CN219600095U - Resin board base cooling air-dries device - Google Patents

Abstract

The utility model discloses a resin plate base cooling and air drying device which comprises a frame body, wherein a guide piece is arranged on the frame body; still include the edge cooling tank and the air-drying groove that the extending direction of guide set gradually the top in air-drying groove is provided with air-drying mechanism, air-drying mechanism can be right be located air-dry the resin board base in the air-drying groove. The resin plate base in the air drying groove is air-dried through the setting of the air drying mechanism, so that the resin plate base can directly enter the next procedure, and the working efficiency of re-pasting the resin plate on the resin plate base is improved.

Description

Resin board base cooling air-dries device

Technical Field

The utility model relates to an air drying device, in particular to a resin plate base cooling and air drying device.

Background

The metal-resin plate composite is a composite product formed by adhering a resin plate to a metal base, wherein the metal base plays a role in reinforcing and supporting the resin plate, and the resin plate enables the metal base to have the functions of wear resistance, shock absorption and the like. The composite product can generate a large amount of waste products each year due to damage, expiration of service life or poor manufacturing, and the like, thereby causing a large amount of waste. In the metal-resin sheet composite, since the portion which is disabled is generally only a resin sheet, the damaged resin sheet can be removed and a new resin sheet can be re-pasted and then put into use.

However, peeling of the damaged resin sheet generally requires electromagnetic heating of the metal base resin sheet composite to melt the adhesive therebetween. The metal base after the resin plate is peeled off still has a relatively high temperature, and the resin plate base is generally cooled by a cooling liquid, and after the cooling liquid is cooled, the cooling liquid remains on the bottom of the resin plate, so that the resin plate cannot be immediately subjected to subsequent operations, such as coating new adhesive to paste a new resin plate. Accordingly, it is desirable to provide a means for cooling and air-drying the resin sheet base after the resin sheet is peeled off, so as to air-dry the cooling liquid.

The information disclosed in this background section is only for enhancement of understanding of the general background of the utility model and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

In order to overcome the above disadvantages, the present utility model provides a cooling and air-drying device for a resin board base, which can rapidly air-dry the resin board base cooled by a cooling tank, so that the resin board base can directly enter the next process, and the working efficiency of coating new adhesive to paste new resin boards is improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the cooling and air-drying device for the resin plate base comprises a frame body, wherein a guide piece is arranged on the frame body; still include the edge cooling tank and the air-drying groove that the extending direction of guide set gradually the top in air-drying groove is provided with air-drying mechanism, air-drying mechanism can be right be located air-dry the resin board base in the air-drying groove. The resin plate base in the air drying groove is air-dried through the setting of the air drying mechanism, so that the resin plate base can directly enter the next procedure, and the working efficiency of re-pasting the resin plate on the resin plate base is improved.

Further, the air drying mechanism comprises a first air drying mechanism, the first air drying mechanism comprises a first sliding rail and a first air drying assembly arranged on the first sliding rail, the first air drying assembly extends towards the air drying groove, and the first air drying assembly can slide along the first sliding rail. The first air-drying assembly blows out gas to the direction of the resin plate base placed in the air-drying groove in the sliding process of the first sliding rail, so that the volatilization speed of the surface liquid of the resin plate base is accelerated, and the resin plate base is air-dried.

Further, the first air-drying component comprises a first supporting frame and a first air knife, the first supporting frame is connected with a first sliding rail and the first air knife, and the first air knife is arranged on the lower surface of the first supporting frame and extends towards the bottom of the air-drying groove. The first air knife extends to the air drying groove direction, so that the distance between the first air knife and the resin plate base is shortened, and the speed of air drying the resin plate base is improved.

Further, the first air knife comprises a main air knife and side air knives, the edges of the main air knives and the bottom surface of the air drying groove are arranged in parallel, the side air knives are arranged in two and are arranged on two sides of the main air knife in a mirror image mode, and the edges of the side air knives and the bottom surface of the air drying groove are arranged vertically.

Further, one side of keeping away from at the air-dry groove cooling tank is provided with the second and air-dries the mechanism, second air-dries mechanism and support body fixed connection, and the second air-dries the mechanism and is located air-dry the top in groove, the second air-dries the mechanism and includes second air knife and linking bridge, linking bridge one end with the support body is connected, the other end to air-dry groove direction slope extends, is connected with the second air knife at the upper surface of the linking bridge other end, and the second air knife bottom surface is connected with the upside of linking bridge, the edge of a knife of second air knife sets up obliquely upward. The air-drying groove is obliquely arranged towards the air direction close to the air-drying groove through the connecting support, so that the knife edge of the second air knife is obliquely arranged upwards. When the grabbing component grabs the resin plate base upwards, the second air knife component blows air downwards and upwards to blow the lower surface of the resin plate base to dry.

Further, still include the edge the transfer groove that the direction of extension of guide set up is provided with the third and air-dries the mechanism in the top of transfer groove, the third air-dries the mechanism with support body fixed connection, the third air-dries the mechanism and includes third slide rail, third air-knife coupling assembling and third air-knife, the third slide rail with the length direction parallel arrangement in transfer groove, third air-knife coupling assembling connects the third slide rail with the third air-knife, third air-knife coupling assembling can drive the third air-knife is along the third slide rail slides.

Further, third air knife coupling assembling is including connecting gradually slider, first connecting plate, second connecting plate and third connecting plate, and second connecting plate and first connecting plate set up perpendicularly, the second connecting plate with the bottom surface parallel arrangement of transfer groove, the lower surface of third connecting plate and second connecting plate can be dismantled and be connected to the contained angle of third connecting plate and second connecting plate is the obtuse angle. Through the setting that the contained angle of third connecting plate and second connecting plate is the obtuse angle, ensure that the edge of a knife of third air knife sets up downwards. And in the process that the third air knife slides along the third sliding rail, the resin plate base positioned in the transfer groove can be blown, and the resin plate base is dried again.

Further, the device further comprises a moving mechanism which is arranged on the frame body and can move along the guide piece, the moving mechanism comprises a first moving component and a second moving component, the first moving component can drive the grabbing component to move along the guide piece, and the second moving component can drive the grabbing component to be close to or far away from the cooling groove and the air drying groove in the longitudinal direction.

Further, a gap is reserved between the cooling groove and the air drying groove, a steel frame is arranged at the gap, a guide plate is arranged on the steel frame, the guide plate extends downwards from the groove wall of the cooling groove to the direction of the air drying groove in an inclined mode, and the extending length of the guide plate is larger than or equal to the distance between the cooling groove and the air drying groove. When snatch the subassembly and snatch resin board base and remove to the air-dry inslot from the cooling tank, the coolant liquid on the resin board base can constantly drip along with the removal of base, and the deflector can accept the coolant liquid of drip, with its guide to air-dry inslot to avoid its whereabouts on the support body, pollute corresponding space and environment.

The beneficial effects of the utility model are as follows:

1) The resin plate base in the air drying groove is air-dried through the setting of the air drying mechanism, so that the resin plate base can directly enter the next procedure, and the working efficiency of re-pasting the resin plate on the resin plate base is improved.

2) The first air-drying assembly blows out gas to the direction of the resin plate base placed in the air-drying groove in the sliding process of the first sliding rail, so that the volatilization speed of the surface liquid of the resin plate base is accelerated, and the resin plate base is air-dried. The first air knife extends to the air drying groove direction, so that the distance between the first air knife and the resin plate base is shortened, and the speed of air drying the resin plate base is improved.

Drawings

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

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a perspective view of a cooling and air drying device for a resin board base according to an embodiment of the present utility model;

fig. 2 is a side view of a cooling and air-drying device for a resin board base according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram showing the connection of a cooling tank, an air drying tank and a transfer tank according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram showing the connection of the air knife mechanism and the air drying tank according to an embodiment of the present utility model;

fig. 5 is a perspective view of a third air drying mechanism according to an embodiment of the present utility model.

In the figure:

1. a frame body; 2. a guide member; 3. a moving mechanism; 31. a first moving assembly; 32. a second moving assembly; 4. a grabbing component; 5. a cooling tank; 6. an air drying groove; 61. a guide plate; 7. a transfer tank; 8. an air drying mechanism; 81. a first air drying mechanism; 811. a first slide rail; 812. a first support frame; 813. a first air knife; 8131. a main air knife; 8132. a side air knife; 82. a second air drying mechanism; 821. a connecting bracket; 822. a second air knife; 83. a third air drying mechanism; 831. a third slide rail; 832. the third air knife connecting component; 8321. a slide block; 8322. a first connection plate; 8323. a second connecting plate; 8324. a third connecting plate; 833. and a third air knife.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

Referring to fig. 1-3, a cooling and air-drying device for a resin board base in this embodiment includes a frame 1, a grabbing component 4, a cooling tank 5, an air-drying tank 6, a transfer tank 7 and a moving mechanism 3. The moving mechanism 3 is arranged on the frame body 1, and the grabbing component 4 is arranged on the moving mechanism 3 and moves transversely and longitudinally relative to the frame body 1 under the action of the moving mechanism 3. The cooling tank 5, the air drying tank 6 and the transfer tank 7 are sequentially arranged on the frame body 1 along the moving path of the grabbing component 4 and positioned below the grabbing component 4, and are used for placing the resin board base to cool or air-dry the resin board base.

In this embodiment, the frame body 1 is a rectangular parallelepiped structure, which can be formed by splicing and building a plurality of strip steel frames, and a containing space is provided inside the frame body 1 along the whole length direction. The guide pieces 2 are respectively arranged on two sides of the accommodating space on the frame body 1, and the guide pieces 2 are arranged on the frame body 1 in an extending mode along the whole length direction. In this embodiment, the guide 2 may be a guide rail.

The moving mechanism 3 is provided on the frame body 1 and is movable along the guide 2. The moving mechanism 3 includes a first moving assembly 31 and a second moving assembly 32, the first moving assembly 31 can drive the grabbing assembly 4 to move along the guide member 2, and the second moving assembly 32 can drive the grabbing assembly 4 to longitudinally approach or separate from the cooling tank 5, the air drying tank 6 and the transfer tank 7.

In some embodiments, a gap is left between the cooling tank 5 and the air drying tank 6, a steel frame is arranged at the gap, a guide plate 61 is arranged on the steel frame, the guide plate 61 is arranged in a downward inclined extending way from the tank wall of the cooling tank 5 to the air drying tank 6, and the extending length of the guide plate 61 is larger than or equal to the distance between the cooling tank 5 and the air drying tank 6. When the grabbing component 4 grabs the resin plate base from the cooling tank 5 and moves into the air drying tank 6, the cooling liquid on the resin plate base can continuously drop along with the movement of the base, and the guide plate 61 can receive the dropped cooling liquid and guide the dropped cooling liquid into the air drying tank 6 so as to prevent the dropped cooling liquid from dropping on the frame body 1 and pollute the corresponding space and environment.

In some embodiments, a first air drying mechanism 81 for drying the resin board base is arranged on the steel frame located in the cooling tank 5 and the air drying tank 6, the first air drying mechanism 81 comprises a first sliding rail 811 and a first air drying component arranged on the first sliding rail 811, the first air drying component extends towards the air drying tank 6, the first sliding rail 811 and the air drying tank 6 are arranged in parallel on the side face, close to the cooling tank 5, of the sliding rail, in the vertical direction, higher than the air drying tank 6, the first air drying component can slide along the first sliding rail 811, in the process of sliding along the first sliding rail 811, air is blown out towards the resin board base placed in the air drying tank 6, the volatilization speed of the surface liquid of the resin board base is accelerated, and the resin board base is air-dried.

In some embodiments, the first air drying component includes a first support frame 812 and a first air knife 813, the first support frame 812 is connected with the first slide rail 811 and the first air knife 813, and the first air knife 813 is disposed on the lower surface of the first support frame 812 and extends towards the bottom of the air drying groove 6. The first air knife 813 extends towards the air drying groove 6, so that the distance between the first air knife 813 and the resin plate base is shortened, and the speed of air drying the resin plate base is improved.

In some embodiments, the first air knife 813 includes a main air knife 8131 and a side air knife 8132, where the edges of the main air knife 8131 are parallel to the bottom surface of the air drying groove 6, that is, parallel to the upper surface of the resin board base placed on the bottom surface of the air drying groove 6, and may be used for drying the upper surface of the resin board base. The two side air knives 8132 are arranged and are arranged at two sides of the main air knife 8131 in a mirror image mode, the edges of the side air knives 8132 are vertically arranged with the bottom surface of the air drying groove 6, namely, are arranged in parallel with the side surface of the resin board base placed on the bottom surface of the air drying groove 6, and the side air knives 8132 can be used for drying the side surface of the resin board base. When the first air knife 813 slides along the first slide rail 811, it moves from one end to the other end over the resin board base, and sequentially performs air drying on the upper surface and the side surfaces of the resin board base.

In some embodiments, a second air drying mechanism 82 is disposed on a side of the air drying groove 6 away from the cooling groove 5, the second air drying mechanism 82 is fixedly connected with the frame body 1, and the second air drying mechanism 82 is located above the air drying groove 6. The second air drying mechanism 82 includes a second air knife 822 and a connecting bracket 821, one end of the connecting bracket 821 is connected with the frame body 1, the other end extends obliquely to the direction of the air drying groove 6, the upper surface of the other end of the connecting bracket 821 is detachably connected with the second air knife 822, the bottom surface of the second air knife 822 is connected with the upper side surface of the connecting bracket 821, and the knife edge of the second air knife 822 is obliquely arranged to the direction close to the air drying groove 6 through the connecting bracket 821. When the grabbing component 4 grabs the resin board base upwards, the second air knife 822 component blows air from bottom to top to blow the lower surface of the resin board base to dry.

In some embodiments, a third air drying mechanism 83 is disposed above the transfer tank 7, the third air drying mechanism 83 is fixedly connected with the frame body 1, the third air drying mechanism 83 includes a third slide rail 831, a third air knife connecting assembly 832 and a third air knife 833, the third slide rail 831 and the length direction of the transfer tank 7 are arranged in parallel, the third air knife connecting assembly 832 is connected with the third slide rail 831 and the third air knife 833, and the third air knife connecting assembly 832 can drive the third air knife 833 to slide along the third slide rail 831. The third air knife 833 blows air again to the resin board base placed in the transfer groove 7 in the process of sliding along the slide rail, and ensures that the surface of the resin board base is dry and free of moisture.

In some embodiments, the third air knife connection assembly 832 includes a slider 8321, a first connection plate 8322, a second connection plate 8323 and a third connection plate 8324 connected in sequence, the second connection plate 8323 and the first connection plate 8322 are vertically arranged, the second connection plate 8323 and the bottom surface of the transfer slot 7 are arranged in parallel, the lower surfaces of the third connection plate 8324 and the second connection plate 8323 are detachably connected, and the included angle between the third connection plate 8324 and the second connection plate 8323 is an obtuse angle. The third air knife 833 and the third connecting plate 8324 are detachably connected, and the knife edge of the third air knife 833 is ensured to be downwards arranged through the arrangement that the included angle between the third connecting plate 8324 and the second connecting plate 8323 is an obtuse angle. In the process of sliding the third air knife 833 along the third slide rail 831, the resin board base positioned in the transfer tank 7 can be blown, and the drying process is performed again on the resin board base.

The working process comprises the following steps: snatch the subassembly 4 and snatch the resin board base, snatch the subassembly 4 and remove along guide 2 under the effect of moving mechanism 3, when moving to cooling tank 5 top, moving mechanism 3 drives the resin board base downward movement, cool down the resin board base through the coolant liquid in the cooling tank 5, then moving mechanism 3 drives the resin board base and removes to air-dry groove 6 top, place the resin board base in air-dry groove 6, air-dry the upper surface and the side of resin board base through first air-dry mechanism 81, then moving the subassembly and remove the resin board base upward movement, when moving to second air-dry mechanism 82 top, blow dry the lower surface of resin board base through second air-dry mechanism 82, then remove the resin board base to transfer inslot 7 through moving mechanism 3, prepare to get into next process. When the resin board base is ready to enter the next process in the transfer tank 7, the third air drying mechanism 83 again blows air to the resin board base, and the surface of the resin board base is ensured to be dry and free of cooling liquid.

In the description of the present utility model, the terms "first," "second," and the like are used 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 defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

The above embodiments are only for illustrating the technical concept and features of the present utility model, and are intended to enable those skilled in the art to understand the content of the present utility model and to implement the same, but are not intended to limit the scope of the present utility model, and all equivalent changes or modifications made according to the spirit of the present utility model should be included in the scope of the present utility model.

Claims (9)

1. The cooling and air drying device for the resin plate base is characterized by comprising a frame body (1), wherein a guide piece (2) is arranged on the frame body (1); still include along cooling bath (5) and air-dry groove (6) that extending direction of guide (2) set gradually air-dry the top in groove (6) is provided with air-dry mechanism (8), air-dry mechanism (8) can be right be located air-dry the resin board base in groove (6).

2. The resin plate base cooling and air-drying device according to claim 1, wherein the air-drying mechanism (8) comprises a first air-drying mechanism (81), the first air-drying mechanism (81) comprises a first sliding rail (811) and a first air-drying assembly arranged on the first sliding rail (811), the first air-drying assembly extends towards the air-drying groove (6), and the first air-drying assembly can slide along the first sliding rail (811).

3. The resin board base cooling and air-drying device according to claim 2, wherein the first air-drying component comprises a first support frame (812) and a first air knife (813), the first support frame (812) is connected with the first slide rail (811) and the first air knife (813), and the first air knife (813) is arranged on the lower surface of the first support frame (812) and extends towards the bottom of the air-drying groove (6).

4. A resin board base cooling and air-drying device according to claim 3, wherein the first air knife (813) comprises a main air knife (8131) and a side air knife (8132), the knife edge of the main air knife (8131) and the bottom surface of the air-drying groove (6) are arranged in parallel, the side air knife (8132) is provided with two, and is arranged at two side mirror images of the main air knife (8131), and the knife edge of the side air knife (8132) and the bottom surface of the air-drying groove (6) are arranged vertically.

5. The resin board base cooling and air-drying device according to claim 1, wherein a second air-drying mechanism (82) is arranged on one side, far away from the cooling tank (5), of the air-drying tank (6), the second air-drying mechanism (82) is fixedly connected with the frame body (1), the second air-drying mechanism (82) is located above the air-drying tank (6), the second air-drying mechanism (82) comprises a second air knife (822) and a connecting support (821), one end of the connecting support (821) is connected with the frame body (1), the other end of the connecting support extends obliquely towards the direction of the air-drying tank (6), and a second air knife (822) is connected to the upper surface of the other end of the connecting support (821) and is arranged obliquely upwards.

6. The resin plate base cooling and air-drying device according to claim 1, further comprising a transfer groove (7) arranged along the extending direction of the guide piece (2), wherein a third air-drying mechanism (83) is arranged above the transfer groove (7), the third air-drying mechanism (83) is fixedly connected with the frame body (1), the third air-drying mechanism (83) comprises a third sliding rail (831), a third air knife connecting assembly (832) and a third air knife (833), the third sliding rail (831) and the length direction of the transfer groove (7) are arranged in parallel, the third air knife connecting assembly (832) is connected with the third sliding rail (831) and the third air knife (833), and the third air knife connecting assembly (832) can drive the third air knife (833) to slide along the third sliding rail (831).

7. The resin board base cooling and air-drying device according to claim 6, wherein the third air knife connecting assembly (832) comprises a sliding block (8321), a first connecting plate (8322), a second connecting plate (8323) and a third connecting plate (8324) which are sequentially connected, the second connecting plate (8323) and the first connecting plate (8322) are vertically arranged, the second connecting plate (8323) and the bottom surface of the transfer groove (7) are arranged in parallel, the lower surfaces of the third connecting plate (8324) and the second connecting plate (8323) are detachably connected, and an included angle between the third connecting plate (8324) and the second connecting plate (8323) is an obtuse angle.

8. The resin plate base cooling and air drying device according to claim 1, further comprising a moving mechanism (3) arranged on the frame body (1) and capable of moving along the guide piece (2), wherein the moving mechanism (3) comprises a first moving component (31) and a second moving component (32), the first moving component (31) can drive the grabbing component (4) to move along the guide piece (2), and the second moving component (32) can drive the grabbing component (4) to longitudinally approach or separate from the cooling tank (5) and the air drying tank (6).

9. The resin plate base cooling and air-drying device according to claim 1, wherein a gap is reserved between the cooling tank (5) and the air-drying tank (6), a steel frame is arranged at the gap, a guide plate (61) is arranged on the steel frame, the guide plate (61) is obliquely and downwards extended from the tank wall of the cooling tank (5) to the air-drying tank (6), and the extension length of the guide plate is larger than or equal to the distance between the cooling tank (5) and the air-drying tank (6).