CN115320234B - Silica gel cup sleeve heat transfer device - Google Patents

Abstract

The invention relates to a thermal transfer device, in particular to a thermal transfer device for a silica gel cup sleeve. Technical problems: the utility model provides a can reduce the risk, automatic even open silica gel cup cover and automatic heat transfer printing's silica gel cup cover heat transfer printing device. The utility model provides a silica gel cup sleeve heat transfer printing device, includes base, working plate, railing, motor, lacks tooth bull gear, first straight gear, first drive wheel, first axis of rotation, second drive wheel, second axis of rotation etc. fixed mounting has the working plate on the base, and the railing is installed to the interval on the working plate, installs the motor in upper left side of working plate, is connected with a lacks tooth bull gear on the output shaft of motor. The invention replaces manual work with machinery, can improve the working efficiency and the product quality, and simultaneously reduces the working risk; the cup sleeve placing mechanism can place and prop open the silica gel cup sleeve.

Description

Silica gel cup sleeve heat transfer device

Technical Field

The invention relates to a thermal transfer device, in particular to a thermal transfer device for a silica gel cup sleeve.

Background

At present, the thermal transfer of the silica gel cup sleeve needs to be manually operated, the cup sleeve is firstly propped up and then sleeved on a fixing frame, then the thermal transfer film is tightly pressed by two hands, then the thermal transfer machine is started, the thermal transfer machine is pressed down, the upper surface of the cup sleeve is pressed for one time through the thermal transfer film, the pattern on the thermal transfer film is thermally transferred onto the silica gel cup sleeve, and then the silica gel cup sleeve is manually taken out. The manual operation still has some shortcoming, and is comparatively slow when propping up the cover of silica gel cup cover to the mount, needs slowly to push inwards, needs the manual work to compress tightly the thermal transfer film in the time of the thermal transfer, and workman's both hands are nearer from the machine in the thermal transfer process, and misoperation will lead to burn scald etc..

To the above problem, it is desirable to design a silicone cup sleeve thermal transfer device that can reduce the risk, automatically open the silicone cup sleeve, automatically compress and perform thermal transfer.

Disclosure of Invention

In order to overcome the defect that when the silica gel cup sleeve is spread to be sleeved on the fixing frame, the silica gel cup sleeve needs to be pushed inwards slowly, a thermal transfer film needs to be pressed manually during thermal transfer, hands of workers are close to a machine during thermal transfer, and burn and scald are caused by misoperation, the technical problem is that: the utility model provides a can reduce the risk, automatic silica gel cup cover that struts, automatic compress tightly and carry out heat transfer printing device of silica gel cup cover.

A thermal transfer device for a silica gel cup sleeve comprises a base, a working plate, a railing, an annular track, a motor, a large straight gear with teeth, a first straight gear, a first driving wheel, a first rotating shaft, a second driving wheel, a second rotating shaft, a driving belt, a third driving wheel, a fourth driving wheel, a film printing recovery wheel, a thermal transfer film, a film printing placing wheel, a first shaft sleeve, a second shaft sleeve, a resistance connecting shaft, a cup sleeve placing mechanism and a pattern thermal transfer mechanism, wherein the working plate is fixedly arranged on the base, the railing is arranged on the working plate at intervals, the annular track is arranged on the inner side of the railing on the working plate, the motor is arranged above the left side of the working plate, an output shaft of the motor is connected with a large straight gear with teeth, the first rotating shaft and the second rotating shaft are arranged on the left side of the working plate, the first rotating shaft is fixedly connected with a first driving wheel, the front end of the first driving wheel is provided with the first straight gear, the first straight gear can be meshed with the large straight gear with the teeth, the second rotating shaft is provided with the second driving wheel, the front half part of the second rotating shaft is provided with the film printing recovery wheel, the film printing mechanism is arranged between the film printing wheel and the second rotating shaft, the first shaft sleeve is uniformly placed on the first shaft sleeve and the second rotating shaft sleeve, the pattern is uniformly arranged on the middle part between the first shaft sleeve and the second driving wheel, the first shaft is connected with the first shaft sleeve and the second rotating film is connected with the first rotating shaft, the first rotating sleeve is placed on the front surface of the first rotating mechanism, the first rotating sleeve is connected with the first rotating shaft and the first rotating sleeve, the resistance is connected with the first rotating film and the first rotating mechanism, and the first rotating sleeve is placed on the middle part is uniformly, and the middle part is connected with the front film and the front film. Is used for thermally transferring the pattern on the cup sleeve which is spread.

Optionally, cup sleeve placing mechanism is including fixed plate, slide, fixed block, first semicircle pillar, second semicircle pillar, spring and strut the mechanism, even cover has the fixed block on the drive belt, fixed block fixed mounting is on the fixed plate, the slide is still installed to the fixed plate rear side, fixed mounting has a first semicircle pillar on the fixed plate leading flank, two slides have been seted up on the fixed plate, sliding connection has the second semicircle pillar in the slide on the fixed plate, be fixed with the spring on the one side inner wall that is close to first semicircle pillar in the slide on the fixed plate, the spring other end is connected on the second semicircle pillar in the slide, strut the mechanism and install on fixed plate and slide.

Optionally, prop out mechanism including U-shaped plate, cross bull stick and dysmorphism support column, installs a U-shaped plate below the second drive wheel right side on the workstation, rotates on the slide and is connected with the dysmorphism support column, and the epaxial fixed plate of passing of dysmorphism support column is connected on the slide, and epaxial fixed plate of dysmorphism support column is connected with the cross bull stick in space department between slide and the fixed plate, can rotate the quarter circle when the cross bull stick passes through the U-shaped plate, struts first semi-cylinder and second semi-cylinder.

Optionally, pattern heat transfer mechanism is including placing the piece, the second straight-tooth wheel, the fourth axis of rotation, the dwang, the head rod, the second connecting rod, the mounting bracket, fifth axis of rotation and hot seal piece, the second drive wheel right side below the workstation left side is installed and is placed the piece, the top rotation of placing the piece in front of the workstation is connected with the fourth axis of rotation, fixedly connected with second straight-tooth wheel in the fourth axis of rotation, fourth axis of rotation foremost fixedly connected with dwang, the dwang opposite side articulates there is a head rod, the head rod other end articulates there is a second connecting rod, second connecting rod other end is fixed on the mounting bracket, the mounting bracket both sides are rotated respectively and are connected with a fifth axis of rotation, still install hot seal piece on the mounting bracket, the hot seal piece is prior art, pattern impression on the hot transfer film is to the silica gel cup cover through the heat transfer technique.

Optionally, a third rotation shaft is further included, and a third rotation shaft is installed at the position of each of the first semi-cylinder and the second semi-cylinder upper sleeve cup.

Optionally, still including L shape mount, L shape backing plate, slide bar, extension spring, carriage release lever, L shape dead lever and promotion sloping block, the base left side is fixed with L shape mount, sliding connection has two slide bars on the vertical wall of L shape mount, the extension spring is installed to two slide bar inboard on the L shape mount, the carriage release lever is installed on L shape backing plate with the extension spring other end, still install the carriage release lever on the L shape backing plate, fixedly connected with L shape dead lever on the mounting bracket, the promotion sloping block is installed to L shape dead lever opposite side.

Optionally, the device also comprises a discharging slope, and the middle part of the rightmost side of the workbench is provided with the discharging slope.

The beneficial effects are that: the invention replaces manual work with machinery, can improve the working efficiency and the product quality, and simultaneously reduces the working risk; the cup sleeve placing mechanism can place and prop up the silica gel cup sleeve, so that the time for manually prop up the cup sleeve is reduced; when in thermal transfer printing, the cup sleeve can be uniformly spread, the probability of pattern atrophy after the cup sleeve is loosened is reduced, and the product quality is improved; during thermal transfer printing, two fifth rotating shafts are used for replacing two hands of a worker to press the thermal transfer printing film, so that the risk of injury of the worker is eliminated; during thermal transfer printing, the L-shaped backing plate is also padded in the silica gel cup sleeve, so that the printed surface of the cup sleeve can be flattened, and patterns can be printed conveniently; the cup sleeve with the heat transfer printing is not required to be manually taken out, and the cup sleeve can be automatically pushed out of the cup sleeve placing mechanism by the slope when passing through the discharging slope, so that the cup sleeve is very convenient.

Drawings

Fig. 1 is a schematic perspective view of the whole structure of the present invention.

Fig. 2 is a schematic perspective view of a working plate according to the present invention.

Fig. 3 is a schematic perspective view of a driving belt according to the present invention.

Fig. 4 is a schematic view of a part of a perspective structure of a transmission belt of the present invention.

Fig. 5 is a schematic perspective view of a film printing wheel according to the present invention.

Fig. 6 is a schematic perspective view of the cup sleeve placing mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first semi-cylinder according to the present invention.

Fig. 8 is a schematic perspective view of a second semi-cylinder according to the present invention.

Fig. 9 is a schematic perspective view of a special-shaped support column according to the present invention.

Fig. 10 is a schematic perspective view of a pattern thermal transfer mechanism according to the present invention.

Fig. 11 is a schematic perspective view of an L-shaped pad of the present invention.

The reference symbols in the drawings: 1. the device comprises a base, 2, a working plate, 201, a discharging slope, 202, a railing, 203, a U-shaped plate, 204, an annular track, 3, a motor, 301, a tooth-missing large spur gear, 302, a first spur gear, 303, a first driving wheel, 304, a first rotating shaft, 305, a second driving wheel, 306, a second rotating shaft, 307, a driving belt, 308, a third driving wheel, 309, a fourth driving wheel, 4, a fixed plate, 401, a sliding plate, 402, a fixed block, 403, a first semi-cylinder, 404, a second semi-cylinder, 405, a spring, 406, a cross-shaped rotating rod, 407, a special-shaped support column, 408, a third rotating shaft, 5, a film-printing recovery wheel, 501, a heat transfer film, 502, a film-printing placement wheel, 503, a first shaft sleeve, 504, a second shaft sleeve, 505, a resistance connecting shaft, 6, a placement block, 601, a second spur gear, 602, a fourth rotating shaft, 603, a rotating rod, 604, a first connecting rod, 605, a second connecting rod, 606, a mounting bracket, a fifth rotating shaft, 608, a heat block, 7, an L-shaped fixing bracket, 701, an L-shaped support, 701, a sliding block, a 703, a moving rod, a 706, a moving rod, a 702, a moving rod, a spiral.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

1-10, including a base 1, a working plate 2, a railing 202, an annular track 204, a motor 3, a tooth-missing spur gear 301, a first spur gear 302, a first driving wheel 303, a first rotating shaft 304, a second driving wheel 305, a second rotating shaft 306, a driving belt 307, a third driving wheel 308, a fourth driving wheel 309, a film recycling wheel 5, a thermal transfer film 501, a film placing wheel 502, a first shaft sleeve 503, a second shaft sleeve 504, a resistance connecting shaft 505, a cup placement mechanism and a pattern thermal transfer mechanism, wherein the working plate 2 is fixedly installed on the base 1, the railing 202 is installed on the working plate 2 at intervals, the railing 202 just surrounds the cup placement mechanism, the silicone cup on the cup placement mechanism can be prevented from dropping down by itself, the annular track 204 is installed on the inner side of the railing 202 on the working plate 2, the motor 3 is installed on the upper left of the working plate 2, the output shaft of the motor 3 is connected with a large straight gear 301 with missing teeth, the large straight gear 301 with missing teeth lacks half teeth, the large straight gear 301 with missing teeth can only be meshed with one of a first straight gear 302 and a second straight gear 601 at the same time, a first rotating shaft 304 and a second rotating shaft 306 are arranged on the left side of the working plate 2, a first driving wheel 303 is fixedly connected to the first rotating shaft 304, a first straight gear 302 is arranged at the front end of the first driving wheel 303, the first straight gear 302 can be meshed with the large straight gear 301 with missing teeth, the large straight gear 301 with missing teeth rotates to drive the first straight gear 302, when the large straight gear 301 with missing teeth rotates to the missing teeth, the first straight gear 302 stops rotating, the first driving wheel 303 and the first straight gear 302 move in the same state and stop simultaneously, when the first driving wheel 303 rotates, a driving belt 307 drives to rotate intermittently, the driving belt 307 rotates intermittently as the first driving wheel 303, the transmission belt 307 rotates to drive the second transmission wheel 305, the third transmission wheel 308 and the fourth transmission wheel 309 to rotate together, the second transmission wheel 305 is installed on the second rotation shaft 306, the second transmission wheel 305 is driven to rotate by the transmission belt 307, the second rotation shaft 306 also rotates along with the second transmission wheel 305, the film printing recovery wheel 5 is installed on the front half part of the second rotation shaft 306, the first shaft sleeve 503 is installed between the film printing recovery wheel 5 and the second transmission wheel 305 on the second rotation shaft 306, the third transmission wheel 308 and the fourth transmission wheel 309 are rotatably connected to the right side of the working plate 2, the third transmission wheel 308 and the fourth transmission wheel 309 are arranged on the same vertical line, the transmission belt 307 is sleeved on the first transmission wheel 303, the second transmission wheel 305, the third transmission wheel 308 and the fourth transmission wheel 309, the middle part of the front surface of the working plate 2 is rotatably connected with the resistance connecting shaft 505, the second shaft sleeve 504 is sleeved on the resistance connecting shaft 505, the front end of the resistance connecting shaft 505 is fixedly connected to the film printing placing wheel 502, the heat transfer film 501 is sleeved on the film printing placing wheel 502, the heat transfer cup is uniformly stretched by the rotation of the resistance connecting shaft 505, and the heat transfer cup is uniformly stretched by the transmission mechanism only when the heat transfer cup is arranged on the rotation shaft 307.

When the silicone cup is in operation, firstly, the silicone cup is sleeved on the cup placing mechanism, then, the heat transfer film 501 is sleeved in the film placing wheel 502, waste paper at the front section of the heat transfer film 501 is wound on the film recycling wheel 5, the motor 3 is started, the motor 3 rotates with the large straight gear 301 with the missing teeth, the large straight gear 301 with the missing teeth is meshed with the first straight gear 302 first, the large straight gear 301 with the missing teeth rotates with the first straight gear 302, the first straight gear 302 rotates with the first rotating shaft 304, the first driving wheel 303 on the first rotating shaft 304 rotates along with the first straight gear 302, the driving belt 307 on the first driving wheel 303 also starts to rotate, the second driving wheel 305, the third driving wheel 308 and the fourth driving wheel 309 on the first belt start to rotate under the driving of the first driving wheel 303, when the large straight gear 301 with the missing teeth is meshed with the first straight gear 302, the whole driving belt 307 stops rotating, each circle of the large straight gear 301 rotates a distance, the intermittent rotating function is realized, each time, the rotation can be moved to the pattern placing mechanism with the first straight gear 302, the pattern is stretched out, and the pattern is transferred to the heat transfer film 501 is not stretched by the large straight gear 301, and the pattern is transferred to the heat transfer film 501 after the pattern is stretched by the large straight gear, and the pattern is meshed with the large straight gear 301.

Example 2

On the basis of the embodiment 1, as shown in fig. 6-9, the cup sleeve placing mechanism comprises a fixed plate 4, a sliding plate 401, a fixed block 402, a first semi-cylinder 403, a second semi-cylinder 404, a spring 405 and a spreading mechanism, the fixed block 402 is uniformly sleeved on the transmission belt 307, the fixed block 402 is driven by the cup sleeve placing mechanism to intermittently move along with the transmission belt 307, when rotating to the positions of the first transmission wheel 303, the second transmission wheel 305, the third transmission wheel 308 and the fourth transmission wheel 309, the fixed block 402 is not influenced by the first transmission wheel 303, the second transmission wheel 305, the third transmission wheel 308 and the fourth transmission wheel 309, the fixed block 402 is fixedly arranged on the fixed plate 4, the sliding plate 401 is also arranged at the lower part of the rear side of the fixed plate 4, the sliding plate 401 slides on the annular track 204, the fixed plate 4 is fixedly provided with a first semi-cylinder 403 on the front side, the lower part of the right side wall of the first semi-cylinder 403 is provided with an arc groove, the fixed plate 4 is provided with two slide ways, the slide ways on the fixed plate 4 are internally and slidably connected with a second semi-cylinder 404, the upper part of the left side wall of the second semi-cylinder 404 is also provided with an arc groove, the arc grooves on the first semi-cylinder 403 and the second semi-cylinder 404 are the same in size, the positions are opposite, the inner wall of one side, close to the first semi-cylinder 403, of the slide ways on the fixed plate 4 is fixedly provided with a spring 405, the other end of the spring 405 is connected to the second semi-cylinder 404 in the slide ways, the spring 405 is used for pulling the loosened second semi-cylinder 404 back to the original position, and the opening mechanism is arranged on the fixed plate 4 and the sliding plate 401.

The silica gel cup is sleeved on a first half cylinder 403 and a second half cylinder 404 in the cup placement mechanism, a fixed block 402 is sleeved on the transmission belt 307, each time the transmission belt 307 rotates, the fixed block 402 moves along the whole cup placement mechanism, the sliding plate 401 slides on the outer side of the transmission belt 307 on the working plate 2, when the cup placement mechanism rotates below the pattern thermal transfer mechanism along the transmission belt 307, the first half cylinder 403 and the second half cylinder 404 are spread by the spreading mechanism, the silica gel cup is spread, after the pattern thermal transfer is finished, the spreading mechanism releases the first half cylinder 403 and the second half cylinder 404, the spring 405 pulls the second half cylinder 404 to close with the first half cylinder 403, and the cup placement mechanism realizes the function of placing and spreading the silica gel cup.

As shown in fig. 9, the opening mechanism comprises a U-shaped plate 203, a cross-shaped rotating rod 406 and a special-shaped supporting column 407, a U-shaped plate 203 is installed at the right lower part of the second driving wheel 305 on the workbench, the vertical wall of the U-shaped plate 203 just can contact the cross-shaped rotating rod 406, the special-shaped supporting column 407 is rotationally connected to the sliding plate 401, two ends of the special-shaped supporting column 407 are two quarter cylinders, the special-shaped supporting column 407 just can be placed in arc grooves formed in the first half cylinder 403 and the second half cylinder 404, a short shaft is fixed at the middle position of the rear part of the special-shaped supporting column 407, the short shaft of the special-shaped supporting column 407 penetrates through the fixing plate 4 to be connected to the sliding plate 401, a cross-shaped rotating rod 406 is fixedly connected to the shaft of the special-shaped supporting column 407 at a gap between the fixing plate 4 and the sliding plate 401, the cross-shaped rotating rod 406 can rotate by a quarter circle when passing through the U-shaped plate 203, the special-shaped supporting column 407 rotates out of the arc grooves on the first half cylinder 403 and the second half cylinder 404, the special-shaped supporting column 407 is opened by the rotation of the first half cylinder 403 and the second half cylinder 404, after the thermal transfer of the silica gel cup sleeve is well transferred.

When the cup sleeve placing mechanism moves to the position of the U-shaped plate 203 on the working plate 2, the cross-shaped rotating rod 406 contacts with the vertical plate of the U-shaped plate 203 and rotates for a quarter circle, the special-shaped supporting columns 407 just start to stay in grooves formed on the first semi-cylinder 403 and the second semi-cylinder 404, after the cross-shaped rotating rod 406 rotates for a quarter circle, the special-shaped supporting columns 407 rotate out of the grooves formed on the first semi-cylinder 403 and the second semi-cylinder 404, two planes of the special-shaped supporting columns 407 are respectively aligned with the first semi-cylinder 403 and the second semi-cylinder 404, the first semi-cylinder 403 and the second semi-cylinder 404 are propped open, the silica gel cup sleeve is propped open, when the cup sleeve placing mechanism leaves the U-shaped plate 203, the cross-shaped rotating rod 406 contacts with the other vertical plate on the U-shaped plate 203 again and rotates for a quarter circle, the springs 405 connected to the second semi-cylinder 404 are restored, and the second semi-cylinder 404 is pulled towards the first semi-cylinder 403, and the silica gel cup sleeve is loosened.

As shown in fig. 10, the pattern thermal transfer mechanism comprises a placement block 6, a second spur gear 601, a fourth rotating shaft 602, a rotating rod 603, a first connecting rod 604, a second connecting rod 605, a mounting bracket 606, a fifth rotating shaft 607 and a thermal printing block 608, wherein the placement block 6 is installed on the right side of a second driving wheel 305 at the lower left side of the workbench, the fourth rotating shaft 602 is rotationally connected with the upper side of the placement block 6 on the workbench, the second spur gear 601 is fixedly connected with the fourth rotating shaft 602, the second spur gear 601 can be meshed with the large spur gear 301 without teeth, when the second spur gear 601 rotates, the whole pattern thermal transfer mechanism can be driven to reciprocate up and down, the rotating rod 603 is fixedly connected with the rotating rod 603, the rotating rod 603 rotates along with the fourth rotating shaft 602, the other side of the rotating rod 603 is hinged with the first connecting rod 604, the other side of the first connecting rod 605 is hinged with a second connecting rod 605, the other end of the second connecting rod 605 is fixed on the mounting bracket 606, 606 is slidingly connected with the placement block 6, two sides of the mounting bracket 606 are respectively rotationally connected with the fifth rotating shaft 607, the block 608 is also installed on the mounting bracket 606, the thermal transfer block 608 is thermally printed on the glass, and the pattern is thermally printed on the glass by the glass cup 608 through the conventional technology, and the pattern thermal transfer cup is printed on the glass.

After the silicone cup is stretched by the cup placement mechanism, the silicone cup stays for a period of time due to the intermittent rotation of the transmission belt 307, at this time, the large spur gear 301 with teeth missing is meshed with the second spur gear 601, the second spur gear 601 rotates to drive the fourth rotation shaft 602 to rotate, the rotation shaft 603 fixed on the fourth rotation shaft 602 also rotates with the rotation shaft, the first connecting rod 604 hinged on the fixing rod 7 moves with the rotation shaft, the second connecting rod 605 reciprocates up and down due to the movement of the first connecting rod 604, and drives the mounting frame 606 to move up and down, the two fifth rotation shafts 607 on the mounting frame 606 can press the thermal transfer film 501 down, the film placement wheel 502 and the film recovery wheel 5 rotate, the thermal transfer film 501 can release a part, after the thermal transfer block 608 presses the thermal transfer film 501 onto the silicone cup, various patterns on the thermal transfer film 501 are thermally transferred onto the silicone cup, after the patterns are thermally transferred, the whole device moves up, the large spur gear 301 with teeth missing stops to mesh with the second spur gear 601, and the pattern thermal transfer mechanism runs a process to realize the thermal transfer of the pattern cup.

Example 3

On the basis of embodiment 2, as shown in fig. 6-8, a third rotating shaft 408 is further included, a third rotating shaft 408 is installed at the position of the sleeve on each of the first semi-cylinder 403 and the second semi-cylinder 404, and when the sleeve placing mechanism stretches the silica gel sleeve, the third rotating shaft 408 can slightly rotate the silica gel sleeve, so that the silica gel sleeve is uniformly stretched, and the quality of a finished product is improved.

After the first half cylinder 403 and the second half cylinder 404 are propped open by the propping mechanism, the silicone cup sleeve is propped open equally, but in order to prevent the silicone cup sleeve from being propped open unevenly, the first half cylinder 403 and the second half cylinder 404 are provided with the third rotating shaft 408, when the silicone cup sleeve is propped open, the silicone cup sleeve can be evenly propped open by the third rotating shaft 408, and the thermally transferred graph can not deform because of the uneven propping open of the silicone cup sleeve.

As shown in FIG. 11, the cup comprises an L-shaped fixing frame 7, an L-shaped backing plate 701, a sliding rod 702, a tension spring 703, a moving rod 704, an L-shaped fixing rod 705 and a pushing inclined block 706, wherein the L-shaped fixing frame 7 is fixed on the left side of the base, the vertical wall of the L-shaped fixing frame 7 faces upwards, two sliding rods 702 are connected to the vertical wall of the L-shaped fixing frame 7 in a sliding manner, the sliding rod 702 passes through the L-shaped fixing frame 7, the tension spring 703 is arranged on the inner side of the two sliding rods 702 on the L-shaped fixing frame 7, the tension spring 703 is used for pulling the L-shaped backing plate 701 back, the other ends of the sliding rods 702 and the tension spring 703 are arranged on the L-shaped backing plate 701, the sliding rod 702 can enable the L-shaped backing plate 701 to slide back and forth, the sliding rod 702 also plays a role of supporting and fixing, the moving rod 704 is also arranged on the L-shaped backing plate 701, the moving rod 704 is a circular disc, the mounting frame 606 is fixedly connected with the L-shaped fixing rod 705, the vertical wall of the L-shaped fixing rod 705 faces downwards, the other side of the L-shaped fixing rod 705 is provided with the pushing inclined block 706, and the pushing inclined block 706 can move downwards along with the pushing rod 706, and the inclined block 706 is pushed downwards, and the inner side of the cup is pushed downwards along with the sliding block 706.

When the pattern thermal transfer mechanism presses down, the L-shaped fixing rod 705 fixed on the mounting frame 606 moves downwards along with the whole device, the pushing inclined block 706 fixed on the L-shaped fixing rod 705 also presses down along with the whole device, when the pushing inclined block 706 contacts with a disc at the front end of the moving rod 704, the pushing inclined block 706 moves backwards pressing the moving rod 704, the moving rod 704 pushes the L-shaped backing plate into the inner side of the silica gel cup, the thermal printing block 608 can transfer the pattern completely on the silica gel cup to realize the function of complete thermal transfer pattern, after the thermal transfer is completed, the pushing inclined block 706 and the L-shaped fixing rod 705 reset upwards along with the mounting frame 606, and the tension spring 703 pulls the L-shaped backing plate 701 out of the silica gel cup and the sliding rod 702 connected with the L-shaped backing plate slides forwards to reset.

As shown in fig. 2, the device further comprises a discharging slope 201, a discharging slope 201 is mounted in the middle of the rightmost side of the workbench, when the driving belt 307 rotates to the right side of the working plate 2 with the cup sleeve placing mechanism, the silicon cup sleeve on the cup sleeve placing mechanism can be gradually pushed out of the cup sleeve placing mechanism along the slope through the discharging slope 201.

When the transmission belt 307 rotates to the right side of the working plate 2 with the cup sleeve placing mechanism, the silica gel cup sleeve on the cup sleeve placing mechanism can be gradually pushed out of the cup sleeve placing mechanism along the slope through the discharging slope 201, and the function of automatic discharging is realized.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (5)

1. The utility model provides a silica gel cup sleeve heat transfer printing device which is characterized in that, including base (1), working plate (2), railing (202), annular rail way (204), motor (3), lack tooth bull gear (301), first straight gear (302), first drive wheel (303), first axis of rotation (304), second drive wheel (305), second axis of rotation 1306), driving belt (307), third drive wheel (308), fourth drive wheel (309), seal membrane recovery wheel (5), heat transfer printing membrane (501), seal membrane place wheel (502), first axle sleeve (503), second axle sleeve (504), resistance connecting axle (505), cup sleeve placement mechanism and pattern heat transfer printing mechanism, fixed mounting has working plate (2) on base (1), railing (202) are installed to the interval on working plate (2), annular rail way (204) are installed to railing (202 inboard on working plate (2), motor (3) are installed to the upper left side, connect one and lack tooth bull gear (301) on the output shaft of motor (3), working plate (2) left side is provided with first axis of rotation (304) and second axis of rotation (306), first drive wheel (303) are connected on first straight shaft (303), a first straight gear (302) is arranged at the front end of the first driving wheel (303), the first straight gear (302) can be meshed with the large spur gear (301) with teeth missing, a second driving wheel (305) is arranged on the second rotating shaft (306), a film printing recovery wheel (5) is arranged at the front half part of the second rotating shaft (306), a first shaft sleeve (503) is arranged between the film printing recovery wheel (5) and the second driving wheel (305) on the second rotating shaft (306), a third driving wheel (308) and a fourth driving wheel (309) are rotatably connected on the right side of the working plate (2), a driving belt (307) is sleeved on the first driving wheel (303), the second driving wheel (305), the third driving wheel (308) and the fourth driving wheel (309), the middle part of the front surface of the working plate (2) is rotationally connected with a resistance connecting shaft (505), the resistance connecting shaft (505) is sleeved with a second sleeve (504), the front end of the resistance connecting shaft (505) is fixedly connected to a film printing placing wheel (502), a thermal transfer film (501) is sleeved on the film printing placing wheel (502), cup sleeve placing mechanisms are uniformly distributed on a transmission belt (307), cup sleeves can be placed and unfolded on the cup sleeve placing mechanisms, a pattern thermal transfer mechanism is arranged on the working plate (2), and the pattern thermal transfer mechanism can transfer patterns on the unfolded cup sleeves; the cup sleeve placing mechanism comprises a fixed plate (4), a sliding plate (401), a fixed block (402), a first half cylinder (403), a second half cylinder (404), a spring (405) and a spreading mechanism, wherein the fixed block (402) is uniformly sleeved on a transmission belt (307), the fixed block (402) is fixedly arranged on the fixed plate (4), the sliding plate (401) is further arranged at the rear side of the fixed plate (4), a first half cylinder (403) is fixedly arranged on the front side surface of the fixed plate (4), two sliding ways are formed in the fixed plate (4), the second half cylinder (404) is connected in the sliding way on the fixed plate (4) in a sliding way, the spring (405) is fixed on the inner wall of one side, close to the first half cylinder (403), of the sliding way on the fixed plate (4), and the other end of the spring (405) is connected on the second half cylinder (404) in the sliding way; the opening mechanism comprises a U-shaped plate (203), a cross rotating rod (406) and a special-shaped supporting column (407), wherein the U-shaped plate (203) is arranged on the right lower side of a second driving wheel (305) on the workbench, the special-shaped supporting column (407) is rotationally connected to the sliding plate (401), a shaft of the special-shaped supporting column (407) penetrates through a fixing plate (4) to be connected to the sliding plate (401), the cross rotating rod (406) is fixedly connected to a gap between the fixing plate (4) and the sliding plate (401) on the shaft of the special-shaped supporting column (407), the cross rotating rod (406) can rotate by a quarter circle when passing through the vertical wall at one end of the U-shaped plate (203), the first half cylinder (403) and the second half cylinder (404) are opened, and then rotate by a quarter circle when the cross rotating rod (406) passes through the vertical wall at the other side of the U-shaped plate (203), and the first half cylinder (403) and the second half cylinder (404) can be folded.

2. The silica gel cup sleeve thermal transfer device according to claim 1, wherein the pattern thermal transfer mechanism comprises a placement block (6), a second spur gear (601), a fourth rotating shaft (602), a rotating rod (603), a first connecting rod (604), a second connecting rod (605), a mounting frame (606), a fifth rotating shaft (607) and a thermal printing block (608), the placement block (6) is installed on the right side of a second driving wheel (305) at the left lower part of the workbench, the fourth rotating shaft (602) is rotationally connected to the upper part of the placement block (6) in front of the workbench, the second spur gear (601) is fixedly connected to the fourth rotating shaft (602), the rotating rod (603) is fixedly connected to the foremost end of the fourth rotating shaft (602), a first connecting rod (604) is hinged to the other side of the rotating rod (603), a second connecting rod (605) is hinged to the other end of the first connecting rod (604), the other end of the second connecting rod (605) is fixed to the mounting frame (606), a fifth rotating shaft (607) is rotationally connected to the two sides of the mounting frame (606), the thermal transfer film is also installed on the thermal transfer block (606), and the pattern is transferred onto the thermal transfer cup sleeve through the thermal transfer film.

3. The thermal transfer device of claim 2, further comprising a third rotating shaft (408), wherein the third rotating shaft (408) is mounted at the position of the sleeve on each of the first half cylinder (403) and the second half cylinder (404).

4. The silica gel cup sleeve thermal transfer printing device according to claim 3, further comprising an L-shaped fixing frame (7), an L-shaped base plate (701), a sliding rod (702), a tension spring (703), a moving rod (704), an L-shaped fixing rod (705) and a pushing inclined block (706), wherein the L-shaped fixing frame (7) is fixed on the left side of the base, two sliding rods (702) are connected to the vertical wall of the L-shaped fixing frame (7) in a sliding mode, the tension spring (703) is installed on the inner side of the two sliding rods (702) on the L-shaped fixing frame (7), the other ends of the sliding rods (702) and the tension spring (703) are installed on the L-shaped base plate (701), the moving rod (704) is further installed on the L-shaped base plate (701), an L-shaped fixing rod (705) is fixedly connected to the mounting frame (606), and the pushing inclined block (706) is installed on the other side of the L-shaped fixing rod (705).

5. The thermal transfer device of claim 4, further comprising a discharging slope (201), wherein the discharging slope (201) is installed in the middle of the rightmost part of the workbench.