first air expansion shaft (121) are formed in the inner walls of the first metal rings (154), and the second metal rings (156) are arranged on the inner walls of the second metal rings (156) in a sleeved mode, and the second metal rings (156) are arranged between the adjacent to the second metal rings (157) and the second metal rings (156).

7. The steel strip cutting machine of claim 6, wherein: first connecting hole (122) and second connecting hole (123) with first air expansion shaft (121) matched with are offered on first stand (12), be equipped with on board (11) and be used for driving first stand (12) removal subassembly (16), remove subassembly (16) including base (161), stopper (162) setting in base (161) both sides, remove lead screw (163) rotationally connected with stopper (162), guide rail (164) with first stand (12) sliding connection, remove lead screw (163) and first stand (12) screw-thread fit.

8. The steel strip cutting machine of claim 7, wherein: the moving assembly (16) further comprises a moving motor (165) arranged on the machine table (11), and an output shaft of the moving motor (165) is connected with one end of the moving screw rod (163).

9. The steel strip cutting machine of claim 5, wherein: one side of the first upright post (12) close to the second upright post (13) is provided with a sliding rod (124), and one side of the second upright post (13) close to the second upright post (13) is provided with a loop bar (132) in sliding connection with the sliding rod (124).