Disclosure of Invention
In order to solve the technical problems, the invention provides a heat-dissipation dustproof electric power label protective film attaching machine which can dissipate heat inside a mounting bottom box and prevent dust at the same time by means of a vacuum generator.
In order to achieve the purpose, the invention provides the following technical scheme:
a heat-dissipation dustproof electric power label protection film attaching machine comprises an installation bottom box, an installation panel, a linear slide rail, an adsorption type support plate, a turnover cylinder, an adsorption type pressing plate, a vacuum generator and a heat-dissipation fan;
the installation panel is arranged on the installation bottom box;
the linear slide rail and the overturning air cylinder are fixed relative to the mounting panel;
the adsorption type support plate is connected with the linear slide rail in a sliding mode, and the adsorption type pressing plate can be connected with the overturning air cylinder in a turnover mode;
the vacuum generator is arranged on the adsorption type pressing plate, a vacuum port of the vacuum generator is respectively connected with the adsorption type carrier plate and the air hole of the adsorption type pressing plate, and an exhaust port of the vacuum generator is connected with an air pipe joint arranged on the front surface of the installation bottom box;
the heat radiation fan is arranged on the back surface of the installation bottom box and is opposite to the air pipe joint.
As an implementation mode, the drawer type slide rail device further comprises a first side slide rail, a second side slide rail, a drawer type pull cabinet and an electric element;
the first side slide rail and the second side slide rail are arranged in the installation bottom box and are opposite to each other;
the drawer type pull cabinet is arranged between the first side edge slide rail and the second side edge slide rail and is connected with the first side edge slide rail and the second side edge slide rail in a sliding manner, and the drawer type pull cabinet is arranged below the heat dissipation fan and the air pipe connector;
the electrical component is arranged in the drawer type pull cabinet.
As an implementation mode, the air cylinder device further comprises a first side bracket, a second side bracket, an air cylinder mounting shaft, a pressure plate mounting shaft and an air cylinder connecting lug;
first side support with second side support all locates on the mounting panel and relative each other, cylinder installation axle with clamp plate installation axle is all located first side support with between the second side support, the upset cylinder passes through cylinder installation axle is fixed first side support with between the second side support, the absorption formula clamp plate passes through the clamp plate installation axle is fixed first side support with between the second side support, the upset cylinder passes through the cylinder engaging lug is connected the absorption formula clamp plate.
As an implementation mode, the device also comprises a pressure plate mounting plate and a pressure plate connecting column;
the clamp plate mounting panel with the absorption formula clamp plate is relative from top to bottom and pass through between the two the clamp plate spliced pole is connected, the clamp plate mounting panel passes through the clamp plate installation axle is fixed first side support with between the second side support, so that the absorption formula clamp plate is fixed first side support with between the second side support.
As an implementation mode, the device further comprises a plurality of first dovetail groove-shaped sliding tables along the length direction of the adsorption type pressing plate and a plurality of second dovetail groove-shaped sliding tables along the width direction of the adsorption type pressing plate;
the first dovetail groove-shaped sliding table or the second dovetail groove-shaped sliding table comprises a dovetail groove-shaped sliding rail, a sliding rail elastic block and a pressing plate connecting block;
dovetail groove type slide rail fixed connection the clamp plate mounting panel, slide rail elasticity piece sliding connection dovetail groove type slide rail, clamp plate connecting block fixed connection slide rail elasticity piece with the absorption formula clamp plate.
As an embodiment, the first dovetail groove-type sliding table includes two, and the second dovetail groove-type sliding table includes two; two the second forked tail cell type slip table along the width direction of absorption formula clamp plate is relative each other, two first forked tail cell type slip table is located two between the second forked tail cell type slip table, and two first forked tail cell type slip table and two the second forked tail cell type slip table forms T type connection structure.
As an implementation mode, the device also comprises a first press roll mounting piece, a second press roll mounting piece and a press roll piece;
the first compression roller mounting piece and the second compression roller mounting piece are respectively arranged on two sides of the adsorption type pressing plate, and the compression roller piece is fixed on the adsorption type pressing plate through the first compression roller mounting piece and the second compression roller mounting piece and is located in the length extending direction of the adsorption type pressing plate.
As an embodiment, the roll member includes a roll shaft core, a roll sleeve, a first roll bearing, and a second roll bearing;
the compression roller sleeve is sleeved on the compression roller core, the first compression roller bearing and the second compression roller bearing are respectively arranged at two ends of the compression roller core, the first compression roller bearing is embedded into the first compression roller mounting piece, and the second compression roller bearing is embedded into the second compression roller mounting piece.
As an implementation mode, the device also comprises a metal sheet, a first position sensor and a second position sensor;
the metal sheet is arranged on the adsorption type carrier plate and extends towards the mounting panel;
the first position sensor and the second position sensor are arranged on the mounting panel and are opposite to each other along the length direction of the linear slide rail, and the first position sensor and the second position sensor are used for detecting the position of the adsorption type carrier plate.
As an embodiment, the first position sensor or the second position sensor comprises a U-shaped detection opening, which provides the metal sheet to pass through.
Compared with the prior art, the invention has the beneficial effects that:
the invention provides a heat-dissipation dustproof electric power label protective film attaching machine which can dissipate heat in an installation bottom box and can prevent dust. Because the suction force of the suction carrier plate and the suction platen is provided by the vacuum generator when in use. And the gas is exhausted from the exhaust port of the vacuum generator into the installation bottom box, and then the gas is exhausted from the installation bottom box through the cooling fan, so that the gas inside and outside the installation bottom box forms circulation, and the heat can be dissipated inside the installation bottom box. It should be noted that the heat dissipation system formed by the vacuum generator and the heat dissipation fan is different from other heat dissipation systems. Because the air exhausted from the heat-radiating fan is provided from the vacuum generator, the heat-radiating system does not generate dust accumulation in the process of exhausting and radiating heat because the vacuum generator is not open. In other heat dissipating systems, the air source is open, so that dust is easily deposited at the opening of the bottom case or at the heat dissipating fan.
Detailed Description
The above and further features and advantages of the present invention will be apparent from the following, complete description of the invention, taken in conjunction with the accompanying drawings, wherein the described embodiments are merely some, but not all embodiments of the invention.
In one embodiment, as shown in fig. 1 and 2. The radiating and dustproof electric power label protection film attaching machine comprises an installation panel 1, a linear slide rail 2, an adsorption type support plate 3, a turnover cylinder 4 and an adsorption type pressing plate 5. The mounting panel 1, the linear slide rail 2, the adsorption type carrier plate 3, the turnover cylinder 4 and the adsorption type pressing plate 5 are basic components of a heat-dissipation and dustproof electric power label protection film attaching machine or a traditional attaching machine. In the figure, a linear slide rail 2 and a turnover cylinder 4 are both fixed relative to a mounting panel 1. The adsorption type carrier plate 3 is connected with the linear slide rail 2 in a sliding way, and the adsorption type press plate 5 is connected with the overturning air cylinder 4 in a turnover way. Here, the electric label is taken as an example; when the electric power label is used, the protective film is adsorbed on the adsorption type pressing plate 5, and the electric power label is adsorbed on the adsorption type carrier plate 3. The relative position between the adsorption type pressing plate 5 and the adsorption type carrier plate 3 is adjusted by driving the adsorption type pressing plate 5 to be pressed downwards through the overturning air cylinder 4, so that the protective film is preliminarily contacted with the electric power label. After that, the absorption type carrier plate 3 is driven to slide along the linear slide rail 2, so that the protective film is completely contacted with the electric power label, and finally the film pasting is completed. However, in the present embodiment, the heat-dissipating and dust-proof electric label protective film attaching machine includes a carrier vacuum groove 6, a carrier vacuum packing 7, a carrier elevating plate 8, a platen vacuum groove 9, a platen vacuum packing 10, and a vacuum generator 11 in addition to the above base member. In the figure, a carrier vacuum groove 6 is formed on the adsorption type carrier 3, a carrier vacuum sealing ring 7 is formed on the periphery of the notch of the carrier vacuum groove 6, and a carrier lifting plate 8 is formed in the carrier vacuum groove 6 and can be lifted relative to the adsorption type carrier 3. Correspondingly, the pressing plate vacuum groove 9 is arranged on the adsorption type pressing plate 5, the pressing plate vacuum sealing ring 10 is arranged on the notch periphery of the pressing plate vacuum groove 9, the pressing plate vacuum groove 9 and the pressing plate vacuum sealing ring 10 are respectively opposite to the support plate vacuum groove 6 and the support plate vacuum sealing ring 7 up and down, and a vacuum cavity is formed between the pressing plate vacuum groove 9 and the support plate vacuum groove 6. In use, the platen vacuum slots 9 provide a downwardly open space in the upper half and the carrier plate vacuum slots 6 provide an upwardly open space in the lower half. By means of the platen vacuum seal 10 and the carrier vacuum seal 7, a vacuum chamber can be formed between the platen vacuum groove 9 and the carrier vacuum groove 6. The vacuum chamber is formed by the vacuum generator 11, specifically, the vacuum generator 11 is disposed on the adsorption type platen 5, and the vacuum port of the vacuum generator 11 is connected to the air holes of the adsorption type carrier plate 3, the carrier plate vacuum groove 6, the adsorption type platen 5, and the platen vacuum groove 9. In this embodiment, the process of initially contacting the electric label with the protective film is performed in a nearly vacuum environment. Therefore, the air bubbles can be fundamentally removed. Meanwhile, in order to firmly attach the protective film, a carrier plate lifting plate 8 is arranged in the carrier plate vacuum groove 6. After the protective film is initially brought into contact with the electric power label, the carrier lifting plate 8 is lifted up, whereby the protective film is brought into close contact with the electric power label. Then, the adsorption type pressing plate 5 and the adsorption type carrier plate 3 are relatively separated, and the adsorption type carrier plate 3 is driven to slide along the linear slide rail 2 under a non-vacuum environment, so that the protective film is completely contacted with the electric power label, and finally, the film pasting is completed.
In the above, the preliminary contact of the protective film with the electric power label is changed to be completed in a vacuum environment, and a process of tightly attaching the protective film in the vacuum environment is added. Therefore, not only can the air bubbles be exhausted, but also the protective film can be firmly attached.
In one embodiment, as shown in FIG. 3. The radiating and dustproof electric power label protection film attaching machine comprises a first side edge support 12, a second side edge support 13, an air cylinder mounting shaft 14, a pressing plate mounting shaft 15 and an air cylinder connecting lug 16. In the drawing, a first side bracket 12 and a second side bracket 13 are provided on the mounting panel 1 (not shown in fig. 3) and are opposed to each other. The cylinder mounting shaft 14 and the platen mounting shaft 15 are both provided between the first side bracket 12 and the second side bracket 13, and the cylinder mounting shaft 14 and the platen mounting shaft 15 are parallel to each other. On the basis, the overturning cylinder 4 is fixed between the first side bracket 12 and the second side bracket 13 through a cylinder mounting shaft 14; the adsorption type pressing plate 5 is fixed between the first side bracket 12 and the second side bracket 13 through a pressing plate mounting shaft 15. The reversing cylinder 4 is connected to the suction platen 5 via a cylinder connecting lug 16.
Based on the structure, the adsorption type pressing plate 5 can be driven to turn through the turning cylinder 4. Thereby adjusting the relative position between suction platen 5 and suction carrier plate 3. The specific implementation process is combined with the state shown in fig. 3, and when the overturning cylinder 4 extends out, the adsorption type pressing plate 5 turns downwards; when the turnover cylinder 4 retracts, the adsorption type pressing plate 5 turns upwards.
In one embodiment, as shown in FIG. 3. The heat-dissipating and dust-proof electric power label protective film attaching machine comprises a pressure plate mounting plate 17 and a pressure plate connecting column 18. In the figure, the platen mounting plate 17 and the suction platen 5 are vertically opposed to each other and connected to each other by a platen connecting column 18. The pressure plate mounting plate 17 and the adsorption type pressure plate 5 are overhead through 4 pressure plate connecting columns 18 respectively positioned at four corners. Further, a platen mounting plate 17 is fixed between the first side bracket 12 and the second side bracket 13 by a platen mounting shaft 15 so that the adsorption platen 5 is fixed between the first side bracket 12 and the second side bracket 13.
With the above configuration, the suction type platen 5 can be positioned lower than the platen mounting plate 17. Therefore, when the platen mounting plate 17 and the suction platen 5 are simultaneously turned downward, the turning stroke of the suction platen 5 can be reduced. It should be noted that the platen connection post 18 in this embodiment is fixedly connected between the platen mounting plate 17 and the suction platen 5. It is removable and, in the presence of the second type of connection, it acts only as a stop and not as a connection.
In one embodiment, as shown in fig. 4 and 5. The dustproof electric power sign protection film of heat dissipation affixes machine includes a plurality of first forked tail cell type slip tables 19 and a plurality of second forked tail cell type slip tables 20. In fig. 4, a plurality of first dovetail groove-shaped slide tables 19 are provided along the longitudinal direction of the suction platen 5; the plurality of second dovetail groove-shaped sliding tables 20 are along the width direction of the suction platen 5. In fig. 5, the first dovetail groove-shaped slide table 19 or the second dovetail groove-shaped slide table 20 includes a dovetail groove-shaped slide rail 1901, a slide rail tightening block 1902, and a clamp plate connecting block 1903. The dovetail groove-shaped slide rail 1901 is fixedly connected with the press plate mounting plate 17, the slide rail elastic block 1902 is slidably connected with the dovetail groove-shaped slide rail 1901, and the press plate connecting block 1903 is fixedly connected with the slide rail elastic block 1902 and the adsorption type press plate 5.
With the above configuration, the position of the suction type platen 5 can be adjusted. Specifically, the position of the suction platen 5 is adjusted. In this embodiment, the platen mounting plate 17 and the suction platen 5 are connected by the first dovetail groove-shaped slide table 19 and the second dovetail groove-shaped slide table 20. The position of the adsorption type pressing plate 5 can be adjusted along the length direction by adjusting the first dovetail groove type sliding table 19; by adjusting the second dovetail groove-shaped slide table 20, the position of the suction type platen 5 can be adjusted in the width direction thereof. In the above, that is, there is a case where the second type of connecting member is present in addition to the platen connection post 18, the platen connection post 18 is used only as a stopper and not as a connecting member.
In one embodiment, as shown in FIG. 4. The first dovetail groove-shaped sliding tables 19 comprise two, and the second dovetail groove-shaped sliding tables 20 comprise two; the two second dovetail groove-shaped sliding tables 20 are opposed to each other in the width direction of the adsorption type pressing plate 5, the two first dovetail groove-shaped sliding tables 19 are located between the two second dovetail groove-shaped sliding tables 20, and the two first dovetail groove-shaped sliding tables 19 and the two second dovetail groove-shaped sliding tables 20 form a T-shaped connection structure.
Based on the above structure, a more stable connection structure can be provided for the platen mounting plate 17 and the suction platen 5. In particular, the T-shaped connection structure is equivalent to the superposition of two triangular structures, so that the pressure plate mounting plate 17 and the adsorption type pressure plate 5 can be stably connected. Further, in order to adjust the position of the suction platen 5, it is preferable to use a T-shaped connection structure.
In one embodiment, as shown in fig. 4 and 6. The heat-dissipating and dust-proof electric label protective film attaching machine includes a first press roller mounting member 21, a second press roller mounting member 22, and a press roller member 23. In the figure, a first pressure roller mounting member 21 and a second pressure roller mounting member 22 are respectively provided on both sides of the suction type pressure plate 5, and a pressure roller member 23 is fixed on the suction type pressure plate 5 by the first pressure roller mounting member 21 and the second pressure roller mounting member 22 and is located in the length extending direction of the suction type pressure plate 5. In this embodiment, the pressing roller 23 is used when the adsorption type carrier plate 3 slides along the linear slide rail 2. Specifically, when the adsorption type carrier plate 3 slides along the linear sliding rail 2, the pressing roller 23 presses the adsorption type carrier plate 3 or the carrier plate vacuum groove 6, so that the protective film completely contacts the electric power label, and finally the film pasting is completed.
In one embodiment, as shown in FIG. 6. The nip member 23 includes a nip core 2301, a nip sleeve 2302, a first nip bearing 2303, and a second nip bearing 2304. In the figure, a platen sleeve 2302 is fitted around a platen core 2301, and a first platen bearing 2303 and a second platen bearing 2304 are provided at both ends of the platen core 2301, respectively. In this embodiment, the use of the first and second roller bearings 2303 and 2304 as the connecting members can improve the overall performance of the roller member 23. In addition, the first roller bearing 2303 is embedded in the first roller mount 21, and the second roller bearing 2304 is embedded in the second roller mount 22, so that the first roller shaft and the second roller shaft are hidden, and the service life can be improved.
In one embodiment, as shown in FIG. 1. The heat-dissipating and dust-proof electric label protective film attaching machine includes a metal sheet 24, a first position sensor 25, and a second position sensor 26. In the figure, metal sheet 24 is provided on suction carrier plate 3 and extends toward mounting panel 1. Accordingly, the first position sensor 25 and the second position sensor 26 are both provided on the mounting panel 1 and are opposed to each other along the length direction of the linear guide 2. In use, both the first position sensor 25 and the second position sensor 26 are used to detect the position of the adsorption carrier plate 3. Because, when the absorption carrier plate 3 slides along the linear slide 2, the position of the metal sheet 24 changes. Since the first position sensor 25 and the second position sensor 26 are located on the position change path of the metal sheet 24, the position of the adsorption type carrier plate 3 can be detected. The first position sensor 25 and the second position sensor 26 correspond to the start position and the end position of the suction type carrier plate 3, respectively.
In one embodiment, as shown in FIG. 7. Either the first position sensor 25 or the second position sensor 26 includes a U-shaped detection port 2501, and the U-shaped detection port 2501 provides the metal sheet 24 therethrough.
In one embodiment, as shown in fig. 1 and 8. The heat-dissipation dustproof electric power label protection film attaching machine comprises an installation bottom box 27, an installation panel 1, a linear slide rail 2, an adsorption type carrier plate 3, a turnover cylinder 4, an adsorption type pressing plate 5, a vacuum generator 11 and a heat-dissipation fan 28. In the figure, the mounting panel 1 is provided on the mounting bottom case 27. Correspondingly, the linear slide rail 2 and the turnover cylinder 4 are both fixed relative to the mounting panel 1. Correspondingly, the adsorption type carrier plate 3 is connected with the linear slide rail 2 in a sliding mode, and the adsorption type press plate 5 is connected with the overturning air cylinder 4 in a turnover mode. Here, the electric label is taken as an example; when the electric power label is used, the protective film is adsorbed on the adsorption type pressing plate 5, and the electric power label is adsorbed on the adsorption type carrier plate 3. The relative position between the adsorption type pressing plate 5 and the adsorption type carrier plate 3 is adjusted by driving the adsorption type pressing plate 5 to be pressed downwards through the overturning air cylinder 4, so that the protective film is preliminarily contacted with the electric power label. After that, the absorption type carrier plate 3 is driven to slide along the linear slide rail 2, so that the protective film is completely contacted with the electric power label, and finally the film pasting is completed. In addition, the vacuum generator 11 is disposed on the adsorption type platen 5, the vacuum port of the vacuum generator 11 is connected to the air holes of the adsorption type carrier plate 3 and the adsorption type platen 5, respectively, and the exhaust port of the vacuum generator 11 is connected to the air pipe joint 29 disposed on the front surface of the installation bottom box 27. Accordingly, the heat radiation fan 28 is provided on the rear surface of the installation base case 27, and is opposed to the air joint 29. In use, the suction force of the suction carrier plate 3 and the suction platen 5 is provided by the vacuum generator 11. The gas is discharged from the exhaust port of the vacuum generator 11 into the bottom case 27, and the gas is discharged from the bottom case 27 by the heat radiation fan 28, so that the gas inside and outside the bottom case 27 is circulated, thereby dissipating the heat from the inside of the bottom case 27. It should be noted that the heat dissipation system formed by the vacuum generator 11 and the heat dissipation fan 28 is different from other heat dissipation systems. Since the air discharged from the heat dissipating fan 28 is supplied from the vacuum generator 11, the heat dissipating system does not generate the dust deposition phenomenon during the heat dissipation of the exhaust air since the vacuum generator 11 itself is not open. In other heat dissipating systems, the air source is open, so that dust deposition is likely to occur at the opening of the bottom case 27 or at the heat dissipating fan 28.
In one embodiment, as shown in FIG. 9. The heat-dissipating and dust-proof electric label protection film attaching machine comprises a first side slide rail 30, a second side slide rail 31, a drawer type pull cabinet 32 and an electric element 33. In the drawings, a first side rail 30 and a second side rail 31 are provided inside the mounting base box 27 and face each other. Accordingly, the drawer-type drawer cabinet 32 is disposed between the first side rail 30 and the second side rail 31, and is slidably connected to the first side rail 30 and the second side rail 31, and the drawer-type drawer cabinet 32 is disposed below the heat dissipation fan 28 and the air pipe joint 29. Accordingly, the electrical components 33 are disposed within the drawer cabinet 32.
Based on the above structure, it is possible to facilitate the maintenance or replacement of the electric components 33 because the drawer type drawer cabinet 32 can be directly pulled out when necessary. It is also advantageous to dissipate heat from the electrical components 33 because the drawer cabinet 32 is disposed below the heat dissipation fan 28 and the air pipe connector 29, and the corresponding electrical components 33 are also disposed below the heat dissipation fan 28 and the air pipe connector 29.
The above-mentioned embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, and it should be understood that the above-mentioned embodiments are only examples of the present invention and are not intended to limit the scope of the present invention. It should be understood that any modifications, equivalents, improvements and the like, which come within the spirit and principle of the invention, may occur to those skilled in the art and are intended to be included within the scope of the invention.