CN212705280U - Embossing equipment for stainless steel - Google Patents

Abstract

The utility model belongs to the field of stainless steel processing equipment, and discloses embossing equipment for stainless steel, which comprises a frame, a pressing wheel assembly and a character wheel assembly, wherein the pressing wheel assembly and the character wheel assembly are arranged in the middle of the frame, and the pressing wheel assembly is arranged above the character wheel assembly; the pinch roller assembly comprises a first rotating shaft and a pinch roller, the first rotating shaft is arranged in the middle of the rack, and the first rotating shaft penetrates through the axis of the pinch roller; the character wheel subassembly includes the second pivot, the character wheel, the rubber wheel, the cylinder, the driving medium, the second pivot is parallel with first pivot locate the centre of frame, the axle center of character wheel and rubber wheel is passed in proper order in the second pivot, one side of rubber wheel is located to the character wheel, the side of rubber wheel is equipped with empty runner, the top of character wheel and rubber wheel is located to the pinch roller, the side of frame is located to the cylinder, the top that the frame extends to the cylinder is passed to the one end of second pivot, the cylinder passes through the driving medium and is connected with the transmission of second pivot. The embossing apparatus for stainless steel can freely control the distance between embossments.

Description

Embossing equipment for stainless steel

Technical Field

The utility model relates to a stainless steel processing equipment field indicates an embossing apparatus for stainless steel especially.

Background

Among the prior art, an embossing device for stainless steel generally includes frame, pinch roller subassembly, character wheel subassembly, and pinch roller subassembly and character wheel subassembly are located in the middle of the frame, and pinch roller subassembly locates the top of character wheel subassembly, and the stainless steel passes through between pinch roller subassembly and the character wheel subassembly, and under the effect of the pinch roller that the stainless steel passes through character code and character wheel subassembly, the purpose of realizing the knurling.

The embossing distance of the embossing device is determined by the circumference of the character wheel, namely the distance for one-time embossing on stainless steel, and the number of the characters, namely the number of the embossings printed on the distance for one-time embossing. Therefore, the embossing equipment in the prior art cannot freely control the distance for completing one embossing, namely, different embossing distances cannot be completed on stainless steel without replacing the character wheel.

Disclosure of Invention

In order to solve the problem, the utility model provides an embossing equipment for stainless steel.

In order to achieve the above object, the utility model adopts the following technical scheme:

an embossing device for stainless steel comprises a rack, a pressing wheel assembly and a character wheel assembly, wherein the pressing wheel assembly and the character wheel assembly are arranged in the middle of the rack, and the pressing wheel assembly is arranged above the character wheel assembly;

the pinch roller assembly comprises a first rotating shaft and a pinch roller, the first rotating shaft is arranged in the middle of the rack, and the first rotating shaft penetrates through the axis of the pinch roller;

the character wheel subassembly includes the second pivot, the character wheel, the rubber wheel, the cylinder, the driving medium, the second pivot is parallel with first pivot locate the centre of frame, the axle center of character wheel and rubber wheel is passed in proper order in the second pivot, one side of rubber wheel is located to the character wheel, the side of rubber wheel is equipped with empty runner, the top of character wheel and rubber wheel is located to the pinch roller, the side of frame is located to the cylinder, the top that the frame extends to the cylinder is passed to the one end of second pivot, the cylinder passes through the driving medium and is connected with the transmission of second pivot.

Specifically, the pinch roller assembly further comprises at least one first flat key and at least two first retaining sleeves, the first retaining sleeves are arranged on two sides of the pinch roller, and the first flat key is arranged along the axial direction of the first rotating shaft and penetrates through the first retaining sleeves and the pinch roller.

Specifically, the character wheel assembly further comprises at least one second flat key and at least two second retaining sleeves, the rubber wheel is located by the second retaining sleeves, one side of the character wheel far away from the character wheel and one side of the character wheel far away from the rubber wheel are located by the second retaining sleeves, and the second flat key is arranged along the axial direction of the second rotating shaft and penetrates through the second retaining sleeves, the character wheel and the rubber wheel.

Specifically, the side of the character wheel is at least provided with an installation groove for installing the character.

Specifically, the outer diameter of the rubber wheel is 0.5-1 mm larger than the outer diameter of the character wheel provided with the character codes.

Specifically, the driving medium includes swing arm and connector, and one end of swing arm is located one of second pivot extension and is served, and on the piston rod of cylinder was located to the one end of connector, the other end of swing arm was articulated with the other end of connector.

Specifically, the front end of the frame is provided with a pressing plate seat, and the upper end of the pressing plate seat is provided with a pressing plate.

Specifically, the frame includes two parallel arrangement's grudging posts, but the centre of the rotation of the both ends of first pivot and the both ends rotation of second pivot fixed in the grudging post.

Specifically, the centre of grudging post is equipped with the spout and with spout matched with slider, but the both ends rotation of first pivot be fixed in the slider on, the upper end of slider is equipped with the connecting plate, the upper end of connecting plate is equipped with the adjusting screw who upwards extends to the grudging post upper end, and the upper end of adjusting screw is equipped with the hand wheel.

Specifically, one end of the first rotating shaft penetrates through the rack and extends to the side face of the rack, and an encoder support is arranged at the extending end of the first rotating shaft.

The utility model relates to an useful part of knurling equipment for stainless steel: the idle running of the character wheel can be realized through the idle running groove of the rubber wheel, so that the distance between the embossments can be freely regulated, and different embossing distances can be finished on stainless steel.

Drawings

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

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

Figure 3 is the pinch roller assembly structure of the present invention.

FIG. 4 is a structural view of the character wheel assembly of the present invention

The reference numbers illustrate: 100. a frame; 110. erecting a frame; 120. a slider; 130. a chute; 140. a connecting member; 150. adjusting the screw rod; 160. a hand wheel; 170. a platen base; 180. pressing a plate; 200. a pinch roller assembly; 210. a first rotating shaft; 220. a pinch roller; 230. a first blocking sleeve; 240. a first flat key; 250. an encoder support; 300. a character wheel assembly; 310. a second rotating shaft; 320. a character wheel; 321. mounting grooves; 322. a character code; 330. a rubber wheel; 331. an idle running groove; 340. a second retaining sleeve; 350. a second flat key; 360. swinging arms; 370. a connector; 380. and a cylinder.

Detailed Description

Referring to fig. 1-4, an embossing apparatus for stainless steel according to the present invention includes a frame 100, a pressing wheel assembly 200, and a character wheel assembly 300, wherein the pressing wheel assembly 200 and the character wheel assembly 300 are disposed in the middle of the frame 100, and the pressing wheel assembly 200 is disposed above the character wheel assembly 300;

the pinch roller assembly 200 comprises a first rotating shaft 210 and a pinch roller 220, the first rotating shaft 210 is arranged in the middle of the frame 100, and the first rotating shaft 210 penetrates through the axis of the pinch roller 220;

the character wheel assembly 300 comprises a second rotating shaft 310, a character wheel 320, a rubber wheel 330, an air cylinder 380 and a transmission piece, wherein the second rotating shaft 310 is arranged in the middle of the rack 100 in parallel with the first rotating shaft 210, the second rotating shaft 310 sequentially penetrates through the axes of the character wheel 320 and the rubber wheel 330, the character wheel 320 is arranged on one side of the rubber wheel 330, a hollow rotating groove 331 is formed in the side surface of the rubber wheel 330, the pressing wheel 220 is arranged above the character wheel 320 and the rubber wheel 330, the air cylinder 380 is arranged on the side surface of the rack 100, one end of the second rotating shaft 310 penetrates through the rack 100 and extends to the upper side of the air cylinder 380, and the air cylinder 380 is in transmission connection with the second rotating shaft 310 through the.

Specifically, the rear end of the embossing device for stainless steel is provided with a traction device for drawing the stainless steel to pass through the embossing device for stainless steel.

Specifically, the pressing wheel 220 is fixed on the first rotating shaft 210, and the pressing wheel 220 and the first rotating shaft 210 rotate synchronously. The rubber wheel 330 and the character wheel 320 are fixed on the second rotating shaft 310, and the rubber wheel 330, the character wheel 320 and the second rotating shaft 310 rotate synchronously.

According to the scheme, the stainless steel penetrates through the pressure wheel 220, the rubber wheel 330 and the character wheel 320 under the traction action of the traction equipment, when the idle groove 331 of the rubber wheel 330 does not rotate to the upper end of the rubber wheel 330, the first rotating shaft 210 and the second rotating shaft 220 rotate due to friction between the stainless steel and the pressure wheel 220 and the rubber wheel 330 until the idle groove 331 of the rubber wheel 330 rotates to the upper end of the rubber wheel 330, and one embossing operation is completed through the matching of the pressure wheel 220 and the character wheel 320. When the idle groove 331 of the rubber wheel 330 rotates to the upper end of the rubber wheel 330, the stainless steel is not in contact with the rubber wheel 330, the second rotating shaft 220 enters a non-rotating state, and the combination wheel 320 cannot rotate, i.e., cannot emboss on the stainless steel. When the stainless steel needs to be embossed, the air cylinder 380 drives the second rotating shaft 310 to rotate through the transmission part, so that the idle groove 331 of the rubber wheel 330 leaves the upper end of the rubber wheel 330, the stainless steel is contacted with the rubber wheel 330 and the character wheel 320 again, the rubber wheel 330 and the character wheel 320 are driven to rotate again until the idle groove 331 of the rubber wheel 330 rotates to the upper end of the rubber wheel 330, and the next embossing operation is completed. That is, the second rotary shaft 310 is not rotated by the idle groove 331 of the rubber wheel 330, and the character wheel 320 is not rotated, so that the embossing operation cannot be performed, and the air cylinder 380 controls the second rotary shaft 310 to be rotated from the non-rotated state, and moves the idle groove 331 away from the upper end of the rubber wheel 330, so that the character wheel 320 is rotated again, and the next embossing is started.

Puck assembly 200 also includes at least one first flat key 240 and at least two first spacers 230, where first spacers 230 are disposed on both sides of puck 220, and first flat key 240 is disposed along the axial direction of first rotation axis 210 and passes through first spacers 230 and puck 220.

Specifically, two sides of the pressing wheel 220 are respectively provided with a first retaining sleeve 230, and the pressing wheel 220 is fixed on the first rotating shaft 210 by matching with the first flat key 240, so that the pressing wheel 220 and the first rotating shaft 210 rotate synchronously.

The combination wheel assembly 300 further includes at least one second flat key 350 and at least two second retaining sleeves 340, the second retaining sleeves 340 are disposed on one side of the rubber wheel 330 away from the combination wheel 320 and one side of the combination wheel 320 away from the rubber wheel 330, and the second flat key 350 is disposed along the axial direction of the second rotating shaft 310 and penetrates through the second retaining sleeves 340, the combination wheel 320 and the rubber wheel 330.

Specifically, the rubber wheel 330 is tightly attached to the character wheel 320, a second blocking sleeve 340 is arranged on one side, away from the character wheel 320, of the rubber wheel 330, a second blocking sleeve 340 is arranged on one side, away from the rubber wheel 330, of the character wheel 320, the two second blocking sleeves 340 are matched with a second flat key 350 to fix the rubber wheel 330 and the character wheel 320 on the second rotating shaft, and therefore the rubber wheel 330, the character wheel 320 and the second rotating shaft 310 can rotate synchronously.

The side of the character wheel 320 is provided with at least one mounting groove 321 for mounting the character. The outer diameter of the rubber wheel 330 is 0.5-1 mm larger than the outer diameter of the character wheel 320 provided with the character code 322.

Specifically, when the idle groove 331 of the rubber wheel 330 rotates to the upper end of the rubber wheel 330, the second rotating shaft 310 enters a non-rotating state, and in order to prevent the character wheel 320 from interfering with the non-rotating state of the second rotating shaft 310, the outer diameter of the character wheel 320 with the character 322 is lower than the outer diameter of the rubber wheel 330, and because the rubber wheel 330 has elasticity, when the second rotating shaft 310 is not in the non-rotating state, the character wheel 320 can still contact with the stainless steel, and the embossing is left. Meanwhile, in order to prevent the outer diameter of the character wheel 320 provided with the character 322 from being greatly lower than the outer diameter of the rubber wheel 330, the character wheel 320 cannot leave knurling on stainless steel, and optimally, the outer diameter of the rubber wheel 330 is larger than the outer diameter of the character wheel 320 provided with the character 322 by 0.5-1 mm.

The driving member includes a swing arm 360 and a connector 370, one end of the swing arm 360 is disposed on the extended end of the second rotating shaft 310, one end of the connector 370 is disposed on the piston rod of the cylinder 380, and the other end of the swing arm 360 is hinged to the other end of the connector 370.

Specifically, one end of the swing arm 360 is hinged to the second rotating shaft 310, and the piston rod of the air cylinder 380 moves upward and drives the connector 370 to move upward, so that the other end of the swing arm 360 moves upward, and the hinged end of the swing arm 360 and the second rotating shaft 310 drives the second rotating shaft 310 to rotate.

The front end of the frame is provided with a pressure plate seat 170, and the upper end of the pressure plate seat 170 is provided with a pressure plate 180.

Specifically, a gap for stainless steel to pass through is reserved between the pressure plate base 170 and the pressure plate 180, the height of the gap is higher than the height of the bottom of the pressure wheel 220, and the pressure plate base 170 and the pressure plate 180 are used for arranging the stainless steel before the stainless steel enters between the pressure wheel assembly 200 and the character wheel assembly 300.

The rack 100 includes two stands 110 disposed in parallel, and both ends of the first rotating shaft 210 and both ends of the second rotating shaft 310 are rotatably fixed in the middle of the stands 110.

Specifically, the middle of the vertical frame 110 is provided with a bearing seat, the second rotating shaft 310 passes through the bearing seat and extends above the cylinder 380, one end of the second rotating shaft 310, which extends, is provided with a one-way bearing, and the second rotating shaft 310 is connected with the swing arm 360 through the one-way bearing.

The middle of the vertical frame 110 is provided with a sliding groove 130 and a sliding block 120 matched with the sliding groove 130, two ends of the first rotating shaft 210 are fixed on the sliding block 120 in a rotatable manner, the upper end of the sliding block 120 is provided with a connecting plate 140, the upper end of the connecting plate 140 is provided with an adjusting screw 150 extending upwards to the upper end of the vertical frame 110, and the upper end of the adjusting screw 150 is provided with a hand wheel 160.

Specifically, the hand wheel 160 controls the sliding block 120 to move vertically in the sliding slot 130 through the adjusting screw 150 and the connecting plate 140, so as to adjust the height of the first rotating shaft 210, i.e., the distance between the gap between the pressure adjusting plate seat 170 and the pressure plate 180 and the bottom of the pressure roller 220. Specifically, when the stainless steel is thin, the height of the first rotating shaft 210 is reduced through the hand wheel, the distance between the gap between the pressing plate seat 170 and the pressing plate 180 and the bottom of the pressing wheel 220 is increased, and the friction between the stainless steel and the pressing wheel 220 is increased, so that the stainless steel can move better; when the stainless steel is thick, the height of the second rotating shaft 210 is high.

One end of the first rotating shaft 210 passes through the rack and extends to the side of the rack 100, and the encoder bracket 250 is disposed at the extended end of the first rotating shaft 210.

Specifically, still include control system, be equipped with the encoder on encoder support 250, the distance that the accessible encoder calculated the stainless steel and removed to give control system, control system controls the operating time of cylinder through the knurling distance that sets for in advance, thereby the distance between the knurling operation of control word wheel 320 at every turn on the stainless steel.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (10)

1. The utility model provides an embossing apparatus for stainless steel, includes frame (100), pinch roller subassembly (200), character code wheel subassembly (300), and pinch roller subassembly (200) and character code wheel subassembly (300) are located in the middle of frame (100), and the top of character code wheel subassembly (300), its characterized in that are located in pinch roller subassembly (200):

the pinch roller assembly (200) comprises a first rotating shaft (210) and a pinch roller (220), the first rotating shaft (210) is arranged in the middle of the rack (100), and the first rotating shaft (210) penetrates through the axis of the pinch roller (220);

the character wheel assembly (300) comprises a second rotating shaft (310), a character wheel (320), a rubber wheel (330), an air cylinder (380) and a transmission piece, wherein the second rotating shaft (310) is parallel to the first rotating shaft (210) and is arranged in the middle of the rack (100), the second rotating shaft (310) sequentially penetrates through the axle centers of the character wheel (320) and the rubber wheel (330), the character wheel (320) is arranged on one side of the rubber wheel (330), a hollow rotating groove (331) is formed in the side surface of the rubber wheel (330), the pressing wheel (220) is arranged above the character wheel (320) and the rubber wheel (330), the air cylinder (380) is arranged on the side surface of the rack (100), one end of the second rotating shaft (310) penetrates through the rack (100) and extends to the upper side of the air cylinder (380), and the air cylinder (380) is in transmission connection with the second rotating shaft (310) through the transmission piece.

2. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the pinch roller assembly (200) further comprises at least one first flat key (240) and at least two first retaining sleeves (230), the first retaining sleeves (230) are arranged on two sides of the pinch roller (220), and the first flat key (240) is arranged along the axial direction of the first rotating shaft (210) and penetrates through the first retaining sleeves (230) and the pinch roller (220).

3. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the character wheel assembly (300) further comprises at least one second flat key (350) and at least two second blocking sleeves (340), the second blocking sleeves (340) are arranged on one side, away from the character wheel (320), of the rubber wheel (330) and one side, away from the rubber wheel (330), of the character wheel (320), and the second flat key (350) is arranged along the axial direction of the second rotating shaft (310) and penetrates through the second blocking sleeves (340), the character wheel (320) and the rubber wheel (330).

4. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the side of the character wheel (320) is provided with at least one mounting groove (321) for mounting the character.

5. An embossing apparatus for stainless steel as claimed in claim 4, characterized in that: the outer diameter of the rubber wheel (330) is 0.5-1 mm larger than that of the character wheel (320) provided with the character codes.

6. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the driving medium includes swing arm (360) and connector (370), and the one end of swing arm (360) is located on the one end that second pivot (310) extend, and on the piston rod of cylinder (380) was located to the one end of connector (370), the other end of swing arm (360) and the other end of connector (370) articulated.

7. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the front end of the frame is provided with a pressing plate seat (170), and the upper end of the pressing plate seat (170) is provided with a pressing plate (180).

8. An embossing apparatus for stainless steel as claimed in claim 1, characterized in that: the rack (100) comprises two parallel stands (110), and two ends of the first rotating shaft (210) and two ends of the second rotating shaft (310) are fixed in the middle of the stands (110) in a rotatable mode.

9. An embossing apparatus for stainless steel as claimed in claim 8, characterized in that: the middle of the vertical frame (110) is provided with a sliding groove (130) and a sliding block (120) matched with the sliding groove (130), two ends of the first rotating shaft (210) can be fixed on the sliding block (120) in a rotating mode, the upper end of the sliding block (120) is provided with a connecting plate (140), the upper end of the connecting plate (140) is provided with an adjusting screw rod (150) extending upwards to the upper end of the vertical frame (110), and the upper end of the adjusting screw rod (150) is provided with a hand wheel (160).

10. An embossing apparatus for stainless steel according to any of the claims 1 to 9, characterized in that: one end of the first rotating shaft (210) penetrates through the rack and extends to the side face of the rack (100), and an encoder bracket (250) is arranged at the extending end of the first rotating shaft (210).

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