CN217047934U - Cooling equipment in metal decorating production line - Google Patents

Abstract

The utility model relates to the technical field of metal decorating equipment, and discloses cooling equipment in a metal decorating production line, which comprises a cooling box, a conveying mechanism, a conveying roller and an air cooler; the front end of the cooling box is provided with a feeding hole, the rear end of the cooling box is provided with a discharging hole, the upper end of the cooling box is provided with an air inlet, and the lower end of the cooling box is provided with an air outlet; the conveying mechanism is arranged in the cooling box and comprises a belt conveying mechanism, a plurality of bearing frames are arranged on the conveying surface of the belt conveying mechanism at intervals, and the bearing frames are perpendicular to the conveying surface of the belt conveying mechanism; the conveying rollers are positioned at two sides of the conveying mechanism and used for conveying the workpiece to the upper bearing frame or the lower bearing frame; the air cooler is connected with the air inlet and used for providing cooling air for the cooling box. The utility model provides a conveying equipment in the current tin printing production line be ordinary band conveyer, and it adopts the tiling mode to carry the metal printing article, and the metal printing article work piece quantity that leads to the cooling process can handle is less, causes the lower problem of cooling process efficiency.

Description

Cooling equipment in metal decorating production line

Technical Field

The utility model relates to an iron printing equipment technical field specifically indicates a cooling arrangement in iron printing production line.

Background

The tin printing is to print pattern on tinplate, and the pattern is transferred to tinplate via rubber blanket with the help of printing pressure and the physical property of water and ink repellent. The existing metal decorating production line generally mainly comprises conveying equipment, feeding equipment, drying equipment, cooling equipment, discharging equipment and stacking equipment so as to realize the automatic operation of the whole metal decorating process.

For the existing metal decorating production line, a conventional belt conveying mechanism is mostly adopted at a cooling process of the metal decorating production line, metal printed matters are input into and output from cooling equipment, and the common belt conveying mechanism is used for flatly laying the metal printed matters on a belt to finish the conveying of the metal printed matters. However, the number of metal prints to be cooled in the cooling apparatus for the metal prints to be transported in a flat state is small, resulting in low cooling efficiency.

SUMMERY OF THE UTILITY MODEL

Based on above technical problem, the utility model provides a cooling arrangement in tin printing production line has solved the conveying equipment in the current tin printing production line and is ordinary band conveyer, and it adopts the tiling mode to carry the metal printed matter work piece, and the metal printed matter work piece quantity that leads to the cooling process can handle is less, causes the lower problem of cooling process efficiency.

For solving the technical problem, the utility model adopts the technical scheme as follows:

a cooling device in an iron printing production line comprises a cooling box, a conveying mechanism, a conveying roller and an air cooler; the front end of the cooling box is provided with a feeding hole, the rear end of the cooling box is provided with a discharging hole, the upper end of the cooling box is provided with an air inlet, and the lower end of the cooling box is provided with an air outlet; the conveying mechanism is arranged in the cooling box and comprises a belt conveying mechanism, a plurality of bearing frames are arranged on the conveying surface of the belt conveying mechanism at intervals, and the bearing frames are perpendicular to the conveying surface of the belt conveying mechanism; the conveying rollers are positioned at two sides of the conveying mechanism and used for conveying the workpiece to the bearing frame or the bearing frame; the air cooler is connected with the air inlet and used for providing cooling air for the cooling box.

Further, the belt conveying mechanism comprises a rotating shaft group, a belt group and a bearing plate; the rotating shaft group comprises at least two rotating shafts which are horizontally arranged, and two belt pulleys are arranged on the rotating shafts at intervals; the belt group comprises two narrow belts which are sleeved on the belt pulley; the bearing plate is erected on the narrow belt and used for installing the bearing plate.

Furthermore, one end of the bearing frame is fixed on the bearing plate through welding.

Furthermore, the bearing frame is made by bending round steel.

Furthermore, a plurality of convex first bearing parts are arranged on two sides of the bearing frame.

Further, the transport rollers are located at the gap between the first bearing parts.

Furthermore, the bearing frame is also provided with a second concave bearing part.

Furthermore, guide rollers are arranged in the cooling box and are arranged at the feed inlet and the discharge outlet.

Furthermore, flange connectors are arranged at the air inlet and the air outlet.

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

the utility model discloses can compare the vertical input cooling arrangement of metal printing work piece with ordinary band conveyer's tiling transport, vertical transport can input more metal printing work pieces simultaneously and cool off to improve the treatment effeciency of cooling process.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention and do not constitute a limitation of the invention. Wherein:

FIG. 1 is a schematic view showing the internal structure of a cooling apparatus in an iron printing line.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic view of the structure of the loading frame.

FIG. 4 is a schematic view of the outline configuration of a cooling apparatus in the metal decorating line.

The device comprises an exhaust outlet 1, a cooling box 2, a feed inlet 3, a guide roller 4, a conveying roller 5, a bearing frame 6, a first bearing part 601, a second bearing part 602, a bearing plate 7, a rotating shaft 8, a narrow belt 9, an air inlet 10 and a discharge outlet 11.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings of the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the application without any inventive step, are within the scope of protection of the application.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. As used in this application, the terms "first," "second," and the like do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Fig. 1 to 4 are schematic structural diagrams of a cooling apparatus in an iron printing production line according to some embodiments of the present application, and the cooling apparatus in the iron printing production line according to the present application will be described below with reference to fig. 1 to 4. It should be noted that fig. 1-4 are merely exemplary and are not intended to limit the specific shape or configuration of the cooling apparatus in the tin printing line.

Referring to fig. 1 to 4, in some embodiments, a cooling apparatus in an iron printing production line includes a cooling box 2, a conveying mechanism, a conveying roller 5, and an air cooler; the front end of the cooling box 2 is provided with a feeding hole 3, the rear end of the cooling box 2 is provided with a discharging hole 11, the upper end of the cooling box 2 is provided with an air inlet 1, and the lower end of the cooling box 2 is provided with an air outlet 10; the conveying mechanism is arranged in the cooling box 2 and comprises a belt conveying mechanism, a plurality of bearing frames 6 are arranged on the conveying surface of the belt conveying mechanism at intervals, and the bearing frames 6 are perpendicular to the conveying surface of the belt conveying mechanism; the conveying rollers 5 are positioned at two sides of the conveying mechanism and used for conveying the workpiece to the loading frame 6 or unloading the workpiece from the loading frame 6; the air cooler is connected with the air inlet 1 and used for providing cooling air into the cooling box 2.

In this embodiment, the metal printed matter work piece is through feed inlet 3 input cooling box 2, and on carrying frame 6 is carried via conveying roller 5 again, through conveying mechanism with the vertical transport of metal printed matter work piece, can cool off in can importing more metal printed matter work pieces cooling box 2 through the mode of vertical transport, improve the cooling efficiency of metal printed matter work piece.

During cooling, cooling air is input into the cooling box 2 through the air inlet 1 at the upper end of the cooling box 2 to cool the metal printed matter workpiece, the cooled metal printed matter workpiece is placed on the conveying roller 5 through rotation of the bearing frame 6 and is output from the discharge port 11, hot air after heat exchange with the metal printed matter workpiece is discharged from the air outlet 10 at the lower end of the cooling box 2, and the whole cooling process of the metal printed matter workpiece is completed.

Specifically, the conveying roller 5 and the conveying mechanism are further connected with a driving mechanism, and the driving mechanism is used for driving the conveying roller 5 and the conveying mechanism to operate. The main body of the driving mechanism is a driving motor, and is in transmission connection with the conveying roller 5 and the conveying mechanism through transmission modes such as gear transmission, chain transmission, belt transmission and the like.

Preferably, the belt conveying mechanism comprises a rotating shaft 8 group, a belt group and a bearing plate 7; the rotating shaft 8 group comprises at least two rotating shafts 8 which are horizontally arranged, and two belt pulleys are arranged on the rotating shafts 8 at intervals; the belt group comprises two narrow belts 9, and the narrow belts 9 are sleeved on the belt pulley; a carrier plate 7 is mounted above the narrow belt 9 for mounting the carrier plate 6.

Wherein, the narrow belt 9 conveyer can be used for installing the bearing frame 6 and the bearing plate 7, and the structure is simple and the cost is low.

Preferably, the carrier 6 is fixed at one end to the carrier plate 7 by welding.

Preferably, the loading ledges 6 are manufactured by bending round steel.

Wherein, bear frame 6 and adopt the round steel to make, the round steel can reduce the area of contact who bears frame 6 and metal printed matter work piece, and bears frame 6 and make through panel beating bending, does not have the welding department, and the structure transition is slick and sly to avoid bearing 6 fish tail metal printed matter work piece.

Preferably, the loading ledge 6 is provided with a plurality of protruding first loading portions 601 on both sides.

Wherein, by forming several first bearing parts 601 arranged convexly, a plurality of bearing points are formed to support the metal printed work piece, so as to improve the stability of the placement of the metal printed work piece on the bearing frame 6.

Preferably, the conveyor rollers 5 are located at the gaps between the first bearing parts 601.

Because the first bearing part 601 protrudes to form a gap, the conveying roller 5 is installed in the gap, so that the conveying roller 5 and the bearing frame 6 cannot interfere with each other, and the conveying roller 5 can normally complete conveying of the metal printed product workpiece.

Preferably, the carrier 6 is further provided with a second bearing portion 602, which is concave.

Wherein the second bearing portion 602 is recessed to form a bearing point of the central portion, so as to improve the stability of the placement of the metal print workpiece on the bearing frame 6.

Preferably, a guide roller 4 is further arranged in the cooling box 2, and the guide roller 4 is arranged at the feed port 3 and the discharge port 11.

Wherein, the guide roller 4 is arranged at the feed inlet 3 and the discharge outlet 11 for leading the metal printed work piece into the cooling box 2 from the outside or leading the metal printed work piece in the cooling box 2 from the inside to the outside.

Preferably, the air inlet 1 and the air outlet 10 are provided with flange interfaces.

The flange interface can facilitate connection between the air inlet 1 and the air outlet 10 and external equipment. Specifically, the air inlet 1 may be conveniently connected to an air cooler through a flange interface, and the air outlet 10 may be conveniently connected to an external air processing device or an induced draft fan through a flange interface.

The embodiment of the present invention is the above. The above embodiments and the specific parameters in the embodiments are only for the purpose of clearly showing the verification process of the utility model, and are not used to limit the patent protection scope of the utility model, the patent protection scope of the utility model is still subject to the claims, all the equivalent structural changes made by using the contents of the specification and the drawings of the utility model are included in the protection scope of the utility model.

Claims (9)

1. A cooling device in an iron printing production line is characterized by comprising:

the cooling box is provided with a feeding hole at the front end, a discharging hole at the rear end, an air inlet at the upper end and an air outlet at the lower end;

the conveying mechanism is arranged in the cooling box and comprises a belt conveying mechanism, a plurality of bearing frames are arranged on the conveying surface of the belt conveying mechanism at intervals, and the bearing frames are perpendicular to the conveying surface of the belt conveying mechanism;

the conveying rollers are positioned on two sides of the conveying mechanism and used for conveying the workpieces to the loading frame or the unloading frame;

and the air cooler is connected with the air inlet and used for providing cooling air into the cooling box.

2. The cooling apparatus in an iron printing production line according to claim 1, wherein the belt conveying mechanism comprises:

the rotating shaft group comprises at least two horizontally arranged rotating shafts, and two belt pulleys are arranged on the rotating shafts at intervals;

the belt set comprises two narrow belts, and the narrow belts are sleeved on the belt pulley;

and the bearing plate is erected on the narrow belt and used for mounting the bearing frame.

3. The cooling apparatus in an iron printing production line according to claim 2, wherein:

one end of the bearing frame is fixed on the bearing plate through welding.

4. The cooling apparatus in an iron printing production line according to claim 1, wherein:

the bearing frame is made by bending round steel.

5. The cooling apparatus in an iron printing production line according to claim 4, wherein:

a plurality of convex first bearing parts are arranged on two sides of the bearing frame.

6. The cooling apparatus in an iron printing production line according to claim 5, wherein:

the conveying roller is positioned at a gap between the first bearing parts.

7. The cooling apparatus in an iron printing production line according to claim 5, wherein:

the bearing frame is also provided with a second bearing part which is concave inwards.

8. The cooling apparatus in an iron printing production line according to claim 1, wherein:

still be equipped with the guide roller in the cooler bin, the guide roller set up in the feed inlet with discharge gate department.

9. The cooling apparatus in an iron printing production line according to claim 1, wherein:

and flange interfaces are arranged at the air inlet and the air outlet.

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