阅读说明：本技术 一种边框耐高温pi胶带印刷成品冷却装置及使用方法 (Cooling device for frame high-temperature-resistant PI (polyimide) adhesive tape printing finished product and using method ) 是由 李芳奎 于 2021-08-03 设计创作，主要内容包括：本发明属于工业冷却装置技术领域,具体涉及一种边框耐高温PI胶带印刷成品冷却装置,包括冷却外架、冷却机构,所述冷却外架安装于冷却机构下方；所述冷却外架底部设有去热移动机构,所述去热移动机构前端设有去热固定机构,所述冷却机构包括冷却顶板、滑动去热机构、冷却组件,所述滑动去热机构顶部与冷却顶板滑动连接,所述冷却组件设于滑动去热机构下方,本发明的优点在于降温装置通过去热滑块在去热滑轨进行竖向调节,并通过降温喷雾进行散热,通过导热片将热量通过滑动杆导至冷却顶板,随后通过液冷排扇将热量带出,降温效率高且不会损伤产品,本发明还提供了该装置的使用方法,包括设备安装、导热连接等步骤。(The invention belongs to the technical field of industrial cooling devices, and particularly relates to a frame high-temperature-resistant PI (polyimide) adhesive tape printing finished product cooling device which comprises a cooling outer frame and a cooling mechanism, wherein the cooling outer frame is arranged below the cooling mechanism; the cooling device has the advantages that the cooling device is vertically adjusted on the heat removal sliding rail through the heat removal sliding block, heat is dissipated through cooling spraying, heat is conducted to the cooling top plate through the sliding rod through the heat conducting sheet, then the heat is taken out through the liquid cooling exhaust fan, cooling efficiency is high, and products cannot be damaged.)

1. The utility model provides a frame high temperature resistant PI sticky tape printing finished product cooling device which characterized in that: the cooling device comprises a cooling outer frame (1) and a cooling mechanism (2), wherein the cooling outer frame (1) is arranged below the cooling mechanism (2);

the bottom of the cooling outer frame (1) is provided with a heat removal moving mechanism (3), and the front end of the heat removal moving mechanism (3) is provided with a heat removal fixing mechanism (4);

cooling body (2) are including cooling roof (21), slip heat removal mechanism (5), cooling module (6), slip heat removal mechanism (5) top and cooling roof (21) sliding connection, slip heat removal mechanism (5) below is located in cooling module (6).

2. The cooling device for the PI tape printing finished product with the frame resistant to high temperature as claimed in claim 1, wherein: cooling body (2) still include fixed left side frame (22), fixed right side frame (23), slip mobile jib (24), install in cooling roof (21) left end fixed left side frame (22), install in cooling roof (21) right-hand member fixed right side frame (23), slip mobile jib (24) both ends are connected with fixed left side frame (22), fixed right side frame (23) free end.

3. The cooling device for the PI tape printing finished product with the frame resistant to high temperature as claimed in claim 1, wherein: the sliding heat removal mechanism (5) comprises a sliding groove (51), a sliding rod (52) and a nylon sliding block (53), wherein two ends of the sliding rod (52) are installed at two ends of the inner wall of the sliding groove (51), and the nylon sliding block (53) is installed on a rod body of the sliding rod (52) in a sliding mode.

4. The cooling device for the PI tape printing finished product with the frame resistant to high temperature as claimed in claim 1, wherein: cooling unit (6) include main part (61), two sets of adjusting cylinder (62), adjust slide rail (63), adjusting block (68), install respectively in main part (61) both sides two sets of adjusting cylinder (62), adjusting cylinder (62) left and right sides is located to adjusting slide rail (63), just adjust slide rail (63) and main part (61) fixed connection, adjusting block (68) slidable mounting is on adjusting slide rail (63).

5. The cooling device for the PI tape printing finished product with high temperature resistance of the frame as claimed in claim 4, wherein: the cooling assembly (6) further comprises an adjusting main board (64), a heat conducting rod (65) and a heat conducting sheet (66), the adjusting main board (64) is fixedly connected with an adjusting sliding block (68), the heat conducting rod (65) is fixedly connected with the bottom of the adjusting main board (64), and the heat conducting sheet (66) is installed at the bottom end of the heat conducting rod (65).

6. The cooling device for the PI tape printing finished product with high temperature resistance of the frame as claimed in claim 5, wherein: the cooling assembly (6) comprises a heat absorption assembly (67), the heat absorption assembly (67) is connected with a group of adjusting cylinders (62), the heat absorption assembly (67) is arranged in a hollow groove in the sliding main rod (24), and a plurality of air cooling suction holes (69) are formed in the heat absorption assembly (67).

7. The cooling device for PI tape printing finished products with high temperature resistance of rims as claimed in any one of claims 1 to 6, wherein: be equipped with a set of slip motor (241), two sets of slip track (242) on slip mobile jib (24), main part (61) bottom is located between two sets of slip tracks (242), slip motor (241) are connected with slip track (242).

8. The cooling device for the PI tape printing finished product with the frame resistant to high temperature as claimed in claim 1, wherein: the heat removal moving mechanism (3) comprises two groups of sliding rails (31) and linkage sliding shafts (32), the two groups of sliding rails (31) are respectively arranged at two ends of the bottom of the cooling outer frame (1), and the two groups of sliding rails (31) are connected through the linkage sliding shafts (32);

the sliding rail (31) comprises at least two fixing plates (311), pulleys (312) and a linkage belt (313), the pulleys (312) are arranged in the fixing plates (311), and two ends of the linkage belt (313) are respectively connected with one pulley (312);

linkage slide-shaft (32) include gangbar (321), two linkage seats (322), two linkage seat (322) are located respectively at gangbar (321) both ends, just a pulley (312) is connected respectively in gangbar (321).

9. The cooling device for the PI tape printing finished product with the frame resistant to high temperature as claimed in claim 1, wherein: the heat removal fixing mechanism (4) comprises a heat removal moving plate (41), a heat removal main plate (42), a heat removal sliding rail (43) and a heat removal sliding block (44), wherein two ends of the heat removal moving plate (41) are connected with a linkage belt (313), the inner side of the heat removal main plate (42) is fixedly connected with the heat removal moving plate (41), the heat removal sliding rail (43) is arranged on the outer side of the heat removal main plate (42), and the heat removal sliding block (44) is arranged on a track of the heat removal sliding rail (43);

and a cooling device (45) is also arranged on the outer side of the heat removal sliding block (44).

10. The use method of the cooling device for the PI tape printing finished product with high temperature resistance of the frame as claimed in any one of claims 1 to 9, comprising the following steps:

s1, equipment installation, namely installing the cooling outer frame (1) below the cooling mechanism (2), and connecting the cooling top plate (21) with an external liquid cooling exhaust fan to ensure normal heat conduction connection;

s2, heat conduction connection is achieved, the sliding motor (241) drives the sliding track (242) to rotate, the nylon sliding block (53) on the linkage main body (61) slides through the sliding rod (52), the main body (61) is adjusted left and right on the sliding main rod (24), when the main body (61) is adjusted to be above a printing finished product, the adjusting cylinder (62) drives the adjusting sliding block (68) to slide and press downwards through the adjusting sliding rail (63), the adjusting main board (64) is driven to link the heat conducting rod (65) to press the heat conducting sheet (66) downwards, the heat conducting sheet (66) is in contact with the printing finished product, meanwhile, the other group of adjusting cylinders (62) drive the heat absorbing assembly (67) to descend to be attached to the printing finished product, and heat on the heat absorbing assembly (67) is brought out through the air cooling suction hole (69);

s3, conducting heat through water cooling, driving the linkage sliding shaft (32) to rotate through an external motor, driving the pulley (312) to rotate through the linkage sliding shaft (32), driving the heat removal moving plate (41) to move transversely through the linkage belt (313), and when the cooling device (45) moves to the position above a printing finished product, vertically adjusting the cooling device (45) on the heat removal sliding rail (43) through the heat removal sliding block (44) and dissipating heat through cooling spraying.

Technical Field

The invention belongs to the technical field, and particularly relates to a cooling device for a printed finished product of a PI (polyimide) adhesive tape with a frame resistant to high temperature and a using method of the cooling device.

Background

When the rolled film or the adhesive tape is coated, in order to reduce the deformation caused by shrinkage when a hot material is cooled when a finished product is coiled, the material is cooled by a cooling roller before coiling so as to reduce the deformation of the material. And a cooling roller positioned at the rear side of the web drying device for reducing the temperature of the web to the curing temperature of the thermosetting ink.

With the continuous development and progress of world science and technology, the application of advanced technologies such as electrical control and automation in the technical field of printing machinery, and the manufacturing technology and mode of domestic printing machinery equipment are rapidly developed, so that the working performance and the technological content of the printing machine are obviously improved, and the application range and the reference field are also expanded.

Because the printing speed is high, printing ink on the surface of the material film is not dried, the printed material film is dried by a high-temperature oven before the next color is printed, but because any substance has the characteristics of expansion with heat and contraction with cold, the surface temperature of the material film is increased after the material film passes through a drying oven to cause thermal expansion of the material film, and the problems of inaccurate overprinting, image-text deformation and the like can be caused if the printing is carried out at the moment. Therefore, a cooling device is required to be arranged behind the drying device of the oven and used for cooling the dried material film with higher temperature, so that the temperature of the high-temperature material film is returned to the temperature of the previous color printing before the next color printing, namely room temperature. The cooling roller is an important component of the printing machine and is used for cooling the material film with higher surface temperature after being dried by the oven. The cooling performance of the cooling roller directly influences the quality of printed products, and the structural performance of the cooling roller influences the tension stability and overprinting precision of material films.

Temperature control plays a significant role in process control frequently encountered in industrial production processes, particularly in the industries of metallurgy, chemical industry, building materials, food, machinery, petroleum and the like, and the control effect of the temperature influences the product quality. The technology of measuring and controlling temperature by using a microcomputer is also developed and developed increasingly, and the superiority of the technology is realized increasingly.

The patent with publication number CN100337166C discloses a printing unit chill roll thermostatic control box, which relates to the technical field of printing equipment, wherein a circulating water pipe is internally heat-exchanged with a control box body through a pipe wall, and is primarily cooled by a circulating fan, the expected thermostatic temperature is automatically set, after adjustment, a control device can compare the collected real-time temperature with the set expected temperature, if the real-time temperature is higher than the set temperature, a refrigerator is started, a digital pipe display circuit generally displays the real-time temperature, namely the temperature collected by a temperature sensor, and if people want to display the set expected temperature, display switching can be carried out, and at the moment, the expected temperature can be displayed on a display.

The patent with publication number CN105946345B discloses a rear-mounted printing paper cooling assembly for a printing machine, which comprises a collecting frame body, wherein one side of the frame body is provided with a double-row sliding track device and an exhaust device, the double-row sliding track device and the exhaust device are in conversion connection with hot and cold air through a telescopic hose, the front end of the frame body is provided with an air suction cover, the inner side of the frame body is provided with a control panel, the control panel is synchronous with an alignment part of the printing machine during operation, indoor hot air is converted into a cold air state after being processed and then is conveyed to the exhaust device to move up and down for cooling; a prompting device is arranged on the control panel and correspondingly prompts according to the running state; and a subsection timing device is arranged, and short-time pause operation is carried out when the exhaust device moves to the outlet end of the printing paper.

However, the following problems still exist:

the heat exchanged each time is limited, namely the heat exchanged each time is low, and the heat exchanged each time cannot be improved, so that the heat dissipation efficiency is low;

1. the prior art has the disadvantages of lower processing precision, low processing efficiency and inconvenient disassembly and maintenance.

2. The on-line detection and the automatic constant temperature regulation of the temperature cannot be realized.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a cooling device for a finished product printed by a frame high-temperature-resistant PI adhesive tape, which is used for solving the problems that in the prior art, the heat exchanged each time is limited, namely the heat exchanged each time is low, and the heat exchanged each time cannot be improved, so that the heat dissipation efficiency is low, and the like.

In order to solve the technical problems, the invention adopts the following technical scheme:

a frame high temperature resistant PI tape printing finished product cooling device comprises a cooling outer frame and a cooling mechanism, wherein the cooling outer frame is arranged below the cooling mechanism;

the bottom of the cooling outer frame is provided with a heat removal moving mechanism, and the front end of the heat removal moving mechanism is provided with a heat removal fixing mechanism;

the cooling mechanism comprises a cooling top plate, a sliding heat removal mechanism and a cooling assembly, the top of the sliding heat removal mechanism is connected with the cooling top plate in a sliding mode, and the cooling assembly is arranged below the sliding heat removal mechanism.

Further, cooling body still includes fixed left side frame, fixed right side frame, slip mobile jib, fixed left side frame is installed in cooling roof left end, fixed right side frame is installed in cooling roof right-hand member, slip mobile jib both ends are connected with fixed left side frame, fixed right side frame free end.

Further, the sliding heat removal mechanism comprises a sliding groove, a sliding rod and a nylon sliding block, wherein two ends of the sliding rod are arranged at two ends of the inner wall of the sliding groove, and the nylon sliding block is slidably arranged on a rod body of the sliding rod.

Furthermore, the cooling assembly comprises a main body, two groups of adjusting cylinders, adjusting slide rails and adjusting slide blocks, wherein the adjusting cylinders are respectively installed on two sides of the main body, the adjusting slide rails are arranged on the left side and the right side of the adjusting cylinders, the adjusting slide rails are fixedly connected with the main body, and the adjusting slide blocks are slidably installed on the adjusting slide rails.

Furthermore, the cooling assembly further comprises an adjusting main board, a heat conducting rod and a heat conducting fin, the adjusting main board is fixedly connected with the adjusting slider, the heat conducting rod is fixedly connected with the bottom of the adjusting main board, and the heat conducting fin is installed at the bottom end of the heat conducting rod.

Further, the cooling mechanism comprises a heat absorption assembly, the heat absorption assembly is connected with a group of adjusting cylinders, the heat absorption assembly is arranged in a hollow groove in the sliding main rod, and a plurality of air cooling suction holes are formed in the heat absorption assembly.

Further, be equipped with a set of sliding motor, two sets of slip tracks on the slip mobile jib, the main part bottom is located between two sets of slip tracks, sliding motor is connected with the slip track.

Furthermore, the heat removal fixing mechanism comprises a heat removal moving plate, a heat removal main plate, a heat removal slide rail and a heat removal slide block, wherein two ends of the heat removal moving plate are connected with a linkage belt, the inner side of the heat removal main plate is fixedly connected with the heat removal moving plate, the heat removal slide rail is arranged on the outer side of the heat removal main plate, and the heat removal slide block is arranged on a heat removal slide rail track;

and a cooling device is also arranged on the outer side of the heat removal sliding block.

Furthermore, the heat removal moving mechanism comprises two groups of slide rails and a linkage slide shaft, the two groups of slide rails are respectively arranged at two ends of the bottom of the cooling outer frame, and the two groups of slide rails are connected through the linkage slide shaft;

the sliding rail comprises at least two fixing plates, pulleys and a linkage belt, the pulleys are arranged in the fixing plates, and two ends of the linkage belt are respectively connected with one pulley;

the linkage sliding shaft comprises a linkage rod and two linkage seats, two ends of the linkage rod are respectively arranged in the two linkage seats, and the linkage rod is respectively connected with a pulley.

The use method of the cooling device for the frame high-temperature-resistant PI tape printing finished product comprises the following steps:

s1, mounting equipment, namely mounting a cooling outer frame below a cooling mechanism, and connecting a cooling top plate with an external liquid cooling exhaust fan to ensure that heat conduction connection is normal;

s2, the main body is adjusted left and right on the sliding main rod, when the main body is adjusted to be above a printed finished product, the adjusting cylinder drives the adjusting slide block to slide and press down through the adjusting slide rail, and then drives the adjusting main board to link with the heat conducting rod to press down the heat conducting sheet, so that the heat conducting sheet contacts the printed finished product, meanwhile, the other group of adjusting cylinders drives the heat absorbing component to descend to be attached to the printed finished product, and heat on the heat absorbing component is taken out through the air cooling suction hole;

and S3, conducting heat through water cooling, driving the linkage sliding shaft to rotate through the external motor, driving the pulley to rotate through the linkage sliding shaft, driving the heat removal moving plate to move transversely through the linkage belt, and when the cooling device moves to the position above the printed finished product, vertically adjusting the cooling device on the heat removal sliding rail through the heat removal sliding block and dissipating heat through cooling spray.

Compared with the prior art, the invention has the following beneficial effects:

and the cooling top plate is connected with an external liquid cooling exhaust fan to ensure normal heat conduction connection, a sliding motor drives a sliding track to rotate, a nylon slide block on a linkage main body slides through a sliding rod to enable the main body to be adjusted left and right on a sliding main rod, when the main body is adjusted to be above a printing finished product, an adjusting cylinder drives an adjusting slide block to slide and press down through an adjusting slide rail, and then drives an adjusting main board to link with the heat conducting rod to press down a heat conducting sheet, so that the heat conducting sheet contacts the printing finished product, meanwhile, another group of adjusting cylinders drives a heat absorbing component to descend and attach to the printing finished product, heat on the heat absorbing component is taken out through an air cooling suction hole, a linkage slide shaft is driven to rotate through an external motor, the linkage slide shaft simultaneously drives a pulley to rotate, a linkage belt drives a heat removal moving plate to move transversely, when a cooling device moves to be above the printing finished product, the cooling device vertically adjusts on the heat removal slide rail through the heat removal slide rail, heat is dissipated through cooling spray, heat is conducted to the cooling top plate through the heat conducting fins through the sliding rods, then the heat is taken out through the liquid cooling exhaust fan, and the efficiency of single heat dissipation is in direct proportion to the rotating speed of the fan;

drive the smooth axle of linkage through crossing outside motor and rotate, the smooth axle of linkage drives the pulley simultaneously and rotates, the linkage area drives the heat removal movable plate and carries out lateral shifting, when the heat sink removes to printing finished product top, the heat sink carries out vertical regulation at the heat removal slide rail through the heat removal slider, and dispel the heat through the cooling spraying, drive the heat removal movable plate through the linkage area and carry out lateral shifting, can make the heat sink cool down the printing finished product of different width again, the universality of the device is improved, and simultaneously, adjust through the rotational speed to the row fan, can carry out automatically regulated constant temperature to the device heat conduction.

Drawings

FIG. 1 is a schematic perspective view of a first cooling device for a printed PI tape with a frame resistant to high temperature according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of a cooling device for a printed PI tape with a frame resistant to high temperature according to the present invention;

FIG. 3 is a third schematic view of a three-dimensional structure in an embodiment of a cooling device for a printed finished product of a PI tape with a high-temperature-resistant frame according to the present invention;

FIG. 4 is a partially enlarged view of the structure at X in FIG. 3;

FIG. 5 is a fourth schematic perspective view of an embodiment of a cooling device for a printed PI tape with a frame resistant to high temperature according to the present invention;

FIG. 6 is an enlarged view of a portion of the structure at Y in FIG. 5;

FIG. 7 is a schematic rear view of an embodiment of a cooling device for a printed PI tape with a high temperature resistant frame according to the present invention;

reference numerals in the drawings of the specification include:

cooling the outer frame 1;

the cooling mechanism 2, the cooling top plate 21, the fixed left frame 22, the fixed right frame 23, the sliding main rod 24 and the sliding motor 241;

the heat removal moving mechanism 3, a slide rail 31, a fixing plate 311, a pulley 312, a linkage belt 313, a linkage slide shaft 32, a linkage rod 321 and a linkage seat 322;

the heat removal fixing mechanism 4 comprises a moving plate 41, a heat removal main plate 42, a heat removal slide rail 43, a heat removal slide block 44 and a cooling device 45;

the sliding heat removal mechanism 5, a sliding groove 51, a sliding rod 52 and a nylon sliding block 53;

the cooling assembly 6, the main body 61, the adjusting cylinder 62, the adjusting slide rail 63, the adjusting slide block 68, the adjusting main plate 64, the heat conducting rod 65, the heat conducting sheet 66, the heat absorbing assembly 67 and the air cooling suction hole 69.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described in conjunction with the accompanying drawings and examples:

it should be noted that the same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being fixed or detachable or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Example one

As shown in fig. 1-7, a cooling device for a frame high-temperature-resistant PI tape printing finished product comprises a cooling outer frame 1 and a cooling mechanism 2, wherein the cooling outer frame 1 is arranged below the cooling mechanism 2;

the bottom of the cooling outer frame 1 is provided with a heat removal moving mechanism 3, and the front end of the heat removal moving mechanism 3 is provided with a heat removal fixing mechanism 4;

the cooling mechanism 2 comprises a cooling top plate 21, a sliding heat removal mechanism 5 and a cooling assembly 6, the top of the sliding heat removal mechanism 5 is connected with the cooling top plate 21 in a sliding mode, and the cooling assembly 6 is arranged below the sliding heat removal mechanism 5.

The cooling outer frame 1 is arranged below the cooling mechanism 2, the cooling top plate 21 is connected with an external liquid cooling exhaust fan to ensure that the heat conduction connection is normal, the sliding motor 241 drives the sliding track 242 to rotate, the nylon slide block 53 on the linkage main body 61 slides through the sliding rod 52 to enable the main body 61 to be adjusted left and right on the sliding main rod 24, when the main body 61 is adjusted to be above a printing finished product, the adjusting cylinder 62 drives the adjusting slide block 68 to slide and press down through the adjusting slide rail 63, the adjusting main plate 64 is driven to link the heat conducting rod 65 to press down the heat conducting sheet 66, the heat conducting sheet 66 is contacted with the printing finished product, meanwhile, the other group of adjusting cylinders 62 drive the heat absorbing assembly 67 to descend to be attached to the printing finished product, heat on the heat absorbing assembly 67 is taken out through the air cooling suction holes 69, the linkage sliding shaft 32 is driven to rotate by the external motor, the linkage sliding shaft 32 simultaneously drives the pulley 312 to rotate, the linkage belt 313 drives the heat removing 41 to transversely move the moving plate, when heat sink 45 removed to printing finished product top, heat sink 45 carried out vertical regulation at heat removal slide rail 43 through removing heat slider 44 to dispel the heat through the cooling spraying, lead to cooling roof 21 through conducting strip 66 with the heat through slide bar 52, discharge the fan through the liquid cooling afterwards and take the heat out, the single efficiency and the fan speed direct ratio of heat dissipation.

The cooling mechanism 2 further comprises a fixed left frame 22, a fixed right frame 23 and a sliding main rod 24, the fixed left frame 22 is installed at the left end of the cooling top plate 21, the fixed right frame 23 is installed at the right end of the cooling top plate 21, and two ends of the sliding main rod 24 are connected with the free ends of the fixed left frame 22 and the fixed right frame 23.

When the cooling mechanism is used specifically, the fixed left frame 22 and the fixed right frame 23 can fix the sliding main rod 24, and meanwhile, because the cooling mechanism 2 is made of aluminum, the fixed left frame 22 and the fixed right frame 23 can perform auxiliary heat dissipation during the heat dissipation process, so that the heat capacity ratio of the cooling mechanism 2 is improved.

The sliding heat removal mechanism 5 comprises a sliding groove 51, a sliding rod 52 and a nylon sliding block 53, wherein two ends of the sliding rod 52 are installed at two ends of the inner wall of the sliding groove 51, and the nylon sliding block 53 is installed on the rod body of the sliding rod 52 in a sliding mode.

During specific use, the nylon slider 53 is laterally moved in the sliding groove 51 through the sliding rod 52, and the cooling mechanism 2 is laterally adjusted to adapt to the input position of the printed product, so that the heat-conducting sheet 66 is ensured to be attached to the center high-temperature position of the printed product.

The cooling assembly 6 comprises a main body 61, two groups of adjusting cylinders 62, adjusting slide rails 63 and adjusting sliders 68, wherein the two groups of adjusting cylinders 62 are respectively installed on two sides of the main body 61, the adjusting slide rails 63 are arranged on the left side and the right side of the adjusting cylinders 62, the adjusting slide rails 63 are fixedly connected with the main body 61, and the adjusting sliders 68 are slidably installed on the adjusting slide rails 63.

The cooling assembly 6 further comprises an adjusting main board 64, a heat conducting rod 65 and a heat conducting sheet 66, the adjusting main board 64 is fixedly connected with an adjusting sliding block 68, the heat conducting rod 65 is fixedly connected with the bottom of the adjusting main board 64, and the heat conducting sheet 66 is installed at the bottom end of the heat conducting rod 65. When main part 61 adjusts to printing finished product top, adjust cylinder 62 and drive adjust slider 68 and slide through adjusting slide rail 63 and push down, drive thereupon and adjust mainboard 64 linkage heat conduction pole 65 and push down conducting strip 66, make conducting strip 66 contact printing finished product, because the heat can be from high temperature department to low temperature department conduction, the heat of printing finished product can be quick shifts to conducting strip 66 on, make the printing finished product cool off fast.

The cooling assembly 6 further comprises a heat absorption assembly 67, the heat absorption assembly 67 is connected with the group of adjusting cylinders 62, the heat absorption assembly 67 is arranged in a hollow groove in the sliding main rod 24, and a plurality of air cooling suction holes 69 are formed in the heat absorption assembly 67.

In the specific use, the air cooling suction holes 69 generate adsorption force, so that heat on the printed finished product is upwards sucked out through the air cooling suction holes 69.

Example two

As a further improvement of the previous embodiment, as shown in fig. 1 to 7, the present embodiment provides a cooling device for a PI tape printing product with high temperature resistance of a frame, which includes a cooling outer frame 1 and a cooling mechanism 2, wherein the cooling outer frame 1 is installed below the cooling mechanism 2;

the bottom of the cooling outer frame 1 is provided with a heat removal moving mechanism 3, and the front end of the heat removal moving mechanism 3 is provided with a heat removal fixing mechanism 4;

the cooling mechanism 2 comprises a cooling top plate 21, a sliding heat removal mechanism 5 and a cooling assembly 6, the top of the sliding heat removal mechanism 5 is connected with the cooling top plate 21 in a sliding mode, and the cooling assembly 6 is arranged below the sliding heat removal mechanism 5.

The cooling outer frame 1 is arranged below the cooling mechanism 2, the cooling top plate 21 is connected with an external liquid cooling exhaust fan to ensure that the heat conduction connection is normal, the sliding motor 241 drives the sliding track 242 to rotate, the nylon slide block 53 on the linkage main body 61 slides through the sliding rod 52 to enable the main body 61 to be adjusted left and right on the sliding main rod 24, when the main body 61 is adjusted to be above a printing finished product, the adjusting cylinder 62 drives the adjusting slide block 68 to slide and press down through the adjusting slide rail 63, the adjusting main plate 64 is driven to link the heat conducting rod 65 to press down the heat conducting sheet 66, the heat conducting sheet 66 is contacted with the printing finished product, meanwhile, the other group of adjusting cylinders 62 drive the heat absorbing assembly 67 to descend to be attached to the printing finished product, heat on the heat absorbing assembly 67 is taken out through the air cooling suction holes 69, the linkage sliding shaft 32 is driven to rotate by the external motor, the linkage sliding shaft 32 simultaneously drives the pulley 312 to rotate, the linkage belt 313 drives the heat removing 41 to transversely move the moving plate, when heat sink 45 removed to printing finished product top, heat sink 45 carried out vertical regulation at heat removal slide rail 43 through removing heat slider 44 to dispel the heat through the cooling spraying, lead to cooling roof 21 through conducting strip 66 with the heat through slide bar 52, discharge the fan through the liquid cooling afterwards and take the heat out, the single efficiency and the fan speed direct ratio of heat dissipation.

The cooling mechanism 2 further comprises a fixed left frame 22, a fixed right frame 23 and a sliding main rod 24, the fixed left frame 22 is installed at the left end of the cooling top plate 21, the fixed right frame 23 is installed at the right end of the cooling top plate 21, and two ends of the sliding main rod 24 are connected with the free ends of the fixed left frame 22 and the fixed right frame 23.

When the cooling mechanism is used specifically, the fixed left frame 22 and the fixed right frame 23 can fix the sliding main rod 24, and meanwhile, because the cooling mechanism 2 is made of aluminum, the fixed left frame 22 and the fixed right frame 23 can perform auxiliary heat dissipation during the heat dissipation process, so that the heat capacity ratio of the cooling mechanism 2 is improved.

The sliding heat removal mechanism 5 comprises a sliding groove 51, a sliding rod 52 and a nylon sliding block 53, wherein two ends of the sliding rod 52 are installed at two ends of the inner wall of the sliding groove 51, and the nylon sliding block 53 is installed on the rod body of the sliding rod 52 in a sliding mode.

During specific use, the nylon slider 53 is laterally moved in the sliding groove 51 through the sliding rod 52, and the cooling mechanism 2 is laterally adjusted to adapt to the input position of the printed product, so that the heat-conducting sheet 66 is ensured to be attached to the center high-temperature position of the printed product.

The cooling assembly 6 comprises a main body 61, two groups of adjusting cylinders 62, adjusting slide rails 63 and adjusting sliders 68, wherein the two groups of adjusting cylinders 62 are respectively installed on two sides of the main body 61, the adjusting slide rails 63 are arranged on the left side and the right side of the adjusting cylinders 62, the adjusting slide rails 63 are fixedly connected with the main body 61, and the adjusting sliders 68 are slidably installed on the adjusting slide rails 63.

The cooling assembly 6 further comprises an adjusting main board 64, a heat conducting rod 65 and a heat conducting sheet 66, the adjusting main board 64 is fixedly connected with an adjusting sliding block 68, the heat conducting rod 65 is fixedly connected with the bottom of the adjusting main board 64, and the heat conducting sheet 66 is installed at the bottom end of the heat conducting rod 65. When main part 61 adjusts to printing finished product top, adjust cylinder 62 and drive adjust slider 68 and slide through adjusting slide rail 63 and push down, drive thereupon and adjust mainboard 64 linkage heat conduction pole 65 and push down conducting strip 66, make conducting strip 66 contact printing finished product, because the heat can be from high temperature department to low temperature department conduction, the heat of printing finished product can be quick shifts to conducting strip 66 on, make the printing finished product cool off fast.

The cooling assembly 6 further comprises a heat absorption assembly 67, the heat absorption assembly 67 is connected with the group of adjusting cylinders 62, the heat absorption assembly 67 is arranged in a hollow groove in the sliding main rod 24, and a plurality of air cooling suction holes 69 are formed in the heat absorption assembly 67.

In the specific use, the air cooling suction holes 69 generate adsorption force, so that heat on the printed finished product is upwards sucked out through the air cooling suction holes 69.

The sliding main rod 24 is provided with a set of sliding motor 241 and two sets of sliding tracks 242, the bottom of the main body 61 is arranged between the two sets of sliding tracks 242, and the sliding motor 241 is connected with the sliding tracks 242.

The heat removal fixing mechanism 4 comprises a heat removal moving plate 41, a heat removal main plate 42, a heat removal slide rail 43 and a heat removal slide block 44, wherein two ends of the heat removal moving plate 41 are connected with the linkage belt 313, the inner side of the heat removal main plate 42 is fixedly connected with the heat removal moving plate 41, the heat removal slide rail 43 is arranged on the outer side of the heat removal main plate 42, and the heat removal slide block 44 is arranged on a track of the heat removal slide rail 43;

and a cooling device 45 is also arranged outside the heat removal slide block 44.

The heat removal moving mechanism 3 comprises two groups of slide rails 31 and a linkage slide shaft 32, the two groups of slide rails 31 are respectively arranged at two ends of the bottom of the cooling outer frame 1, and the two groups of slide rails 31 are connected through the linkage slide shaft 32;

the slide rail 31 comprises at least two fixing plates 311, pulleys 312 and a linkage belt 313, wherein the pulleys 312 are arranged in the fixing plates 311, and two ends of the linkage belt 313 are respectively connected with one pulley 312;

the linkage sliding shaft 32 includes a linkage rod 321 and two linkage seats 322, two ends of the linkage rod 321 are respectively disposed in the two linkage seats 322, and the linkage rod 321 is respectively connected to one pulley 312.

The linkage sliding shaft 32 is driven to rotate through an external motor, the linkage sliding shaft 32 drives the pulley 312 to rotate at the same time, the linkage belt 313 drives the heat removal moving plate 41 to move transversely, when the cooling device 45 moves to the position above a printed finished product, the cooling device 45 carries out vertical adjustment on the heat removal sliding rail 43 through the heat removal sliding block 44, heat is dissipated through cooling spraying, the linkage belt 313 drives the heat removal moving plate 41 to move transversely, the cooling device 45 can cool the printed finished products with different widths, and the universality of the device is improved.

The use method of the cooling device for the frame high-temperature-resistant PI tape printing finished product comprises the following steps:

s1, mounting equipment, namely mounting the cooling outer frame 1 below the cooling mechanism 2, and connecting the cooling top plate 21 with an external liquid cooling exhaust fan to ensure that heat conduction connection is normal;

s2, heat conduction connection is achieved, the sliding motor 241 drives the sliding track 242 to rotate, the nylon sliding block 53 on the linkage main body 61 slides through the sliding rod 52, the main body 61 is adjusted left and right on the sliding main rod 24, when the main body 61 is adjusted to be above a printing finished product, the adjusting cylinder 62 drives the adjusting sliding block 68 to slide and press downwards through the adjusting sliding rail 63, the adjusting main board 64 is driven to be linked with the heat conducting rod 65 to press the heat conducting sheet 66 downwards, the heat conducting sheet 66 is made to contact the printing finished product, meanwhile, the other group of adjusting cylinders 62 drive the heat absorbing assembly 67 to descend to be attached to the printing finished product, and heat on the heat absorbing assembly 67 is taken out through the air cooling suction hole 69;

and S3, conducting heat through water cooling, driving the linkage sliding shaft 32 to rotate through an external motor, driving the pulley 312 to rotate through the linkage sliding shaft 32, driving the heat removal moving plate 41 to move transversely through the linkage belt 313, and when the cooling device 45 moves to the position above a printing finished product, vertically adjusting the cooling device 45 on the heat removal sliding rail 43 through the heat removal sliding block 44 and dissipating heat through cooling spray.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.