CN110466267B

CN110466267B - Sign roll-in system of glass spout

Info

Publication number: CN110466267B
Application number: CN201910882845.0A
Authority: CN
Inventors: 刘海龙; 李阳扶; 罗天学; 王秋峰
Original assignee: Chengdu Lingyun Auto Parts Co ltd
Current assignee: Chengdu Lingyun Auto Parts Co ltd
Priority date: 2019-09-18
Filing date: 2019-09-18
Publication date: 2024-05-03
Anticipated expiration: 2039-09-18
Also published as: CN110466267A

Abstract

The invention provides a marking rolling system of a glass chute, which comprises a base and roller groups arranged on the base in an up-and-down opposite way, wherein each roller group comprises an upper roller and a lower roller, and the upper roller is provided with a character; the upper roller is driven to rotate by a driving transmission mechanism, and the lower roller rotates under the action of external force; when in use, the workpiece is conveyed between the upper roller and the lower roller, the upper roller positively and reversely moves on the workpiece in the conveying process, and the lettering on the upper roller performs equidistant typing on the workpiece. The upper roller and the lower roller are arranged in an up-down opposite way, and a workpiece is positioned between the upper roller and the lower roller in the transmission process and is stamped while being transmitted; the character printing on the upper roller is used for equidistant typewriting and printing on the workpiece, so that printing with uniform and continuous intervals is realized.

Description

Sign roll-in system of glass spout

Technical Field

The invention relates to product printing equipment, in particular to an identification rolling system of a glass chute.

Background

The existing products (glass sliding grooves) need to be printed with marks or logos on the products after the processing is finished, the marks cannot be printed on the uniform gaps of the whole products through printing equipment at two ends of the products, and the products have the condition of no marks after being detached and cut for use.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a marking rolling system of a glass chute, which solves the technical problem that the prior typewriting equipment cannot intermittently and uniformly typewrite.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the marking rolling system of the glass chute comprises a base and roller groups which are arranged on the base in an up-down opposite mode, wherein each roller group comprises an upper roller and a lower roller, and a character mark is arranged on each upper roller; the device also comprises a horizontal power transmission mechanism and a vertical driving mechanism, wherein the horizontal power transmission mechanism is used for driving the upper roller to move in a forward and reverse direction, and the vertical driving mechanism is used for driving the upper roller to press downwards;

When the automatic rolling machine is used, a workpiece is placed between the upper roller and the lower roller, and the lower roller rotates under the action of external force to enable the workpiece to be conveyed between the upper roller and the lower roller; in the transmission process, the horizontal power transmission mechanism drives the upper roller to move in forward and reverse directions, and after the upper roller moves to a set position, the vertical driving mechanism presses down to drive the upper roller to press down so as to imprint the character on the upper roller on a workpiece.

The horizontal power transmission mechanism comprises a horizontal power mechanism which horizontally reciprocates, a gear and a rack which are meshed with each other, a sliding rail is arranged on the rack, and a sliding block is arranged on the sliding rail; the gear is coaxially connected with the upper roller through a connecting shaft, and the rack is driven by a horizontal power mechanism; when the horizontal power mechanism drives the rack, the slide rail and the slide block enable the rack to do reciprocating motion, the rack reciprocating motion drives the gear to do forward and reverse motion, and the gear is driven to do forward and reverse motion by the forward and reverse motion to drive the upper roller wheel coaxial with the gear.

The vertical driving mechanism comprises a vertical power mechanism which vertically reciprocates, the vertical power mechanism is fixed above the upper roller through a supporting frame, the upper roller is fixed by a fixing frame, the supporting frame is positioned above the fixing frame and is fixed by a guide rod with a resetting function, and a guide sleeve is arranged on the guide rod; and during imprinting, the telescopic rod of the vertical power mechanism penetrates through the supporting frame to drive the fixing frame and the upper roller to synchronously move downwards along the guide rod.

Further, the upper roller comprises a middle embossing wheel and auxiliary wheels which are positioned at two sides of the embossing wheel and are mutually and tightly connected, the embossing wheel is formed by detachably splicing a major arc part and a minor arc part, and the lettering is arranged on the outer arc surface of the minor arc part.

Further, the outer cambered surface of the auxiliary wheel is an inclined surface, and the inclined surface of the auxiliary wheel gradually inclines downwards from the inner side surface edge to the outer side surface edge.

Further, the upper roller is hung on the fixing frame through a hanging frame, the hanging frame is of a U-shape, and through holes are formed in the two side walls of the U-shape hanging frame and close to the opening ends.

Further, the connecting shaft comprises a fixing part for fixing the suspension bracket, an installation part for installing an upper roller and a transmission part for installing a gear, wherein the upper roller is connected with the installation part of the connecting shaft by a key, and the gear is connected with the transmission part of the connecting shaft by a key; the two ends of the connecting shaft are arranged in the through holes on the hanging frame, and the hanging frame clamps the upper roller and adopts the sealing cover to seal and fix.

Further, the device also comprises a plurality of groups of workpiece limiting mechanisms, wherein the workpiece limiting mechanisms are arranged at two sides of the roller set along the workpiece transmission direction; every two workpiece limiting mechanisms which are horizontally symmetrical at intervals form a group, and each group of workpiece limiting mechanisms is arranged in an adjustable mode.

Further, each workpiece limiting mechanism comprises a limiting rod and a sleeve sleeved on the limiting rod, a bearing is sleeved outside the sleeve, and a limiting sleeve is sleeved outside the bearing.

Further, the outer wall of the limit sleeve is provided with a limit groove.

Compared with the prior art, the invention has the following beneficial effects:

1. When the printing machine is used, a workpiece is conveyed between the upper roller and the lower roller, the upper roller positively and reversely rotates in the conveying process, and the character printing on the upper roller performs equidistant typewriting on the workpiece, so that uniform and continuous printing at intervals is realized;

2. The power mechanism drives the rack to do linear reciprocating motion under the action of the sliding rail and the sliding block, so that the gear is driven to rotate, the gear rotates to drive the upper roller coaxially connected with the gear to rotate, the sliding block and the sliding rail limit the motion track of the rack, the motion track of the rack limits the rotation direction of the gear, and the rotation direction of the gear limits the motion track and the direction of the upper roller; the power mechanism drives the rack to reciprocate, and a slide rail on the rack reciprocates in the slide block; the design is ingenious, the sliding block and the sliding rail are combined with the rack and the gear, the movement mode and the track are restrained while the power is provided skillfully, the traditional printing equipment can only print at two ends or print at one side, and the reciprocating motion of the upper roller also realizes double-sided printing;

3. The setting of work piece stop gear is convenient for inject the position of work piece, prevents its off tracking, and work piece gag lever post, cover establish the sleeve on the gag lever post simultaneously, and the sleeve overcoat is equipped with the bearing, and the bearing overcoat is equipped with the stop collar, and the stop collar can rotate under the effect of sleeve and bearing during the use, plays the effect of transmission to the work piece, reduces the resistance of work piece stop gear to the work piece. The limiting groove is used for better limiting the workpiece, so that the workpiece is prevented from shaking up and down, and the whole transmission process is stable.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

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

FIG. 3 is a schematic view of the stop collar of the present invention;

FIG. 4 is a schematic view of the structure of the roller set and the horizontal power transmission mechanism of the present invention;

FIG. 5 is a schematic view of a structure of a connecting shaft;

fig. 6 is an assembly view of the present invention.

In the figure: the device comprises a base 1, a lower roller 2, an upper roller 3, a gear 4, a rack 5, a horizontal power mechanism 6, a workpiece limiting mechanism 7, a sliding block 8, a sliding rail 9, a bracket 10, a limiting sleeve 11, a limiting groove 12, a stamping wheel 13, an auxiliary wheel 14, a fixing part 15, a mounting part 16, a transmission part 17, a vertical power mechanism 18, a supporting frame 19, a fixing frame 20, a guide rod 21, a guide sleeve 22 and a hanging frame 23.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.

1-6, The marking rolling system of the glass chute comprises a base 1 and a roller set which is arranged on the base 1 in an up-down opposite way, wherein the roller set comprises an upper roller 3 and a lower roller 2, and a character mark is arranged on the upper roller 3; the device also comprises a horizontal power transmission mechanism and a vertical driving mechanism, wherein the horizontal power transmission mechanism is used for driving the upper roller 3 to move in a forward and reverse direction, and the vertical driving mechanism is used for driving the upper roller 3 to press downwards; when the automatic rolling machine is used, a workpiece is placed between the upper roller 3 and the lower roller 2, and the lower roller 2 rotates under the action of external force to enable the workpiece to be conveyed between the upper roller 3 and the lower roller 2; in the transmission process, the horizontal power transmission mechanism drives the upper roller 3 to move in a forward and reverse direction, and after the upper roller 3 moves to a set position, the vertical driving mechanism presses down the upper roller 3 to drive the upper roller 3 to press down so as to imprint the lettering on the upper roller 3 on a workpiece.

When the device is used, the glass chute is arranged between the upper roller 3 and the lower roller 2 for transmission, the horizontal power transmission mechanism drives the upper roller 3 to rotate positively in the transmission process, and when the upper roller 3 rotates until the lettering is contacted with the glass chute, the vertical driving mechanism presses down the upper roller 3 to press down, so that the lettering on the upper roller 3 is stamped on a workpiece; after the imprinting is finished, the vertical driving mechanism resets, the upper roller 3 resets, the horizontal power transmission mechanism drives the upper roller 3 to reversely move, the upper roller 3 reversely moves until the imprinting contacts with the glass chute, the vertical driving mechanism presses down to drive the upper roller 3 to press down, and the imprinting on the upper roller 3 is reversely imprinted on a workpiece; the stamping on the upper roller 3 carries out equidistant typewriting on the glass sliding groove, thereby realizing the purposes of uniformly and continuously typewriting marks at intervals and forming double-sided marks after the glass sliding groove is bent.

The horizontal power transmission mechanism comprises a horizontal power mechanism 6 which horizontally reciprocates, a gear 4 and a rack 5 which are meshed with each other, wherein a sliding rail 9 is arranged on the rack 5, and a sliding block 8 is arranged on the sliding rail 9; the gear 4 is coaxially connected with the upper roller 3 through a connecting shaft, and the rack 5 is driven by a horizontal power mechanism 6; when the horizontal power mechanism 6 drives the rack 5, the slide rail 9 and the slide block 8 enable the rack 5 to reciprocate, the rack 5 reciprocates to drive the gear 4 to rotate in the forward and reverse directions, and the gear 4 moves in the forward and reverse directions to drive the upper roller 3 coaxial with the gear to rotate in the forward and reverse directions. The rack 5 is of a L-shaped structure which is horizontally arranged, the sliding rail 9 is arranged in a notch of the L-shaped structure, the sliding block 8 is clamped on the sliding rail 9 and is fixed with the fixing frame 20, and the horizontal power mechanism 6 is preferably a horizontal cylinder; the cylinder pushes the rack 5 to synchronously and horizontally reciprocate with the slide rail 9, so that the gear 4 is driven to rotate forward or reversely, the gear 4 rotates to drive the connecting shaft to rotate forward or reversely, and the connecting shaft drives the upper roller 3 to rotate forward or reversely; the sliding rail 9 and the sliding block 8 limit the movement track of the rack 5, so that the rack 5 can do linear reciprocating movement, the structure is compact, and the linkage is good. The sliding block 8 and the sliding rail 9 are combined with the rack 5 and the gear 4, so that the movement mode and the track are restrained while the power is skillfully provided.

The vertical driving mechanism comprises a vertical power mechanism 18 which vertically reciprocates, the vertical power mechanism 18 is fixed above the upper roller 3 through a supporting frame 19, the upper roller 3 is fixed by a fixing frame 20, the supporting frame 19 is positioned above the fixing frame 20 and is fixed by a guide rod 21 with a resetting function, and a guide sleeve 22 is arranged on the guide rod 21; the telescopic rod of the vertical power mechanism 18 penetrates through the supporting frame 19 during imprinting to drive the fixed frame 20 to move downwards along the guide rod 21 synchronously with the upper roller 3. The vertical driving mechanism vertically reciprocates to assist the lower upper roller 3 to realize stamping, and the vertical power mechanism 18 is preferably a vertical cylinder. When the upper roller 3 rotates to correspond to the workpiece, the vertical cylinder drives the fixing frame 20 to press downwards along the direction of the guide rod 21 integrally with the upper roller 3 during pressing downwards, and the upper roller 3 automatically resets after the imprinting is finished, and continues to rotate.

The upper roller 3 comprises a middle embossing wheel 13 and auxiliary wheels 14 which are positioned on two sides of the embossing wheel 13 and are mutually and tightly connected, the embossing wheel 13 is formed by detachably splicing a major arc part and a minor arc part, and the lettering is arranged on the outer arc surface of the minor arc part. The character printing part is detachably arranged, so that different character printing can be conveniently replaced and maintained, and the splicing mode is convenient to process and assemble.

In order to limit the edge position of the glass run, auxiliary wheels 14 are arranged on two sides of the upper roller wheel 3, the outer cambered surface of the auxiliary wheels 14 is an inclined surface, and the inclined surface of the auxiliary wheels 14 gradually inclines downwards from the inner side edge to the outer side edge. The beveled surface of the auxiliary wheel 14 helps flatten the edges of the glass run channel against the glass run channel, preventing wrinkles, irregularities or damage to the workpiece during stamping.

In order to reduce vibration or abrasion, the upper roller 3 is suspended in the air, the upper roller 3 is suspended on the fixing frame 20 through a suspension frame 23, the suspension frame 23 is of a U-shape, and through holes are formed in positions, close to the open ends, on two side walls of the U-shape suspension frame 23. The stability of the suspension 23 after the fixation is better. The connecting shaft comprises a fixing part 15 for fixing a hanging frame 23, a mounting part 16 for mounting an upper roller 3 and a transmission part 17 for mounting a gear 4, wherein the upper roller 3 is connected with the mounting part 16 of the connecting shaft in a key way, and the gear 4 is connected with the transmission part 17 of the connecting shaft in a key way; the through-hole on the mounted frame 23 is arranged in at the both ends of connecting axle, and mounted frame 23 will go up running roller 3 card and establish and adopt sealed lid seal fixed, and gear 4 is located the outside of sealed lid, and the protectiveness is better after the seal.

The device also comprises a plurality of groups of workpiece limiting mechanisms 7, wherein the workpiece limiting mechanisms 7 are arranged on two sides of the roller set along the workpiece transmission direction; every two work piece stop gear 7 that interval level is symmetrical form a set of, and every group work piece stop gear 7 adjustable setting, adjustable setting can satisfy the work piece of different width according to the width of work piece. Each workpiece limiting mechanism 7 comprises a limiting rod and a sleeve sleeved on the limiting rod, a bearing is sleeved outside the sleeve, and a limiting sleeve 11 is sleeved outside the bearing. The outer wall of the limit sleeve 11 is provided with a limit groove 12. During processing, the workpiece is positioned between two pairs of workpiece limiting mechanisms 7, the limiting sleeve 11 can rotate under the action of the sleeve and the bearing, the workpiece is conveyed, and the resistance of the workpiece limiting mechanisms 7 to the workpiece is reduced. The limiting groove 12 limits the workpiece better, prevents the workpiece from shaking up and down, and the whole transmission process is stable. The workpiece limiting mechanism 7 is supported by a bracket 10, a strip-shaped hole is formed in the bracket 10, and the lower end of the limiting rod penetrates through the strip-shaped hole to fix the workpiece limiting mechanism 7 in the strip-shaped hole and then lock the workpiece limiting mechanism. The arrangement of the strip-shaped holes facilitates the adjustment of the position of the workpiece limiting mechanism 7.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims

1. An identification roll-in system for a glass run, characterized by: the printing machine comprises a base (1) and roller sets which are arranged on the base (1) in an up-down opposite mode, wherein each roller set comprises an upper roller (3) and a lower roller (2), and a character mark is arranged on each upper roller (3);

The device also comprises a horizontal power transmission mechanism and a vertical driving mechanism, wherein the horizontal power transmission mechanism is used for driving the upper roller (3) to move in a forward and reverse direction, and the vertical driving mechanism is used for driving the upper roller (3) to press down;

When the automatic rolling machine is used, a workpiece is placed between the upper roller (3) and the lower roller (2), and the lower roller (2) rotates under the action of external force so that the workpiece is conveyed between the upper roller (3) and the lower roller (2); in the transmission process, the horizontal power transmission mechanism drives the upper roller (3) to move in a forward and reverse direction, and after the upper roller (3) moves to a set position, the vertical driving mechanism presses down the upper roller (3) to press down so as to imprint the character on the upper roller (3) on a workpiece;

The horizontal power transmission mechanism comprises a horizontal power mechanism (6) which horizontally reciprocates, a gear (4) and a rack (5) which are meshed with each other, a sliding rail is arranged on the rack (5), and a sliding block (8) is arranged on the sliding rail; the gear (4) is coaxially connected with the upper roller (3) through a connecting shaft, and the rack (5) is driven by a horizontal power mechanism (6); when the horizontal power mechanism (6) drives the rack (5), the slide rail (9) and the slide block (8) enable the rack (5) to reciprocate, the rack (5) reciprocates to drive the gear (4) to move in forward and reverse directions, and the gear (4) moves in forward and reverse directions to drive the upper roller (3) coaxial with the gear to move in forward and reverse directions;

The vertical driving mechanism comprises a vertical power mechanism (18) which vertically reciprocates, the vertical power mechanism (18) is fixed above the upper roller (3) through a supporting frame (19), the upper roller (3) is fixed by a fixing frame (20), the supporting frame (19) is positioned above the fixing frame (20) and is fixed by a guide rod (21) with a reset function, and a guide sleeve (22) is arranged on the guide rod (21); the telescopic rod of the vertical power mechanism (18) penetrates through the supporting frame (19) during imprinting to drive the fixing frame (20) and the upper roller (3) to synchronously move downwards along the guide rod (21).

2. The marking roll-in system for glass run channels of claim 1, wherein: the upper roller (3) comprises a middle embossing wheel (13) and auxiliary wheels (14) which are positioned at two sides of the embossing wheel (13) and are mutually and tightly connected, the embossing wheel (13) is formed by detachably splicing a major arc part and a minor arc part, and the lettering is arranged on the outer arc surface of the minor arc part.

3. The marking roll-in system of a glass run as defined in claim 2, wherein: the outer cambered surface of the auxiliary wheel (14) is an inclined surface, and the inclined surface of the auxiliary wheel (14) gradually inclines downwards from the inner side surface edge to the outer side surface edge.

4. The marking roll-in system for glass run channels of claim 1, wherein: the upper roller (3) is hung on the fixing frame (20) through a hanging frame (23), the hanging frame (23) is of a U-shape, and through holes are formed in the two side walls of the U-shape hanging frame (23) and close to the opening ends.

5. The marking roll-in system for glass run channels of claim 4, wherein: the connecting shaft comprises a fixing part (15) for fixing the hanging frame (23), a mounting part (16) for mounting the upper roller (3) and a transmission part for mounting the gear (4), wherein the upper roller (3) is connected with the mounting part (16) of the connecting shaft in a key way, and the gear (4) is connected with the transmission part (17) of the connecting shaft in a key way; the two ends of the connecting shaft are arranged in through holes on the hanging frame (23), and the hanging frame (23) clamps the upper roller (3) and adopts a sealing cover to seal and fix.

6. The marking roll-in system for glass run channels of claim 4, wherein: the device also comprises a plurality of groups of workpiece limiting mechanisms (7), wherein the workpiece limiting mechanisms (7) are arranged at two sides of the roller set along the workpiece transmission direction; every two workpiece limiting mechanisms (7) which are horizontally symmetrical at intervals form a group, and each group of workpiece limiting mechanisms (7) is arranged in an adjustable mode.

7. The marking roll-in system for glass run channels of claim 6, wherein: each workpiece limiting mechanism (7) comprises a limiting rod and a sleeve sleeved on the limiting rod, a bearing is sleeved outside the sleeve, and a limiting sleeve (11) is sleeved outside the bearing.

8. The marking roll-in system for glass run channels of claim 7, wherein: the outer wall of the limit sleeve (11) is provided with a limit groove (12).