CN220548833U - Heat abstractor of printing and packaging machine - Google Patents

Abstract

The utility model belongs to the technical field of package printing, in particular to a heat dissipating device of a printing and packaging machine, which comprises a supporting bottom plate, wherein the top of the supporting bottom plate is symmetrically and fixedly connected with a supporting side plate, the top of the supporting side plate is provided with a supporting top plate, and the supporting top plate is provided with a printing and packaging efficient heat dissipating mechanism; the mounting panel screw thread cup joints on the screw thread lead screw, and the both ends slip joint of mounting panel is at the inner wall that supports the curb plate, the bottom at the mounting panel is installed to a plurality of gas vent equidistant, refrigeration subassembly sets up at the top of supporting the roof, and refrigeration subassembly is connected with the gas vent, temperature sensor installs the inner wall at the support curb plate, the top at the support roof is installed to the controller, and then drive screw thread lead screw through starting driving motor and rotate, when rotating through screw thread lead screw, can drive the mounting panel and carry out reciprocating motion on screw thread lead screw, thereby can drive the gas vent and carry out even heat dissipation to the printed matter on the bearing plate.

Description

Heat abstractor of printing and packaging machine

Technical Field

The utility model belongs to the technical field of package printing, and particularly relates to a heat dissipation device of a printing and packaging machine.

Background

Printing is a production process for copying a pattern onto the surface of an object, and is mostly used for mass production of a certain product, but because the bonding effect of a hot melt adhesive is reduced under the high temperature condition, a heat dissipating device is usually arranged beside a printing and packaging mechanism; it should be noted that, most of the existing heat dissipating devices of the printing and packaging machine use fan blades to intensively dissipate heat in a certain area of the product, so that heat dissipation in other places is uneven, the bonding effect of the hot melt adhesive is different, and finally the effect of the printing and packaging is affected.

In order to solve the above problems, a heat dissipating device of a printing and packaging machine is provided in the present application.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides a heat radiator of a printing and packaging machine, which can solve the problems that the heat radiator of the existing printing and packaging machine mostly uses fan blades to intensively radiate heat in a certain area of a product, so that the heat radiation in other places is uneven, the bonding effect of hot melt adhesive is different, and finally the effect of printing and packaging is affected by the increased efficient heat radiator of the printing and packaging machine.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the heat dissipation device of the printing and packaging machine comprises a supporting bottom plate, wherein the top of the supporting bottom plate is symmetrically and fixedly connected with a supporting side plate, a supporting top plate is arranged at the top of the supporting side plate, and a printing and packaging efficient heat dissipation mechanism is arranged on the supporting top plate;

the efficient heat dissipation mechanism for the printing package comprises a supporting plate, a driving motor, a threaded screw rod, a mounting plate, an exhaust port, a refrigerating assembly, a temperature sensor and a controller, wherein the supporting plate is mounted at the top of a supporting bottom plate, the driving motor is mounted at one side of the outer wall of the supporting top plate, the threaded screw rod is rotationally connected with two ends of the inner wall of the supporting top plate, one end of the threaded screw rod is fixedly connected with the output end of the driving motor, the mounting plate is in threaded sleeve connection with the threaded screw rod, two ends of the mounting plate are in sliding joint with the inner wall of the supporting side plate, a plurality of exhaust ports are mounted at equal intervals at the bottom of the mounting plate, the refrigerating assembly is arranged at the top of the supporting top plate, the refrigerating assembly is connected with the exhaust port, the temperature sensor is mounted at the inner wall of the supporting side plate, and the controller is mounted at the top of the supporting top plate.

As a preferred heat dissipating device of the printing and packaging machine, the refrigerating assembly comprises a refrigerating machine, a gas pipeline and a communicating pipeline, wherein the refrigerating machine is arranged at the top of the supporting top plate, one end of the gas pipeline is connected with the output end of the refrigerating machine, and the communicating pipeline is arranged between the other end of the gas pipeline and the air outlet and is connected with the air outlet through the communicating pipeline.

In the heat dissipating device for a printing and packaging machine according to the present utility model, preferably, the inner wall of the support side plate is provided with guide grooves matching with both ends of the mounting plate.

In the heat dissipating device for a printing and packaging machine of the present utility model, preferably, the end portions of the supporting side plates are each provided with a sealing door, and the side walls of the supporting side plates are provided with heat dissipating windows.

Preferably, the heat dissipating device of the printing and packaging machine of the present utility model, the temperature sensor and the refrigerator are both electrically connected to the controller, and the controller is electrically connected to an external power source.

Compared with the prior art, the utility model has the beneficial effects that:

1. the mounting plate is in threaded sleeve joint on the threaded screw rod, the two ends of the mounting plate are in sliding joint on the inner wall of the supporting side plate, the plurality of exhaust ports are arranged at the bottom of the mounting plate at equal intervals, the refrigerating assembly is arranged at the top of the supporting top plate and connected with the exhaust ports, the temperature sensor is arranged on the inner wall of the supporting side plate, the controller is arranged at the top of the supporting top plate, the threaded screw rod is driven to rotate by starting the driving motor, and the mounting plate can be driven to reciprocate on the threaded screw rod when the threaded screw rod rotates, so that the exhaust ports can be driven to uniformly dissipate heat of printed matters on the bearing plate;

2. the refrigerator is installed at the top of supporting the roof, and the one end of gas-supply pipeline is connected with the output of refrigerator, is provided with the pipeline that communicates between the other end of gas-supply pipeline and the gas vent to be connected through communicating pipeline, and then carry out real-time detection to the temperature through temperature sensor, then control the refrigerator through the controller, the refrigerator passes through communicating pipeline with the air conditioning and carries gas vent department to carry out effectual heat dissipation to the printed matter on the bearing board.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a driving motor according to the present utility model;

FIG. 3 is a schematic view of the structure of the mounting plate of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 2A according to the present utility model.

In the figure:

1. a support base plate;

2. supporting the side plates; 21. a guide groove; 22. sealing the door; 23. a heat radiation window;

3. a supporting top plate;

4. printing and packaging high-efficiency heat dissipation mechanisms; 41. a bearing plate; 42. a driving motor; 43. a threaded screw rod; 44. a mounting plate; 45. an exhaust port; 46. a refrigeration assembly; 461. a refrigerating machine; 462. a gas line; 463. a communication pipe; 47. a temperature sensor; 48. and a controller.

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.

As shown in fig. 1;

the utility model provides a heat abstractor of printing and packing machinery, includes supporting baseplate 1, and the top symmetry fixedly connected with of supporting baseplate 1 supports curb plate 2, and supporting roof 3 is installed at the top of supporting curb plate 2, is provided with printing and packing high-efficient heat dissipation mechanism 4 on the supporting roof 3.

In this embodiment: in the general case, a heat sink is usually arranged next to the printed packaging mechanism; it should be noted that the heat dissipation device of the existing printing and packaging machine mostly uses the fan blades to intensively dissipate heat in a certain area of the product, so that heat dissipation in other places is uneven, the bonding effect of the hot melt adhesive is different, the effect of the printing and packaging is finally affected, and further the efficient heat dissipation mechanism 4 for the printing and packaging is added, so that the specified temperature can be maintained in the heat dissipation process, heat dissipation is more uniform, and the printing and packaging effect is improved.

As shown in fig. 1-4;

based on the heat abstractor of current printing and packing machinery, can be through the high-efficient heat dissipation mechanism 4 of printing and packing that increases, can solve the heat abstractor of current printing and packing machinery and mostly borrow the flabellum to concentrate the heat dissipation to a certain region of product to can lead to other local heat dissipation inhomogeneous, make the bonding effect of hot melt adhesive appear the difference, finally can influence the problem of the effect of printing and packing.

Further, the method comprises the following steps:

in combination with the above, in order to keep the specified temperature at the radiating process, thereby it is more even to give out the radiating, improve the printing packing effect, be provided with printing packing high-efficient cooling mechanism 4 on the supporting roof 3, printing packing high-efficient cooling mechanism 4 includes carrier plate 41, driving motor 42, screw thread lead screw 43, mounting panel 44, the gas vent 45, refrigeration subassembly 46, temperature sensor 47 and controller 48, carrier plate 41 installs at the top of supporting baseplate 1, driving motor 42 installs in supporting roof 3's outer wall one side, screw thread lead screw 43 rotates and connects at supporting roof 3's inner wall both ends, and screw thread lead screw 43's one end and driving motor 42's output fixed connection, the mounting panel 44 screw thread cup joints on screw thread lead screw 43, and the both ends slip joint of mounting panel 44 is at supporting roof 2's inner wall, the bottom at mounting panel 44 is installed to a plurality of gas vent 45 equidistant, refrigeration subassembly 46 sets up at supporting roof 3's top, and refrigeration subassembly 46 is connected with gas vent 45, temperature sensor 47 installs at supporting roof 2's inner wall, controller 48 installs at supporting roof 3's top.

In this embodiment: in order to improve the uniformity of heat dissipation, because the bearing plate 41 is installed at the top of supporting bottom plate 1, driving motor 42 installs in the outer wall one side of supporting roof 3, screw 43 rotates and connects at the inner wall both ends of supporting roof 3, and the one end and the output fixed connection of driving motor 42 of screw 43, mounting panel 44 screw cup joints on screw 43, and the both ends slip joint of mounting panel 44 is at the inner wall of supporting curb plate 2, a plurality of gas vent 45 equidistant installs in the bottom of mounting panel 44, refrigeration subassembly 46 sets up the top at supporting roof 3, and refrigeration subassembly 46 is connected with gas vent 45, temperature sensor 47 installs the inner wall at supporting curb plate 2, the top at supporting roof 3 is installed to controller 48, and then drive screw 43 through starting driving motor 42 and rotate, when rotating through screw 43, can drive mounting panel 44 and carry out reciprocating movement on screw 43, thereby can drive gas vent 45 and evenly dispel the heat to the printed matter on the bearing plate 41, through temperature sensor 47, can detect inside temperature in real time, thereby control refrigeration subassembly 46 carries out accurate control through controller 48.

Still further, the method comprises: the refrigeration unit 46 includes a refrigerator 461, a gas pipe 462, and a communication pipe 463, the refrigerator 461 is mounted on the top of the support top plate 3, one end of the gas pipe 462 is connected with the output end of the refrigerator 461, and a communication pipe 463 is provided between the other end of the gas pipe 462 and the exhaust port 45 and connected through the communication pipe 463.

In this embodiment: in order to ensure that the temperature is maintained at the corresponding temperature, since the refrigerator 461 is installed at the top of the support top plate 3, one end of the air pipe 462 is connected to the output end of the refrigerator 461, a communication pipe 463 is provided between the other end of the air pipe 462 and the air outlet 45, and is connected through the communication pipe 463, and then the temperature is detected in real time through the temperature sensor 47, and then the refrigerator 461 is controlled through the controller 48, and the refrigerator 461 delivers cold air to the air outlet 45 through the communication pipe 463, thereby effectively radiating the printed matter on the support plate 41.

It should be understood that: the inner wall of the support side plate 2 is provided with guide grooves 21 matched with two ends of the mounting plate 44, the end parts of the support side plate 2 are provided with sealing doors 22, the side wall of the support side plate 2 is provided with radiating windows 23, the temperature sensor 47 and the refrigerator 461 are electrically connected with a controller 48, and the controller 48 is electrically connected with an external power supply.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. The utility model provides a heat abstractor of printing and packing machinery, includes supporting baseplate (1), the top symmetry fixedly connected with of supporting baseplate (1) supports curb plate (2), supporting roof (3), its characterized in that are installed at the top of supporting curb plate (2): the printing packaging efficient heat dissipation mechanism (4) is arranged on the supporting top plate (3);

the efficient heat dissipation mechanism (4) for the printed package comprises a supporting plate (41), a driving motor (42), a threaded screw rod (43), a mounting plate (44), an exhaust port (45), a refrigerating assembly (46), a temperature sensor (47) and a controller (48), wherein the supporting plate (41) is mounted at the top of the supporting bottom plate (1), the driving motor (42) is mounted at one side of the outer wall of the supporting top plate (3), the threaded screw rod (43) is rotationally connected at two ends of the inner wall of the supporting top plate (3), one end of the threaded screw rod (43) is fixedly connected with the output end of the driving motor (42), the mounting plate (44) is in threaded sleeve connection with the threaded screw rod (43), the two ends of the mounting plate (44) are in sliding joint with the inner wall of the supporting side plate (2), the plurality of exhaust ports (45) are mounted at equal intervals at the bottom of the mounting plate (44), the refrigerating assembly (46) is arranged at the top of the supporting top plate (3), the refrigerating assembly (46) is connected with the exhaust port (45), the temperature sensor (47) is mounted at the inner wall of the supporting top plate (2).

2. The heat sink device of a print packaging machine of claim 1, wherein: the refrigerating assembly (46) comprises a refrigerating machine (461), a gas transmission pipeline (462) and a communicating pipeline (463), wherein the refrigerating machine (461) is installed at the top of the supporting top plate (3), one end of the gas transmission pipeline (462) is connected with the output end of the refrigerating machine (461), and the communicating pipeline (463) is arranged between the other end of the gas transmission pipeline (462) and the exhaust port (45) and is connected through the communicating pipeline (463).

3. The heat sink device of a print packaging machine of claim 1, wherein: guide grooves (21) matched with two ends of the mounting plate (44) are formed in the inner wall of the supporting side plate (2).

4. The heat sink device of a print packaging machine of claim 1, wherein: the end parts of the support side plates (2) are provided with sealing doors (22), and the side walls of the support side plates (2) are provided with radiating windows (23).

5. The heat sink device of a print packaging machine of claim 2, wherein: the temperature sensor (47) and the refrigerator (461) are electrically connected with the controller (48), and the controller (48) is electrically connected with an external power supply.