阅读说明：本技术 一种节能高效合成钢板的平面导热装置 (Plane heat conduction device of energy-saving and efficient synthetic steel plate ) 是由 何培鎏 于 2021-09-29 设计创作，主要内容包括：本发明公开了一种不同材料属性组合而成的节能高效合成钢板的平面导热装置,包括导热板组件和面板,面板盖在导热板组件上面并密封固定连接；在导热板组件长边的前后两侧边设有前后隔热板、在导热板组件的左侧设有左隔热板、在导热板组件的右侧设有右隔热板,在合成导热板组件前后的外侧设有前后长压条,在左隔热板的外侧设有左压条,在右隔热板的外侧设有右压条,前后隔热板、前后长压条与导热板组件密封固定一起,左隔热板、左压条与导热板组件密封固定一起,右隔板、右压条与导热板组件密封固定一起形成保封保温迂回的加热通路。本发明的导热板装置加热升温所耗能少、升温快,传导热性能好,省材,成本低,是一种节能、高效、低成本的热压合机的平面钢板导热装置。(The invention discloses a plane heat conducting device of an energy-saving and efficient synthetic steel plate formed by combining different material attributes, which comprises a heat conducting plate component and a panel, wherein the panel covers the heat conducting plate component and is fixedly connected with the heat conducting plate component in a sealing way; the heat-conducting plate assembly comprises a heat-conducting plate assembly, a front heat-insulating plate, a rear heat-insulating plate, a left heat-insulating plate, a right heat-insulating plate, front and rear long press strips, a left press strip, a right press strip, front and rear heat-insulating plates, front and rear long press strips, a left partition plate, a right press strip and the heat-conducting plate assembly, wherein the front and rear two sides of the long edge of the heat-conducting plate assembly are provided with the front and rear heat-insulating plates, the left press strip is arranged on the outer side of the left heat-insulating plate, the right press strip is arranged on the outer side of the right heat-insulating plate, the front and rear heat-insulating plates, the front and rear long press strips are fixedly sealed with the heat-conducting plate assembly, the left heat-insulating plate, the left press strip and the heat-conducting plate assembly are fixedly sealed, and the right partition plate, the right press strip and the heat-conducting plate assembly are fixedly sealed to form a heat-insulating circuitous heating channel. The heat conducting plate device of the invention has the advantages of less energy consumption for heating, fast temperature rise, good heat conducting performance, material saving and low cost, and is an energy-saving, high-efficiency and low-cost plane steel plate heat conducting device of a hot pressing machine.)

1. The plane heat conducting device of the energy-saving high-efficiency synthetic steel plate is characterized by comprising a heat conducting plate component (1) and a panel (2), wherein the panel (2) covers the heat conducting plate component (1) and is fixedly connected in a sealing way; the heat-conducting plate assembly is characterized in that front and rear heat-insulating plates (3) are arranged on two side edges of a long edge of the heat-conducting plate assembly (1), a left heat-insulating plate (4) is arranged on the left side of the heat-conducting plate assembly (1), a right heat-insulating plate (5) is arranged on the right side of the heat-conducting plate assembly (1), front and rear long pressing strips (6) for fixing the heat-insulating plates (3) are arranged on the outer sides of the front and rear heat-insulating plates (3), a left pressing strip (7) is arranged on the outer side of the left heat-insulating plate (4), a right pressing strip (8) is arranged on the outer side of the right heat-insulating plate (5), the front and rear long pressing strips (6) are fixedly sealed with the heat-conducting plate assembly (1), the left heat-insulating plate (4), the left pressing strip (7) and the heat-conducting plate assembly (1) are fixedly sealed, and the right separating plate (5) and the right pressing strip (8) are fixedly sealed with the heat-conducting plate assembly (1); the heat conduction plate component (1) comprises a bottom plate (109), a plurality of cold drawing through hole core heat conduction plates (102), a separation plate (103) between the heat conduction plates (102), frame strips (101) on two sides, a left side plate (104) and a right side plate (105), wherein the heat conduction plates (102), the separation plate (103), the frame strips (101), the left side plate (104) and the right side plate (105) are arranged on the bottom plate (109) and are in sealing connection, a first cover plate (106) and a fourth cover plate (1012) are arranged on the right side plate (105), a second cover plate (107) and a third cover plate (108) are arranged on the left side plate, through holes penetrating through the heat conduction plates (102) are arranged in the length direction of the heat conduction plates (102), and the heat conduction plate component (1) forms a circuitous fluid passage.

2. The planar heat conduction device of energy-saving high-efficiency synthetic steel plate according to claim 1, wherein the heat conduction plate (102) is made of cold-drawn through-hole formed aluminum plate.

3. The planar heat conduction device of energy-saving high-efficiency composite steel plate according to claim 2, wherein the heat conduction plate (102) has four pieces, corresponding to three pieces of partition plates (103).

4. The planar heat conduction apparatus of energy-saving high-efficiency composite steel plate as claimed in claim 1, wherein the face plate (2) and the bottom plate (109) are acid-washed plates.

5. The planar heat conduction device of energy-saving high-efficiency composite steel plate according to claim 1, wherein the front and rear heat-insulating plates (3), the left heat-insulating plate (4) and the right heat-insulating plate (5) are made of heat-resistant and heat-insulating rubber plates.

6. The planar heat conduction device of energy-saving high-efficiency composite steel plate as claimed in claim 1, wherein the front and rear long beads (6) and the left bead (7) are made of flat steel.

7. The planar heat conduction device of the energy-saving high-efficiency composite steel plate as claimed in claim 1, wherein the right batten (8), the frame strips (101), the partition plate (103), the left side plate (104) and the right side plate (105) are made of cold-drawn flat square steel.

8. The planar heat conduction apparatus of energy-saving high-efficiency composite steel plate according to claim 1, wherein the first cover plate (106), the second cover plate (107), the third cover plate (108) and the fourth cover plate (1012) are formed by machining a steel plate.

9. The planar heat conduction apparatus of energy-saving high-efficiency composite steel plate according to claim 1, wherein a silicone plate (1011) is provided between the left side plate (104) and the heat conduction plate (102) and between the right side plate (105) and the heat conduction plate (102).

10. The planar heat conduction device of energy-saving high-efficiency composite steel plate as claimed in claim 1, wherein the end of the heat conduction plate (102) is provided with a sealing ring (1010).

Technical Field

The invention relates to the technical field of a hot press for pressing a furniture decorative building material template, in particular to an energy-saving and efficient plane heat conducting device for a synthetic steel plate.

Background

At present, in the field of furniture production, a hot-pressed heat-conducting plate for veneering a wood board is generally formed by placing a hot-pressed wood board between two boards, heating the heat-conducting plate to 120-160 ℃, and then, the laminated board coated with glue can be laminated by heating and pressurizing.

The traditional heat conducting plates used on the hot-pressing laminating machine are all formed by deep hole drilling and welding solid steel plates, usually six surfaces of a solid steel plate with the thickness of 50 mm are processed to obtain a solid steel plate with the thickness of 42 mm, then a hole is drilled in the solid steel plate by the deep hole drilling, a round hole is generally a hole with the diameter of 18 cm, firstly, a through hole is drilled in the longer direction of the solid steel plate (for example, the through hole is drilled in the direction of 2.5 m multiplied by 1.3 m of the heat conducting plate), a patch hole is welded at one end of the solid steel plate, then the patch hole is welded at the other end, so that a Z-shaped channel is formed in the solid steel plate, and the channel is used for conducting hot oil or steam, thereby heating the solid steel plate. The heat conducting plate is conveyed to the channel in the solid steel plate through the heat conducting oil so as to heat the steel plate, for the heat conducting plate with the specification of 1.3 m multiplied by 2.5 m, the temperature is increased from twenty-thirty ℃ to 160 ℃, at least three hours are needed, and the solid steel plate which is heavy is heated can be used only when the heating temperature reaches 100 ℃ and 120 ℃, so that the heat energy consumption is large and slow, the plate surface is heated unevenly, and the temperature difference is large. The traditional heat conducting plate is heavy, the whole processing cost is high, the material cost is high, and the heat efficiency is low.

Disclosure of Invention

The invention aims to provide an energy-saving and efficient plane heat conduction device for a synthetic steel plate, which has the advantages of low energy consumption, high temperature rise speed, good heat conduction performance, material saving and low cost.

In order to achieve the purpose, the technical scheme of the invention is as follows: a plane heat conducting device of an energy-saving high-efficiency synthetic steel plate comprises a heat conducting plate component and a panel, wherein the panel covers the heat conducting plate component and is fixedly connected with the heat conducting plate component in a sealing way; the heat-conducting plate assembly comprises a heat-conducting plate assembly, a front heat-insulating plate, a rear heat-insulating plate, a left heat-insulating plate, a right heat-insulating plate, front and rear long pressing strips for fixing the heat-insulating plates, a left pressing strip, a right pressing strip, a left heat-insulating plate, a right pressing strip, a heat-conducting plate assembly, a left heat-insulating plate, a right heat-insulating plate and a heat-conducting plate assembly, wherein the front heat-insulating plate and the rear heat-insulating plate are arranged on two side edges of the long edge of the heat-conducting plate assembly; the heat-conducting plate component comprises a bottom plate, a plurality of cold-drawing through hole core heat-conducting plates, partition plates between the heat-conducting plates, frame strips on two sides, a left side plate and a right side plate, wherein the heat-conducting plates, the partition plates, the frame strips, the left side plate and the right side plate are arranged on the bottom plate and are connected in a sealing mode, a first cover plate and a fourth cover plate are arranged on the right side plate, a second cover plate and a third cover plate are arranged on the left side plate, and through holes penetrating through the heat-conducting plates are arranged in the length direction of the heat-conducting plates, so that the heat-conducting plate component forms a circuitous fluid passage.

Preferably, wherein, the heat-conducting plate adopts cold drawing through-hole shaping aluminum plate, and the coefficient of thermal expansion of aluminium is great than the coefficient of thermal expansion of iron, and through the inflation in the process through the heating, the inflation of aluminium is more serious, and it is better to have formed the heat-conducting plate both ends temperature resistant sealing member pressurized increase sealing effect nature through heating expansive force.

Preferably, the cold-drawn through hole type aluminum plate has four pieces, and three pieces of partition plates are correspondingly needed.

Preferably, the panel and the bottom plate are acid-washed plates.

Preferably, the front and rear heat insulation plates, the left heat insulation plate and the right heat insulation plate are made of temperature-resistant heat insulation rubber plates, so that a good heat insulation effect is achieved.

Preferably, the front long pressing strip, the rear long pressing strip, the left pressing strip and the right pressing strip are made of flat steel.

Preferably, the right pressing strip, the frame strips, the partition plate, the left side plate and the right side plate are made of cold-drawn flat square steel.

Preferably, the first cover plate, the second cover plate, the third cover plate and the fourth cover plate are made of steel plates.

Preferably, a silica gel plate is arranged between the left side plate and the heat conducting plate and between the right side plate and the heat conducting plate.

Preferably, the ends of the cold drawn through hole forming aluminum plates are provided with temperature-resistant sealing rings.

Has the advantages that: according to the invention, the heat-conducting plate assembly and the panel are adopted, and the panel covers the heat-conducting plate assembly to seal and fix the plane plate heat-conducting device forming the circuitous channel, so that the whole weight of the heat-conducting device is greatly reduced, the material is reduced, the material cost is greatly reduced, the heat required by heating is reduced due to light material, the material is saved, and the heat energy is greatly saved; the processing cost is low, the heating and temperature rising time is greatly reduced, the hot pressing temperature of 100-160 ℃ is quickly reached within 60 minutes, workers do not need to spend a large amount of time for waiting for the temperature rise of the heat conducting plate, and the working efficiency is greatly improved. Therefore, the heat conduction device has the advantages of low energy consumption, low processing cost, quick temperature rise, good heat conduction performance, material saving and low cost.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a top view of the heat conducting assembly of the present invention;

FIG. 4 is a cross-sectional view A-A of FIG. 3;

FIG. 5 is a cross-sectional view B-B of FIG. 3;

FIG. 6 is an enlarged view of a portion I of FIG. 4;

FIG. 7 is an enlarged view of portion II of FIG. 4;

fig. 8 is an enlarged view of a portion iii of fig. 5.

In the figure: 1 heat conducting plate component, 101 frame strips, 102 heat conducting plates, 103 separating plates, 104 left side plates, 105 right side plates, 106 first cover plates, 107 second cover plates, 108 third cover plates, 109 bottom plates, 1010 sealing rings, 1011 silica gel plates, 1012 fourth cover plates, 2 panels, 3 heat insulating plates, 4 left heat insulating plates, 5 right heat insulating plates, 6 long pressing strips, 7 left pressing strips and 8 right pressing strips.

Detailed Description

The invention is explained in further detail by reference to the figures and examples.

As shown in fig. 1-8, the planar heat conducting apparatus of energy-saving high-efficiency composite steel plate of the present invention comprises a heat conducting plate assembly 1 and a panel 2, wherein the panel 2 covers the heat conducting plate assembly 1 and is fixedly connected to the heat conducting plate assembly 1 in a sealing manner; the heat-conducting plate component comprises a heat-conducting plate component 1, a front heat-insulating plate 3, a rear heat-insulating plate 3, a left heat-insulating plate 4, a right heat-insulating plate 5, front and rear long battens 6 for fixing the heat-insulating plates (3) and arranged on the two sides of the long side of the heat-conducting plate component 1, a left batten 7 and a right batten 8, wherein the front and rear heat-insulating plates 3, the front and rear long battens 6 and the heat-conducting plate component 1 are sealed and fixed together, the left heat-insulating plate 4, the left batten 7 and the heat-conducting plate component 1 are sealed and fixed together, and the right clapboard 5 and the right batten 8 and the heat-conducting plate component 1 are sealed and fixed together; the heat conducting plate assembly 1 comprises a bottom plate 109, a plurality of cold-drawn through-hole core heat conducting plates 102, a partition plate 103 between the heat conducting plates 102, frame strips 101 on two sides, a left side plate 104 and a right side plate 105, wherein the heat conducting plates 102, the partition plate 103, the frame strips 101, the left side plate 104 and the right side plate 105 are arranged on the bottom plate 109 and are connected in a sealing manner, a first cover plate 106 and a fourth cover plate 1012 are arranged on the right side plate 105, a second cover plate 107 and a third cover plate 108 are arranged on the left side plate, and through holes penetrating through the heat conducting plates 102 are arranged in the length direction of the heat conducting plates 102, so that the heat conducting plate assembly 1 forms a circuitous fluid passage.

The heat-conducting plate 102 adopts cold drawing through hole shaping aluminum plate in this embodiment, and the thermal expansion coefficient of aluminium is bigger than the thermal expansion coefficient of iron, and through the process through heating expansion, the inflation of aluminium is more, and it is better to have formed heat-conducting plate both ends temperature resistant sealing member pressurized through heating expansion power and increase sealed effect nature, also can adopt the copper, and the thermal expansion coefficient of copper is also better than iron a lot. The heat conducting plate 102 has four pieces, and three pieces of partition plates 103 are correspondingly needed. The face plate 2 and the bottom plate 109 are pickled plates of 5 mm thickness. The front and rear heat insulation plates 3, the left heat insulation plate 4 and the right heat insulation plate 5 are made of temperature-resistant heat-insulation rubber plates, so that the heat insulation effect is better. The front and rear long pressing strips 6 and the left pressing strip 7 are made of flat steel. And the right pressing strip 8, the frame strips 101, the partition plate 103, the left side plate 104 and the right side plate 105 are made of cold-drawn flat steel. The first cover plate 106, the second cover plate 107, the third cover plate 108 and the fourth cover plate 1012 are made of steel plates. A silicone plate 1011 is provided between the left side plate 104 and the heat conductive plate 102 and between the right side plate 105 and the heat conductive plate 102. An O-shaped sealing ring 1010 is arranged at the end part of the heat conducting plate 102, so that the sealing performance of the two ends of the heat conducting plate is ensured.

When the heat conduction device is produced and assembled, the heat conduction plate component 1 is assembled by adopting a screw and welding mode, then the front and rear heat insulation plates 3, the left heat insulation plate 4, the right heat insulation plate 5, the front and rear long pressing strips 6, the left pressing strip 7 and the right pressing strip 8 are hermetically connected with the heat conduction plate component 1, finally the panel 2 is fixed, and finally the surface of the panel 2 and the surface of the bottom plate 109 are finely ground. Before the panel 2 is fixed, the test heating detection and the fluid pressure detection are needed to confirm the sealing, whether the oil leaks or not is judged, and then the upper panel 2 is sealed.

According to the invention, the heat-conducting plate component 1 and the panel 2 are adopted, and the panel 2 covers the heat-conducting plate component 1 and is sealed and fixed to form the plane plate heat-conducting device with the circuitous fluid channel, so that the whole weight of the heat-conducting device is greatly reduced, the material is reduced, the material cost is greatly reduced, the processing cost is greatly reduced, the heat required by heating is reduced due to light material, the material is saved, and the heat energy is greatly saved; the heating time is greatly reduced, the hot-pressing temperature of 100-160 ℃ can be quickly reached in 60 minutes, workers do not need to spend a large amount of time for waiting for the heat-conducting plate to heat, and the working efficiency is greatly improved. Therefore, the heat conduction device of the invention has the advantages of less energy consumption, fast temperature rise, good heat conduction performance, material saving and low cost.

The above is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, modifications or equivalent substitutions of the technical solution of the present invention without inventive work may be made without departing from the scope of the present invention.