CN220163441U - Thermal transfer printer for noodle sleeve production - Google Patents
Thermal transfer printer for noodle sleeve production Download PDFInfo
- Publication number
- CN220163441U CN220163441U CN202321449022.7U CN202321449022U CN220163441U CN 220163441 U CN220163441 U CN 220163441U CN 202321449022 U CN202321449022 U CN 202321449022U CN 220163441 U CN220163441 U CN 220163441U
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- plate
- thermal transfer
- base
- transfer printer
- producing
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 5
- 235000012149 noodles Nutrition 0.000 title abstract description 4
- 238000003825 pressing Methods 0.000 claims abstract description 27
- 230000007246 mechanism Effects 0.000 claims abstract description 25
- 238000010023 transfer printing Methods 0.000 claims abstract description 16
- 238000000034 method Methods 0.000 abstract description 7
- 238000007639 printing Methods 0.000 abstract 1
- 238000005381 potential energy Methods 0.000 description 5
- 230000007547 defect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model relates to the field of transfer printing machines, in particular to a thermal transfer printing machine for noodle sleeve production, which comprises a base, telescopic mechanisms and pressing mechanisms, wherein the telescopic mechanisms for adjusting the width dimension of a clamping assembly are arranged on two sides of the base, the pressing mechanisms for clamping the noodle sleeve in the vertical direction are arranged on the upper sides of the outer ends of the telescopic mechanisms, an electric rotating shaft is arranged at the rear end of the base, a transverse plate is arranged on the front side of the upper end of the electric rotating shaft, an air cylinder is arranged on the upper side of the front end of the transverse plate, and the lower ends of the air cylinders penetrate through the transverse plate and are connected with a hot plate. When the surface sleeves for the automobile seats with different widths are required to be subjected to printing treatment, the surface sleeves are inserted between the base and the hot plate from front to back, the electric rotating shaft is controlled to drive the hot plate to move to the upper side of the surface sleeves to be subjected to heat transfer printing, the air cylinder is controlled to drive the hot plate to extend downwards, so that the hot plate presses the surface sleeves downwards, the surface sleeves are prevented from tilting and moving in the vertical direction in the heat transfer printing process, and the heat transfer printing stability is improved.
Description
Technical Field
The utility model relates to the field of transfer printing machines, in particular to a thermal transfer printing machine for producing a face mask.
Background
The heat transfer machine is a generic name of machines used in heat transfer technology, and comprises a plane hot stamping machine, a high-pressure hot stamping machine, a shaking hot stamping machine, a cup baking machine, a baking tray machine, a baking hat machine and other heat transfer machines, and in the production process of the car seat surface cover, the marks with marking function are inevitably required to be transferred on the surface cover, so that the marks are required to be printed on the surface cover by using the heat transfer machine.
The existing heat transfer machine has some defects: the material of the seat face cover of the automobile has toughness and large size, when the existing heat transfer printing machine carries out heat transfer printing processing, the face cover needs to be manually placed on a flat plate of the machine body, a worker is required to hold the face cover to keep the stability of the face cover in the process of downward movement of a heat pressing plate, the face cover is prevented from shifting before downward movement of the heat pressing plate, the face cover can be loosened to be supported after the heat pressing plate is covered, the face cover needs to be centered and aligned according to the experience of the worker in the operation process, and the workload of heat transfer printing work is increased.
Disclosure of Invention
The utility model aims to provide a heat transfer printing machine for producing a face cover, which is used for solving the problems that the material of a seat face cover of an automobile has toughness and large size, the face cover is required to be manually placed on a flat plate of a machine body when the existing heat transfer printing machine is used for carrying out heat transfer printing processing, a worker is required to hold the face cover to keep the stability of the face cover in the process of downward moving of a heat pressing plate, the face cover is prevented from shifting before downward moving of the heat pressing plate, the face cover can be loosened to be supported after the heat pressing plate is covered, the face cover is required to be centered and aligned according to the experience of the worker in the operation process, and the heat transfer printing workload is increased.
Therefore, the utility model provides a heat transfer printing machine for producing a face mask, which comprises a base, telescopic mechanisms and pressing mechanisms, wherein the telescopic mechanisms for adjusting the width dimension of a clamping assembly are arranged on two sides of the base, the pressing mechanisms for clamping the face mask in the vertical direction are arranged on the upper sides of the outer ends of the telescopic mechanisms, an electric rotating shaft is arranged at the rear end of the base, a transverse plate is arranged on the front side of the upper end of the electric rotating shaft, an air cylinder is arranged on the upper side of the front end of the transverse plate, and the lower ends of the air cylinders penetrate through the transverse plate to be connected with a hot plate.
Preferably: the telescopic machanism includes the centre tank, centre tank front end internally mounted has first spiral shell head, first spiral shell head front end is connected with the motor, centre tank both ends internally mounted has the second spiral shell head, the fluting has been seted up to the base lateral wall of centre tank both sides direction, fluting internally mounted has the screw rod of being connected with the second spiral shell head, screw rod outer wall cover is equipped with the expansion plate, splint are installed to the expansion plate outer end.
Preferably: the pressing mechanism comprises an inner groove, a panel is embedded in the inner groove, a side groove is formed in the side wall of the inner groove, a side plate is mounted on the side wall of the panel, a spring is connected to the upper end of the side plate, and a pressing plate is mounted at the upper end of the panel.
Preferably: the insection that first spiral shell head outer wall was equipped with and the insection intermeshing that second spiral shell head outer wall was equipped with.
Preferably: the section size of the slot is matched with the section size of the expansion plate.
Preferably: the width dimension of the side plate is matched with the width dimension of the side groove.
Preferably: the side plate is connected with one end of the spring, and the other end of the spring is connected with the side wall of the side groove.
When the surface sleeves for the automobile seats with different widths are required to be printed, the surface sleeves are inserted between the base and the hot plate from front to back, the motor is controlled to operate to drive the first screw heads to rotate, the second screw heads on two sides are meshed to drive the screw rods to rotate and mesh to drive the expansion plates to move inwards in the grooves, the clamping plates on two sides are driven to move towards each other to clamp the two sides of the surface sleeves in parallel, the width dimension of the surface sleeves is larger than the width dimension of the base, the pressing plates on two sides are manually pulled upwards after the surface sleeves are transversely clamped to drive the panels to move upwards in the inner grooves, the side plates are driven to move in the side grooves to squeeze the springs to generate potential energy, after the two sides of the surface sleeves are clamped by the clamping plates, the tension of the opposite pressing plates is released, the springs release the potential energy to drive the side plates to move downwards, so that the pressing plates vertically downwards press the upper ends of the two sides of the surface sleeves, the electric rotating shafts are controlled to drive the hot plates to move to the upper sides of the surface sleeves to be required to be thermally transferred, the hot plates are controlled to extend downwards, the hot plates are driven to press the surface sleeves downwards, the pressing plates are prevented from being lifted upwards in the vertical direction in the thermal transfer process, and the thermal transfer stability is improved.
Drawings
FIG. 1 is a perspective view of the present utility model;
FIG. 2 is a top cross-sectional view of the telescoping mechanism of the present utility model;
fig. 3 is a front cross-sectional view of the hold-down mechanism of the present utility model.
In the figure:
1. a base; 201. a central slot; 202. a first screw head; 203. a motor; 204. a second screw head; 205. slotting; 206. a screw; 207. a telescoping plate; 208. a clamping plate; 301. an inner tank; 302. a panel; 303. a side groove; 304. a side plate; 305. a spring; 306. a pressing plate; 4. an electric rotating shaft; 5. a cross plate; 6. a cylinder; 7. and (5) a hot plate.
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.
Example 1
Referring to fig. 1-3, a thermal transfer printer for producing a surface covering according to a preferred embodiment of the present utility model includes a base 1, a telescopic mechanism and a pressing mechanism, wherein the telescopic mechanisms for adjusting the width dimension of a clamping assembly are disposed on two sides of the base 1, the pressing mechanism for clamping the surface covering in the vertical direction is disposed on the upper side of the outer end of the telescopic mechanism, an electric rotating shaft 4 is mounted on the rear end of the base 1, a transverse plate 5 is mounted on the front side of the upper end of the electric rotating shaft 4, an air cylinder 6 is mounted on the upper side of the front end of the transverse plate 5, and a hot plate 7 is connected to the lower end of the air cylinder 6 through the transverse plate 5.
It should be noted that: in the scheme, the surface sleeve is effectively clamped and fixed in the thermal transfer process through the telescopic mechanism and the pressing mechanism.
The telescopic mechanism comprises a central groove 201, a first screw head 202 is internally mounted at the front end of the central groove 201, a motor 203 is connected to the front end of the first screw head 202, a second screw head 204 is internally mounted at two ends of the central groove 201, a groove 205 is formed in the side wall of the base 1 in the two sides of the central groove 201, a screw 206 connected with the second screw head 204 is internally mounted in the groove 205, a telescopic plate 207 is sleeved on the outer wall of the screw 206, and a clamping plate 208 is mounted at the outer end of the telescopic plate 207.
It should be noted that: this scheme is convenient for adjust clamping assembly's transverse interval.
Wherein, the insections on the outer wall of the first screw head 202 are engaged with the insections on the outer wall of the second screw head 204.
It should be noted that: this scheme is convenient for efficient regulation interval.
Wherein the cross-sectional dimension of the slot 205 is matched with the cross-sectional dimension of the expansion plate 207.
It should be noted that: this scheme is convenient for stable regulation interval.
Example 2
Referring to fig. 1-3, the pressing mechanism includes an inner groove 301, a panel 302 is embedded in the inner groove 301, a side groove 303 is formed in a side wall of the inner groove 301, a side plate 304 is installed on a side wall of the panel 302, a spring 305 is connected to an upper end of the side plate 304, and a pressing plate 306 is installed at an upper end of the panel 302.
It should be noted that: this scheme is convenient for adjust clamping assembly's vertical position.
Wherein, the width dimension of the side plate 304 is matched with the width dimension of the side groove 303.
It should be noted that: this scheme makes the regulation more stable.
Wherein, the side plate 304 is connected with one end of the spring 305, and the other end of the spring 305 is connected with the side wall of the side groove 303.
It should be noted that: this scheme is convenient for the vertical interval of efficient regulation.
The working flow and principle of the utility model are as follows: when the surface sleeves for the automobile seats with different widths are required to be printed, the surface sleeves are inserted between the base 1 and the hot plate 7 from front to back, the motor 203 is controlled to operate to drive the first screw heads 202 to rotate, the second screw heads 204 on the two sides are engaged to drive the screws 206 to rotate to drive the telescopic plates 207 to move inwards in the grooves 205, the clamping plates 208 on the two sides are driven to move towards each other to clamp the two sides of the surface sleeves in parallel, the width dimension of the surface sleeves is larger than the width dimension of the base 1, the pressing plates 306 on the two sides are manually pulled upwards after the surface sleeves are transversely clamped to drive the panel 302 to move upwards in the inner groove 301, the side plates 304 are driven to move inwards in the side grooves 303 to squeeze the springs 305 to generate potential energy, after the two sides of the surface sleeves are clamped by the clamping plates 208, the springs 305 release the potential energy to push the side plates 304 downwards, so that the upper ends of the two sides of the pressing plates 306 are driven downwards to push the panel 302 downwards, the electric rotating shafts 4 are controlled to drive the hot plate 7 to move to the upper sides of the surface sleeves to be required to be thermally transferred, and the air cylinders 6 are controlled to extend downwards to drive the hot plates 7 downwards to push the panel 7 downwards to press the surface sleeves upwards, and the side plates are driven to move upwards, after the side plates 304 are driven to move upwards, and the side plates 304 are driven to generate potential energy, after the side plates are driven to release the side plates, and the side plates are driven to move downwards side plates to push the side plates to move side plates to and the side plates to move.
The foregoing is a further elaboration of the present utility model in connection with the detailed description, and it is not intended that the utility model be limited to the specific embodiments shown, but rather that a number of simple deductions or substitutions be made by one of ordinary skill in the art without departing from the spirit of the utility model, should be considered as falling within the scope of the utility model as defined in the appended claims.
Claims (7)
1. A heat transfer printing machine is used in face cover production which characterized in that: including base (1), telescopic machanism and hold-down mechanism, base (1) both sides are provided with the telescopic machanism that is used for pressing from both sides tight subassembly width dimension to be adjusted, telescopic machanism outer end upside is provided with the hold-down mechanism that is used for the vertical direction centre gripping of face cover, electric rotating shaft (4) are installed to base (1) rear end, diaphragm (5) are installed to electric rotating shaft (4) upper end front side, cylinder (6) are installed to diaphragm (5) front end upside, cylinder (6) lower extreme runs through diaphragm (5) and is connected with hot plate (7).
2. The thermal transfer printer for producing a glove according to claim 1, wherein: the telescopic machanism includes centre tank (201), centre tank (201) front end internally mounted has first spiral shell head (202), first spiral shell head (202) front end is connected with motor (203), centre tank (201) both ends internally mounted has second spiral shell head (204), fluting (205) have been seted up to base (1) lateral wall of centre tank (201) both sides direction, fluting (205) internally mounted has screw rod (206) of being connected with second spiral shell head (204), screw rod (206) outer wall cover is equipped with expansion plate (207), splint (208) are installed to expansion plate (207) outer end.
3. The thermal transfer printer for producing a glove according to claim 1, wherein: the pressing mechanism comprises an inner groove (301), a panel (302) is embedded in the inner groove (301), a side groove (303) is formed in the side wall of the inner groove (301), a side plate (304) is arranged on the side wall of the panel (302), a spring (305) is connected to the upper end of the side plate (304), and a pressing plate (306) is arranged at the upper end of the panel (302).
4. The thermal transfer printer for producing a glove according to claim 2, wherein: the insections arranged on the outer wall of the first screw head (202) are meshed with insections arranged on the outer wall of the second screw head (204).
5. The thermal transfer printer for producing a glove according to claim 2, wherein: the cross-sectional dimension of the slot (205) is matched with the cross-sectional dimension of the expansion plate (207).
6. A thermal transfer printer for producing a glove according to claim 3, wherein: the width dimension of the side plate (304) is matched with the width dimension of the side groove (303).
7. A thermal transfer printer for producing a glove according to claim 3, wherein: the side plate (304) is connected with one end of the spring (305), and the other end of the spring (305) is connected with the side wall of the side groove (303).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321449022.7U CN220163441U (en) | 2023-06-08 | 2023-06-08 | Thermal transfer printer for noodle sleeve production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321449022.7U CN220163441U (en) | 2023-06-08 | 2023-06-08 | Thermal transfer printer for noodle sleeve production |
Publications (1)
Publication Number | Publication Date |
---|---|
CN220163441U true CN220163441U (en) | 2023-12-12 |
Family
ID=89063775
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202321449022.7U Active CN220163441U (en) | 2023-06-08 | 2023-06-08 | Thermal transfer printer for noodle sleeve production |
Country Status (1)
Country | Link |
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CN (1) | CN220163441U (en) |
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2023
- 2023-06-08 CN CN202321449022.7U patent/CN220163441U/en active Active
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