CN112317199A - Waste heat recovery equipment of coating environment-friendly mechanical equipment - Google Patents

Abstract

The invention discloses a waste heat recovery device for coating environment-friendly mechanical equipment, which structurally comprises a machine body, a control electric box and a material guide pipe, wherein the control electric box is fixedly embedded and connected with the right side of the machine body, the machine body and the material guide pipe are of an integrated structure, and the pressure generated by metal chips and paint on a stress plate is utilized, so that the extension bar can extend upwards into the paint, when a new metal object is placed on the heat recovery plate again for spraying, the stress plate can extend upwards under the push of the elastic sheet through the vibration generated when the metal object is placed, thereby the extension bar can be quickly drawn out from the interior of the air-dried paint, the linkage plate can swing along the fixed block under the coordination of the combination block through the vibration generated when the metal object is placed on the heat recovery plate, and the linkage plate can repeatedly swing through the matching of the return spring plates, so that air flow can be generated to dissipate heat in the outer ring.

Description

Waste heat recovery equipment of coating environment-friendly mechanical equipment

Technical Field

The invention relates to the field of environmental protection, in particular to waste heat recovery equipment for coating environmental protection mechanical equipment.

Background

The dustless environmental protection coating machine of static is the equipment that is used for evenly spraying paint to the article surface, can be with the even spraying of the lacquer raw materials that has static on the article surface, because be equipped with static in the lacquer raw materials, thereby can prevent when spraying paint that vaporific paint flies apart everywhere, cause the condition of extravagant and environmental pollution, and the dustless environmental protection coating machine of static can produce the heat when spraying the paint that has static, heat recovery board through the bottom then can be effectual conducts and concentrates the heat dissipation to the waste heat, based on the discovery of the inventor of the above-mentioned description, the current waste heat recovery equipment of a coating environmental protection mechanical equipment mainly has following not enoughly, for example:

because the heat recovery board is located the dustless environmental protection coating machine's of static bottom, though can be quick to the paint heat that falls into the dustless environmental protection coating machine bottom of static conduct fast, but have static in the paint to contain little metal fillings and can drop at the heat recovery board and be attracted by the paint that has static as for just cutting the metal object surface that does not pass through fine processing, long-time a large amount of accumulations then can solidify with the paint together and adhere to heat recovery board upper surface, thereby lead to the heat conduction effect of heat recovery board the circumstances that descends can appear.

Disclosure of Invention

Aiming at the problems, the invention provides a waste heat recovery device for coating environment-friendly mechanical equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the waste heat recovery device for the coating environment-friendly mechanical equipment structurally comprises a machine body, a control electric box and a material guide pipe, wherein the control electric box is fixedly embedded and connected with the right side of the machine body, and the machine body and the material guide pipe are of an integrated structure; the organism includes framework, heat recovery board, underframe, operation panel, the heat recovery board inlays the internal position in the underframe, underframe and framework structure as an organic whole, the operation panel is installed in underframe upper surface position.

As a further optimization of the invention, the heat recovery plate comprises a collecting groove, a plate body, a connecting plate and heat dissipation cavities, wherein the collecting groove and the plate body are of an integrated structure, the connecting plate is fixedly connected with the side of the plate body in an embedded mode, the heat dissipation cavities penetrate through the inner position of the plate body, and six collecting grooves are uniformly distributed on the upper surface of the plate body in parallel.

As a further optimization of the invention, the collecting tank comprises an extension bar, a transition block, a stress plate, elastic pieces and a bottom plate, wherein the bottom of the extension bar is fixedly embedded and connected with the upper surface of the bottom plate, the extension bar is in clearance fit with the stress plate, the stress plate is movably clamped with the bottom plate through the transition block, the elastic pieces are arranged between the bottom of the transition block and the bottom plate, eight extension bars are arranged, and four extension bars are uniformly distributed on the upper surface of the bottom plate in a group mode.

As a further optimization of the invention, the extension rod comprises an upper swing plate, a bottom placing plate and two elastic strips, wherein the upper swing plate is hinged with the top of the bottom placing plate, the elastic strips are arranged between the bottom of the upper swing plate and the bottom placing plate, and the two upper swing plates are uniformly and symmetrically distributed on the top of the bottom placing plate.

As a further optimization of the invention, the heat dissipation cavity comprises a guide-in strip, an outer ring, a middle fixing block and heat dissipation teeth, the guide-in strip is embedded in the inner position of the outer ring, the middle fixing block is fixed in the middle position of the outer ring, the heat dissipation teeth and the guide-in strip are of an integrated structure, and the guide-in strip is made of copper metal with high heat conductivity.

As a further optimization of the invention, the middle fixing block comprises a linkage plate, a combination block, two resilient sheets and a fixed block, the linkage plate is fixedly embedded in the outer surface of the combination block, the combination block is hinged with the fixed block, the resilient sheets are arranged between the fixed block and the linkage plate, and the two linkage plates are uniformly and symmetrically distributed on the outer surfaces of the two combination blocks.

As a further optimization of the invention, the linkage plate comprises a contact increasing cavity, a bearing plate and flow increasing sheets, wherein the contact increasing cavity and the bearing plate are of an integrated structure, the flow increasing sheets are fixedly embedded in the inner positions of the contact increasing cavity, seven flow increasing sheets are arranged, and the seven flow increasing sheets are uniformly distributed on the bearing plate in a fan shape.

The invention has the following beneficial effects:

1. through the pressure that metal fillings and paint produced the stress plate, thereby make the extension bar can upwards stretch into the inside of paint, place once more and carry out the spraying on heat recovery board when new metal object, the vibration that produces when placing through metal object, can make the stress plate upwards stretch out under the promotion of elastic sheet, thereby make the extension bar can take out fast from the inside of air-drying paint, the effectual metal fillings that have avoided the metal object to drop can solidify the surface of attaching to heat recovery board with paint on the heat recovery board together, and the condition that is difficult to clear away.

2. The heat recovery plate comprises a heat recovery plate, a linkage plate and a heat recovery plate, wherein the linkage plate is arranged on the heat recovery plate, and the linkage plate is arranged on the heat recovery plate.

Drawings

Fig. 1 is a schematic structural diagram of a waste heat recovery device of a coating environmental protection mechanical device.

Fig. 2 is a schematic structural view of a front half section of the machine body of the present invention.

Fig. 3 is a schematic structural view of a heat recovery plate according to the present invention.

FIG. 4 is a front view of a half-section of a collection tank according to the present invention.

Fig. 5 is a partial front half-section structural schematic view of the extension bar of the present invention.

FIG. 6 is a front view of a half-section of a heat dissipation chamber according to the present invention.

FIG. 7 is a front view of a half-section of the fixing block of the present invention.

FIG. 8 is a schematic structural view of a front half-section of the linkage plate of the present invention.

In the figure: the device comprises a machine body-1, a control electric box-2, a material guide pipe-3, a frame body-11, a heat recovery plate-12, a bottom frame-13, an operation table-14, a collecting groove-a 1, a plate body-a 2, a connecting plate-a 3, a heat dissipation cavity-a 4, an extension rod-a 11, a transition block-a 12, a stressed plate-a 13, an elastic sheet-a 14, a bottom plate-a 15, an upper swinging plate-b 1, a bottom plate-b 2, an elastic strip-b 3, a guide strip-c 1, an outer ring-c 2, a middle fixed block-c 3, a heat dissipation tooth-c 4, a linkage plate-c 31, a combination block-c 32, a rebound sheet-c 33, a fixed block-c 34, a contact increasing cavity-d 1, a connection plate-d 2 and a flow increasing sheet-d 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides waste heat recovery equipment for coating environment-friendly mechanical equipment, which structurally comprises an equipment body 1, a control electric box 2 and a material guide pipe 3, wherein the control electric box 2 is fixedly embedded and connected with the right side of the equipment body 1, and the equipment body 1 and the material guide pipe 3 are of an integrated structure; the machine body 1 comprises a frame body 11, a heat recovery plate 12, a bottom frame 13 and an operating platform 14, wherein the heat recovery plate 12 is embedded in the inner position of the bottom frame 13, the bottom frame 13 and the frame body 11 are of an integrated structure, and the operating platform 14 is installed on the upper surface of the bottom frame 13.

Wherein, heat recovery board 12 includes collecting vat a1, plate body a2, links up fishplate bar a3, heat dissipation chamber a4, collecting vat a1 and plate body a2 structure as an organic whole, link up fishplate bar a3 and plate body a 2's avris is embedded and is connected, heat dissipation chamber a4 runs through in plate body a 2's internal position, collecting vat a1 is equipped with six, and even is parallel distribution at plate body a 2's upper surface, can be with the leading-in inside of paint and metal fillings through collecting vat a 1.

The collecting groove a1 comprises an extension rod a11, a transition block a12, a stress plate a13, an elastic sheet a14 and a bottom plate a15, the bottom of the extension rod a11 is fixedly connected with the upper surface of the bottom plate a15 in an embedded mode, the extension rod a11 is in clearance fit with the stress plate a13, the stress plate a13 is movably clamped with the bottom plate a15 through the transition block a12, the elastic sheet a14 is installed between the bottom of the transition block a12 and the bottom plate a15, eight extension rods a11 are arranged, the four extension rods a 6332 are uniformly distributed on the upper surface of the bottom plate a15 in a group, and the stress plates a13 can be contracted downwards under the fit of the transition block a12 through the pressure of paint and metal chips on the stress plate a13, so that the extension rod a11 can extend upwards.

The extending rod a11 comprises an upper swing plate b1, a bottom placing plate b2 and an elastic strip b3, the upper swing plate b1 is hinged to the top of the bottom placing plate b2, the elastic strip b3 is installed between the bottom of the upper swing plate b1 and the bottom placing plate b2, the number of the upper swing plates b1 is two, the two upper swing plates b1 are evenly distributed on the top of the bottom placing plate b2 in a symmetrical mode, and the upper swing plate b1 can swing upwards along the bottom placing plate b2 by pulling the bottom of a paint layer.

The detailed use method and action of the embodiment are as follows:

in the invention, by placing a metal object on an operating table 14 in a machine body 1, spraying atomized paint with static electricity on the metal object, enabling redundant paint to fall onto a heat recovery plate 12, enabling the paint to guide fine metal chips falling onto the upper surface of the heat recovery plate 12 into a collecting groove a1 together, enabling a stress plate a13 to shrink downwards under the matching of a transition block a12 through the pressure of the metal chips and the paint on a stress plate a13, enabling an extension rod a11 to extend upwards into the paint, enabling a new metal object to be placed on the heat recovery plate 12 again for spraying, enabling the stress plate a13 to extend upwards under the pushing of an elastic sheet a14 through the vibration generated when the metal object is placed, enabling the extension rod a11 to be quickly drawn out of the interior of the air-dried paint, and enabling the bottom of a paint layer to generate a pulling force on an upper swinging plate b1 in the drawing-out process, can make and go up sweep board b1 and follow bottom board b2 swing upwards to make and go up sweep board b1 and can push away the inside of collecting vat a1 with the paint layer and the metal fillings that adhere to inside together, so that the later stage can be cleared up fast, the effectual metal fillings that have avoided the metal object to drop can solidify the surface that adheres to heat recovery board 12 with paint on the heat recovery board 12 together, and the condition of being difficult to clear away.

Example 2

As shown in fig. 6-8:

the heat dissipation cavity a4 comprises a guide-in bar c1, an outer ring c2, a middle fixing block c3 and heat dissipation teeth c4, the guide-in bar c1 is embedded in the inner position of the outer ring c2, the middle fixing block c3 is fixed in the middle position of the outer ring c2, the heat dissipation teeth c4 and the guide-in bar c1 are of an integrated structure, the guide-in bar c1 is made of copper metal with high heat conductivity, and heat of an object can be guided into the outer ring c2 through the guide-in bar c 1.

The middle fixing block c3 comprises a linkage plate c31, a combination block c32, a rebound piece c33 and a fixing block c34, wherein the linkage plate c31 is embedded in the outer surface position of the combination block c32, the combination block c32 is hinged to the fixing block c34, the rebound piece c33 is installed between the fixing block c34 and the linkage plate c31, the linkage plate c31 is provided with two linkage plates, the two linkage plates are uniformly distributed on the outer surfaces of the two combination blocks c32 in a symmetrical mode, and the linkage plate c31 can swing along the fixing block c34 under the matching of the combination block c32 due to the vibration generated when metal objects are placed on objects.

The linkage plate c31 comprises a contact increasing cavity d1, a bearing plate d2 and a flow increasing sheet d3, the contact increasing cavity d1 and the bearing plate d2 are of an integrated structure, the flow increasing sheet d3 is embedded in the inner position of the contact increasing cavity d1, seven flow increasing sheets d3 are arranged and evenly distributed on the bearing plate d2 in a fan shape, and the heat dissipation area of an object can be increased through the swinging of the flow increasing sheets d 3.

The detailed use method and action of the embodiment are as follows:

in the invention, as the collecting groove a1 collects the paint together, the heat in the paint is also collected in the collecting groove a1, if the machine body 1 continuously sprays paint to metal objects, the heat in the collecting groove a1 is not dissipated by the heat recovery plate 12, the heat in the heat recovery plate 12 can be led into the outer ring c2 through the leading-in strip c1 on the heat dissipation cavity a4, and part of the heat can be dissipated through the heat dissipation teeth c4, the linkage plate c31 can swing along the fixed block c34 under the matching of the combination block c32 through the vibration generated by placing the metal objects on the heat recovery plate 12, the linkage plate c31 can repeatedly swing through the matching of the return spring piece c33, so that air flow can be generated to dissipate the heat in the outer ring c2, and the flow increasing piece d3 can swing through the swing of the linkage plate c31, therefore, the heat of the linkage plate c31 can be dissipated, and the situation that the heat inside the collecting groove a1 is not dissipated by the heat recovery plate 12 is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides a waste heat recovery equipment of application environmental protection mechanical equipment, its structure includes organism (1), control electronic box (2), passage (3), control electronic box (2) are embedded solid and are connected its characterized in that with the right side of organism (1) is embedded solid: the machine body (1) and the material guide pipe (3) are of an integrated structure;

organism (1) includes framework (11), heat recovery board (12), underframe (13), operation panel (14), heat recovery board (12) are embedded in the internal position of underframe (13), underframe (13) and framework (11) structure as an organic whole, install in underframe (13) upper surface position operation panel (14).

2. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 1, wherein: heat recovery board (12) are including collecting vat (a1), plate body (a2), joint board (a3), heat dissipation chamber (a4), collecting vat (a1) and plate body (a2) structure as an organic whole, joint board (a3) is connected with the avris of plate body (a2) is embedded solid, heat dissipation chamber (a4) runs through in the inside position of plate body (a 2).

3. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 2, wherein: the collecting groove (a1) comprises an extension rod (a11), a transition block (a12), a stress plate (a13), an elastic sheet (a14) and a bottom plate (a15), wherein the bottom of the extension rod (a11) is fixedly embedded with the upper surface of the bottom plate (a15), the extension rod (a11) is in clearance fit with the stress plate (a13), the stress plate (a13) is movably clamped with the bottom plate (a15) through the transition block (a12), and the elastic sheet (a14) is installed between the bottom of the transition block (a12) and the bottom plate (a 15).

4. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 3, wherein: the extension bar (a11) comprises an upper swing plate (b1), a bottom placing plate (b2) and an elastic bar (b3), the upper swing plate (b1) is hinged with the top of the bottom placing plate (b2), and the elastic bar (b3) is installed between the bottom of the upper swing plate (b1) and the bottom placing plate (b 2).

5. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 2, wherein: the heat dissipation cavity (a4) comprises a guide-in strip (c1), an outer ring (c2), a middle fixing block (c3) and heat dissipation teeth (c4), wherein the guide-in strip (c1) is embedded in the inner position of the outer ring (c2), the middle fixing block (c3) is fixed in the middle position of the outer ring (c2), and the heat dissipation teeth (c4) and the guide-in strip (c1) are of an integrated structure.

6. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 5, wherein: well solid piece (c3) include linkage board (c31), combine piece (c32), resilience piece (c33), fixed block (c34), linkage board (c31) are embedded in the surface position that combines piece (c32), combine piece (c32) and fixed block (c34) hinged joint, resilience piece (c33) is installed between fixed block (c34) and linkage board (c 31).

7. The waste heat recovery device for coating environmental protection mechanical equipment as claimed in claim 6, wherein: the linkage plate (c31) comprises a contact increasing cavity (d1), a bearing plate (d2) and a flow increasing sheet (d3), the contact increasing cavity (d1) and the bearing plate (d2) are of an integrated structure, and the flow increasing sheet (d3) is embedded and fixed in the inner position of the contact increasing cavity (d 1).

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