CN212093040U - Coating machine structure is used in production of compound laser film of waterborne - Google Patents

Abstract

The utility model relates to a coating machine technical field, concretely relates to compound radium-shine membrane of waterborne production is with coating machine structure, including base, riser, sliding seat, mounting panel, fixed block, heat conduction roller, pivot, through-hole, rotary joint subassembly, guiding mechanism. The utility model has the advantages that: the gap between two heat conduction rolls passes to waterborne composite laser membrane substrate, and carry steam to the heat conduction roll in by outside steam production equipment by the rotary joint subassembly, through heat transfer heat conduction effect, with the heat transfer of steam to waterborne composite laser membrane substrate on, through the heating, reduce the moisture content of waterborne composite laser membrane substrate, reduce the problem that bonding strength is not enough between the waterborne composite laser membrane composite bed after the coating operation, set up the interval that guiding mechanism adjusted two heat conduction rolls simultaneously, and then the waterborne composite laser membrane of the different thickness of being convenient for compresses tightly, heat conduction, the practicality has been improved.

Description

Coating machine structure is used in production of compound laser film of waterborne

Technical Field

The utility model relates to a coating machine technical field, concretely relates to compound radium-shine membrane of waterborne production is with coating machine structure.

Background

The coating machine is mainly used for the surface coating process production of films, paper and the like, the coating machine coats a layer of glue, paint or printing ink and the like with specific functions on a coiled base material, the base material is dried and then wound, the special multifunctional coating head is adopted, the surface coating production in various forms can be realized, the winding and unwinding of the coating machine are all provided with full-speed automatic film receiving mechanisms, and the PLC program tension is controlled in a closed loop manner automatically.

During coating operation of the aqueous composite laser film, the base material of the aqueous composite laser film has certain moisture, so that the moisture content needs to be controlled during coating operation, namely, the moisture content of the base material of the aqueous composite laser film is controlled in a lower range, and the problem that the bonding strength of the aqueous composite laser film is not enough after coating operation is solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the problem that exists among the prior art, provide a coating machine structure is used in compound laser film production of waterborne, it can realize solving prior art's problem to a certain extent at least.

In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme:

a coating machine structure for producing a water-based composite laser film comprises a base arranged on a coating machine, wherein a vertical plate is vertically arranged on the base, two sliding seats are symmetrically and vertically connected on the vertical plate in a sliding manner, each sliding seat is provided with a mounting plate horizontally extending away from the vertical plate, two ends of the mounting plate in the length direction are vertically provided with fixed blocks, two fixed blocks of the same mounting plate are jointly and rotatably connected with a heat conducting roller through a mounting rotating shaft, the heat conducting roller is hollow, the rotating shaft is coaxially provided with a through hole communicated with the inside of the heat conducting roller, a rotating joint assembly is arranged on the rotating shaft, one end of the rotating joint assembly is communicated with external steam generating equipment, the other end of the rotating joint assembly is communicated with the through hole of the rotating shaft, the external steam generating equipment is enabled to convey steam to the inside of the heat conducting roller through the rotating joint assembly and the through hole of the rotating shaft, and the two heat-conducting rollers are driven by an adjusting mechanism to move relatively to adjust the size of the gap.

As a further optimization of the technical scheme, the sliding seat is connected to the vertical plate in a sliding manner through a mounting sliding rail and a sliding block.

As a further optimization of the above technical solution, the rotary joint component includes a hollow tube tightly fitted in the through hole of the rotating shaft, a connecting plate is sleeved on one end of the hollow tube penetrating through the rotating shaft, a bearing is embedded on the connecting plate, the hollow tube is tightly fitted in the bearing, and an air inlet in the form of a through hole communicating with the hollow tube is arranged on the connecting plate.

As a further optimization of the technical scheme, the adjusting mechanism includes a floating seat installed on the sliding seat, a clearance groove for the floating seat to freely move through is formed in the corresponding vertical plate, the vertical plate is vertically and rotatably connected with a driving shaft, a first screw rod section and a second screw rod section with opposite thread turning directions are respectively arranged at two ends of the driving shaft in the length direction, screw nuts are vertically embedded in the two floating seats respectively, the two screw nuts are respectively and threadedly sleeved on the first screw rod section and the second screw rod section, and when the driving shaft rotates, the two floating seats are driven to relatively move so as to adjust the gap distance between the two heat conducting rollers.

As a further optimization of the above technical solution, two bearing seats are arranged on the vertical plate, and two ends of the driving shaft are respectively inserted into the two bearing seats.

As a further optimization of the technical scheme, one end of the driving shaft is provided with a rocking wheel.

The utility model has the advantages that: the gap between two heat conduction rolls passes to waterborne composite laser membrane substrate, and carry steam to the heat conduction roll in by outside steam production equipment by the rotary joint subassembly, through heat transfer heat conduction effect, with the heat transfer of steam to waterborne composite laser membrane substrate on, through the heating, reduce the moisture content of waterborne composite laser membrane substrate, reduce the problem that bonding strength is not enough between the waterborne composite laser membrane composite bed after the coating operation, set up the interval that guiding mechanism adjusted two heat conduction rolls simultaneously, and then the waterborne composite laser membrane of the different thickness of being convenient for compresses tightly, heat conduction, the practicality has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view of a portion of the structure at A in FIG. 1;

FIG. 3 is a side view angle diagram of the three-dimensional structure of FIG. 1;

FIG. 4 is a schematic front view of the three-dimensional structure of FIG. 1;

the reference numerals are explained below:

1-base, 2-first screw rod section, 3-screw rod nut, 4-floating seat, 5-second screw rod section, 7-bearing seat, 8-vertical plate, 9-clearance groove, 10-sliding seat, 11-reinforcing rib, 12-mounting plate, 13-heat conducting roller, 14-fixing block, 15-rotating shaft, 16-hollow tube, 17-connecting plate and 18-air inlet.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, fig. 1-4 show a coater structure for producing a water-based composite laser film, which includes a base 1 installed on the coater, wherein a vertical plate 8 is vertically installed on the base 1, the vertical plate 8 is symmetrically and vertically slidably connected with two sliding seats 10 through a slide rail and a slide block, two mounting plates 12 horizontally extending away from the vertical plate 8 are respectively installed on the two sliding seats 10, reinforcing ribs 11 extending to the sliding seats 10 are installed on the mounting plates 12, two ends of the mounting plates 12 in the length direction are respectively and vertically provided with a fixing block 14, two fixing blocks 14 of the same mounting plate 12 are jointly and rotatably connected with a heat conducting roller 13 through a mounting rotating shaft 15, the heat conducting roller 13 is hollow, the rotating shaft 15 is coaxially provided with a through hole communicating the interior of the heat conducting roller 13, and the rotating shaft 15 is provided with a rotary joint assembly, one end of the rotary joint component is communicated with external steam generation equipment, the other end of the rotary joint component is communicated with the through hole of the rotating shaft 15, so that the external steam generation equipment conveys steam from the rotary joint component and the through hole on the rotating shaft to the interior of the heat-conducting roller 13, a gap through which a water-supplying composite laser film passes is formed between the two heat-conducting rollers 13, specifically, the rotary joint component comprises a hollow pipe 16 which is tightly inserted and matched on the through hole of the rotating shaft 15, a connecting disc 17 is sleeved on one end, penetrating out of the rotating shaft 15, of the hollow pipe 16, a bearing is embedded on the connecting disc 17, the hollow pipe 16 is tightly inserted in the bearing, a through hole type air inlet 18 communicated with the hollow pipe 16 is arranged on the connecting disc 17, the air inlet 18 is communicated with the external steam generation equipment, the two heat-conducting rollers 13 are driven by an adjusting mechanism to move relatively to adjust the, a clearance groove 9 for the floating seat 4 to freely move and pass through is arranged on the corresponding vertical plate 8, a driving shaft is vertically and rotatably connected on the vertical plate 8, two bearing seats 7 are arranged on the vertical plate 8, two ends of the driving shaft are respectively inserted on the two bearing seats 7, the driving shaft is rotationally connected to the vertical plate 8 through the arrangement of the bearing seat 7, the two ends of the driving shaft in the length direction are respectively provided with a first screw rod section 2 and a second screw rod section 5 with opposite thread turning directions, the two floating seats 4 are respectively and vertically embedded with a screw rod nut 3, the two screw rod nuts 3 are respectively sleeved on the first screw rod section 2 and the second screw rod section 5 in a threaded manner, when the driving shaft rotates, the two floating seats 4 are driven to move relatively, so that the gap distance between the two heat-conducting rollers 13 is adjusted, and a rocking wheel convenient for rotating the driving shaft is arranged at one end of the driving shaft.

The utility model discloses when using: the water-based composite laser film substrate to be coated passes through the space between the two heat-conducting rollers, then the driving shaft is manually rotated, the screw thread rotating directions of the first screw rod section and the second screw rod section on the driving shaft are opposite, so that the two screw rod nuts drive the two floating seats to be relatively close to each other, the roller surfaces of the two heat-conducting rollers are abutted against the front surface and the back surface of the water-based composite laser film substrate, external steam generating equipment is started, the temperature generated by steam is set (the temperature is specifically set by a person skilled in the art according to specific conditions), the steam enters the heat-conducting rollers through the rotating assembly, because the inside of the heat-conducting rollers is hollow, the steam can be stored in the heat-conducting rollers, the heat of the steam is transferred to the substrate of the water-based composite laser film through the heat transfer/heat conduction effect of the heat-conducting rollers, the moving speed of the water-based composite laser film substrate is, the problem of bonding strength among the composite layers of the water-based composite laser film after coating operation is solved.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A coating machine structure for producing a water-based composite laser film is characterized by comprising a base (1) installed on a coating machine, wherein a vertical plate (8) is vertically arranged on the base (1), the vertical plate (8) is symmetrically, vertically and slidably connected with two sliding seats (10), the two sliding seats (10) are respectively provided with a mounting plate (12) horizontally extending in the direction away from the vertical plate (8), two ends of the mounting plate (12) in the length direction are respectively and vertically provided with a fixed block (14), the two fixed blocks (14) of the same mounting plate (12) are jointly and rotatably connected with a heat-conducting roller (13) through a mounting rotating shaft (15), the heat-conducting roller (13) is hollow, the rotating shaft (15) is coaxially provided with a through hole communicated with the interior of the heat-conducting roller (13), a rotary joint assembly is installed on the rotating shaft (15), and one end of the rotary joint assembly is communicated with external steam, the other end of the steam guide roller is communicated with the through hole of the rotating shaft (15), so that an external steam generating device can convey steam into the heat conducting rollers (13) from the rotating joint assembly and the through hole on the rotating shaft, a gap through which a water-supplying composite laser film passes is formed between the two heat conducting rollers (13), and the two heat conducting rollers (13) are driven by an adjusting mechanism to move relatively to adjust the size of the gap.

2. The coater structure for producing aqueous composite laser films according to claim 1, wherein the sliding base (10) is slidably connected to the vertical plate (8) by a mounting rail and a sliding block.

3. The coater structure for producing the aqueous composite laser film according to claim 1, wherein the rotary joint component comprises a hollow tube (16) which is tightly fitted and inserted in a through hole of the rotating shaft (15), one end of the hollow tube (16) penetrating out of the rotating shaft (15) is sleeved with a connecting disc (17), a bearing is embedded in the connecting disc (17), the hollow tube (16) is tightly fitted and inserted in the bearing, and an air inlet (18) which is communicated with the hollow tube (16) and is in a through hole form is arranged on the connecting disc (17).

4. The coater structure for producing aqueous composite laser film according to claim 1, the adjusting mechanism comprises a floating seat (4) arranged on a sliding seat (10), the corresponding vertical plate (8) is provided with a clearance groove (9) for the floating seat (4) to freely move and pass through, the vertical plate (8) is vertically and rotatably connected with a driving shaft, the two ends of the driving shaft in the length direction are respectively provided with a first screw rod section (2) and a second screw rod section (5) with opposite screw thread turning directions, screw rod nuts (3) are respectively and vertically embedded on the two floating seats (4), the two screw rod nuts (3) are respectively and threadedly sleeved on the first screw rod section (2) and the second screw rod section (5), when the driving shaft rotates, the two floating seats (4) are driven to move relatively, so that the gap distance between the two heat guide rollers (13) is adjusted.

5. The coater structure for producing aqueous composite laser film according to claim 4, wherein two bearing seats (7) are provided on the vertical plate (8), and two ends of the driving shaft are respectively inserted into the two bearing seats (7).

6. The coater structure for producing aqueous composite laser films according to any one of claims 4-5, wherein a rocking wheel is provided at one end of the driving shaft.

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