CN107264015B - Plastic box gilding press production line - Google Patents

Abstract

The invention discloses a plastic box stamping machine production line, which is characterized in that: the gold stamping unit comprises a rack, a driving unit and at least one gold stamping unit, wherein the driving unit is installed on the rack, the gold stamping unit comprises a feeding mechanism, a feeding conveying mechanism, a hot stamping mechanism and a receiving conveying mechanism, the feeding conveying mechanism, the hot stamping mechanism and the receiving conveying mechanism of the same gold stamping unit are sequentially arranged and installed on the rack respectively, the driving unit is connected with the feeding conveying mechanism, the hot stamping mechanism and the receiving conveying mechanism respectively, and the feeding mechanism is located at the front end of the feeding conveying mechanism. The plastic box stamping machine production line disclosed by the invention can automatically place the plastic boxes on the conveying belt, is accurate in positioning, can simultaneously convey and stamp a plurality of plastic boxes, replaces manpower with machinery, saves manpower, effectively reduces the labor intensity and labor cost of workers, and greatly improves the production efficiency.

Description

Plastic box gilding press production line

Technical Field

The invention relates to the field of printing processing machinery, in particular to a plastic box stamping machine production line.

Background

Gold stamping is also called hot stamping, and a printing decoration process is that a metal printing plate is heated and applied with foil, and gold characters or patterns are stamped on a printed matter. With the rapid development of the gold stamping process, plastic box gold stamping machines come into play.

The plastic box is a transparent box-shaped plastic product made of PVC/PET/PP/PS and the like, has transparent or non-transparent appearance, can achieve printing effects of UV (ultraviolet) Korotkoff printing, silk-screen printing, gold/silver stamping, frosting and the like, has the characteristics of permanent and durable packaging, moisture resistance, water resistance, high toughness, strong transportation safety performance, product grade improvement and the like, and is widely used in the food packaging and daily article packaging industries. The plastic box is subjected to gold stamping printing, so that the artistry of the outer surface of the plastic box is enhanced, the theme-highlighting advertising effect is achieved, and the plastic box feels higher.

At present, in the existing plastic box stamping machine, most of the feeding mechanisms of the stamping machine are placed manually, a plurality of workers are needed to cooperate with each stamping production line for production, several workers are needed to classify and arrange the plastic boxes simultaneously in the feeding process, then the plastic boxes are placed on the conveying belt to be conveyed to the stamping mechanism to complete the stamping, manual classification and arrangement are adopted, the arrangement efficiency is low, errors are easy to occur, the stamping production efficiency is low, and the labor intensity and the labor cost of the workers are high; and the positioning is not accurate in the transportation process, so that the quality of the processed plastic box is difficult to ensure.

Disclosure of Invention

The invention aims to solve the problem of providing a plastic box hot stamping machine production line which can automatically place plastic boxes on a conveying belt, is accurate in positioning, can simultaneously convey and hot stamp a plurality of plastic boxes, replaces manpower with machinery, saves manpower, effectively reduces the labor intensity and labor cost of workers, and greatly improves the production efficiency.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a plastics box gilding press production line which characterized by: the gold stamping unit comprises a discharging mechanism, a discharging conveying mechanism, a hot stamping mechanism and a receiving conveying mechanism, wherein the discharging mechanism, the discharging conveying mechanism, the hot stamping mechanism and the receiving conveying mechanism of the same gold stamping unit are sequentially arranged and respectively mounted on the rack; thermoprint mechanism is including scalding printer head, can make the crane that scalds printer head reciprocated, control the cylinder that scalds printer head goes up and down, fix the die-holding roller at the crane front end, fix the waste film recovery roller and two guide film rollers of fixing in the frame of crane rear end, it installs on the crane and is located blowing conveying mechanism top to scald printer head, the crane is connected with the piston rod end of cylinder, two guide film rollers are located the both sides that scald printer head respectively.

In the structure, the driving unit drives the discharging conveying mechanism, the stamping mechanism and the receiving conveying mechanism of the same stamping unit to work, so that the plastic boxes are automatically and continuously stamped by the stamping machine for the plastic boxes; when the plastic box stamping machine is used, plastic boxes which are stacked orderly are placed on the material placing mechanism, the material placing conveying mechanism is driven by the driving unit to convey the plastic boxes to the position below the stamping head in an orderly mode, the driving unit drives the air cylinder to drive the stamping head to move downwards, the plastic boxes are stamped after the stamping head is heated, and the plastic boxes are conveyed to the material receiving conveying mechanism from the position below the stamping head after stamping. The hot stamping film is arranged on the film supporting roller, the film guiding rollers on two sides of the hot stamping head are used for supporting and positioning the hot stamping film to enable the hot stamping film to be located below the hot stamping head, and after hot stamping is completed, the used hot stamping film is recovered on the waste film recovery roller.

As a preferred scheme of the invention, the discharging mechanism comprises a discharging channel and two swinging strips, a plurality of positioning dies are arranged on the discharging conveying mechanism, and the positioning die at the front end of the discharging conveying mechanism is positioned at the bottom of the discharging channel; the two swinging strips have two working positions, the first position is parallel to the positioning die, the second position is positioned below the positioning die, and when the plastic box falls onto the positioning die, the plastic box drives the two swinging strips to swing downwards to the second position from the first position. In the structure, the sorted and classified plastic boxes are placed in the material placing channel, the driving unit drives the material placing conveying mechanism to convey, when one plastic box falls onto the positioning mold from the material placing channel, the two swinging strips swing downwards to enable the plastic box to be completely buckled on the positioning mold, and then the positioning mold outputs the bottom of the material placing channel along with the conveying of the material placing conveying mechanism; and the next positioning die is conveyed to the bottom of the discharging channel along with the conveying of the discharging conveying mechanism, and the next plastic box falls onto the positioning die from the discharging channel and is repeatedly operated in sequence. The discharging mechanism can continuously discharge materials to the discharging conveying mechanism, so that the continuity of gold stamping work is ensured, and meanwhile, the workload of operators is reduced; the two swing strips are arranged to separate the two sides of the positioning die from the inner side wall of the discharging channel by a certain distance, so that the outer corners of the plastic box are prevented from being abraded due to friction with the inner side wall of the discharging channel; the positioning die can well play a role in positioning and supporting the plastic box, accurately conveys the plastic box on the positioning die to a hot stamping position, and carries out hot stamping on the plastic box.

As a further preferable scheme of the invention, the discharging channel is downwards inclined from right to left and forms an included angle with the horizontal plane. Through the arrangement, the plastic box slides downwards along the emptying channel in an inclined way to the positioning mould, so that the plastic box can be better buckled on the positioning mould.

As a further preferable scheme of the invention, an included angle formed between the discharging channel and the horizontal plane is 45-70 degrees. Through the arrangement, a certain gradient is formed between the discharging channel and the horizontal plane, when the positioning die is conveyed to the bottom of the discharging channel, the placing state of the positioning die is downward inclined from the right side to the left side, the plastic box slides downwards along the discharging channel to the positioning die in an inclined mode, and the plastic box can be better buckled on the positioning die.

As a further preferable scheme of the invention, the discharging channel is composed of two discharging plates, and the same side of each discharging plate is respectively provided with a barrier strip. The plastic box can be blocked by the barrier strips on the same side edge of each material placing plate, the plastic box is prevented from falling out from the inclined material placing channel, the plastic box can be well positioned and fixed, the plastic box is automatically arranged in the material placing process, and the plastic box can be conveniently and well buckled on the positioning die.

As a preferable scheme of the invention, the discharging conveying mechanism comprises a discharging conveying belt and two chains, the two chains are arranged side by side, the conveying belt is connected end to end and is installed on the two chains, and the positioning dies are arranged on the discharging conveying belt at equal intervals. Each plastic box is in the blowing conveyer belt transportation process, and it is spacing about all to lock on each positioning die, makes the plastic box can not rock about can not, has realized the automatic steady transport of each plastic box, carries positioning accuracy height, has improved product quality and production efficiency.

As the preferred scheme of the invention, the material receiving and conveying mechanism comprises a material receiving and conveying belt. The thermoprinted plastic boxes fall onto the material receiving conveying belt, the material receiving conveying belt is driven to transmit through the driving unit, the plastic boxes are conveyed into the material receiving box to be collected, and the follow-up procedures are convenient for operators to carry out.

As a preferable scheme of the invention, the driving unit comprises a motor, a cam gear, a coaxial gear set, a conveying transmission chain and a cam transmission chain, the motor is installed on the rack, the cam is installed on the cam gear and positioned above the cylinder, the circumference of the cam is equal to the distance between the centers of any two adjacent positioning dies, the coaxial gear set is connected with the discharging conveying mechanism and the receiving conveying mechanism, one coaxial gear in the coaxial gear set is connected with the motor through the conveying transmission chain, the other coaxial gear is connected with the cam gear through the cam transmission chain, and the teeth number of the other coaxial gear is the same as that of the cam gear; the motor drives the discharging conveying mechanism and the receiving conveying mechanism through the conveying transmission chain, and the motor drives the cam through the coaxial gear set and the cam transmission chain. In the structure, the cam, blowing conveying mechanism and material receiving conveying mechanism all drive through same motor, the plastic box is placed on positioning die during thermoprint, cam control thermoprint mechanism's up-and-down motion, the thermoprint mechanism carries out the thermoprint back to the plastic box on a positioning die, because the cam girth equals with the distance between two arbitrary adjacent positioning die centers, the cam is rotatory a week, blowing conveying mechanism removes one section distance, the plastic box on the next positioning die is accurate to be carried under the thermoprint mechanism, make thermoprint mechanism carry out the thermoprint to this plastic box.

As a further preferable scheme of the invention, the number of the gold stamping units is two. Through the arrangement, the driving unit can drive the two gold stamping units simultaneously, and the two plastic boxes are subjected to hot stamping simultaneously, so that the working efficiency is improved, and the service life of the gold stamping machine is also ensured.

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

the plastic box stamping machine production line can automatically place the plastic boxes on the conveying belt, is accurate in positioning, can simultaneously convey and stamp a plurality of plastic boxes, replaces manpower with machinery, saves manpower, effectively reduces the labor intensity and labor cost of workers, and greatly improves the production efficiency; the feeding mechanism can continuously feed materials to the feeding conveying mechanism, so that the continuity of gold stamping work is ensured, and the workload of operators is reduced.

Drawings

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

FIG. 2 is a schematic structural view of the discharging mechanism in FIG. 1;

FIG. 3 is a schematic structural diagram of the driving unit of FIG. 1;

fig. 4 is a schematic structural diagram of embodiment 4 of the present invention.

Detailed Description

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

Example 1

As shown in fig. 1-3, the plastic box stamping machine production line in this embodiment includes a rack 1, a driving unit 2 and a stamping unit 3, the driving unit 2 is installed on the rack 1, the stamping unit 3 includes a material placing mechanism 31, a material placing conveying mechanism 32, a stamping mechanism 33 and a material receiving conveying mechanism 34, the material placing mechanism 31, the material placing conveying mechanism 32, the stamping mechanism 33 and the material receiving conveying mechanism 34 of the same stamping unit 3 are sequentially arranged and installed on the rack 1, respectively, the driving unit 2 is connected with the material placing conveying mechanism 32, the stamping mechanism 33 and the material receiving conveying mechanism 34, respectively, and the material placing mechanism 31 is located at the front end of the material placing conveying mechanism 32; the hot stamping mechanism 33 comprises a hot stamping head 331, a lifting frame 332 capable of enabling the hot stamping head 331 to move up and down, an air cylinder 333 for controlling the hot stamping head 331 to lift up and down, a film supporting roller 334 fixed at the front end of the lifting frame 332, a waste film recycling roller 335 fixed at the rear end of the lifting frame 332 and two film guide rollers 336 fixed on the rack 1, the hot stamping head 331 is installed on the lifting frame 332 and located above the discharging and conveying mechanism 32, the lifting frame 332 is connected with the tail end of a piston rod of the air cylinder 333, and the two film guide rollers 336 are respectively located on two sides of the hot stamping head 331.

The discharging mechanism 31 comprises a discharging channel 311 and two swinging strips 312, a plurality of positioning dies 321 are arranged on the discharging conveying mechanism 32, and the positioning dies 321 at the front end of the discharging conveying mechanism 32 are positioned at the bottom of the discharging channel 311; the two swing strips 312 have two working positions, the first position is parallel to the positioning mold 321, the second position is located below the positioning mold 321, and when the plastic box 4 falls onto the positioning mold 321, the plastic box 4 drives the two swing strips 312 to swing downwards from the first position to the second position.

The discharge channel 311 is inclined downwards from right to left and forms an angle with the horizontal plane, and the angle of the angle is 45 degrees. The material feeding passage 311 is composed of two material feeding plates 3111, and a baffle 3112 is disposed on the same side of each material feeding plate 3111.

The discharging conveying mechanism 32 comprises a discharging conveying belt 322 and two chains 323, the two chains 323 are arranged side by side, the discharging conveying belt 322 is connected end to end and is installed on the two chains 323, and the positioning molds 321 are arranged on the discharging conveying belt 322 at equal intervals.

The material receiving and conveying mechanism 34 includes a material receiving and conveying belt 341. The thermoprinted plastic box 4 falls to the material receiving conveyer belt 341, the material receiving conveyer belt 341 is driven to transmit through the driving unit 2, the plastic box 4 is conveyed to the material receiving box and collected, and the follow-up procedures are convenient for operators to carry out.

The driving unit 2 comprises a motor 21, a cam 22, a cam transmission belt 23 and a transmission belt 24, the motor 21 is installed on the frame 1, the cam 22 is installed above the air cylinder 333 and is connected with the motor 21 through the cam transmission belt 23, the circumference of the cam 22 is equal to the distance between the centers of any two adjacent positioning dies 321, and the discharging conveying mechanism 32 and the receiving conveying mechanism 34 are connected with the motor 21 through the transmission belt 24. The automatic feeding and discharging device comprises a cam gear 23, a coaxial gear set 24, a conveying transmission chain 25 and a cam transmission chain 26, wherein a motor 21 is installed on a rack 1, a cam 22 is installed on the cam gear 23 and is positioned above a cylinder 333, the circumference of the cam 22 is equal to the distance between the centers of any two adjacent positioning dies 321, the coaxial gear set 24 is connected with a discharging conveying mechanism 32 and a receiving conveying mechanism 34, one coaxial gear in the coaxial gear set 24 is connected with the motor 21 through the conveying transmission chain 25, the other coaxial gear is connected with the cam gear 23 through the cam transmission chain 26, and the number of teeth of the other coaxial gear is the same as that of the cam gear 23; the motor 21 drives the discharging conveying mechanism 32 and the receiving conveying mechanism 34 through the conveying transmission chain 25, and the motor 21 drives the cam 22 through the coaxial gear set 24 and the cam transmission chain 26.

The working principle of the plastic box stamping machine production line is as follows:

firstly, a hot stamping film 5 is arranged on a film supporting roller 334, and the film guide rollers 336 on two sides of a hot stamping head 331 are used for supporting and positioning the hot stamping film 5 to be positioned below the hot stamping head 331;

when the stamping machine is used, the plastic boxes 4 which are orderly stacked are placed on the material placing channel 31, the material placing and conveying mechanism 32 is driven by the driving unit 2 to convey the plastic boxes 4 to the position below the stamping head 331 in order, the driving unit 2 drives the air cylinder 333 to drive the stamping head 331 to move downwards, and the plastic boxes 4 are stamped after the stamping head 331 is heated;

finally, after the gold stamping is finished, the plastic box 4 is conveyed onto the material receiving conveying belt 341 from the lower part of the hot stamping head 331, the material receiving conveying belt 341 is driven by the driving unit 2 to be conveyed, and the plastic box 4 is conveyed into the material receiving box to be collected.

Example 2

The difference between the plastic box stamping machine production line in the embodiment and the embodiment 1 is that:

the angle of an included angle formed between the discharging channel and the horizontal plane is 60 degrees. Through the arrangement, a certain gradient is formed between the discharging channel and the horizontal plane, when the positioning die is conveyed to the bottom of the discharging channel, the placing state of the positioning die is downward inclined from the right side to the left side, the plastic box slides downwards along the discharging channel to the positioning die in an inclined mode, and the plastic box can be better buckled on the positioning die.

Example 3

The difference between the plastic box stamping machine production line in the embodiment and the embodiment 1 is that:

the angle of an included angle formed between the discharging channel and the horizontal plane is 70 degrees. Through the arrangement, a certain gradient is formed between the discharging channel and the horizontal plane, when the positioning die is conveyed to the bottom of the discharging channel, the placing state of the positioning die is downward inclined from the right side to the left side, the plastic box slides downwards along the discharging channel to the positioning die in an inclined mode, and the plastic box can be better buckled on the positioning die.

Example 4

As shown in fig. 4, the difference between the plastic box bronzing machine production line in the present embodiment and embodiment 1 is:

the number of the gold stamping units 3 is two. Through the arrangement, the driving unit 2 can drive the two gold stamping units 3 simultaneously, and hot stamping is carried out on the two plastic boxes simultaneously, so that the working efficiency is improved, and the service life of the gold stamping machine is ensured.

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 the equivalent or simple change of the structure, the characteristics and the principle described in the present patent idea is included in the protection scope of the present patent. Various modifications, additions and substitutions for the specific embodiments described 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. A plastic box stamping machine production line comprises a rack, a driving unit and at least one stamping unit, wherein the driving unit is installed on the rack, the stamping unit comprises a discharging mechanism, a discharging conveying mechanism, a stamping mechanism and a receiving conveying mechanism, the discharging conveying mechanism, the stamping mechanism and the receiving conveying mechanism of the same stamping unit are sequentially arranged and installed on the rack respectively, the driving unit is connected with the discharging conveying mechanism, the stamping mechanism and the receiving conveying mechanism respectively, and the discharging mechanism is located at the front end of the discharging conveying mechanism; the hot stamping mechanism comprises a hot stamping head, a lifting frame capable of enabling the hot stamping head to move up and down, an air cylinder for controlling the hot stamping head to lift, a film supporting roller fixed at the front end of the lifting frame, a waste film recycling roller fixed at the rear end of the lifting frame and two film guide rollers fixed on the rack, the hot stamping head is arranged on the lifting frame and positioned above the discharging and conveying mechanism, the lifting frame is connected with the tail end of a piston rod of the air cylinder, and the two film guide rollers are respectively positioned on two sides of the hot stamping head; the method is characterized in that: the discharging mechanism comprises a discharging channel and two swinging strips, a plurality of positioning dies are arranged on the discharging conveying mechanism, and the positioning dies at the front end of the discharging conveying mechanism are positioned at the bottom of the discharging channel; the two swinging strips have two working positions, the first position is parallel to the positioning die, the second position is positioned below the positioning die, and when the plastic box falls onto the positioning die, the plastic box drives the two swinging strips to swing downwards from the first position to the second position; the plastic boxes which are sorted and classified are placed in the material placing channel, the driving unit drives the material placing conveying mechanism to convey, when one plastic box falls onto the positioning die from the material placing channel, the two swinging strips swing downwards to enable the plastic box to be completely buckled on the positioning die, and then the positioning die outputs the bottom of the material placing channel along with the conveying of the material placing conveying mechanism; and the next positioning die is conveyed to the bottom of the discharging channel along with the conveying of the discharging conveying mechanism, and the next plastic box falls onto the positioning die from the discharging channel and is repeatedly operated in sequence.

2. The plastic box bronzing machine production line of claim 1, wherein: the discharging channel is inclined downwards from right to left and forms an included angle with the horizontal plane.

3. The plastic box gilding press production line of claim 2, characterized in that: the angle of an included angle formed between the discharge channel and the horizontal plane is 45-70 degrees.

4. The plastic box gilding press production line of claim 1, characterized in that: the material discharging channel is composed of two material discharging plates, and retaining strips are arranged on the same side of each material discharging plate.

5. The plastic box bronzing machine production line of claim 1, wherein: the discharging conveying mechanism comprises a discharging conveying belt and two chains, the two chains are arranged side by side, the conveying belt is connected end to end and is installed on the two chains, and the positioning dies are arranged on the discharging conveying belt at equal intervals.

6. The plastic box gilding press production line of claim 1, characterized in that: the material receiving and conveying mechanism comprises a material receiving conveying belt.

7. The plastic box gilding press production line of claim 1, characterized in that: the driving unit comprises a motor, a cam, cam gears, coaxial gear sets, a conveying transmission chain and a cam transmission chain, the motor is installed on the rack, the cam is installed on the cam gears and located above the air cylinder, the circumference of the cam is equal to the distance between the centers of any two adjacent positioning dies, the coaxial gear sets are connected with the discharging conveying mechanism and the receiving conveying mechanism, one coaxial gear in the coaxial gear sets is connected with the motor through the conveying transmission chain, the other coaxial gear is connected with the cam gear through the cam transmission chain, and the tooth number of the other coaxial gear is the same as that of the cam gear; the motor drives the discharging conveying mechanism and the receiving conveying mechanism through the conveying transmission chain, and the motor drives the cam through the coaxial gear set and the cam transmission chain.

8. The plastic box gilding press production line of claim 1, characterized in that: the number of the gold stamping units is two.

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