CN217072613U - Clear useless machine of whole overprinting goods leftover bits - Google Patents

Abstract

The utility model discloses a clear useless machine of whole overprinting goods leftover bits, its characterized in that: the automatic edge material removing machine comprises a rack, a lifting mechanism, a lifting frame, a material bearing platform, a pressing mechanism and at least one edge material removing mechanism, wherein the lifting mechanism is installed on the rack, the lifting frame is installed on the lifting mechanism, the edge material removing mechanism is installed on the lifting frame, the material bearing platform is movably arranged at the bottom of the rack, and the pressing mechanism is installed at the top of the rack and corresponds to the material bearing platform. This kind of clear useless machine of whole pile of printing goods leftover bits only needs place the whole pile of printing goods on the material bearing bench and pushes down the below of mechanism to adjust the leftover bits of leftover bits and pieces rejection end and the contact of whole pile of printing goods corner of mechanism of rejecting, make the leftover bits of leftover bits rejection mechanism can clear away the leftover bits of whole pile of printing goods from the top down gradually automatically, accomplish and clear useless in the lump to hundreds of printed products that the thousand were piled up together, need not other moulds to assist and clear away the leftover bits, greatly reduced manufacturing cost, the clear useless efficiency of the clear of improve equipment.

Description

Clear useless machine of whole overprinting goods leftover bits

Technical Field

The utility model relates to a printing article processing equipment, in particular to clear useless machine of whole overprinting goods leftover bits.

Background

In the production process of printed products (particularly die-cut paper products), a die-cutting device needs to remove corners on a paper board according to the designed shape of the printed products and then cut out a plurality of printed product units. In order to improve the die cutting efficiency, some manufacturers adopt a printed matter waste removing machine to remove the corners of the overprinted products.

The existing waste removing machine for printed matters can only be suitable for removing leftover materials of the printed matters with the same direction and the same pattern each time; if the leftover materials of the printed matters with the same patterns in two different directions need to be cleaned, only the leftover materials in one direction can be cleaned, and then the leftover materials in the other direction can be cleaned after the template is manually replaced. However, in the actual production process, what need be handled is the clear useless work of a plurality of different figure printed matters usually, therefore the leftover bits of different figures are clear away to the different mould that need be changed to traditional clear useless machine, and every kind of product just need make different moulds, and manufacturing cost is high, can not clear away the leftover bits completely simultaneously moreover, and clear useless inefficiency.

In addition, the waste removal of the current printed products is generally limited to single sheets or a plurality of stacked sheets, hundreds of sheets or thousands of sheets cannot be stacked together for waste removal, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that a whole clear useless machine of printed matter leftover bits is provided, this kind of whole clear useless machine of printed matter leftover bits easy operation that folds can be from the top down will be whole to fold the leftover bits of printed matter and clear away gradually automatically, greatly reduced manufacturing cost improves clear useless efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme as follows:

the utility model provides a clear useless machine of whole overprinting goods leftover bits which characterized in that: the automatic edge material removing machine comprises a rack, a lifting mechanism, a lifting frame, a material bearing platform, a pressing mechanism and at least one edge material removing mechanism, wherein the lifting mechanism is installed on the rack, the lifting frame is installed on the lifting mechanism, the edge material removing mechanism is installed on the lifting frame, the material bearing platform is movably arranged at the bottom of the rack, and the pressing mechanism is installed at the top of the rack and corresponds to the material bearing platform.

When the lifting mechanism is used, the lifting frame and the rim charge removing mechanism on the lifting frame are driven by the lifting mechanism to ascend to the top of the rack, then the whole stack of printed products (hundreds of printed products or even thousands of printed products are vertically superposed) are placed on the material bearing table, the whole stack of printed products are moved to the lower part of the pressing mechanism by moving the material bearing table, and the top of the whole stack of printed products is pressed tightly by the pressing mechanism, so that the whole stack of printed products are prevented from moving in the waste removing process; driving the lifting frame and the rim charge removing mechanism on the lifting frame to slowly descend through the lifting mechanism, so that the rim charge removing end of the rim charge removing mechanism is in contact with the corners of the whole stack of printed products; and finally, the lifting frame and the rim charge removing mechanism on the lifting frame are driven by the lifting mechanism to move from top to bottom, the rim charges of the whole stack of printed products are gradually removed, after the rim charges are removed, the lifting frame and the rim charge removing mechanism on the lifting frame are driven by the lifting mechanism to ascend to the top of the rack, and the whole stack of printed products on the material bearing table are manually moved out.

As the utility model discloses an optimal scheme, the quantity that the mechanism was rejected to the rim charge is four, and wherein two rim charges are rejected the mechanism and are followed the length direction of crane sets up on the crane side by side, and two rim charges are rejected the width direction that the mechanism set up on the crane side by side along the crane in addition, and four rim charges are rejected and are enclosed between the mechanism the clear useless region of whole pile of printed product rim charge, the material bearing platform is located clear useless regional below. During the use, earlier remove whole pile of printing products through removing the material platform and remove in clear useless region, rethread elevating system drive crane and four rim charge on it reject the mechanism and descend slowly for four rim charge reject the mechanism and be in whole pile of printing products around, make four rim charge reject the rim charge of mechanism and reject the end and can clear useless to whole pile of printing products corner simultaneously, improve high waste efficiency greatly.

As a further preferred scheme of the utility model, follow two rim charge that the length direction of crane set up are rejected the top or the below that the mechanism was rejected in two rim charges that the width direction along the crane set up. Through the arrangement, no matter two rim charge eliminating mechanisms arranged along the length direction of the lifting frame are arranged above or below the two rim charge eliminating mechanisms arranged along the width direction of the lifting frame, the four rim charge eliminating mechanisms can be arranged in a waste removing area which is formed by surrounding the four rim charge eliminating mechanisms.

As the utility model discloses an optimal scheme, the mechanism is rejected to rim charge includes first slip adjustment mechanism, second slip adjustment mechanism, rejects driving motor, first shaft coupling, second shaft coupling, transmission shaft and at least one clear useless gear, and first slip adjustment mechanism, second slip adjustment mechanism install respectively on the relative both sides border of crane, reject driving motor and install on first slip adjustment mechanism, transmission shaft one end is connected with the power take off who rejects driving motor through first shaft coupling, and the other end of transmission shaft passes through the second shaft coupling and installs on second slip adjustment mechanism, clear useless gear installation on the transmission shaft. The position of rejecting driving motor, first shaft coupling, second shaft coupling, transmission shaft, clear useless gear is adjusted suitable position simultaneously earlier through first slip adjustment mechanism, second slip adjustment mechanism, makes clear useless gear and whole overprinting goods corner contact, and the rethread is rejected driving motor drive transmission shaft and is rotated for clear useless gear rotates along with the rotation of transmission shaft, and the rotation through clear useless gear comes the rim charge of whole overprinting goods to clear away gradually.

Above-mentioned transmission shaft can carry out the translation on the crane under first slide adjusting mechanism, second slide adjusting mechanism's regulation to can clear away the leftover bits to the printed matter of different area sizes, the leftover bits of the printed matter that is applicable to multiple shape are clear away, and then can reduce the waste of leftover bits. Generally, there are several waste cleaning gears on the transmission shaft, and the waste cleaning gears may have different sizes. According to the actual production requirement of the printed product, waste clearing gears with different sizes can be adopted, and corners with different depths are cleared from the periphery of the overprinted product.

As the utility model discloses further preferred scheme, first slip adjustment mechanism, second slip adjustment mechanism all include first slider, screw rod, handle and set up first slide rail on the crane, first slider is in on the first slide rail and can carry out horizontal migration along first slide rail, is equipped with the screw that link up inside and outside on the first slider, and the screw rod is in the screw, and the pole portion end and the first slide rail contact cooperation of screw rod, handle are installed on the head of screw rod. When the position of the transmission shaft is to be adjusted, the screw rod is manually unscrewed through the handle, so that the tail end of the rod part of the screw rod is not in contact with the first slide rail, an operator manually moves the first slide blocks at the two ends of the transmission shaft to a proper position, and then manually screws the screw rod through the handle, so that the tail end of the rod part of the screw rod is in contact fit with the first slide rail, and the position of the transmission shaft is fixed on the lifting frame again.

As the utility model discloses an optimal scheme, push down the mechanism including pushing down the support, pushing down driving motor, bar guide way, slip guide bar, rack, pushing down gear and holding down plate, push down the pedestal mounting in the frame, the bar guide way is vertical to be installed on pushing down the support, and the slip guide bar is in the bar guide way and can reciprocate along the bar guide way, and the rack is installed on the slip guide bar along the axial of slip guide bar, and pushing down driving motor installs on pushing down the support, and pushing down the gear and installing on pushing down driving motor's power output shaft, pushes down gear and rack toothing, and the lower extreme at the slip guide bar is installed to the holding down plate. The downward pressing driving motor drives the downward pressing gear to rotate, so that the rack on the sliding guide rod moves up and down along the strip-shaped guide groove under the driving of the downward pressing gear, and the sliding guide rod drives the downward pressing plate to lift up and down.

As the utility model discloses an optimal scheme, elevating system includes lift driving motor, drive sprocket, driven sprocket, drive chain and guiding mechanism, and lift driving motor installs frame top, drive sprocket install at the frame top, and driven sprocket installs in the frame bottom, and drive sprocket and driven sprocket jointly with the drive chain tensioning, drive chain have two straightways that move towards from top to bottom, the crane passes through guiding mechanism and is connected with a straightway of drive chain, and drive sprocket is connected with the lift driving motor transmission. Generally, above-mentioned elevating system is including four drive chain, and four angles of crane are connected with a straightway of four drive chain respectively to by lift driving motor drive sprocket, driven sprocket, drive chain drive crane be elevating movement along upper and lower direction, drive chain goes up and down under guiding mechanism's cooperation and can avoid drive chain to take place unparallel or crooked condition, guarantee that the crane is more steady to go up and down.

Of course, the lifting mechanism can also comprise a lifting driving motor, a screw rod and a nut, the lifting driving motor is installed on the rack, the nut is installed on the lifting frame, the screw rod is rotatably installed on the rack and is arranged along the vertical direction, the screw rod is meshed with the nut, and one end of the screw rod is in transmission connection with the power output end of the lifting driving motor. The up-and-down movement of the lifting frame is controlled by the threaded connection of the screw rod and the nut.

As a further preferred scheme of the utility model, guiding mechanism includes the second slider and sets up second slide rail in the frame, the second slide rail with drive chain is parallel, and the second slider is in on the second slide rail and can reciprocate along the second slide rail, the crane is connected with the second slider.

Compared with the prior art, the utility model, have following advantage:

this kind of clear useless machine of whole pile of printing goods leftover bits only needs place the whole pile of printing goods on the material bearing bench and pushes down the below of mechanism to adjust the leftover bits of leftover bits and pieces rejection end and the contact of whole pile of printing goods corner of mechanism of rejecting, make the leftover bits of leftover bits rejection mechanism can clear away the leftover bits of whole pile of printing goods from the top down gradually automatically, accomplish and clear useless in the lump to hundreds of printed products that the thousand were piled up together, need not other moulds to assist and clear away the leftover bits, greatly reduced manufacturing cost, the clear useless efficiency of the clear of improve equipment.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second sliding adjustment mechanism and a guide mechanism in an embodiment of the present invention.

Detailed Description

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

As shown in fig. 1-2, the whole stack printed product leftover material waste removing machine in this embodiment includes a frame 1, an elevating mechanism 2, a lifting frame 3, a material bearing platform 4, a pressing mechanism 5 and four leftover material removing mechanisms 6, wherein the elevating mechanism 2 is installed on the frame 1, the lifting frame 3 is installed on the elevating mechanism 2, the leftover material removing mechanisms are installed on the lifting frame 3, the material bearing platform 4 is movably arranged at the bottom of the frame 1, and the pressing mechanism 5 is installed at the top of the frame 1 and corresponds to the material bearing platform 4.

Among the four rim charge removing mechanisms 6, two rim charge removing mechanisms 6 are arranged on the lifting frame 3 side by side along the length direction of the lifting frame 3, the other two rim charge removing mechanisms 6 are arranged on the lifting frame 3 side by side along the width direction of the lifting frame 3, and the two rim charge removing mechanisms 6 arranged along the length direction of the lifting frame 3 are positioned above the two rim charge removing mechanisms 6 arranged along the width direction of the lifting frame 3; the four rim charge eliminating mechanisms 6 are enclosed to form a waste cleaning area of the rim charges of the whole stack of the printed products, and the material bearing platform 4 is positioned below the waste cleaning area. During the use, earlier in moving the clear useless region of whole pile of printing products through removing material platform 4, rethread elevating system 2 drive crane 3 and four rim charge on it are rejected mechanism 6 and slowly descend for four rim charge are rejected mechanism 6 and are in whole pile of printing products all around, make four rim charge of rim charge rejection mechanism 6 reject the end and can clear useless to whole pile of printing product corners simultaneously, improve high waste efficiency greatly.

Mechanism 6 is rejected to rim charge includes first slip adjustment mechanism 61, second slip adjustment mechanism 62, rejects driving motor 63, first shaft coupling 64, second shaft coupling 65, transmission shaft 66 and two clear useless gears 67, and first slip adjustment mechanism 61, second slip adjustment mechanism 62 are installed respectively on the relative both sides border of crane 3, reject driving motor 63 and install on first slip adjustment mechanism 61, transmission shaft 66 one end is connected with the power take off who rejects driving motor 63 through first shaft coupling 64, and the other end of transmission shaft 66 passes through second shaft coupling 65 and installs on second slip adjustment mechanism 62, and clear useless gears 67 is installed on transmission shaft 66. The positions of the first sliding adjusting mechanism 61 and the second sliding adjusting mechanism 62 are adjusted to proper positions simultaneously to remove the driving motor 63, the first coupler 64, the second coupler 65, the transmission shaft 66 and the waste clearing gear 67, so that the waste clearing gear 67 is in corner contact with the whole overprinting product, the transmission shaft 66 is driven to rotate by the removing driving motor 63, the waste clearing gear 67 rotates along with the rotation of the transmission shaft 66, and the rim charge of the whole overprinting product is gradually removed through the rotation of the waste clearing gear 67.

The transmission shaft 66 can be translated on the lifting frame 3 under the adjustment of the first sliding adjusting mechanism 61 and the second sliding adjusting mechanism 62, so that leftover materials can be removed from printed products with different areas, the leftover materials suitable for printed products with various shapes can be removed, and the waste of the leftover materials can be reduced. Generally, there may be a plurality of waste cleaning gears 67 on the transmission shaft 66, and the size of the waste cleaning gears 67 may be different. According to the actual production requirement of the printed product, waste clearing gears 67 with different sizes can be adopted to clear out corners with different depths around the overprint product.

The first sliding adjusting mechanism 61 and the second sliding adjusting mechanism 62 each include a first slider 611, a screw 612, a handle 613, and a first slide rail 614 disposed on the crane 3, the first slider 611 is disposed on the first slide rail 614 and can horizontally move along the first slide rail 614, the first slider 611 is provided with a screw hole penetrating from inside to outside, the screw 612 is disposed in the screw hole, the end of the rod portion of the screw 612 is in contact fit with the first slide rail 614, and the handle 613 is mounted on the head of the screw 612. When the position of the transmission shaft 66 is to be adjusted, the screw rod 612 is manually unscrewed through the handle 613, so that the rod end of the screw rod 612 is not in contact with the first slide rail 614, and after an operator manually moves the first slide blocks 611 at the two ends of the transmission shaft 66 to a proper position, the screw rod 612 is manually screwed through the handle 613, so that the rod end of the screw rod 612 is in contact fit with the first slide rail 614, that is, the position of the transmission shaft 66 is fixed on the crane 3 again.

The pressing mechanism 5 comprises a pressing support 51, a pressing driving motor 52, a strip-shaped guide groove 53, a sliding guide rod 54, a rack 55, a pressing gear 56 and a pressing plate 57, the pressing support 51 is mounted on the frame 1, the strip-shaped guide groove 53 is vertically mounted on the pressing support 51, the sliding guide rod 54 is located in the strip-shaped guide groove 53 and can move up and down along the strip-shaped guide groove 53, the rack 55 is mounted on the sliding guide rod 54 along the axial direction of the sliding guide rod 54, the pressing driving motor 52 is mounted on the pressing support 51, the pressing gear 56 is mounted on a power output shaft of the pressing driving motor 52, the pressing gear 56 is meshed with the rack 55, and the pressing plate 57 is mounted at the lower end of the sliding guide rod 54. The push-down driving motor 52 drives the push-down gear 56 to rotate, so that the rack 55 on the slide guide rod 54 moves up and down along the bar-shaped guide groove 53 under the driving of the push-down gear 56, and the slide guide rod 54 drives the push-down plate 57 to move up and down.

Elevating system 2 includes lift driving motor 21, drive sprocket 22, driven sprocket 23, drive chain 24 and guiding mechanism 25, and lift driving motor 21 installs 1 top in the frame, and drive sprocket 22 installs at 1 top in the frame, and driven sprocket 23 installs in 1 bottom in the frame, and drive sprocket 22 and driven sprocket 23 are together with drive chain 24 tensioning, and drive chain 24 has two straightway 241 that move towards from top to bottom, crane 3 passes through guiding mechanism 25 and is connected with a straightway 241 of drive chain 24, and drive sprocket 22 is connected with lift driving motor 21 transmission. The guide mechanism 25 comprises a second slide block 251 and a second slide rail 252 arranged on the rack 1, the second slide rail 252 is parallel to the transmission chain 24, the second slide block 251 is arranged on the second slide rail 252 and can move up and down along the second slide rail 252, and the lifting frame 3 is connected with the second slide block 251. Generally, the lifting mechanism 2 comprises four transmission chains 24, four corners of the lifting frame 3 are respectively connected with one straight line segment 241 of the four transmission chains 24, the lifting driving motor 21 drives the driving chain wheel 22, the driven chain wheel 23 and the transmission chains 24 to drive the lifting frame 3 to do lifting motion along the upper direction and the lower direction, the transmission chains 24 lift under the cooperation of the guide mechanism 25 to avoid the situation that the transmission chains 24 are not parallel or skew, and the lifting frame 3 is guaranteed to lift more stably.

When the device is used, the lifting frame 3 and the rim charge eliminating mechanism 6 on the lifting frame are driven by the lifting mechanism 2 to ascend to the top of the rack 1, then the whole stack of printed products (hundreds of printed products or even thousands of printed products are stacked together up and down) are placed on the material bearing table 4, the whole stack of printed products are moved to the lower part of the pressing mechanism 5 by moving the material bearing table 4, and the top of the whole stack of printed products is pressed tightly by the pressing mechanism 5, so that the whole stack of printed products are ensured not to move in the waste removing process; then the lifting frame 3 and the rim charge eliminating mechanism 6 thereon are driven by the lifting mechanism 2 to slowly descend, so that the rim charge eliminating end of the rim charge eliminating mechanism 6 is contacted with the edge of the whole stack of printed products; and finally, the lifting frame 3 and the rim charge removing mechanism 6 on the lifting frame are driven by the lifting mechanism 2 to move from top to bottom, the rim charges of the whole stack of printed products are gradually removed, after the rim charges are removed, the lifting frame 3 and the rim charge removing mechanism 6 on the lifting frame are driven by the lifting mechanism 2 to ascend to the top of the rack 1, and the whole stack of printed products on the material bearing table 4 are manually moved out.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a clear useless machine of whole overprinting goods leftover bits which characterized in that: the automatic edge material removing machine comprises a rack, a lifting mechanism, a lifting frame, a material bearing platform, a pressing mechanism and at least one edge material removing mechanism, wherein the lifting mechanism is installed on the rack, the lifting frame is installed on the lifting mechanism, the edge material removing mechanism is installed on the lifting frame, the material bearing platform is movably arranged at the bottom of the rack, and the pressing mechanism is installed at the top of the rack and corresponds to the material bearing platform.

2. The stack of printed product scrap cleaner according to claim 1, wherein: the number of the rim charge eliminating mechanisms is four, two rim charge eliminating mechanisms are arranged on the lifting frame side by side along the length direction of the lifting frame, the other two rim charge eliminating mechanisms are arranged on the lifting frame side by side along the width direction of the lifting frame, a waste clearing area of the whole stack of leftover charges of the printed products is defined by the four rim charge eliminating mechanisms, and the material bearing platform is positioned below the waste clearing area.

3. The stack of printed product scrap cleaner according to claim 2, wherein: two rim charge that set up along the length direction of crane are rejected the mechanism and are in the top or the below of two rim charge that set up along the width direction of crane and reject the mechanism.

4. The stack of printed product scrap cleaner according to claim 1, wherein: the rim charge is rejected the mechanism and is included first slip adjustment mechanism, second slip adjustment mechanism, is rejected driving motor, first shaft coupling, second shaft coupling, transmission shaft and at least one clear useless gear, and first slip adjustment mechanism, second slip adjustment mechanism are installed respectively on the relative both sides border of crane, reject driving motor and install on first slip adjustment mechanism, transmission shaft one end is connected with the power take off who rejects driving motor through first shaft coupling, and the other end of transmission shaft passes through the second shaft coupling and installs on second slip adjustment mechanism, and clear useless gear is installed on the transmission shaft.

5. The stack of printed product scrap cleaner according to claim 4, wherein: first slip adjustment mechanism, second slip adjustment mechanism all include first slider, screw rod, handle and set up first slide rail on the crane, first slider is in on first slide rail and can carry out horizontal migration along first slide rail, is equipped with the screw that link up inside and outside on the first slider, and the screw rod is in the screw, and the terminal and the first slide rail contact cooperation of pole portion of screw rod, the handle is installed on the head of screw rod.

6. The stack of printed product scrap cleaner according to claim 1, wherein: the pushing mechanism comprises a pushing support, a pushing driving motor, a bar-shaped guide groove, a sliding guide rod, a rack, a pushing gear and a pushing plate, the pushing support is mounted on the rack, the bar-shaped guide groove is vertically mounted on the pushing support, the sliding guide rod is located in the bar-shaped guide groove and can move up and down along the bar-shaped guide groove, the rack is mounted on the sliding guide rod along the axial direction of the sliding guide rod, the pushing driving motor is mounted on the pushing support, the pushing gear is mounted on a power output shaft of the pushing driving motor, the pushing gear is meshed with the rack, and the pushing plate is mounted at the lower end of the sliding guide rod.

7. The stack of printed product scrap cleaner according to claim 1, wherein: elevating system includes lift driving motor, drive sprocket, driven sprocket, drive chain and guiding mechanism, and lift driving motor installs the frame top, drive sprocket installs at the frame top, and driven sprocket installs in the frame bottom, and drive chain tensioning is jointly with driven sprocket to drive chain, and drive chain has two straightways that move towards from top to bottom, the crane passes through guiding mechanism and is connected with a straightway of drive chain, and drive sprocket is connected with the drive of lift driving motor transmission.

8. The stack of printed product scrap cleaner according to claim 7, wherein: the guide mechanism comprises a second sliding block and a second sliding rail arranged on the rack, the second sliding rail is parallel to the transmission chain, the second sliding block is positioned on the second sliding rail and can move up and down along the second sliding rail, and the lifting frame is connected with the second sliding block.

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