CN212219604U - Toy wheel gilding press - Google Patents

Abstract

The utility model relates to a toy equipment field, in particular to toy wheel gilding press. Including the organism, be equipped with the board on the organism, set up the vibration dish on the board and can realize the thermoprint device of gilt technology on toy wheel, be connected with the pay-off slide rail between vibration dish and the thermoprint device, the one end of the nearly thermoprint device of pay-off slide rail inserts in the thermoprint device and is connected with the discharge gate of thermoprint device, toy wheel has been placed in the vibration dish, the vibration dish conveys the toy wheel on the pay-off slide rail, toy wheel processes in landing to the thermoprint device along pay-off slide rail direction, and toy wheel after the processing passes through the discharge gate roll-off of thermoprint device. Through set up pay-off slide rail and thermoprint device on the board for automatic landing of toy wheel after the automatic sequencing is in the thermoprint device, and full automation is operated, not only improves production efficiency, also reduces manual operation, reduces artificial labourability.

Description

Toy wheel gilding press

[ technical field ] A method for producing a semiconductor device

The utility model relates to a toy equipment field, in particular to toy wheel gilding press.

[ background of the invention ]

The gold stamping process is used for printing the pattern of the electrochemical aluminum foil on the gold stamping film on a printing stock at a certain temperature and pressure, the pattern printed by the electrochemical aluminum foil presents strong metallic luster, is bright in color, never fades, has good ornamental value and is widely used in high-grade toys; for example, in the prior art, mostly, the toy wheel is placed on the workbench by a human hand, the human hand places the electrochemical aluminum foil paper on the toy wheel, and then the electrochemical aluminum foil paper is pressed by the heating head, so that the electrochemical aluminum foil is printed on the toy wheel. The technology has low efficiency, wastes the electrochemical aluminum foil paper and is not beneficial to production; moreover, the temperature of the heating head is high, and workers are easy to scald if careless during operation.

[ Utility model ] content

In order to overcome the problems, the utility model provides a full-automatic toy wheel stamping machine with fast processing speed, higher efficiency and lower labor cost investment for society.

To the aforesaid problem, the utility model discloses a following technical scheme:

the utility model provides a toy wheel gilding press, includes the organism, be equipped with the board on the organism, set up the vibration dish on the board and can realize the thermoprint device of gilt technology on the toy wheel, be connected with the pay-off slide rail between vibration dish and the thermoprint device, the one end of the nearly thermoprint device of pay-off slide rail inserts in the thermoprint device and is connected with the discharge gate of thermoprint device, the toy wheel has been placed in the vibration dish, the vibration dish conveys the toy wheel on the pay-off slide rail, the toy wheel is processed in landing to the thermoprint device along pay-off slide rail direction, and the toy wheel after the processing passes through the discharge gate roll-off of thermop.

Preferably, the thermoprint device includes the thermoprint base, sets up thermal transfer mechanism, paper feeding mechanism and the feed mechanism on the thermoprint base, feed mechanism sets up with thermal transfer mechanism opposition, the nearly feed mechanism's of pay-off slide rail one end and the feed mechanism are connected, paper feeding mechanism sets up between feed mechanism and thermal transfer mechanism, toy wheel processes in the feed mechanism along pay-off slide rail direction landing, and toy wheel after the processing passes through feed mechanism's discharge gate roll-off.

Preferably, heat-transfer seal mechanism includes the mounting bracket, sets up rendition cylinder and the head that generates heat on the mounting bracket, the head that generates heat is installed on the telescopic link of rendition cylinder, the overhead average distribution that generates heat has a plurality of high temperature silica gel heads, the rendition cylinder drives the overhead high temperature silica gel head that generates heat and does the back and forth movement.

Preferably, the paper feeding mechanism comprises a feeding winding wheel, a receiving winding wheel, a driving wheel, a driven wheel, a tensioning wheel and a belt, wherein gears meshed with the belt are arranged below the feeding winding wheel, the driving wheel, the tensioning wheel and the driven wheel, the driving wheel drives the driven wheel and the feeding winding wheel to rotate through the belt, the tensioning wheel drives the receiving winding wheel to rotate through the belt, thermal transfer paper is arranged on the feeding winding wheel and the receiving winding wheel, thermal transfer paper is arranged between the tensioning wheel and the driven wheel, and two ends of the thermal transfer paper are respectively connected with the feeding winding wheel and the receiving winding wheel.

Preferably, the feeding mechanism comprises a feeding block arranged on the hot stamping base, a pneumatic clamping mechanism, a discharging mechanism and a discharging mechanism, wherein the pneumatic clamping mechanism, the discharging mechanism and the discharging mechanism are arranged on the feeding block and used for clamping the thermal transfer paper, a trough is arranged on the feeding block, and the width of the trough exceeds the outer diameter of the toy wheel.

Preferably, the pneumatic clamping mechanism comprises a clamping cylinder arranged on the feeding block and a clamping frame movably arranged on the feeding block, 4 sliding columns penetrating through the feeding block are arranged on the clamping frame, a clamping plate used for clamping toy wheels is arranged at the free ends of the sliding columns, and the clamping cylinder pushes the clamping frame to move so as to drive the sliding columns to move back and forth.

Preferably, the discharging mechanism and the discharging mechanism both comprise a positioning cylinder and a positioning pin arranged on a piston rod of the positioning cylinder, the positioning pin is inserted into the feeding block and is abutted against the toy wheel, and the positioning cylinder pushes the piston rod to drive the positioning pin to move back and forth.

Preferably, 5 high-temperature silica gel heads are evenly distributed on the heating head.

Preferably, the thermal transfer paper is an electrochemical aluminum foil.

The utility model relates to a toy wheel gilding press's beneficial effect as follows:

the utility model discloses a toy wheel stamping machine realizes automatic sequencing by arranging a vibrating disk, thereby reducing manual operation; through set up pay-off slide rail and thermoprint device on the board for automatic landing of toy wheel after the automatic sequencing is in the thermoprint device, and full automation is operated, not only improves production efficiency, also reduces manual operation, reduces artificial labourability.

The conception, the specific structure and the effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

[ description of the drawings ]

Fig. 1 is a schematic top view of the utility model;

fig. 2 is a front view of the utility model;

a machine table 1; a vibrating disk 11; a feeding slide rail 12; a discharge port 13; a thermoprinting base 21; a mounting bracket 31; a transfer cylinder 32; a heating head 33; a high temperature silicone head 34; a feeding reel 41; a drive wheel 42; a driven pulley 43; a tension pulley 44; a belt 45; a thermal transfer paper 46; a material receiving winding wheel 47; a feeding block 51; a clamp cylinder 61; a clamping frame 62; a traveler 63; a clamping plate 64; a positioning cylinder 71; toy vehicle wheels 9.

[ detailed description ] embodiments

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases for those skilled in the art. In addition, in the description of the present invention, "a plurality" or "a plurality" means two or more unless otherwise specified.

Referring to fig. 1 to 2, fig. 1 to 2 show a preferred embodiment of an automatic assembling machine:

a toy wheel 9 stamping machine comprises a machine body, wherein a machine table 1, a vibration disc 11 arranged on the machine table 1 and a hot stamping device capable of realizing a stamping process on toy wheels 9 are arranged on the machine body, and a feeding slide rail 12 is connected between the vibration disc 11 and the hot stamping device; the best mode of the utility model is as follows: the hot stamping device comprises a hot stamping base 21, a thermal transfer mechanism, a paper feeding mechanism and a feeding mechanism, wherein the thermal transfer mechanism, the paper feeding mechanism and the feeding mechanism are arranged on the hot stamping base 21, the feeding mechanism and the thermal transfer mechanism are oppositely arranged, and one end of the feeding slide rail 12 close to the feeding mechanism is connected with the feeding mechanism. The paper feeding mechanism is arranged between the feeding mechanism and the thermal transfer printing mechanism, and the toy wheels 9 slide into the feeding mechanism along the direction of the feeding slide rail 12 to be processed.

Specifically, thermal transfer mechanism includes mounting bracket 31, sets up transfer cylinder 32 and the head 33 that generates heat on mounting bracket 31, the head 33 that generates heat is installed on transfer cylinder 32's telescopic link, it has a plurality of high temperature silica gel heads 34 to equally distribute on the head 33 that generates heat, transfer cylinder 32 drives the high temperature silica gel head 34 that generates heat on the head 33 and does the back and forth movement. In this embodiment, 5 high temperature silicone heads 34 are evenly distributed on the heating head 33. During operation, after toy wheel 9 fell to the feed mechanism, rendition cylinder 32 started, drove heating head 33 and moved to the feed mechanism direction, and 5 high temperature silica gel heads 34 moved to the feed mechanism direction along with heating head 33, through the heat-transfer seal to paper feeding mechanism, realized the thermoprint to toy wheel 9.

More specifically, the paper feeding mechanism comprises a feeding winding wheel 41, a receiving winding wheel 47, a driving wheel 42, a driven wheel 43, a tension wheel 44 and a belt 45, gears meshed with the belt 45 are arranged below the feeding winding wheel, the receiving winding wheel 47, the driving wheel 42, the tension wheel 44 and the driven wheel 43, the driving wheel 42 drives the driven wheel 43 and the feeding winding wheel 41 to rotate through the belt 45, the tension wheel 44 drives the receiving winding wheel 47 to rotate through the belt 45, and thermal transfer paper 46 is arranged on the feeding winding wheel 41 and the receiving winding wheel 47; in this embodiment, the thermal transfer paper 46 is an electrochemical aluminum foil. The thermal transfer paper 46 passes through a tension wheel 44 and a driven wheel 43, and both ends of the thermal transfer paper 46 are respectively connected with a feeding roller 41 and a receiving roller 47. During operation, high temperature silica gel head 34 realizes the hot pressing to thermal transfer paper 46, with electrochemical aluminium thermoprint on toy wheel 9, then action wheel 42 drives belt 45, drives from driving wheel 43 and the rotation of pay-off reel 41, and take-up pulley 44 drives through belt 45 and receives material reel 47 and rotate to realize that thermal transfer paper 46 rotates, hot pressing on next step.

More specifically, the feeding mechanism comprises a feeding block 51 arranged on the hot stamping base 21, and a pneumatic clamping mechanism, a discharging mechanism and a discharging mechanism which are arranged on the feeding block 51 and used for clamping the thermal transfer paper 46, wherein a trough is arranged on the feeding block 51, and the width of the trough exceeds the outer diameter of the toy wheel 9. The utility model discloses in, the width of silo is than the big 2mm of toy wheel 9 external diameter, and the easy landing of toy wheel 9 also makes things convenient for pneumatic clamping mechanism to press from both sides tightly to it.

More specifically, the pneumatic clamping mechanism comprises a clamping cylinder 61 arranged on the upper material block 51 and a clamping frame 62 movably arranged on the upper material block 51, wherein 4 sliding columns 63 penetrating through the upper material block 51 are arranged on the clamping frame 62, a clamping plate 64 used for clamping the toy wheels 9 is installed at the free end of each sliding column 63, and the clamping cylinder 61 pushes the clamping frame 62 to move so as to drive the sliding columns 63 to move back and forth. During operation, pay-off reel 41 and receipts material reel 47 drive heat transfer paper 46 and remove, and when heat transfer paper 46 removed suitable position, die clamping cylinder 61 promoted and presss from both sides tight 62, and tight 62 drive 4 travellers 63 and remove of pressing from both sides tight frame to make splint 64 and the toy wheel 9 of setting on traveller 63 contradict each other, thereby clip toy wheel 9.

More specifically, the discharging mechanism and the discharging mechanism both comprise a positioning cylinder 71 and a positioning pin arranged on a piston rod of the positioning cylinder 71, the positioning pin is inserted into the feeding block 51 and is abutted against the toy wheel 9, and the positioning cylinder 71 pushes the piston rod to drive the positioning pin to move back and forth. When the thermal transfer printing machine works, when thermal transfer printing is to be carried out, the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the material groove in the feeding block 51 and used for limiting the toy wheels 9 to fall down, and after 5 toy wheels 9 fall into the material groove, the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the material groove in the feeding block 51 and used for limiting the toy wheels 9 of the vibration disc 11 to continuously fall into the material groove; after the hot stamping is finished, the positioning cylinder 71 of the discharging mechanism resets to drive the positioning pin to withdraw from the trough, so that the processed toy wheel 9 falls into the collecting box through the discharging hole 13, then the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the trough in the feeding block 51, then the positioning cylinder 71 of the discharging mechanism resets to drive the positioning pin to withdraw from the feeding block 51, so that the toy wheel 9 of the vibrating disc 11 falls into the trough; after the toy wheel 9 finishes discharging, the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the trough in the feeding block 51, and the toy wheel 9 of the vibrating plate 11 is limited to continuously fall into the trough again.

The working steps of the utility model are as follows:

firstly, vibrating a vibrating disc 11 to shake toy wheels 9 into a feeding slide rail 12 in order, then sliding the toy wheels 9 into a trough in an upper material block 51 along the feeding slide rail 12, starting a positioning cylinder 71 of a discharging mechanism to push a positioning pin to be inserted into the trough in the upper material block 51 for limiting the toy wheels 9 to fall, and after 5 toy wheels 9 fall into the trough, starting the positioning cylinder 71 of the discharging mechanism to push the positioning pin to be inserted into the trough in the upper material block 51 for limiting the toy wheels 9 of the vibrating disc 11 to continuously fall into the trough; then the driving wheel 42 drives the belt 45 to drive the driven wheel 43 and the feeding winding wheel 41 to rotate, the tensioning wheel 44 drives the receiving winding wheel 47 to rotate through the belt 45, and the new electrochemical aluminum foil is dragged to be right below the high-temperature silicon rubber head 34; then the clamping cylinder 61 pushes the clamping frame 62, the clamping frame 62 drives the 4 sliding columns 63 to move, so that the clamping plates 64 arranged on the sliding columns 63 are abutted against the toy wheels 9, and the toy wheels 9 are clamped; then the transfer printing cylinder 32 is started to drive the heating head 33 to move towards the direction of the electrochemical aluminum foil, and the 5 high-temperature silica gel heads 34 move towards the direction of the electrochemical aluminum foil along with the heating head 33, so that the aluminum layer in the electrochemical aluminum is transferred to the toy wheel 9, and hot stamping is completed; finally, the positioning cylinder 71 of the discharging mechanism resets to drive the positioning pin to withdraw from the trough, so that the processed toy wheel 9 falls into the collecting box through the discharging hole 13, then the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the trough in the feeding block 51, then the positioning cylinder 71 of the discharging mechanism resets to drive the positioning pin to withdraw from the feeding block 51, so that the toy wheel 9 of the vibrating disc 11 falls into the trough; after the toy wheel 9 finishes discharging, the positioning cylinder 71 of the discharging mechanism is started to push the positioning pin to be inserted into the trough in the feeding block 51, the toy wheel 9 of the vibrating disc 11 is limited to continuously fall into the trough again, one-time processing is completed, and then the steps are repeated.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a toy wheel gilding press which characterized in that: including the organism, be equipped with board (1), set up vibration dish (11) on board (1) and can realize the thermoprint device of gilt technology on toy wheel (9) on the organism, be connected with pay-off slide rail (12) between vibration dish (11) and the thermoprint device, the one end of pay-off slide rail (12) nearly thermoprint device inserts in the thermoprint device and is connected with discharge gate (13) of thermoprint device, toy wheel (9) have been placed in vibration dish (11), vibration dish (11) convey toy wheel (9) on pay-off slide rail (12), toy wheel (9) are processed in following pay-off slide rail (12) direction landing to the thermoprint device, and toy wheel (9) after the processing pass through discharge gate (13) roll-off of thermoprint device.

2. The toy wheel bronzing machine of claim 1, wherein: thermoprinting device includes thermoprint base (21), sets up thermal transfer mechanism, paper feeding mechanism and the feed mechanism on thermoprint base (21), feed mechanism sets up with thermal transfer mechanism opposition, the one end and the feed mechanism of nearly feed mechanism of pay-off slide rail (12) are connected, paper feeding mechanism sets up between feed mechanism and thermal transfer mechanism, toy wheel (9) are processed in the feed mechanism along pay-off slide rail (12) direction landing, and toy wheel (9) after the processing are through feed mechanism's discharge gate (13) roll-off.

3. The toy wheel bronzing machine of claim 2, wherein: thermal transfer mechanism includes mounting bracket (31), sets up rendition cylinder (32) and the first (33) that generates heat on mounting bracket (31), the telescopic link at rendition cylinder (32) is installed in first (33) of generating heat, it has a plurality of high temperature silica gel heads (34) to evenly distribute on first (33) of generating heat, the back and forth movement is done in high temperature silica gel head (34) on rendition cylinder (32) drive first (33) of generating heat.

4. The toy wheel bronzing machine of claim 2, wherein: the paper feeding mechanism comprises a feeding winding wheel (41), a receiving winding wheel (47), a driving wheel (42), a driven wheel (43), a tension wheel (44) and a belt (45), gears meshed with the belt (45) are arranged below the feeding winding wheel (41), the receiving winding wheel (47), the driving wheel (42), the tension wheel (44) and the driven wheel (43), the driving wheel (42) drives the driven wheel (43) and the feeding winding wheel (41) to rotate through the belt (45), the tension wheel (44) drives the receiving winding wheel (47) to rotate through the belt (45), thermal transfer paper (46) is arranged on the feeding winding wheel (41) and the receiving winding wheel (47), thermal transfer paper (46) is arranged between the tension wheel (44) and the driven wheel (43), and two ends of the thermal transfer paper (46) are respectively connected with the feeding winding wheel (41) and the receiving winding wheel (47).

5. The toy wheel bronzing machine of claim 4, wherein: the feeding mechanism comprises a feeding block (51) arranged on the hot stamping base (21), and a pneumatic clamping mechanism, a discharging mechanism and a discharging mechanism which are arranged on the feeding block (51) and used for clamping the thermal transfer paper (46), wherein a trough is arranged on the feeding block (51), and the width of the trough exceeds the outer diameter of the toy wheel (9).

6. The toy wheel bronzing machine of claim 5, wherein: the pneumatic clamping mechanism comprises a clamping cylinder (61) arranged on the upper material block (51) and a clamping frame (62) movably arranged on the upper material block (51), wherein 4 sliding columns (63) penetrating through the upper material block (51) are arranged on the clamping frame (62), a clamping plate (64) used for clamping the toy wheels (9) is installed at the free end of each sliding column (63), and the clamping cylinder (61) pushes the clamping frame (62) to move so as to drive the sliding columns (63) to move back and forth.

7. The toy wheel bronzing machine of claim 5, wherein: the discharging mechanism and the discharging mechanism comprise a positioning cylinder (71) and a positioning needle arranged on a piston rod of the positioning cylinder (71), the positioning needle is inserted into the feeding block (51) and is abutted to the toy wheel (9), and the positioning cylinder (71) pushes the piston rod to drive the positioning needle to move back and forth.

8. The toy wheel bronzing machine of claim 3, wherein: 5 high-temperature silica gel heads (34) are evenly distributed on the heating head (33).

9. The toy wheel bronzing machine of claim 4, wherein: the thermal transfer paper (46) is an electrochemical aluminum foil.

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