CN218693434U - But supplementary continuous cutting off subassembly of conduction - Google Patents

Abstract

The utility model discloses a can conduct supplementary subassembly that cuts off in succession, including chassis and spacing subassembly, the chassis left side is provided with the motor, and chassis right part fixedly connected with workstation, is used for spacingly spacing subassembly sets up in the workstation left part, spacing subassembly includes spout, slide rail, two-way screw rod, slide, limiting plate and slider, the spout has been seted up to the workstation left part, and spout left and right sides symmetry has seted up the slide rail, the spout internal rotation is connected with two-way screw rod, and two-way screw rod front and back bilateral symmetry threaded connection has the slide, slide top fixedly connected with limiting plate, and the symmetrical fixedly connected with slider in limiting plate left and right sides, slide rail, slider are type, and the slider passes through slide rail and workstation gomphosis sliding connection, the slide passes through spout and workstation sliding connection. The utility model discloses a cooperation between each part can carry on spacingly to the material when the pay-off, avoids leading to the processing error at the material incline.

Description

But supplementary continuous cutting off subassembly of conduction

Technical Field

The utility model relates to a heater processing technology field specifically is a can conduct supplementary subassembly that cuts off in succession.

Background

The heating wire is an element which is connected with electricity and then heated to achieve a certain purpose, and can be divided into an iron-chromium-aluminum alloy series and a nickel-chromium alloy series according to the difference of the content and the organization structure of chemical elements, and the iron-chromium-aluminum alloy series and the nickel-chromium alloy series respectively have more advantages as electric heating materials, and are widely used mainly in industrial heating equipment and civil heating appliances such as metallurgical machinery, medical treatment, chemical engineering, ceramics, electronics, electrical appliances, glass and the like.

The utility model with application number CN202022189632.0 discloses a wire cutting device. The utility model discloses a be convenient for keep off the protection to the cutting knife automatically after the cutting, reduce personnel and miss and touch the risk that the cutting knife caused the fish tail, but this utility model is at the in-process of carrying the wire rod, can lead to appearing cutting off the condition of length deviation because the wire rod incline, and can lead to the wire rod crooked.

In view of the above, a continuous cutting device capable of conduction assistance is proposed by improving the conventional structure and defects.

Disclosure of Invention

An object of the utility model is to provide a can conduct supplementary subassembly that cuts off in succession to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a can conduct supplementary subassembly that cuts off in succession, includes chassis and spacing subassembly, the chassis left side is provided with the motor, and chassis right part fixedly connected with workstation, is used for spacingly spacing subassembly sets up in the workstation left part, spacing subassembly includes spout, slide rail, two-way screw rod, slide, limiting plate and slider, the spout has been seted up to the workstation left part, and spout left and right sides symmetry has seted up the slide rail, the spout internal rotation is connected with two-way screw rod, and bilateral symmetry threaded connection has the slide around the two-way screw rod, slide top fixedly connected with limiting plate, and limiting plate left and right sides symmetry fixedly connected with slider, slide rail, slider are type, and the slider passes through slide rail and workstation gomphosis sliding connection, the slide passes through spout and workstation sliding connection.

Furthermore, a driving wheel is arranged on the left side of the motor, a driving wheel is meshed with the upper portion of the driving wheel, a base plate is fixedly connected to the upper left of the chassis, the driving wheel is rotatably connected with the base plate, and the motor and the driving wheel form a transmission structure through a belt and a belt pulley.

Furthermore, the left part of the cushion plate is provided with a transverse component for transverse straightening, the right part of the cushion plate is provided with a longitudinal component for longitudinal straightening, and the transverse component and the longitudinal component are similar in structure.

Further, horizontal subassembly is including the straightening wheel with mutual wheel, both sides symmetry is provided with six straightening wheels around the upper portion of backing plate left part, and the straightening wheel below takes turns through the mutual wheel of pivot fixedly connected with, and both sides are adjacent around, mutual wheel intermeshing, the drive wheel takes turns through the interaction of belt, belt pulley and vertical subassembly and constitutes the transmission structure, the drive wheel takes turns through the interaction of belt, belt pulley and horizontal subassembly and constitutes the transmission structure.

Further, the workstation right part is provided with the subassembly that cuts off that is used for cutting off, the subassembly that cuts off includes frame, grooving, hydraulic stem and underframe, workstation upper right side fixedly connected with frame, and the workstation right part has seted up the grooving, frame inner wall fixedly connected with hydraulic stem, and hydraulic stem below fixedly connected with underframe.

Further, cut off the subassembly and still include cutter, gag lever post and smooth chamber, fixedly connected with cutter in the underframe, and underframe top left and right sides symmetry fixedly connected with gag lever post, smooth chamber has been seted up to the underframe lower part.

Further, the cutting assembly further comprises a spring, an enclosing frame and a pressure groove, the spring is fixedly connected in the sliding cavity, the spring lower end is fixedly connected with the enclosing frame, and the pressure groove is symmetrically formed in the left side and the right side of the enclosing frame.

The utility model provides a can conduct supplementary subassembly that cuts off in succession possesses following beneficial effect: the conduction-assisted continuous cutting assembly can limit the position of the material during feeding through the matching of parts of each part, so that the processing error caused by the deflection of the material is avoided;

1. the utility model discloses a setting of spacing subassembly when adding man-hour to the material, can rotate two-way screw rod on the workstation, make the slider in spout opposite direction movement, drive the limiting plate and remove, adjust the distance between the limiting plate, slider accessible slide rail restricts the limiting plate, avoids the limiting plate incline, and after the material was carried on the workstation, the limiting plate can restrict the material, avoids it to appear shifting in the removal process;

2. the utility model can drive the driving wheel to rotate through the driving wheel by the arrangement of the motor, so that the driving wheel and the driving wheel respectively drive the interaction wheels of the transverse component and the longitudinal component to rotate, thereby driving the straightening wheels at the two sides of the transverse component and the longitudinal component to rotate oppositely, and straightening the heating wire while conveying the heating wire;

3. the utility model discloses a cut off the setting of subassembly, after the part that the heater surpassed the grooving reached the predetermined distance, the hydraulic stem can drive the underframe and descend in the frame, enclose frame accessible indent and compress tightly the heater on the workstation, the atress is crooked when avoiding the heater to cut off, the spring can be after enclosing the frame and compress tightly the heater, the spring is enclosed the frame compression, make the underframe can continue to descend, the cutter cuts off the heater through the grooving under the drive of underframe, the gag lever post can restrict the underframe, avoid the underframe to incline at the decline in-process.

Drawings

Fig. 1 is a schematic sectional front view of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the limiting plate of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the bottom frame of the present invention.

In the figure: 1. a chassis; 2. a motor; 3. a work table; 4. a limiting component; 401. a chute; 402. a slide rail; 403. a bidirectional screw; 404. a slide plate; 405. a limiting plate; 406. a slider; 5. a drive wheel; 6. a driving wheel; 7. a base plate; 8. a transverse assembly; 801. a straightening wheel; 802. an interaction wheel; 9. a longitudinal component; 10. cutting off the assembly; 1001. a frame; 1002. grooving; 1003. a hydraulic lever; 1004. a bottom frame; 1005. a cutter; 1006. a limiting rod; 1007. a slide chamber; 1008. a spring; 1009. enclosing a frame; 1010. and (5) pressing the groove.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 and 2, a conduction-assisted continuous cutting assembly includes a chassis 1 and a limiting assembly 4, a motor 2 is disposed on the left side of the chassis 1, a workbench 3 is fixedly connected to the right of the chassis 1, the limiting assembly 4 for limiting is disposed on the left of the workbench 3, the limiting assembly 4 includes a chute 401, a slide rail 402, a bidirectional screw 403, a sliding plate 404, a limiting plate 405 and a sliding block 406, the chute 401 is disposed on the left of the workbench 3, the slide rail 402 is symmetrically disposed on the left and right of the chute 401, the sliding plate 402 is rotatably connected to the chute 401, the bidirectional screw 403 is rotatably connected to the chute 401, the sliding plate 404 is symmetrically and threadedly connected to the front and rear of the bidirectional screw 403, the limiting plate 405 is fixedly connected to the upper side of the sliding plate 404, the sliding plate 406 is symmetrically and fixedly connected to the left and right of the limiting plate 405, the sliding rail 402 and the sliding block 406 are both in a convex shape, the sliding connection with the workbench 3 through the sliding rail 402, the sliding plate 404 is slidably connected to the workbench 3 through the chute 401, the limiting assembly 4 is disposed, when a material is processed, the material can be prevented from being conveyed to the limiting plate 405, and the limiting plate 405 can be prevented from being deviated from the limiting plate 405.

As shown in fig. 1, a driving wheel 5 is disposed on the left side of a motor 2, a driving wheel 6 is disposed above the driving wheel 5 in a meshed manner, a backing plate 7 is fixedly connected to the upper left side of a chassis 1, and the driving wheel 6 is rotatably connected to the backing plate 7, the motor 2 is connected to the driving wheel 5 through a belt and a belt pulley to form a transmission structure, a transverse component 8 for transverse straightening is disposed on the left side of the backing plate 7, a longitudinal component 9 for longitudinal straightening is disposed on the right side of the backing plate 7, the transverse component 8 and the longitudinal component 9 are similar in structure, the transverse component 8 includes a straightening wheel 801 and an interaction wheel 802, six straightening wheels 801 are symmetrically disposed on the front and back sides of the left side of the backing plate 7, the interaction wheels 802 are fixedly connected to the lower side of the straightening wheels 801 through a rotating shaft, the interaction wheels 802 adjacent to the front and back sides are meshed with each other, the driving wheel 5 is engaged with the interaction wheel 802 of the longitudinal component 9 through a belt, the driving wheel 6 and the belt pulley form a transmission structure with the interaction wheel 802 of the transverse component 8, the driving wheel 802 of the longitudinal component 9 through a belt, the motor 2 can drive the driving wheel 6 to rotate the transverse component 6 through the driving wheel 5, thereby respectively, the transverse component 802 of the transverse component 9, and drive the transverse component 8, and the heating wire to simultaneously, and carry out the straightening wires of the straightening wires for conveying of the straightening wires.

As shown in fig. 1 and 3, a cutting assembly 10 for cutting is arranged at the right part of the workbench 3, the cutting assembly 10 comprises a frame 1001, a cutting groove 1002, a hydraulic rod 1003 and a bottom frame 1004, the frame 1001 is fixedly connected at the upper right part of the workbench 3, the cutting groove 1002 is arranged at the right part of the workbench 3, the hydraulic rod 1003 is fixedly connected to the inner wall of the frame 1001, the bottom frame 1004 is fixedly connected below the hydraulic rod 1003, the cutting assembly 10 further comprises a cutter 1005, a limit rod 1006 and a sliding cavity 1007, the cutter 1005 is fixedly connected in the bottom frame 1004, the limit rod 1006 is symmetrically and fixedly connected at the left side and the right side above the bottom frame 1004, the sliding cavity 1007 is arranged at the lower part of the bottom frame 1004, the cutting assembly 10 further comprises a spring 1008, a surrounding frame 1009 and a pressing groove 1010, the spring 1008 is fixedly connected in the sliding cavity 1007, and spring 1008 lower extreme fixedly connected with encloses frame 1009, enclose the left and right sides symmetry of frame 1009 and seted up indent 1010, through the setting that cuts off subassembly 10, after the heater surpassed the part of grooving 1002 and reached the predetermined distance, hydraulic stem 1003 can drive underframe 1004 and descend in frame 1001, enclose frame 1009 accessible indent 1010 and compress tightly the heater on workstation 3, receive the atress and bend when avoiding the heater to cut off, spring 1008 can be after enclosing frame 1009 and compress tightly the heater, spring 1008 is enclosed the frame 1009 and compress, make underframe 1004 can continue to descend, cutter 1005 cuts off the heater through grooving 1002 under the drive of underframe 1004, gag lever 1006 can restrict underframe 1004, avoid underframe 1004 in the decline in-process skew.

In summary, when the continuous cutting assembly capable of conducting assistance is used, firstly, according to the structure shown in fig. 1, fig. 2 and fig. 3, the bidirectional screw 403 is rotated on the workbench 3, so that the sliding block 406 moves in the sliding groove 401 in an opposite direction, the limiting plate 405 is driven to move, the distance between the limiting plates 405 is adjusted, the sliding block 406 can limit the limiting plate 405 through the sliding rail 402, the limiting plate 405 is prevented from deflecting, the motor 2 is started, the motor 2 drives the driving wheel 6 to rotate through the driving wheel 5, so that the driving wheel 6 and the driving wheel 5 respectively drive the interacting wheels 802 of the transverse assembly 8 and the longitudinal assembly 9 to rotate, so as to drive the straightening wheels 801 at two sides of the transverse assembly 8 and the longitudinal assembly 9 to rotate in an opposite direction, and straighten the heating wires while conveying the heating wires, after the material is carried on workstation 3, limiting plate 405 can restrict the material, avoid it to appear the skew at the removal in-process, after the heater surpassed the part of grooving 1002 and reached the predetermined distance, hydraulic stem 1003 can drive underframe 1004 and descend in frame 1001, enclose frame 1009 accessible indent 1010 and compress tightly the heater on workstation 3, receive the force bending when avoiding the heater to cut off, spring 1008 can be after enclosing frame 1009 and compress tightly the heater, spring 1008 is enclosed the frame 1009 compression, make underframe 1004 can continue to descend, cutter 1005 cuts off the heater through grooving 1002 under the drive of underframe 1004, gag lever post 1006 can restrict underframe 1004, avoid underframe 1004 in the decline in-process skew.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a supplementary subassembly that cuts off in succession of can conducting, includes chassis (1) and spacing subassembly (4), its characterized in that, chassis (1) left side is provided with motor (2), and chassis (1) right part fixedly connected with workstation (3), is used for spacingly spacing subassembly (4) set up in workstation (3) left part, spacing subassembly (4) include spout (401), slide rail (402), two-way screw rod (403), slide (404), limiting plate (405) and slider (406), spout (401) have been seted up to workstation (3) left part, and spout (401) left and right sides symmetry has seted up slide rail (402), spout (401) internal rotation is connected with two-way screw rod (403), and two-way screw rod (403) front and back bilateral symmetry threaded connection have slide (404), slide (404) top fixedly connected with limiting plate (405), and the symmetrical fixedly connected with slider (406) of limiting plate (405) left and right sides, slide rail (402), slider (406) are the type, and slider (406) pass through slide rail (402) and workstation (401) sliding connection.

2. A conduction-assisted continuous cutting assembly according to claim 1, wherein a driving wheel (5) is arranged on the left side of the motor (2), a driving wheel (6) is meshed above the driving wheel (5), a backing plate (7) is fixedly connected to the upper left of the chassis (1), the driving wheel (6) is rotatably connected with the backing plate (7), and the motor (2) and the driving wheel (5) form a transmission structure through a belt and a belt pulley.

3. A conduction-assisted continuous severing assembly as claimed in claim 2, characterized in that said tie plate (7) is provided, on the left, with a transverse assembly (8) for transverse straightening and, on the right, with a longitudinal assembly (9) for longitudinal straightening, said transverse assembly (8) and longitudinal assembly (9) being structurally similar.

4. A conduction-assisted continuous cutting assembly according to claim 3, wherein the transverse assembly (8) comprises a straightening wheel (801) and an interaction wheel (802), six straightening wheels (801) are symmetrically arranged on the left portion of the backing plate (7) at the front and back sides, the interaction wheel (802) is fixedly connected below the straightening wheel (801) through a rotating shaft, the interaction wheels (802) adjacent to the front and back sides are meshed with each other, the driving wheel (5) and the interaction wheel (802) of the longitudinal assembly (9) form a transmission structure through a belt and a belt pulley, and the driving wheel (6) and the interaction wheel (802) of the transverse assembly (8) form a transmission structure through a belt and a belt pulley.

5. A conduction-assisted continuous cutting assembly according to claim 1, characterized in that the right part of the workbench (3) is provided with a cutting assembly (10) for cutting, the cutting assembly (10) comprises a frame (1001), a cutting groove (1002), a hydraulic rod (1003) and a bottom frame (1004), the frame (1001) is fixedly connected to the upper right of the workbench (3), the cutting groove (1002) is formed in the right part of the workbench (3), the hydraulic rod (1003) is fixedly connected to the inner wall of the frame (1001), and the bottom frame (1004) is fixedly connected to the lower part of the hydraulic rod (1003).

6. The conduction-assisted continuous cutting assembly according to claim 5, wherein the cutting assembly (10) further comprises a cutter (1005), a limiting rod (1006) and a sliding cavity (1007), the cutter (1005) is fixedly connected in the bottom frame (1004), the limiting rod (1006) is symmetrically and fixedly connected to the left side and the right side above the bottom frame (1004), and the sliding cavity (1007) is formed in the lower portion of the bottom frame (1004).

7. The conduction-assisted continuous cutting assembly according to claim 6, wherein the cutting assembly (10) further comprises a spring (1008), an enclosing frame (1009) and a pressure groove (1010), the spring (1008) is fixedly connected in the sliding cavity (1007), the enclosing frame (1009) is fixedly connected at the lower end of the spring (1008), and the pressure grooves (1010) are symmetrically formed in the left side and the right side of the enclosing frame (1009).

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