CN108859450B

CN108859450B - Automatic imprinter for steel cover

Info

Publication number: CN108859450B
Application number: CN201810503676.0A
Authority: CN
Inventors: 栾友祥
Original assignee: Jiaxing Sheng Yuan Industrial Designs Co ltd
Current assignee: Jiaxing Sheng Yuan industrial designs Co.,Ltd.
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2020-08-04
Anticipated expiration: 2038-05-23
Also published as: CN108859450A

Abstract

The invention relates to the field of steel cover processing, in particular to an automatic steel cover imprinter, which comprises an imprinter, a vibrating feeder for conveying steel covers, a controller, a discharging device, a stamping imprinter and an anti-shaking device, wherein the outer side of the imprinter is provided with the feeding device, the feeding device comprises a transmission assembly and a feeding cylinder, the output direction of the feeding cylinder faces to the downstream end of the vibrating feeder, the top of the imprinter is provided with a through hole, a lower die lining block and a lining cylinder are arranged below the through hole, the stamping imprinter comprises a stamping cylinder and a position sensor, the side of the imprinter is provided with an L type engine base, the stamping cylinder is arranged at the top in a L type engine base, the position sensor is arranged at the position close to the top of the imprinter on a L type engine base, and the position sensor is electrically connected with the controller.

Description

Automatic imprinter for steel cover

Technical Field

The invention relates to the field of steel cover processing, in particular to an automatic marking machine for a steel cover.

Background

The steel cap is a circular cap body made of stainless steel, the specification of the steel cap is adjusted and manufactured according to actual use, relevant characters need to be engraved on the surface of the cap top before the steel cap leaves a factory after being prepared at present, a general manufacturer adopts the process of manual feeding and discharging to assist in engraving, the use cost of personnel is increased, the stamping stroke speed of stamping equipment in the steel cap engraving is generally slow, the purpose is to ensure that the steel cap cannot be damaged due to too fast stroke impact force in the engraving, and accordingly defective products are generated, and the overall efficiency of batch production is greatly reduced due to the problem of stamping speed.

Disclosure of Invention

The invention aims to provide an automatic marking machine for a steel cover, aiming at the defects of the prior art.

In order to solve the above problems, the present invention provides the following technical solutions:

the utility model provides an automatic imprinter of steel lid, including the stamp pad and be used for carrying the vibration of steel lid and go up the glassware, still include the controller, discharging device, the punching press stamp device of setting above the stamp pad and be used for pushing down spacing anti-shake device to a side of steel lid, the outside of stamp pad is provided with loading attachment, loading attachment includes drive assembly and the feeding cylinder that sets up on the drive assembly output, the output direction of feeding cylinder is towards the downstream end of vibration material loading ware, the through-hole has been seted up at the top of stamp pad, the through-hole runs through the stamp pad, the through-hole below is equipped with lining block and inside lining cylinder in the lower mould, the setting that the lining block can vertical activity through the inside lining cylinder in the through-hole, the punching press stamp device includes punching press cylinder and position sensor, the side of stamp pad is provided with the L type frame that is the inversion, punching press cylinder sets up the top in L type frame, position sensor sets up the position sensor near the stamp pad top in L type frame, position sensor and controller electric connection.

Further, discharge device includes the hydraulic stem and pushes away the material piece, and the hydraulic stem sets up at the top of stamp pad, and the output direction of hydraulic stem is towards the through-hole and still constitutes 35 degrees contained angles with the axial of through-hole, and it includes L template and touch panel to push away the material piece, and the one end of L template is passed through the bolt and is connected with the piston rod of hydraulic stem, and the touch panel setting is at the other end of L template, and the touch panel is V type structure to its opening face is towards the through-hole.

Furthermore, the transmission assembly comprises a longitudinal electric cylinder and a transverse electric cylinder, the transverse electric cylinder is erected outside the imprinting station, the back side of the longitudinal electric cylinder is connected with the output end of the transverse electric cylinder, the longitudinal electric cylinder can horizontally reciprocate between the through hole and the downstream end of the vibration feeder through the transverse electric cylinder, and the output directions of the longitudinal electric cylinder and the transverse electric cylinder form a cross shape.

Furthermore, a bearing plate is arranged at the output end of the longitudinal electric cylinder, a feeding cylinder is arranged on the bearing plate in a lapping mode, a U-shaped seat is installed at the output end of the feeding cylinder, a pneumatic clamp is arranged in an opening of the U-shaped seat, the clamping end of the pneumatic clamp faces the downstream end of the vibration feeder, and an included angle of 55 degrees is formed between the output direction of the feeding cylinder and the output direction of the hydraulic rod.

Furthermore, be equipped with the deflector in the L type die holder, the piston rod and the coaxial setting of through-hole of punching press cylinder to still be provided with the imprinting die head on its piston rod, set up the guiding hole that can supply the piston rod of punching press cylinder to pass on the deflector, the deflector bottom is equipped with the vertical disjunctor board that extends down, and the end of disjunctor board is just to the through-hole, and position sensor sets up in one side of this disjunctor board towards vertical electric jar.

Furthermore, the top of L type frame is equipped with two air feed pumps, and the inlet end intercommunication of punching press cylinder has the trachea, and tracheal free end intercommunication has Y type bifurcated pipe, and the both ends of Y type bifurcated pipe open position communicate with the output of an air feed pump through an air valve respectively, and all air valves and all air feed pumps all are connected with controller electric connection.

Further, the rectangle breach has been seted up to the end of disjunctor board, and the device of preventing shaking includes holding down plate and pushes down the gas pole, and the body of rod tip that pushes down the gas pole is articulated with L type frame to it articulates on the piston rod has the linkage piece, and the middle section of holding down plate passes through the torsional spring and articulates in the rectangle breach, and the free end of linkage piece is connected with the one end that the through-hole was kept away from to the holding down plate, and the other end of holding down plate is provided with the holding down edge of slope up, and the angle of this slope is 110 degrees.

Furthermore, a blanking port is formed in the imprinting platform and located right below the integrated plate, and a blanking slide way is arranged in the blanking port.

Further, the inside lining cylinder is installed in the imprinter below, is provided with the cushion on the output of inside lining cylinder, and lower mould inside lining piece is installed at the cushion top, and the bottom of imprinter is equipped with two supplementary pieces, and two supplementary piece symmetries set up the periphery at the through-hole.

Furthermore, two one side of one of them supplementary piece in the supplementary piece is equipped with supplementary cylinder, is equipped with the pressure reducing plate on the output of supplementary cylinder, all is equipped with a first decompression groove that can supply the pressure reducing plate to pass through on two supplementary pieces, has seted up the second decompression groove on the cushion.

Has the advantages that: the invention relates to an automatic imprinter for steel caps, wherein a transverse electric cylinder drives a longitudinal electric cylinder and a feeding cylinder to move to the downstream end of a vibration feeder, the vibration feeder conveys the steel caps one by one, the longitudinal electric cylinder drives the feeding cylinder to descend, the feeding cylinder drives a pneumatic clamp to move towards one steel cap at the downstream end of the vibration feeder, then the steel cap is clamped by the pneumatic clamp, the steel cap is lifted by the longitudinal electric cylinder and is moved to a through hole position by the transverse electric cylinder, the steel cap is ejected by the feeding cylinder so as to be moved to the position right above the through hole, the longitudinal electric cylinder descends the pneumatic clamp again so that the steel cap covers the through hole, then a lower air pressing rod works, a piston rod of the lower air pressing rod is lifted upwards, a lower pressing plate is linked with the lower pressing plate, one end with a lower pressing edge stably overturns downwards by the action force of a torsional spring hinged with the lower pressing plate, and the end of the lower air pressing rod rotates, compensating the motion stroke, enabling the linkage block to rotate along with the piston rod to achieve the compensation purpose, enabling the lower pressing plate to abut against the side edge of the steel cover through the lower pressing edge, enabling the lining cylinder to eject the lining block of the lower die to the upper side of the through hole, supporting the inside of the steel cover, releasing the pneumatic clamp and resetting to continue material taking, enabling the hydraulic rod to work at the moment and stabilizing the other side edge of the steel cover, enabling the piston rod of the stamping cylinder to descend rapidly (in the process, one air valve on the Y-shaped branch pipe and the corresponding air supply pump are used for inflating, the other air valve and the air supply pump are in a closed state), enabling the piston rod to pass through the position sensor, enabling the sensing end of the position sensor to detect that the stamping head connected with the piston rod passes through the position sensor, transmitting an electric signal to the controller, and analyzing the electric signal by the controller to obtain a result, when the other air valve and the other air supply pump are controlled to work, (at the moment, the previous air valve and the previous air supply pump stop working), the stroke speed of a piston rod of the stamping cylinder is rapidly changed into slow, the top of the steel cover can be stably engraved by the slow stroke, after the steel cover is engraved, the lower pressing plate resets to work, the pressing is released, the lining cylinder enables the lining block of the lower die to descend, then the piston rod of the hydraulic rod is continuously ejected forwards, and the finished steel cover is ejected to the blanking port.

Drawings

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a first structural diagram illustrating a partial operation state of the present invention;

FIG. 6 is a second structural diagram illustrating a partial operation state of the present invention;

FIG. 7 is a partial perspective view of the present invention;

FIG. 8 is a partial perspective cut-away view of the present invention;

FIG. 9 is a schematic view of the assembled structure of the present invention;

the reference numbers indicate that the engraving table 1, the blanking port 1a, the blanking slideway 1b, the vibration feeder 2, the hydraulic rod 3, the L template 3a, the touch plate 3b, the stamping cylinder 4, the air pipe 4a, the Y-shaped bifurcated pipe 4b, the air valve 4c, the L type machine base 4d, the guide plate 4e, the engraving head 4f, the conjoined plate 4g, the rectangular notch 4k, the position sensor 4m, the lower pressing plate 5, the lower pressing edge 5a, the torsion spring 5b1, the lower pressing rod 5b, the linkage block 5c, the longitudinal electric cylinder 6, the transverse electric cylinder 6a, the feeding cylinder 6b, the U-shaped seat 6c, the pneumatic clamp 6d, the through hole 7, the lower die lining block 7a, the lining cylinder 7b, the cushion block 7c, the auxiliary block 7d, the auxiliary cylinder 7e, the pressure reducing plate 7k, the first pressure reducing groove 7m, the second pressure reducing groove 7p, the steel cover 8, the controller 9 and the air supply pump 11.

Detailed Description

The following detailed description of specific embodiments of the present invention is made with reference to the accompanying drawings and examples:

referring to fig. 1 to 9, an automatic steel cap imprinter includes an imprinter 1 and a vibrating feeder 2 for conveying a steel cap 8, and further includes a controller 9, a discharging device, a stamping and imprinter device disposed above the imprinter 1, and an anti-shaking device for pressing down and limiting one side edge of the steel cap 8, wherein the outer side of the imprinter 1 is provided with a feeding device, the feeding device includes a transmission assembly and a feeding cylinder 6b disposed at an output end of the transmission assembly, an output direction of the feeding cylinder 6b faces a downstream end of the vibrating feeder 2, the top of the imprinter 1 is provided with a through hole 7, the through hole 7 penetrates the imprinter 1, a lower die inner liner 7a and a liner cylinder 7b are disposed below the through hole 7, the lower die inner liner 7a is vertically movably disposed in the through liner cylinder 7b in the through hole 7, the stamping and imprinter device includes a stamping cylinder 4 and a position sensor 4m, a base 4d of an inverted type L is disposed beside the imprinter 1, the stamping cylinder 4 is disposed in a base 4d, the base L m is disposed in the base 4d, and the base 4 is electrically connected with the imprinter 6, and the imprinter 6.

The discharging device comprises a hydraulic rod 3 and a pushing piece, the hydraulic rod 3 is erected at the top of the imprinting platform 1, the output direction of the hydraulic rod 3 faces towards the through hole 7 and forms a 35-degree included angle with the axial direction of the through hole 7, the pushing piece comprises L-shaped plates 3a and a contact plate 3b, one end of each L-shaped plate 3a is connected with a piston rod of the hydraulic rod 3 through a bolt, the contact plate 3b is arranged at the other end of the L-shaped plate 3a, the contact plate 3b is of a V-shaped structure, the opening surface of the contact plate faces towards the through hole 7, when the hydraulic rod 3 works, the piston rod of the hydraulic rod utilizes the contact plate 3b to contact the side edge of the steel cover 8, a guide block can be arranged on the imprinting platform 1, the piston rod of the hydraulic rod 3 cannot deviate in movement, the piston rod is pressed downwards in cooperation with the anti-shaking device, and.

The transmission assembly comprises a longitudinal electric cylinder 6 and a transverse electric cylinder 6a, the transverse electric cylinder 6a is erected on the outer side of the imprinting platform 1, the back side of the longitudinal electric cylinder 6 is connected with the output end of the transverse electric cylinder 6a, the longitudinal electric cylinder 6 can horizontally reciprocate between the through hole 7 and the downstream end of the vibration feeder 2 through the transverse electric cylinder 6a, the output directions of the longitudinal electric cylinder 6 and the transverse electric cylinder 6a form a cross shape, the transverse electric cylinder 6a is used for controlling the longitudinal electric cylinder 6 to horizontally reciprocate, so that the longitudinal electric cylinder 6 can wait for the feeding cylinder 6b to synchronously move, and subsequent material taking and discharging work is realized.

The output end of the longitudinal electric cylinder 6 is provided with a bearing plate, a feeding cylinder 6b is erected on the bearing plate, the output end of the feeding cylinder 6b is provided with a U-shaped seat 6c, an opening of the U-shaped seat 6c is internally provided with a pneumatic clamp 6d, a clamping end of the pneumatic clamp 6d faces to the downstream end of the vibration feeder 2, the output direction of the feeding cylinder 6b and the output direction of the hydraulic rod 3 form an included angle of 55 degrees, the transverse electric cylinder 6a drives the longitudinal electric cylinder 6 and the feeding cylinder 6b to move to the downstream end of the vibration feeder 2, the vibration feeder 2 conveys the steel covers 8 one by one, at the moment, the longitudinal electric cylinder 6 drives the feeding cylinder 6b to descend, the feeding cylinder 6b drives the pneumatic clamp 6d to face to the direction of one steel cover 8 at the downstream end of the vibration feeder 2, then the steel cover 8 is clamped by the pneumatic clamp 6d, is lifted by the longitudinal electric cylinder 6 and moved to the position of the through hole 7 by the transverse electric cylinder 6a, after the steel cover 8 is pushed out by the feeding cylinder 6b and displaced to be right above the through hole 7, the longitudinal electric cylinder 6 lowers the pneumatic clamp 6d again, so that the steel cover 8 covers the through hole 7, then the anti-shaking device presses down the steel cover 8, meanwhile, the lining cylinder 7b pushes out the lower die inner lining block 7a to be above the through hole 7, the steel cover 8 is also internally supported, and then the pneumatic clamp 6d is released and reset to continue to take materials! And the hydraulic rod 3 also works at this time and plays a role in stabilizing the other side of the steel cover 8. When the output end of the pneumatic clamp 6d is positioned at the position of the through hole 7, the output end is opposite to the anti-shaking device, and the distance between the hydraulic rod 3 and the anti-shaking device is close to 45 degrees, so that the output end, the hydraulic rod 3 and the anti-shaking device are sequentially distributed around the circumference of the through hole 7.

Be equipped with deflector 4e in the L type frame 4d, the piston rod and the coaxial setting of through-hole 7 of punching press cylinder 4, and still be provided with imprinting die head 4f on its piston rod, set up the guiding hole that can supply the piston rod of punching press cylinder 4 to pass on the deflector 4e, deflector 4e bottom is equipped with vertical disjunctor board 4g that extends down, the end of disjunctor board 4g is just to through-hole 7, position sensor 4m sets up in this disjunctor board 4g one side towards vertical electric jar 6, the back is put to steel lid 8, punching press cylinder 4 work, its piston rod utilizes deflector 4e as the decline direction basis, and utilize imprinting die head 4f to realize the imprinting to steel lid 8 surfaces.

The top of the L type engine base 4d is provided with two air supply pumps 11, the air inlet end of the ram cylinder 4 is communicated with an air pipe 4a, the free end of the air pipe 4a is communicated with a Y-shaped branch pipe 4b, two ends of the opening position of the Y-shaped branch pipe 4b are respectively communicated with the output end of the air supply pump 11 through an air valve 4c, all the air valves 4c and all the air supply pumps 11 are electrically connected with the controller 9, when the ram cylinder 4 works, the piston rod of the ram cylinder firstly descends rapidly, in the process, one air valve 4c on the Y-shaped branch pipe and the air supply pump 11 corresponding to the air valve are utilized to perform inflation work, the other air valve 4c and the air supply pump 11 are in a closed state, the piston rod is communicated with the position sensor 4m, the sensing end of the position sensor 4m detects that the stamping head 4f connected with the piston rod passes through, the stamping head is used for transmitting the electric signals to the controller 9, the controller 9 analyzes the electric signals to obtain results, the other air supply pump 4c and controls the other air supply pump 11 to work, at the moment, the former air valve 4c and the air supply pump 11 stop working, so that the speed of the ram.

The end of the connecting plate 4g is provided with a rectangular notch 4k, the anti-shaking device comprises a lower pressing plate 5 and a lower pressing air rod 5b, the end part of a rod body of the lower pressing air rod 5b is hinged with the L type machine base 4d, a piston rod of the lower pressing air rod 5b is hinged with a linkage block 5c, the middle section of the lower pressing plate 5 is hinged in the rectangular notch 4k through a torsion spring 5b1, the free end of the linkage block 5c is connected with one end, far away from the through hole 7, of the lower pressing plate 5, the other end of the lower pressing plate 5 is provided with a downward inclined lower pressing edge 5a, the inclined angle is 110 degrees, after the through hole 7 is covered by the steel cover 8, the lower pressing air rod 5b works, the piston rod of the linkage block is jacked upwards, the lower pressing plate 5 is linked, the end of the lower pressing plate 5a rotates under the action of the torsion spring 5b1 hinged with the linkage block, the end part of the lower pressing air rod 5b rotates to compensate the motion stroke, the linkage block 5c also rotates along with the piston rod, the piston rod 5c, the purpose of compensation is achieved, the lower pressing plate 5a, and the side of.

The stamping platform 1 is provided with a blanking port 1a, the blanking port 1a is located under the integrated plate 4g, a blanking slide way 1b is arranged in the blanking port 1a, after the steel cover 8 is stamped, the lower pressing plate 5 resets to remove the downward pressing, the lining cylinder 7b enables the lining block 7a in the lower die to descend, then the piston rod of the hydraulic rod 3 continues to push forward, and the finished steel cover 8 is pushed into the blanking port 1 a.

The inside lining cylinder 7b is installed in the platform of impressing 1 below, be provided with cushion 7c on the output end of inside lining cylinder 7b, lining block 7a installs at cushion 7c top in the lower mould, the bottom of platform of impressing 1 is equipped with two auxiliary blocks 7d, two auxiliary blocks 7d symmetries set up the periphery at through-hole 7, because the work of punching press cylinder 4 pushing down, there is certain gravity, in order to guarantee the stability of lining block 7a in inside lining cylinder 7b and the lower mould, adopt auxiliary block 7d as follow-up bearing gravity basis, and cushion 7c can dismantle the cooperation with lining block 7a in the lower mould, reach and change the mould purpose.

One side of one of the two auxiliary blocks 7d is provided with an auxiliary cylinder 7e, the output end of the auxiliary cylinder 7e is provided with a pressure reducing plate 7k, the two auxiliary blocks 7d are respectively provided with a first pressure reducing groove 7m through which the pressure reducing plate 7k can pass, the cushion block 7c is provided with a second pressure reducing groove 7p, the lining cylinder 7b pushes the cushion block 7c and the lower die inner liner block 7a into the through hole 7, the second pressure reducing groove 7p and the first pressure reducing groove 7m are communicated with each other, at the moment, the auxiliary cylinder 7e pushes the pressure reducing plate 7k into the space between the second pressure reducing groove 7p and the first pressure reducing groove 7m, and the pressure reducing plate 7k is used for bearing most of the stamping gravity of the stamping cylinder 4.

The working principle is as follows: the transverse electric cylinder 6a drives the longitudinal electric cylinder 6 and the feeding cylinder 6b to move to the downstream end of the vibrating feeder 2, the vibrating feeder 2 conveys the steel covers 8 one by one, at the moment, the longitudinal electric cylinder 6 drives the feeding cylinder 6b to descend, the feeding cylinder 6b drives the pneumatic clamp 6d to move towards one steel cover 8 at the downstream end of the vibrating feeder 2, then the steel cover 8 is clamped by the pneumatic clamp 6d, the longitudinal electric cylinder 6 ascends, moves to the position of the through hole 7 through the transverse electric cylinder 6a, is ejected by the feeding cylinder 6b so that the steel cover 8 is displaced to be right above the through hole 7, the longitudinal electric cylinder 6 descends the pneumatic clamp 6d again so that the steel cover 8 covers the through hole 7, then the air pressing rod 5b works, the piston rod of the air pressing rod is lifted upwards, the lower pressing plate 5 is linked, and one end with the pressing edge 5a is stably overturned downwards by the acting force of the torsion spring 5b1 hinged with the self, and the end of the lower air pressing rod 5b rotates to compensate the movement stroke, and the linkage block 5c also rotates along with the piston rod, so as to achieve the compensation purpose, finally the lower pressing plate 5 props against the side of the steel cover 8 through the lower pressing edge 5a, and the lining cylinder 7b ejects the inner liner 7a out of the lower die to the upper part of the through hole 7, so as to prop up the inside of the steel cover 8, then the pneumatic clamp 6d is released and reset to continue to take materials, and the hydraulic rod 3 works at the moment, and plays a role in stabilizing the other side of the steel cover 8, then the stamping cylinder 4 works, the piston rod of the stamping cylinder first descends rapidly, the process is that one air valve 4c on the Y-shaped branch pipe and the corresponding air supply pump 11 are used for inflation work, the other air valve 4c and the air supply pump 11 are in a closed state, and the piston rod passes through the position sensor 4m, the sensing end of the position sensor 4m detects that the stamping head 4f connected with, and the electric signal is transmitted to the controller 9, the controller 9 analyzes the electric signal to obtain a result, and controls the other air valve 4c and the other air supply pump 11 to work, at the moment, the previous air valve 4c and the air supply pump 11 stop working, so that the stroke speed of the piston rod of the stamping cylinder 4 is rapidly changed to be slow, the slow stroke can be realized to stably stamp the top of the steel cover 8, after the steel cover 8 is stamped, the lower pressing plate 5 resets to work, the pressing is released, the lining cylinder 7b enables the inner lining block 7a in the lower die to descend, then the piston rod of the hydraulic rod 3 continues to push forwards, and the finished steel cover 8 is pushed into the blanking port 1 a. The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. An automatic steel cover imprinter comprises an imprinter (1) and a vibration material loading device (2) used for conveying a steel cover (8), and is characterized by further comprising a controller (9), a discharging device, a stamping and imprinter device arranged above the imprinter (1) and an anti-shaking device used for pressing and limiting one side edge of the steel cover (8), wherein the outer side of the imprinter (1) is provided with the feeding device, the feeding device comprises a transmission assembly and a feeding cylinder (6b) arranged on the output end of the transmission assembly, the output direction of the feeding cylinder (6b) faces the downstream end of the vibration material loading device (2), the top of the imprinter (1) is provided with a through hole (7), the through hole (7) penetrates through the imprinter (1), a lower die liner (7a) and a lining cylinder (7b) are arranged below the through lining cylinder (7b), the lower die liner (7a) can be vertically and movably arranged in the through hole (7) through the lining cylinder (7b), the stamping and the upper die pad (3) is arranged in an inverted through cylinder (7b) and is connected with a through a hydraulic cylinder (364) and a push rod (364) of a push rod (363) of a push rod (7) which is arranged at the position of an inverted stamping and a push rod (364) which is connected with a push rod (364) of a push rod (7) of a push rod (364) of a push-push rod (363) which is arranged in an inverted stamping device, the upper die plate (364) which is arranged at an axial direction of a push rod (7) which is arranged on the upper end of a push rod (3) of a push-push rod (364) of a push-push rod (7) which is arranged on a push-type plate (7) which is arranged on a push-type plate (364) and a push-type plate (363) of a push-type plate (364) which is arranged on a push.

2. The automatic imprinter for steel caps according to claim 1, wherein: the transmission assembly comprises a longitudinal electric cylinder (6) and a transverse electric cylinder (6a), the transverse electric cylinder (6a) is arranged on the outer side of the imprinting platform (1), the back side of the longitudinal electric cylinder (6) is connected with the output end of the transverse electric cylinder (6a), the longitudinal electric cylinder (6) can horizontally reciprocate between the through hole (7) and the downstream end of the vibration feeder (2) through the transverse electric cylinder (6a), and the output directions of the longitudinal electric cylinder (6) and the transverse electric cylinder (6a) form a cross shape.

3. The automatic imprinter for steel caps according to claim 2, wherein: the automatic feeding device is characterized in that a bearing plate is arranged at the output end of the longitudinal electric cylinder (6), a feeding cylinder (6b) is erected on the bearing plate, a U-shaped seat (6c) is installed at the output end of the feeding cylinder (6b), a pneumatic clamp (6d) is arranged in an opening of the U-shaped seat (6c), the clamping end of the pneumatic clamp (6d) faces the downstream end of the vibration feeder (2), and an included angle of 55 degrees is formed between the output direction of the feeding cylinder (6b) and the output direction of the hydraulic rod (3).

4. The automatic imprinter for the steel cover according to claim 2 is characterized in that a guide plate (4e) is arranged in the L type machine base (4d), a piston rod of the stamping cylinder (4) is coaxially arranged with the through hole (7), an imprinting die head (4f) is further arranged on the piston rod, a guide hole for the piston rod of the stamping cylinder (4) to pass through is formed in the guide plate (4e), a connecting plate (4g) extending vertically downwards is arranged at the bottom of the guide plate (4e), the tail end of the connecting plate (4g) is opposite to the through hole (7), and the position sensor (4m) is arranged on one side, facing the longitudinal electric cylinder (6), of the connecting plate (4 g).

5. The automatic steel cover imprinter according to claim 4, wherein the top of the L type machine base (4d) is provided with two air supply pumps (11), the air inlet end of the stamping cylinder (4) is communicated with an air pipe (4a), the free end of the air pipe (4a) is communicated with a Y-shaped branch pipe (4b), two ends of the opening position of the Y-shaped branch pipe (4b) are respectively communicated with the output end of one air supply pump (11) through one air valve (4c), and all the air valves (4c) and all the air supply pumps (11) are electrically connected with the controller (9).

6. The automatic imprinter for the steel caps as claimed in claim 4, wherein the end of the connecting plate (4g) is provided with a rectangular notch (4k), the anti-shaking device comprises a lower pressing plate (5) and a lower pressing air rod (5b), the end of the rod body of the lower pressing air rod (5b) is hinged with an L type base (4d), a piston rod of the lower pressing air rod is hinged with a linkage block (5c), the middle section of the lower pressing plate (5) is hinged in the rectangular notch (4k) through a torsion spring (5b1), the free end of the linkage block (5c) is connected with one end of the lower pressing plate (5) far away from the through hole (7), the other end of the lower pressing plate (5) is provided with a downward pressing edge (5a) which inclines upwards, and the inclined angle is 110 degrees.

7. The automatic steel cap imprinter according to claim 6, wherein: the imprinting platform (1) is provided with a blanking port (1a), the blanking port (1a) is located under the integrated plate (4g), and a blanking slideway (1b) is arranged in the blanking port (1 a).

8. The automatic imprinter for steel caps according to claim 1, wherein: the inner lining cylinder (7b) is installed below the imprinting platform (1), a cushion block (7c) is arranged at the output end of the inner lining cylinder (7b), a lower die inner lining block (7a) is installed at the top of the cushion block (7c), two auxiliary blocks (7d) are arranged at the bottom of the imprinting platform (1), and the two auxiliary blocks (7d) are symmetrically arranged on the periphery of the through hole (7).

9. The automatic steel cap imprinter according to claim 8, wherein: two one side of one of them supplementary piece (7d) in supplementary piece (7d) is equipped with auxiliary cylinder (7e), is equipped with pressure reducing plate (7k) on the output of auxiliary cylinder (7e), all is equipped with one on two supplementary pieces (7d) and can supplies first decompression groove (7m) that pressure reducing plate (7k) passed through, has seted up second decompression groove (7p) on cushion (7 c).