CN219381941U - Gilding press that possesses non-stop material loading function - Google Patents

Abstract

The utility model relates to a gilding press with a non-stop feeding function, which comprises a frame, a turntable, a feeding device, a thermoprinting pressing mechanism, a feeding gripper mechanism, a discharging platform and a discharging bottom plate, and is characterized in that: the feeding device comprises a feeding frame and a plurality of groups of discharging assemblies arranged on the feeding frame, a sliding mechanism is arranged between the feeding frame and the frame and comprises a first sliding rail fixedly arranged on the frame, a first sliding block is linked at the bottom of the feeding frame and is in sliding connection with the first sliding rail, a first cylinder is linked at the bottom of the feeding frame and is parallel to the axis of the first sliding rail, and one end of the first cylinder is fixedly arranged on the frame. The beneficial effects of the utility model are as follows: the stamping machine with the function of feeding without stopping is provided.

Description

Gilding press that possesses non-stop material loading function

Technical Field

The utility model particularly relates to a stamping machine with a non-stop feeding function.

Background

The gilding press is equipment for finishing the gilding process. The prior gilding press generally comprises a feeding module and a thermoprinting module, a large number of printing stock is placed at the feeding module, the feeding module conveys the printing stock to the thermoprinting module one by one, and the specific structure of the feeding module is designed according to the types of the printing stock due to different shapes of the various types of the printing stock.

The existing gilding press has the following defects:

firstly, gilding press does not possess "not shut down material loading" function, and the loading attachment once just has transported the storable material after promptly, must reset, and some even need disassemble loading attachment just can place next batch material, and in this period, gilding press is stop operating condition, consequently the material loading inefficiency directly reduces gilding press overall work efficiency.

Secondly, in order to reduce the whole transverse occupied area, the whole space of the stamping machine is reduced to the greatest extent possible, so that a turntable is selected as a main feeding mechanism for receiving materials conveyed by a feeding device and delivering the materials to a stamping station for stamping. The stress points of the turntable are mainly distributed in the middle part of the turntable (the linkage part with the power output mechanism) and the pressing and hot stamping working part of the hot press on the periphery of the turntable, so that the turntable is easy to incline and incline, the turntable is unstable in working, and the risk of incline and incline exists in working.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a stamping machine with a non-stop feeding function aiming at the defects of the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a gilding press that possesses non-stop material loading function, includes frame and rotatable carousel of installing in the frame, carousel one end is equipped with loading attachment, the other end is equipped with thermoprint pushing mechanism, be equipped with between carousel and the loading attachment and deliver the feeding tongs mechanism on the carousel with the material in the loading attachment, carousel one side is equipped with ejection of compact platform, be equipped with a plurality of groups blowing bottom plate on the carousel, a serial communication port, loading attachment includes loading frame and a plurality of group's blowing subassembly of installing on loading frame, be equipped with slide mechanism between loading frame and the frame, slide mechanism includes fixed mounting in the first slide rail in the frame, loading frame bottom linkage has first slider, but first slider and first slide rail sliding connection, loading frame bottom linkage has first cylinder, first cylinder and first slide rail axis parallel arrangement and first cylinder one end fixed mounting in the frame.

By adopting the technical scheme, the gilding press has the function of replacing materials without stopping, at least two groups of discharging assemblies are arranged, after one group of discharging assemblies discharge materials, the next group of discharging assemblies can be moved to a feeding position by utilizing the sliding mechanism to replace the discharging assemblies discharging materials, and then the materials are placed in the discharging assemblies discharging materials before being discharged, so that the next replacement is facilitated, the discharging materials do not need to be stopped, the working efficiency of the whole gilding press is improved, the gilding press can be used in small batches, and mass production can be realized without stopping.

Foretell gilding press that possesses non-stop material loading function can further set up to: the discharging assembly comprises a discharging plate, one side of the discharging plate is connected with a supporting fixing plate, the supporting fixing plate is linked with a conveying belt, the conveying belt is linked with a belt pulley, the belt pulley is linked with a motor, two ends of the supporting fixing plate are respectively linked with a second sliding block, the second sliding blocks are slidably connected with second sliding rails, and the second sliding rails are axially arranged along the direction perpendicular to the first sliding rails.

By adopting the technical scheme, the motor drives the conveying belt to move through the belt pulley, and then the conveying belt drives the discharging plate to lift, so that feeding can be stably realized, the feeding device has the characteristic of stable feeding, the speed can be changed according to actual requirements, and the rotating speed can be regulated, or the servo motor can be directly adopted.

Foretell gilding press that possesses non-stop material loading function can further set up to: the four sides of the discharging plate are respectively provided with a left limit column, a right limit column, a front limit column and a rear limit column, the left limit column and the right limit column are oppositely arranged and distributed on the left side and the right side, and the front limit column and the rear limit column are oppositely arranged and distributed on the front side and the rear side; the feeding frame is provided with a third sliding rail which is distributed on a plane formed by the central lines of the left limit column and the right limit column, the lower end of the left limit column is detachably and fixedly connected with a left flange bottom plate, the lower end of the right limit column is detachably and fixedly connected with a right flange bottom plate, and the left flange bottom plate and the right flange bottom plate are detachably and fixedly connected with the third sliding rail respectively; a fourth sliding rail which is distributed along the direction vertical to the axis of the third sliding rail is arranged at one side of the third sliding rail, the lower end of the front limit post is detachably and fixedly connected with a front flange bottom plate, the front flange bottom plate is detachably and fixedly connected with the fourth sliding rail, the lower end of the rear limit post can be detachably and fixedly connected with a rear flange bottom plate, the rear flange bottom plate can be detachably and fixedly connected with a fifth sliding rail, and the fifth sliding rail and the fourth sliding rail are mutually parallel.

By adopting the technical scheme, the left limit column, the right limit column, the front limit column and the rear limit column are used for limiting the material of the material discharging plate, so that the material is prevented from being separated from the material discharging plate or deflected in the material feeding process; further, the materials to be assembled are placed on the materials, the positions of the left limit post, the right limit post and the front limit post are adjusted, when the left limit post and the right limit post are adjusted, the left limit bottom plate and the right limit bottom plate are changed to be fixedly connected with the third slide rail after being positioned at the third slide rail, the third slide rail is used for guiding the left limit bottom plate and the right limit bottom plate in a moving way, the front limit post is adjusted, the relative positions of the front limit bottom plate and the fourth slide rail are changed, the front limit bottom plate and the fourth slide rail are fixedly connected, the fourth slide rail is used for guiding the front limit bottom plate in a moving way, the front limit bottom plate is greatly convenient to adjust, the fifth slide rail and the rear limit bottom plate are additionally arranged, when the initial position is convenient, the rear limit post is adjusted and positioned, the position of the discharging plate corresponds to the feeding position, the fifth slide rail is used for guiding the rear limit bottom plate in a moving way, and the front limit bottom plate is greatly convenient to adjust.

Foretell gilding press that possesses non-stop material loading function can further set up to: the blanking plate is provided with the flange groove that is pegged graft with left spacing post, right spacing post, preceding spacing post, back spacing post activity respectively all around, the flange groove is the opening form towards the blanking plate outside, support the fixed plate both sides and fixedly be equipped with the layer board bracing piece respectively, both sides are equipped with respectively around the blanking plate with layer board bracing piece complex hem, layer board bracing piece tip extends until can seal up flange groove opening far away towards.

By adopting the technical scheme, the supporting plate supporting rod has three functions, namely, the connecting strength of the supporting plate and the supporting and fixing plate is increased, so that the discharging plate can more stably lift along with the supporting and fixing plate; secondly, the structural strength of the discharging plate is increased, the deformation is delayed, and more materials can be loaded; thirdly, the front limit column and the rear limit column are further limited, and the front limit column, the rear limit column and the discharging plate are prevented from shaking in the feeding and lifting process of the discharging plate.

Foretell gilding press that possesses non-stop material loading function can further set up to: and the two sides of the feeding frame are provided with oil pressure buffers arranged on the stand.

By adopting the technical scheme, after the material discharging assembly is moved in the process of replacing materials without stopping, the feeding frame is stopped effectively and balanced, the feeding frame is prevented from rigid impact with two sides of the frame after transversely moving, the feeding frame is protected, and vibration and noise of the feeding frame after moving to two sides can be further reduced.

Foretell gilding press that possesses non-stop material loading function can further set up to: a force bearing mechanism which is arranged opposite to the thermoprinting pressing mechanism and supports the rotary table during thermoprinting operation is arranged below the rotary table; the bearing mechanism comprises a bearing plate and a lifting slide shaft linked with the bearing plate, a supporting column is slidably matched with the periphery of the lifting slide shaft, a slide hole is formed in the side wall of the supporting column along the direction perpendicular to the central axis of the lifting slide shaft, a third slide block is slidably matched with the slide hole, a first inclined plane is arranged on the third slide block, a second cylinder is linked with the end portion of the third slide block, and a second inclined plane matched with the first inclined plane in a sliding manner is arranged at the lower end of the lifting slide shaft.

By adopting the technical scheme, when the thermoprinting work is carried out, the bearing mechanism supports the turntable with upward force relative to the thermoprinting pressing mechanism, the pressing force of the thermoprinting pressing mechanism to the turntable is balanced, the condition that the turntable is inclined and deflected is avoided, the working stability of the turntable is improved, and in the process of rotating and conveying materials of the turntable, the bearing mechanism does not influence the turntable and does not scratch the lower bottom surface of the turntable; furthermore, the bearing plate is selected to support the turntable, the acting area of the supporting force is enlarged, the turntable can be balanced with the lower pressure of the hot stamping pressing mechanism better, the unbalance condition of the turntable can not occur, the bearing plate is easier to adjust the stress position, and the turntable can be helped to achieve the stress balance without higher accuracy; further, compared with a mode that the cylinder is directly used for controlling the lifting of the lifting slide shaft, the transmission mode of the sliding block, the second cylinder, the first inclined plane and the second inclined plane is utilized, the structure modes of the second cylinder and the sliding block at the first inclined plane and the second inclined plane are transversely distributed on one side of the lifting slide shaft, the volume of the bearing mechanism is shortened as much as possible along the axial direction, the transverse space is reasonably utilized, and the structural burden of the bearing mechanism is not increased; the third sliding block slides in the sliding hole under the pushing of the second air cylinder, namely, the position of the first inclined plane is changed, the first inclined plane further pushes the second inclined plane, namely, the lifting sliding shaft slides along the axial direction of the second inclined plane, and the lifting of the bearing plate is controlled.

Foretell gilding press that possesses non-stop material loading function can further set up to: the bearing mechanism further comprises a plurality of groups of jacking blocks which are distributed around the bearing plate at intervals, and bearing adjusting plates which are distributed below the bearing plate and are detachably and fixedly connected with the bearing plate, a group of mounting holes matched with the jacking block shaft holes are formed in the bearing plate corresponding to each group of jacking blocks, and a group of adjusting bolts which are mounted on the bearing adjusting plates are arranged below each group of jacking blocks.

By adopting the technical scheme, the plurality of groups of jacking blocks replace the bearing plate to support the turntable, so that the influence caused by machining errors or installation errors can be reduced, and the lower surface of the turntable does not need to be discharged, so that the surface roughness value of the lower surface of the turntable is higher than that of the upper surface of the turntable (the higher the roughness value is, the rougher the surface is), the bearing plate can possibly have a state that the surface is not fully contacted with the lower surface of the turntable, the jacking blocks and the adjusting bolts are arranged, the positions of the jacking blocks are changed by utilizing the adjusting bolts until each jacking block keeps the state of being contacted with the lower surface of the turntable when the force bearing mechanism works, the support of the turntable can be realized more stably, and the working stability of the turntable is higher; further, the bearing plate is used for installing an adjusting bolt so that the adjusting bolt can adjust the position of the top block.

Foretell gilding press that possesses non-stop material loading function can further set up to: and a linear bearing is arranged between the stay bar and the lifting sliding shaft.

By adopting the technical scheme, the linear bearing can realize the action that the lifting sliding shaft slides along the axial direction of the linear bearing and drive the lifting sliding shaft to rotate in the supporting column, so that the second inclined plane and the first inclined plane at the lower end of the lifting sliding shaft are in a normal working connection state during installation, and the assembly is convenient.

Foretell gilding press that possesses non-stop material loading function can further set up to: a feeding centering mechanism distributed below the feeding gripper mechanism is arranged between the turntable and the feeding device; the feeding centering mechanism comprises a centering material base plate, a group of first centering plates are respectively arranged around the centering material base plate, a third cylinder is linked with the first centering plates, and a group of yielding grooves which can be penetrated by the first centering plates in a sliding manner are respectively arranged on the centering material base plate corresponding to each group of first centering plates.

Due to the reasons of processing, design and the like, when the feeding gripper mechanism grabs materials, the contact point of the feeding gripper mechanism and each material cannot be guaranteed to be the same fixed point on the materials, then the feeding gripper mechanism is difficult to accurately place the materials at the specified position on the turntable, if the function is to be achieved, a more intelligent, more complex and higher-cost manipulator is needed, and the manipulator is more burdened for manufacturers, the feeding centering mechanism is arranged, after the feeding centering mechanism clamps the materials from the feeding device, the materials can be directly placed at the centering material pad to perform centering positioning, so that when the feeding centering mechanism clamps the materials again and then sends the materials into the turntable, the contact point of the feeding gripper mechanism for grabbing each material can be guaranteed to be the same fixed point on the materials, and then the feeding gripper mechanism can accurately place the materials at the specified position on the turntable. Further, by arranging the abdication groove, the moving position of the first middle plate is enlarged, so that the device can adapt to materials with more specifications; principle of a feeding centering mechanism: and each third cylinder pushes the first centering plate in linkage respectively, and the material receives the force from the periphery and moves the position until the position is centered.

Foretell gilding press that possesses non-stop material loading function can further set up to: a blanking centering mechanism is arranged on the discharging platform; the blanking centering mechanism comprises a receiving seat plate, a blanking port is arranged in the middle of the receiving seat plate, a sliding plate which is arranged on the receiving seat plate and can control the blanking port to be opened and closed is arranged at the blanking port, a group of second centering plates are respectively arranged around the blanking port, and a fourth cylinder is linked with the second centering plates.

By adopting the technical scheme, the hot stamping device not only has the function of centering the hot stamped materials, but also has the function of stacking the materials, and the stacked materials are tidy and uniform; the opening plate can be controlled to slide relative to the material receiving seat plate in a cylinder pushing mode, so that the opening and closing of the material discharging opening are controlled; principle of blanking and centering mechanism: after the material moves to the blanking mouth (at this time, the opening plate is positioned at the blanking mouth, the blanking mouth is in a closed state), each fourth cylinder pushes the second centering plate to move to position the material, the rear opening plate withdraws from the blanking mouth, the material falls down and stacks in sequence until the stacked material is stacked to a certain amount, and the stacked material is taken away.

The utility model is described in further detail below with reference to the drawings and examples.

Drawings

FIG. 1 is an isometric schematic view of an embodiment of the present utility model;

FIG. 2 is a schematic left-hand view of an embodiment of the present utility model;

FIG. 3 is a schematic top view of an embodiment of the present utility model;

FIG. 4 is a schematic view of a feed centering mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a blanking and centering mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic front view of a feeding device according to an embodiment of the present utility model;

fig. 7 is a schematic bottom view of a feeding device according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of a portion of a discharging assembly according to an embodiment of the present utility model;

FIG. 9 is a schematic diagram II of a discharging price group part structure according to an embodiment of the present utility model;

fig. 10 is a schematic diagram illustrating an assembled state of a force-bearing mechanism, a turntable, and a thermoprinting pressing mechanism according to an embodiment of the present utility model

FIG. 11 is an exploded view of a force bearing mechanism according to an embodiment of the present utility model;

fig. 12 is an assembled state schematic diagram of a force bearing mechanism according to an embodiment of the utility model.

Reference numerals notes: the feeding device 1, the feeding frame 11, the feeding assembly 12, the feeding plate 121, the flange groove 1211, the supporting and fixing plate 122, the conveying belt 123, the motor 124, the second sliding block 125, the second sliding rail 126, the left limiting column 127, the right limiting column 128, the supporting plate supporting rod 129, the front limiting column 12-1, the rear limiting column 12-2, the third sliding rail 12-3, the left flange bottom plate 12-4, the right flange bottom plate 12-5, the front flange bottom plate 12-6, the fourth sliding rail 12-7, the rear flange bottom plate 12-8 and the fifth sliding rail 12-9; the first slide rail 13, the first slide block 14, the first cylinder 15 and the hydraulic buffer 16; a feeding gripper mechanism 2; the feeding centering mechanism 3, the centering material backing plate 31, the abdication groove 311, the first centering plate 32 and the third cylinder 33; a turntable 4 and a discharging bottom plate 41; a thermoprinting pressing mechanism 5 and a discharging platform 6; the blanking centering mechanism 7, the material receiving seat plate 71, the blanking port 711, the second centering plate 72, the fourth cylinder 73 and the opening plate 74; a frame 8; the bearing mechanism 9, the bearing plate 91, the mounting hole 911, the lifting slide shaft 92, the second inclined plane 921, the supporting column 93, the slide hole 931, the third slide block 94, the first inclined plane 941, the second cylinder 95, the top block 96, the bearing adjusting plate 97, the adjusting bolt 98 and the linear bearing 99.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The gilding press that possesses non-stop material loading function as shown in fig. 1 through 12, including frame 8 and rotatable carousel 4 of installing in frame 8, carousel 4 one end is equipped with loading attachment 1, the other end is equipped with thermoprint pushing mechanism 5, be equipped with between carousel 4 and the loading attachment 1 with the interior material of loading attachment 1 delivery to the feeding tongs mechanism 2 on the carousel 4, carousel 4 one side is equipped with ejection of compact platform 6, be equipped with 4 sets of blowing bottom plates 41 on the carousel 4, loading attachment 1 includes feeding frame 11 and 2 sets of blowing assemblies 12 of installing on feeding frame 11, be equipped with slide mechanism between feeding frame 11 and the frame 8, slide mechanism includes the first slide rail 13 of fixed mounting in frame 8, feeding frame 11 bottom linkage has first slider 14, but first slider 14 and first slide rail 13 sliding connection, feeding frame 11 bottom linkage has first cylinder 15, first cylinder 15 and first slide rail 13 axis parallel arrangement and first cylinder 15 one end fixed mounting in frame 8. Through setting up two sets of blowing subassemblies 12, every time after one set of blowing subassembly 12 has put the material, utilize slide mechanism can remove next set of blowing subassembly 12 to the pay-off position, replace the blowing subassembly 12 of blowing, then in the blowing subassembly 12 of blowing before putting into the material to change next time, need not to shut down the blowing, promote complete machine work efficiency, not only small batch usable, also can not shut down production in batches.

The discharging assembly 12 comprises a discharging plate 121, a supporting and fixing plate 122 is connected to one side of the discharging plate 121, a conveying belt 123 is linked to the supporting and fixing plate 122, a belt pulley is linked to the conveying belt 123, a motor 124 is linked to the belt pulley, second sliding blocks 125 are respectively linked to two ends of the supporting and fixing plate 122, second sliding blocks 125 are slidably connected with second sliding rails 126, and the second sliding rails 126 are axially arranged along directions perpendicular to the first sliding rails 13. The motor 124 drives the conveying belt 123 to move through the belt pulley, and then the conveying belt 123 drives the discharging plate 121 to lift, so that feeding can be stably realized, the feeding is stable, the speed can be changed according to actual requirements, and the rotating speed can be regulated, or the servo motor 124 can be directly adopted.

The periphery of the discharging plate 121 is provided with a left limit column 127, a right limit column 128, a front limit column 12-1 and a rear limit column 12-2 respectively, the left limit column 127 and the right limit column 128 are oppositely arranged and distributed on the left side and the right side, and the front limit column 12-1 and the rear limit column 12-2 are oppositely arranged and distributed on the front side and the rear side; the feeding frame 11 is provided with a third sliding rail 12-3, the third sliding rail 12-3 is distributed on a plane formed by the central lines of a left limit column 127 and a right limit column 128, the lower end of the left limit column 127 is detachably and fixedly connected with a left flange bottom plate 12-4, the lower end of the right limit column 128 is detachably and fixedly connected with a right flange bottom plate 12-5, and the left flange bottom plate 12-4 and the right flange bottom plate 12-5 are respectively and detachably and fixedly connected with the third sliding rail 12-3; the third slide rail 12-3 one side is equipped with along the fourth slide rail 12-7 that the direction distributes of perpendicular to self axis, preceding limit post 12-1 lower extreme can dismantle fixedly connected with front flange bottom plate 12-6, front flange bottom plate 12-6 can dismantle fixedly connected with fourth slide rail 12-7, back limit post 12-2 lower extreme can dismantle fixedly connected with back flange bottom plate 12-8, back flange bottom plate 12-8 can dismantle fixedly connected with fifth slide rail 12-9, fifth slide rail 12-9 and fourth slide rail 12-7 are parallel arrangement each other. The left limiting column 127, the right limiting column 128, the front limiting column 12-1 and the rear limiting column 12-2 are used for limiting the material of the discharging plate 121, so that the material is prevented from being separated from the discharging plate 121 or deflected in the feeding process; further, the materials to be installed are placed on the materials, the positions of the left limit post 127, the right limit post 128 and the front limit post 12-1 are adjusted, when the left limit post 127 and the right limit post 128 are adjusted, the positions of the left limit bottom plate 12-4 and the right limit bottom plate 12-5 are changed, after the positions of the third slide rail 12-3 are changed, the left limit bottom plate 12-4 and the right limit bottom plate 12-5 are fixedly connected with the third slide rail 12-3, the third slide rail 12-3 is used for guiding movement of the left limit bottom plate 12-4 and the right limit bottom plate 12-5, when the front limit post 12-1 is adjusted, the relative positions of the front limit bottom plate 12-6 and the fourth slide rail 12-7 are changed, the front limit bottom plate 12-6 and the fourth slide rail 12-7 are fixedly connected, the front limit bottom plate 12-6 is used for guiding movement, the fifth slide rail 12-9 and the rear limit bottom plate 12-8 are additionally arranged, when the initial positions are convenient, the rear limit post 12-2 is used for adjusting, namely the position of the front limit bottom plate is changed, and the position is convenient to be adjusted, and the position is corresponding to the fifth slide rail 12-9.

The blanking plate 121 is provided with a flange groove 1211 around which the left limit post 127, the right limit post 128, the front limit post 12-1 and the rear limit post 12-2 are movably inserted, the flange groove 1211 is opened towards the outside of the blanking plate 121, two sides of the supporting and fixing plate 122 are respectively fixedly provided with a supporting plate supporting rod 129, two sides of the front and rear sides of the blanking plate 121 are respectively provided with a folded edge matched with the supporting plate supporting rods 129, and the end part of the supporting plate supporting rod 129 extends towards a far distance until the opening of the flange groove 1211 can be blocked. The pallet support rod 129 has three functions, namely, the connection strength of the pallet support plate and the support fixing plate 122 is increased, so that the discharging plate 121 can more stably lift along with the support fixing plate 122; secondly, the structural strength of the discharging plate 121 is increased, the deformation is delayed, and more materials can be loaded; thirdly, the front limiting column 12-1 and the rear limiting column 12-2 are further limited, and the front limiting column 12-1, the rear limiting column 12-2 and the discharging plate 121 are prevented from shaking in the feeding and lifting process of the discharging plate 121.

The two sides of the feeding frame 11 are provided with hydraulic buffers 16 which are arranged on the stand 8. In the process of replacing materials without stopping, after the discharging assembly 12 is moved, the feeding frame 11 is balanced and effectively stopped, rigid impact between the feeding frame 11 and two sides of the frame 8 after transverse movement is avoided, the feeding frame 11 is protected, and vibration and noise of the feeding frame 11 after moving to two sides can be further reduced.

A bearing mechanism 9 which is arranged opposite to the thermoprinting pressing mechanism 5 and supports the rotary table 4 when thermoprinting is performed is arranged below the rotary table 4; the bearing mechanism 9 comprises a bearing plate 91 and a lifting slide shaft 92 linked with the bearing plate 91, a supporting column 93 is slidably matched with the periphery of the lifting slide shaft 92, a sliding hole 931 arranged along the direction perpendicular to the central axis of the lifting slide shaft 92 is formed in the side wall of the supporting column 93, a third sliding block 94 is slidably matched with the sliding hole 931, a first inclined plane 941 is arranged on the third sliding block 94, a second cylinder 95 is linked with the end portion of the third sliding block, and a second inclined plane 921 is arranged at the lower end of the lifting slide shaft 92 and is slidably matched with the first inclined plane 941. When the thermoprinting work is carried out, the force bearing mechanism 9 carries out upward force support on the turntable 4 relative to the thermoprinting pressing mechanism 5, the pressing force of the thermoprinting pressing mechanism 5 on the turntable 4 is balanced, the condition that the turntable 4 is inclined and deflected is avoided, the working stability of the turntable 4 is improved, and in the process of rotating and conveying materials by the turntable 4, the force bearing mechanism 9 does not influence the turntable 4 and does not scratch the lower bottom surface of the turntable 4; further, the bearing plate 91 is selected to support the turntable 4, so that the acting area of the supporting force is enlarged, the turntable 4 can be balanced with the downward pressure of the hot stamping downward pressure mechanism 5 better, unbalance of the turntable 4 can not occur, the bearing plate 91 can adjust the stressed position more easily, and the turntable 4 can be helped to achieve stressed balance without higher accuracy; further, compared with the transmission mode of directly adopting the cylinder to control the lifting of the lifting slide shaft, the transmission mode of the slide block, the second cylinder 95, the first inclined plane 941 and the second inclined plane 921 is utilized, the structure modes of the second cylinder 95 and the slide block on the first inclined plane 941 and the second inclined plane 921 are transversely distributed on one side of the lifting slide shaft 92, the volume of the bearing mechanism 9 is shortened as much as possible along the axial direction, the transverse space is reasonably utilized, and the structural load of the bearing mechanism 9 is not increased; the third slider 94 slides in the sliding hole 931 under the pushing of the second cylinder 95, that is, the position of the first inclined surface 941 is changed, and the first inclined surface 941 further pushes the second inclined surface 921, that is, the lifting slide shaft 92 to slide along the axial direction thereof, so as to control the lifting of the bearing plate 91.

The bearing mechanism 9 further comprises 4 groups of jacking blocks 96 distributed around the bearing plate 91 at intervals, and a bearing adjusting plate 97 distributed below the bearing plate 91 and detachably and fixedly connected with the bearing plate 91, wherein the bearing plate 91 is provided with a group of mounting holes 911 matched with shaft holes of the jacking blocks 96 corresponding to each group of jacking blocks 96, and a group of adjusting bolts 98 mounted on the bearing adjusting plate 97 are arranged below each group of jacking blocks 96. The 4 groups of top blocks 96 replace the bearing plate 91 to support the turntable 4, so that the influence caused by machining errors or installation errors can be reduced, and the lower surface of the turntable 4 does not need to be discharged, so that the surface roughness value of the lower surface of the turntable 4 is higher than that of the upper surface of the turntable 4 (the higher the roughness value is, the rougher the surface is), the bearing plate 91 possibly has a state that the surface is not fully contacted with the lower surface of the turntable 4, the top blocks 96 and the adjusting bolts 98 are arranged, the positions of the top blocks 96 are changed by the adjusting bolts 98 until each top block 96 keeps the state of being contacted with the lower surface of the turntable 4 when the force bearing mechanism 9 works, the support of the turntable 4 can be realized more stably, and the working stability of the turntable 4 is higher; further, the bearing plate 91 is used for mounting an adjusting bolt 98, so that the adjusting bolt 98 adjusts the position of the top block 96.

A linear bearing 99 is arranged between the supporting column 93 and the lifting sliding shaft 92. The linear bearing 99 can realize the sliding motion of the lifting slide shaft 92 along the axial direction of the linear bearing, and can drive the lifting slide shaft 92 to rotate in the supporting column 93, so that the second inclined plane 921 and the first inclined plane 941 at the lower end of the lifting slide shaft 92 are in a normal working connection state during installation, and the assembly is convenient.

A feeding centering mechanism 3 distributed below the feeding gripper mechanism 2 is arranged between the turntable 4 and the feeding device 1; the feeding centering mechanism 3 comprises a centering material base plate 31, a group of first centering plates 32 are respectively arranged around the centering material base plate 31, a third air cylinder 33 is linked with the first centering plates 32, and a group of yielding grooves 311 which can be penetrated by the first centering plates 32 in a sliding manner are respectively arranged on the centering material base plate 31 corresponding to each group of first centering plates 32. For reasons of processing, design and the like, when the feeding gripper mechanism 2 grips materials, the contact point between the feeding gripper mechanism 2 and each material cannot be guaranteed to be the same fixed point on the material, and then the feeding gripper mechanism 2 is difficult to accurately place the materials in the specified position on the turntable 4, if the function is to be realized, a more intelligent, more complex and more costly manipulator is required, and the burden is high for manufacturers. The feeding centering mechanism 3 is arranged, after the feeding centering mechanism 3 clamps materials from the feeding device 1, the materials can be directly placed into the centering material base plate 31 for centering and positioning, so that when the feeding centering mechanism 3 clamps the materials again and then sends the materials into the turntable 4, the contact points of the materials grabbed by the feeding gripper mechanism 2 can be ensured to be the same fixed point on the materials, and then the feeding gripper mechanism 2 can accurately place the materials into the specified position on the turntable 4; further, by arranging the relief groove 311, the moving position of the first middle plate 32 is enlarged, so that the material with more specifications can be adapted; feed centering mechanism 3 principle: each third cylinder 33 pushes the first centering plate 32 which is linked respectively, and the material receives the force from the periphery and moves the position until the position is centered.

A blanking centering mechanism 7 is arranged on the discharging platform 6; the blanking centering mechanism 7 comprises a receiving seat plate 71, a blanking port 711 is arranged in the middle of the receiving seat plate 71, an opening plate 74 which is slidably mounted on the receiving seat plate 71 and can control the blanking port 711 to be opened and closed is arranged at the blanking port 711, a group of second centering plates 72 are respectively arranged around the blanking port 711, and a fourth cylinder 73 is linked with the second centering plates 72. Not only can the material after the thermoprinting is centered, but also the material stacking function is realized, and the stacked materials are neat and uniform; wherein, the opening plate 74 can be controlled to slide relative to the material receiving seat plate 71 in a cylinder pushing mode, thereby realizing the control of opening and closing of the material discharging port 711; blanking centering mechanism 7 principle: after the materials move to the blanking port 711 (at this time, the opening plate 74 is located at the blanking port 711, the blanking port 711 is in a closed state), each fourth air cylinder 73 pushes the second centering plate 72 to move to position the materials, the rear opening plate 74 withdraws from the blanking port 711, the materials fall down and are stacked in sequence until a certain number of stacked materials are stacked, and the stacked materials are taken out.

The working principle of the specific embodiment is as follows: the feeding assembly 12 stably and orderly moves upwards to feed under the action of the motor 124 and the conveying belt 123, the feeding gripper mechanism 2 sequentially clamps materials, the materials firstly move to the feeding centering mechanism 3, the feeding centering mechanism 3 positions the materials, the feeding gripper mechanism 2 clamps the materials again and delivers the materials to the turntable 4, the turntable 4 sequentially conveys the materials to the position below the thermoprinting pressing mechanism 5 to carry out thermoprinting, and during thermoprinting, the force-bearing mechanism 9 lifts the turntable 4 to support the turntable 4 to generate force opposite to the thermoprinting pressing mechanism 5, so that the stress of the turntable 4 is balanced, the turntable 4 is prevented from toppling and deflecting, and the working stability and accuracy of the turntable 4 are improved; after thermoprinting is finished, the materials are moved to the discharging platform 6, the blanking centering mechanism 7 sequentially positions the materials, the materials can be stacked, and finally the materials are taken away.

The following expansions are made for the feed centering mechanism 3: the feeding gripper mechanism 2 can clamp and position the materials for a single time and then send the materials to the rotary table 4; the feeding gripper mechanism 2 can clamp materials for multiple times, and then after the multi-layer materials are stacked and positioned at the feeding centering mechanism 3, the multi-layer materials are moved to the rotary table 4 by the feeding gripper mechanism 2. Both of these two working forms can be realized by the feed centering mechanism 3 provided in the present embodiment, and can be manually and selectively operated according to actual conditions.

The embodiment has the following advantages:

the gilding press possesses the function of reloading without stopping, through setting up two sets of blowing subassemblies 12, after each time a set of blowing subassembly 12 has been put the material, utilize slide mechanism can remove next set of blowing subassembly 12 to the pay-off position, replace the blowing subassembly 12 of blowing, then put the material in the blowing subassembly 12 of blowing before, in order to change next time, need not to stop the blowing, complete machine work efficiency is high, not only little batch can use, also can not stop production in batches.

And (II) when the thermoprinting work is carried out, the bearing mechanism 9 supports the turntable 4 with upward force relative to the thermoprinting pressing mechanism 5, balances the pressing force of the thermoprinting pressing mechanism 5 to the turntable 4, avoids the condition that the turntable 4 inclines and deflects, improves the working stability of the turntable 4, and in the process that the turntable 4 rotates to transport materials, the bearing mechanism 9 does not influence the turntable 4 and does not scratch the lower bottom surface of the turntable 4.

Claims (10)

1. Gilding press that possesses non-stop material loading function, including frame and rotatable carousel of installing in the frame, carousel one end is equipped with loading attachment, the other end is equipped with thermoprint pushing mechanism, be equipped with between carousel and the loading attachment and deliver the material in the loading attachment to the feeding tongs mechanism on the carousel, carousel one side is equipped with ejection of compact platform, be equipped with a plurality of groups blowing bottom plate on the carousel, its characterized in that: the feeding device comprises a feeding frame and a plurality of groups of discharging assemblies arranged on the feeding frame, a sliding mechanism is arranged between the feeding frame and the frame and comprises a first sliding rail fixedly arranged on the frame, a first sliding block is linked at the bottom of the feeding frame and is in sliding connection with the first sliding rail, a first cylinder is linked at the bottom of the feeding frame and is parallel to the axis of the first sliding rail, and one end of the first cylinder is fixedly arranged on the frame.

2. The stamping machine with the function of non-stop feeding according to claim 1, wherein: the discharging assembly comprises a discharging plate, one side of the discharging plate is connected with a supporting fixing plate, the supporting fixing plate is linked with a conveying belt, the conveying belt is linked with a belt pulley, the belt pulley is linked with a motor, two ends of the supporting fixing plate are respectively linked with a second sliding block, the second sliding blocks are slidably connected with second sliding rails, and the second sliding rails are axially arranged along the direction perpendicular to the first sliding rails.

3. The stamping machine with the function of non-stop feeding according to claim 2, wherein: the four sides of the discharging plate are respectively provided with a left limit column, a right limit column, a front limit column and a rear limit column, the left limit column and the right limit column are oppositely arranged and distributed on the left side and the right side, and the front limit column and the rear limit column are oppositely arranged and distributed on the front side and the rear side; the feeding frame is provided with a third sliding rail which is distributed on a plane formed by the central lines of the left limit column and the right limit column, the lower end of the left limit column is detachably and fixedly connected with a left flange bottom plate, the lower end of the right limit column is detachably and fixedly connected with a right flange bottom plate, and the left flange bottom plate and the right flange bottom plate are detachably and fixedly connected with the third sliding rail respectively; a fourth sliding rail which is distributed along the direction vertical to the axis of the third sliding rail is arranged at one side of the third sliding rail, the lower end of the front limit post is detachably and fixedly connected with a front flange bottom plate, the front flange bottom plate is detachably and fixedly connected with the fourth sliding rail, the lower end of the rear limit post can be detachably and fixedly connected with a rear flange bottom plate, the rear flange bottom plate can be detachably and fixedly connected with a fifth sliding rail, and the fifth sliding rail and the fourth sliding rail are mutually parallel.

4. A stamping machine with non-stop feeding function according to claim 3, characterized in that: the blanking plate is provided with the flange groove that is pegged graft with left spacing post, right spacing post, preceding spacing post, back spacing post activity respectively all around, the flange groove is the opening form towards the blanking plate outside, support the fixed plate both sides and fixedly be equipped with the layer board bracing piece respectively, both sides are equipped with respectively around the blanking plate with layer board bracing piece complex hem, layer board bracing piece tip extends until can seal up flange groove opening far away towards.

5. The stamping machine with the function of non-stop feeding according to claim 4, wherein: and the two sides of the feeding frame are provided with oil pressure buffers arranged on the stand.

6. The stamping machine with the function of non-stop feeding according to claim 1, wherein: a force bearing mechanism which is arranged opposite to the thermoprinting pressing mechanism and supports the rotary table during thermoprinting operation is arranged below the rotary table; the bearing mechanism comprises a bearing plate and a lifting slide shaft linked with the bearing plate, a supporting column is slidably matched with the periphery of the lifting slide shaft, a slide hole is formed in the side wall of the supporting column along the direction perpendicular to the central axis of the lifting slide shaft, a third slide block is slidably matched with the slide hole, a first inclined plane is arranged on the third slide block, a second cylinder is linked with the end portion of the third slide block, and a second inclined plane matched with the first inclined plane in a sliding manner is arranged at the lower end of the lifting slide shaft.

7. The stamping machine with the function of non-stop feeding according to claim 6, wherein: the bearing mechanism further comprises a plurality of groups of jacking blocks which are distributed around the bearing plate at intervals, and bearing adjusting plates which are distributed below the bearing plate and are detachably and fixedly connected with the bearing plate, a group of mounting holes matched with the jacking block shaft holes are formed in the bearing plate corresponding to each group of jacking blocks, and a group of adjusting bolts which are mounted on the bearing adjusting plates are arranged below each group of jacking blocks.

8. The stamping machine with the function of non-stop feeding according to claim 6, wherein: and a linear bearing is arranged between the stay bar and the lifting sliding shaft.

9. A stamping machine with non-stop feeding function according to any one of claims 1 to 8, characterized in that: a feeding centering mechanism distributed below the feeding gripper mechanism is arranged between the turntable and the feeding device; the feeding centering mechanism comprises a centering material base plate, a group of first centering plates are respectively arranged around the centering material base plate, a third cylinder is linked with the first centering plates, and a group of yielding grooves which can be penetrated by the first centering plates in a sliding manner are respectively arranged on the centering material base plate corresponding to each group of first centering plates.

10. A stamping machine with non-stop feeding function according to any one of claims 1 to 8, characterized in that: a blanking centering mechanism is arranged on the discharging platform; the blanking centering mechanism comprises a receiving seat plate, a blanking port is arranged in the middle of the receiving seat plate, a sliding plate which is arranged on the receiving seat plate and can control the blanking port to be opened and closed is arranged at the blanking port, a group of second centering plates are respectively arranged around the blanking port, and a fourth cylinder is linked with the second centering plates.