CN213559220U - Shaping device for stainless steel plate - Google Patents

Abstract

The utility model discloses a shaping device of a stainless steel plate, which comprises a traction device, a driven unreeling roller and a roller bracket which are arranged in sequence, wherein the traction device comprises a driving mechanism, a traction device body and a clamping part, the clamping part reciprocates relative to the traction device body and is used for clamping and loosening the stainless steel plate, the traction device moves away from the driven unreeling roller under the action of the driving mechanism and can drive the driven unreeling roller to discharge materials, the driven unreeling roller is rotatably arranged on the roller bracket through a rotating shaft, the rotating shaft is fixedly arranged on the driven unreeling roller and is rotatably connected with the roller bracket or the rotating shaft is fixedly arranged on the roller bracket and is rotatably connected with the driven unreeling roller, a clutch part is arranged between the driven unreeling rollers of the roller bracket, and a tensioning force is continuously supplied to the stainless steel plate in the process that the traction device pulls the stainless steel plate to move, the stainless steel plate is kept flat, the whole device has simple structure and small noise pollution.

Description

Shaping device for stainless steel plate

Technical Field

The utility model relates to a shaping device of corrosion resistant plate.

Background

At present, stainless steel plate generally is market purchase spare, in the product transportation, can't avoid the deformation of some stainless steel plates, and the stainless steel plate of preparation lapping also has certain product to warp, when making stainless steel spare, fashioned stainless steel spare has structural defects such as surface unevenness to the installation accuracy that leads to stainless steel spare is not high, the installation problem appears in the assembling process of stainless steel spare, lead to big stainless steel spare to scrap, the waste of resource and the loss of enterprise have been caused.

The existing plate shaping method achieves the purpose of flattening plates through the pressure of hydraulic machinery, the production efficiency is low, and the noise is large when the hydraulic machinery operates.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a shaping device of corrosion resistant plate, play the plastic effect to corrosion resistant plate, can improve production efficiency simultaneously, and can reduce noise pollution.

In order to solve the technical problem, the utility model provides a technical scheme does: a shaping device for a stainless steel plate comprises a traction device, a driven unreeling roller and a roller bracket which are arranged in sequence;

the traction device comprises a driving mechanism, a traction device body and a clamping part, wherein the clamping part reciprocates relative to the traction device body and is used for clamping and loosening the stainless steel plate;

driven cylinder that unreels rotates through the pivot and installs on cylinder support, pivot fixed mounting unreel the cylinder from the driven and rotate with cylinder support and be connected or pivot fixed mounting unreel the cylinder support from the driven and rotate with the driven cylinder that unreels and be connected, cylinder support sets up clutch parts between the driven cylinder that unreels, at the in-process that draw gear pull stainless steel plate and remove, continuously gives a tensile force of stainless steel plate. The stainless steel plate is pulled to be flat by using the tension force, the traditional pressing and flattening of hydraulic machinery is replaced, the blanking can be continuously shaped through the reciprocating motion of the traction device, the efficiency is improved, and meanwhile, the noise pollution caused by the hydraulic machinery is greatly reduced.

Further, driven cylinder that unreels sets up the through-hole with the pivot adaptation, the pivot is along radially setting up the through-hole, clutch parts is including setting up elastomeric element and the friction part in the through-hole, friction part is two, and under elastomeric element's effect, friction part contradicts driven through-hole inner wall of unreeling the cylinder respectively, through elastomeric element and friction part's setting, can realize clutch parts's effect, and clutch parts is wearing parts, and spare part can be changed to lower cost fast in this scheme.

The utility model discloses still include separation and reunion adjusting part, the pivot is provided with the through-hole with separation and reunion adjusting part adaptation along the axial, separation and reunion adjusting part can be axial motion along the through-hole in the pivot, separation and reunion adjusting part is equipped with the reducing section, elastomeric element is two and sets up respectively in the both sides of separation and reunion adjusting part reducing section.

Furthermore, the diameter-variable section is sequentially reduced along the axial movement direction of the diameter-variable section, and the resistance of the clutch component can be adjusted through the arrangement of the clutch regulating component, so that the clutch regulating component is adaptive to stainless steel plates with different specifications.

The utility model discloses a work platform, the track of laying along the draw gear direction of motion, the track is fixed on work platform, draw gear erects on the track through the gyro wheel, and the track sets up the accuracy that can guarantee draw gear's orbit, avoids the emergence of unnecessary stainless steel damage and dangerous accident.

Further, a blanking device is further arranged on the working platform.

Further, unloader includes the cutter frame of vertical setting, goes up cutter and lower cutter and is reciprocating motion in the cutter frame, sets up unloader, can let whole plastic unloading process automation realize, has improved the efficiency of production.

Furthermore, the traction device body is provided with a let position angle, and the arrangement of the let position angle can effectively avoid collision with the cutter, so that the clamping part of the traction device can clamp the cut plate.

Furthermore, a guide structure is arranged between the traction device and the driven unreeling roller and comprises a lower roller wheel, and the lower roller wheel supports the stainless steel plate to move.

Further, guide structure includes the running roller, go up the running roller setting in the top that removes corrosion resistant plate, set up the running roller in the corrosion resistant plate below that removes and can support the corrosion resistant plate and remove, reduce the deformation that hangs down downwards, set up the running roller in the top of corrosion resistant plate, can two-wayly spacing, carry out a primary plastic to big deformation, can prevent simultaneously that the corrosion resistant plate fracture from collapsing out the device.

Compared with the prior art, the structure design has the following advantages:

the flat stainless steel plate mother board of efficient production in succession can be produced to this product, has reduced the pollution of noise simultaneously, can carry out plastic unloading work to the stainless steel plate of different specification models, and the suitability is good, has still improved the security and the accuracy of production process simultaneously.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention.

Fig. 2 is a front view of the overall structure of the present invention.

Fig. 3 is a sectional view a-a of fig. 2.

Fig. 4 is a partially enlarged view of the portion C of fig. 3.

Fig. 5 is a plan view of the overall structure of the present invention.

Fig. 6 is a sectional view B-B of fig. 5.

Fig. 7 is a partially enlarged view of portion D of fig. 6.

Fig. 8 is an enlarged view of a portion E of fig. 6.

Shown in the figure: 100. a traction device; 120. a draft gear body; 121. let the position angle; 130. a clamping portion; 140. a roller; 200. a driven unwinding roller; 210. a first through hole; 300. a drum support; 400. a clutch member; 410. an elastic member; 420. a friction member; 500. a rotating shaft; 510. a second through hole; 520. a third through hole; 600. a clutch adjustment component; 610. A diameter-changing section; 700. a working platform; 800. a track; 900. a blanking device; 910. a cutter frame; 920. an upper cutter; 930. a lower cutter; 1000. a guide structure; 1010. a lower roller; 1020. and (4) rolling the roller.

Detailed Description

The present invention will be described in further detail below with reference to specific embodiments and with reference to the accompanying drawings.

The utility model discloses a shaping device of a stainless steel plate, which is shown in a figure 1-8 and comprises a traction device 100, a driven unreeling roller 200 and a roller bracket 300 which are arranged in sequence; the traction device 100 comprises a driving mechanism, a traction device body 120 and a clamping part 130, the clamping part 130 reciprocates relative to the traction device body 120 and is used for clamping and loosening the stainless steel plate, and the traction device 100 moves away from the driven unwinding roller 200 under the action of the driving mechanism and can drive the driven unwinding roller 200 to discharge materials; driven cylinder 200 that unreels rotates through pivot 500 and installs on roller bracket 300, and pivot 500 fixed mounting unreels from the cylinder 200 and rotates with roller bracket 300 to be connected or pivot 500 fixed mounting unreels from the cylinder 300 and rotates with driven cylinder 200 to be connected, and roller bracket 300 sets up clutch part 400 from between the cylinder 200, draws the in-process that the corrosion resistant plate removed at draw gear 100, lasts for a tensile force for the corrosion resistant plate.

In a specific implementation, as a further scheme, the driven unwinding roller 200 is provided with a first through hole 210 adapted to the rotating shaft 500, the rotating shaft 500 is provided with a second through hole 510 along a radial direction, the clutch member 400 includes an elastic member 410 and two friction members 420, the elastic member 410 and the two friction members 420 are disposed in the through holes, and under the action of the elastic member 410, the friction members 420 respectively abut against the inner wall of the first through hole 210 of the driven unwinding roller 200.

In a specific implementation, as a further scheme, the clutch adjusting member 600, the rotating shaft 500 is provided with a third through hole 520 adapted to the clutch adjusting member 600 along the axial direction, the clutch adjusting member 600 can move axially in the rotating shaft 500 along the third through hole 520, the clutch adjusting member 600 is provided with a reducing section 610, and two elastic members 410 are provided and are respectively disposed at two sides of the reducing section 610 of the clutch adjusting member 600.

In a specific implementation, the variable diameter section 610 is sequentially reduced along the axial movement direction.

In a specific implementation, as a further scheme, the working platform 700 and the rail 800 laid along the movement direction of the traction device 100 are fixed on the working platform 700, and the traction device 100 is erected on the rail 800 through the rollers 140.

In a specific implementation, as a further scheme, a blanking device 900 is further disposed on the work platform 700.

In a specific implementation, as a further scheme, the blanking device 900 includes a cutter frame 910, an upper cutter 920 and a lower cutter 930 which are vertically arranged, and the upper cutter 920 and the lower cutter 930 reciprocate on the cutter frame 910.

In a specific implementation, as a further scheme, the traction device body 120 is provided with a relief angle 121.

In a specific implementation, as a further scheme, a guide structure 1000 is arranged between the traction device 100 and the driven unwinding roller 200, and the guide structure 1000 comprises a lower roller 1010, and the lower roller 1010 supports the stainless steel plate to move.

In a specific implementation, the guiding structure 1000 further comprises an upper roller 1020, and the upper roller 1020 is disposed above the moving stainless steel plate.

The foregoing is illustrative of the preferred embodiments of the present invention only, and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and all the changes made within the scope of the independent claims of the present invention are within the scope of the present invention.

Claims (10)

1. A shaping device of a stainless steel plate is characterized in that: comprises a traction device (100), a driven unreeling roller (200) and a roller bracket (300) which are arranged in sequence;

the traction device (100) comprises a driving mechanism, a traction device body (120) and a clamping part (130), wherein the clamping part (130) reciprocates relative to the traction device body (120) and is used for clamping and loosening the stainless steel plate, the traction device (100) moves away from the driven unwinding roller (200) under the action of the driving mechanism and can drive the driven unwinding roller (200) to discharge materials;

driven cylinder (200) that unreels rotates through pivot (500) and installs on cylinder bracket (300), pivot (500) fixed mounting unreels from the driven cylinder (200) and rotates with cylinder bracket (300) and be connected or pivot (500) fixed mounting unreels cylinder (200) and rotates with driven and be connected, cylinder bracket (300) are from set up clutch parts (400) between cylinder (200), draw the in-process that the corrosion resistant plate removed at draw gear (100), continuously give a tensile force of corrosion resistant plate.

2. The shaping device of a stainless steel plate according to claim 1, wherein: driven cylinder (200) that unreels sets up first through-hole (210) with pivot (500) adaptation, pivot (500) radially set up second through-hole (510), clutch parts (400) are including setting up elastomeric element (410) and friction part (420) in the through-hole, friction part (420) are two, and under elastomeric element's (410) effect, friction part (420) are contradicted respectively and are unreeled first through-hole (210) inner wall of cylinder (200).

3. The shaping device of a stainless steel plate according to claim 2, wherein: including separation and reunion adjusting part (600), pivot (500) are provided with third through-hole (520) with separation and reunion adjusting part (600) adaptation along the axial, separation and reunion adjusting part (600) can be axial motion along third through-hole (520) in pivot (500), separation and reunion adjusting part (600) are equipped with reducing section (610), elastomeric element (410) are two and set up respectively in the both sides of separation and reunion adjusting part (600) reducing section (610).

4. The shaping device of a stainless steel plate according to claim 3, wherein: the variable diameter sections (610) become smaller in sequence along the axial movement direction thereof.

5. The shaping device of a stainless steel plate according to claim 1, wherein: the device comprises a working platform (700) and a track (800) laid along the movement direction of a traction device (100), wherein the track (800) is fixed on the working platform (700), and the traction device (100) is erected on the track (800) through a roller (140).

6. The shaping device of a stainless steel plate according to claim 5, wherein: the working platform (700) is also provided with a blanking device (900).

7. The shaping device of a stainless steel plate according to claim 6, wherein: the blanking device (900) comprises a cutter frame (910), an upper cutter (920) and a lower cutter (930) which are vertically arranged, and the upper cutter (920) and the lower cutter (930) reciprocate on the cutter frame (910).

8. The shaping device of a stainless steel plate according to claim 7, wherein: the traction device body (120) is provided with a leading angle (121).

9. The shaping device of a stainless steel plate according to claim 1, wherein: the automatic unwinding device comprises a guide structure (1000) arranged between a traction device (100) and a driven unwinding roller (200), wherein the guide structure (1000) comprises a lower roller (1010), and the lower roller (1010) supports a stainless steel plate to move.

10. The shaping device of a stainless steel plate according to claim 9, wherein: the guide structure (1000) comprises an upper roller (1020), and the upper roller (1020) is arranged above the movable stainless steel plate.

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