CN113854613A - High-temperature heat pump waste heat recovery tobacco flue-curing house - Google Patents

Abstract

The invention discloses a high-temperature heat pump waste heat recovery tobacco flue-curing house, which structurally comprises a recovery mechanism, an air suction box and a closed plate, wherein the closed plate is fixedly embedded at the left side and the right side of the recovery mechanism, the lower end of the recovery mechanism is arranged at the upper end of the air suction box, water is driven by the inertia force generated by rotation, waste heat moves upwards by the suction force in the air suction box, the waste heat enters a guide plate through a circulating pipe, the water is prevented from passing under the blocking of a rotating structure, the water in the waste heat is absorbed and blocked, the water is thrown out in a penetrating block under the rotating force, the continuous change of the water through waste heat air is avoided, the water is collected, when the water is thrown onto an attaching plate at the inner side of a support plate, the water is enabled to circulate to a collecting structure, so that a sliding block rotates when the force of water throwing out is applied to a vibration ball, the water is prevented from generating backflow on a collecting ring, and the water is enabled to be in a liquid state to be accumulated in an interlayer at the outer side of the collecting structure and the inner side of the support plate, carry out the atress to moisture and handle, avoid moisture to follow the waste heat air and circulate.

Description

High-temperature heat pump waste heat recovery tobacco flue-curing house

Technical Field

The invention relates to the technical field of high-temperature waste heat recovery, in particular to a high-temperature heat pump waste heat recovery tobacco flue-curing house.

Background

The tobacco flue-curing house adopts high temperature heat pump to carry out recovery processing to the waste heat, and when there was the temperature difference in two air currents, the heat transfer operation will take place to two air currents are separately completely, have avoided the transmission of any smell and moisture, and two air currents get into the heat exchange core, and the energy carries out the heat exchange through the flat board, and hotter one side transmits colder one side promptly, thereby reaches energy recuperation's purpose.

But need carry out the circulation of gas in carrying out the recovery process, when the circulation is retrieved to the remaining hot gas of inside, moisture stops in the recovery pipeline inner wall easily, then condenses into the drop of water landing easily under cold and hot alternation, and moisture presents the continuation of liquid and gaseous state under the high temperature and changes, absorbs the waste heat energy to the energy is impaired great among the waste heat recovery process.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a high temperature heat pump waste heat recovery tobacco flue-curing house, its structure is including retrieving mechanism, exhaust box, closure plate, the closure plate inlays admittedly in retrieving the mechanism left and right sides, retrieve the mechanism lower extreme and install in exhaust box upper end, it is equipped with guide board, revolution mechanic, collection box, runner pipe to retrieve the mechanism, guide board lower extreme inlays admittedly in the runner pipe upper end, install in the collection box inboard in the guide board outside, revolution mechanic runs through in the middle of the collection box upper end, the runner pipe lower extreme is installed in exhaust box upper end, the guide board is the ascending slope structure of opening, and slope 20 degrees.

As a further improvement of the invention, the rotating structure is provided with a rotating shaft, guide structures and blocking structures, the blocking structures are embedded and fixed on the outer side of the rotating shaft, the inner side of each guide structure is in clearance fit with the outer side of the corresponding blocking structure, the guide structures and the rotating shaft are positioned on the same central axis, the guide structures penetrate through the middle of the upper end of the recovery box, the number of the blocking structures is eight, the blocking structures are uniformly distributed in a surrounding mode by taking the rotating shaft as the center, and gaps among the blocking structures are small.

In a further improvement of the present invention, the blocking structure comprises a penetration block, a pressing plate, an inclined plate, and a flow structure, wherein the pressing plate is attached to the left side of the inclined plate, the penetration block penetrates through the inside of the inclined plate, the left side of the flow structure is mounted on the right side of the inclined plate, the flow structure is located on the right side of the penetration block, the inclined plate is embedded and fixed on the outer side of the rotating shaft, the whole inclined plate is inclined by 40 degrees, and the penetration block is made of sponge material and has a moisture absorption function.

As a further improvement of the invention, the flow structure is provided with a drainage hole, a connecting ring and a guide block, the drainage hole is positioned in the connecting ring, the guide block is embedded and fixed at the inner side of the guide block, the outer side of the connecting ring is arranged at the right side of the inclined plate, the guide block is a round ball body with a smooth surface, and the drainage hole is in an outward opening state.

As a further improvement of the invention, the guide structure is provided with a gravity structure, a binding plate, a collecting structure and a supporting plate, the gravity structure is clamped in the binding plate, the binding plate is bound on the inner side of the collecting structure, the outer side of the collecting structure is embedded and fixed on the inner side of the supporting plate, the inner side of the binding plate is in clearance fit with the outer side of the blocking structure, and the binding plate is made of sponge material and has the effects of easy compression and moisture absorption.

The gravity structure is further improved by comprising two sliding blocks, two vibrating balls and a rotating shaft, wherein the sliding blocks are embedded and fixed on the outer side of the rotating shaft, the gravity blocks are welded on the outer side of the rotating shaft, the outer sides of the sliding blocks are in clearance fit with the inner sides of the vibrating balls, the vibrating balls are clamped in the laminating plate, the sliding blocks are of a fan-shaped structure, the vibrating balls are divided into two layers, and eight springs are arranged between the two layers for connection.

As a further improvement of the invention, the collecting structure is provided with a filtering ring, a collecting ring and a circulating port, the circulating port is positioned inside the collecting ring, the filtering ring is attached to the inner side of the collecting ring, the outer side of the collecting ring is embedded and fixed on the inner side of the supporting plate, the filtering ring is made of sponge materials and has an effect of easy compression, and the circulating port is of an outward opening structure.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. moisture is through the inertia force of rotatory production, the suction that the waste heat was through drawing box inside up moves about, the waste heat passes through the runner pipe and gets into the guide board, prevent moisture through under rotary structure's the blocking, thereby the axis of rotation rotates and drives the blocking structure rotation, absorb the moisture in the waste heat and block, and moisture stops in getting into the guide piece of go-between inside through the drainage hole, moisture is thrown away in the infiltration piece under the revolving force, avoid moisture to carry out the continuous change through the waste heat air, collect moisture.

2. When moisture is got rid of on the inboard attaching plate of backup pad, form the extrusion to attaching plate under gravity structure gravity, make moisture circulate to collecting the structure, collect the processing to water, the sliding block rotates when thereby the vibration ball receives the power that moisture was thrown away, make moisture condense into rivers and spill over, then moisture circulates from the circulation mouth toward the outside through the filter ring, avoid moisture to produce the backward flow on the collection ring, make moisture present liquid in the intermediate layer of collecting the structure outside and backup pad inboard and pile up, carry out the atress processing to moisture, avoid moisture to follow waste heat air and circulate.

Drawings

FIG. 1 is a schematic structural diagram of a high-temperature heat pump waste heat recovery tobacco flue-curing house of the present invention.

FIG. 2 is a schematic side view of the recycling mechanism according to the present invention.

Fig. 3 is a schematic top view of a rotating structure according to the present invention.

Fig. 4 is a schematic side view of a barrier structure according to the present invention.

Fig. 5 is a schematic side view of a flow structure according to the present invention.

Fig. 6 is a schematic top view of a guiding structure according to the present invention.

Fig. 7 is a schematic side view of a gravity structure according to the present invention.

Fig. 8 is a partial h enlarged structural diagram of a collecting structure according to the present invention.

In the figure: the device comprises a recovery mechanism-1, an air pumping box-2, a closing plate-3, a guide plate-11, a rotating structure-12, a recovery box-13, a flow pipe-14, a rotating shaft-121, a guide structure-122, a blocking structure-123, a infiltration block-w 1, an extrusion plate-w 2, an inclined plate-w 3, a flow structure-w 4, a drainage hole-w 41, a connecting ring-w 42, a guide block-w 43, a gravity structure-a 1, a fitting plate-a 2, a collection structure-a 3, a support plate-a 4, a sliding block-a 11, a vibration ball-a 12, a gravity block-a 13, a rotating shaft-a 14, a filter ring-a 31, a collection ring-a 32 and a flow port-a 33.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to a high-temperature heat pump waste heat recovery tobacco flue-curing house which structurally comprises a recovery mechanism 1, an air extracting box 2 and a closing plate 3, wherein the closing plate 3 is fixedly embedded at the left side and the right side of the recovery mechanism 1, the lower end of the recovery mechanism 1 is arranged at the upper end of the air extracting box 2, the recovery mechanism 1 is provided with a guide plate 11, a rotating structure 12, a recovery box 13 and a circulating pipe 14, the lower end of the guide plate 11 is fixedly embedded at the upper end of the circulating pipe 14, the outer side of the guide plate 11 is arranged at the inner side of the recovery box 13, the rotating structure 12 penetrates through the middle of the upper end of the recovery box 13, the lower end of the circulating pipe 14 is arranged at the upper end of the air extracting box 2, the guide plate 11 is of an inclined structure with an upward opening and is inclined by 20 degrees, so that waste heat moves upward through suction force inside the air extracting box 2, enters the guide plate 11 through the circulating pipe 14, and moisture is prevented from passing through under the blocking of the rotating structure 12.

Wherein, revolution mechanic 12 is equipped with axis of rotation 121, guide structure 122, blocks structure 123, it is solid in the axis of rotation 121 outside to block structure 123, guide structure 122 inboard and block structure 123 outside clearance fit, guide structure 122 is located same central axis with axis of rotation 121, guide structure 122 runs through in the middle of collection box 13 upper end, it is equipped with eight to block structure 123 to axis of rotation 121 evenly encircles the distribution as the center, and blocks that the clearance between the structure 123 is less, and axis of rotation 121 rotates and drives and block structure 123 rotatory, and under the rotatory cold air that produces, moisture stops in blocking structure 123, absorbs the moisture in the waste heat and blocks.

The blocking structure 123 is provided with a penetration block w1, a squeezing plate w2, an inclined plate w3 and a flow structure w4, the squeezing plate w2 is attached to the left side of the inclined plate w3, the penetration block w1 penetrates through the inside of the inclined plate w3, the left side of the flow structure w4 is installed on the right side of the inclined plate w3, the flow structure w4 is located on the right side of the penetration block w1, the inclined plate w3 is embedded and fixed on the outer side of the rotating shaft 121, the whole inclined plate w3 is in an inclined 40-degree state, the penetration block w1 is made of sponge materials and has the effect of absorbing moisture, and therefore when the inclined plate w3 rotates, the moisture enters the penetration block w1 through the blocking of the flow structure w4, and is condensed into water beads under the squeezing of the squeezing plate w2 to be thrown to the outer side.

Wherein, circulation structure w4 is equipped with drainage hole w41, go-between w42, guide block w43, drainage hole w41 is located inside go-between w42, guide block w43 inlays at guide block w43 inboard, the go-between w42 outside is installed in inclined plate w3 right side, guide block w43 is the smooth circular spheroid in surface, drainage hole w41 is outside open state to moisture stays in getting into the inside guide block w43 of go-between w42 through drainage hole w41, and moisture is thrown away in infiltration piece w1 under the revolving force.

The embodiment has the following specific use modes and functions:

according to the invention, water passes through inertia force generated by rotation, waste heat moves upwards through suction force in the air draft box 2, the waste heat enters the guide plate 11 through the circulation pipe 14, the water is prevented from passing through the rotation structure 12, so that the rotation shaft 121 rotates to drive the blocking structure 123 to rotate, the water stays in the blocking structure 123 under cold air generated by rotation, the water in the waste heat is absorbed and blocked, the water enters the penetration block w1 through the blocking of the circulation structure w4 when the inclined plate w3 rotates, the water is condensed into water beads under the extrusion of the extrusion plate w2 and is thrown outwards, the water enters the guide block w43 in the connection ring w42 through the drainage hole w41 and stays, the water is thrown out in the penetration block w1 under the rotation force, the water is prevented from continuously changing through the waste heat air, and the water is collected.

Example 2:

as shown in fig. 6-8:

the guide structure 122 is provided with a gravity structure a1, a fitting plate a2, a collection structure a3 and a support plate a4, the gravity structure a1 is clamped inside the fitting plate a2, the fitting plate a2 is clamped inside the collection structure a3, the outer side of the collection structure a3 is embedded inside the support plate a4, the inner side of the fitting plate a2 is in clearance fit with the outer side of the blocking structure 123, the fitting plate a2 is made of sponge material and has the effect of easily compressing and absorbing moisture, so that the moisture is thrown onto the fitting plate a2 inside the support plate a4, and meanwhile, the fitting plate a2 is squeezed under the gravity of the gravity structure a1, so that the moisture flows to the collection structure a3 and is collected.

The gravity structure a1 is provided with a sliding block a11, a vibration ball a12, a gravity block a13 and a rotation shaft a14, the sliding block a11 is embedded outside the rotation shaft a14, the gravity block a13 is welded outside the rotation shaft a14, the outer side of the sliding block a11 is in clearance fit with the inner side of the vibration ball a12, the vibration ball a12 is clamped inside the adhering plate a2, the sliding block a11 is provided with two sliding blocks which are of a fan-shaped structure, the vibration ball a12 is divided into two layers, eight springs are arranged between the two layers for connection, so that the sliding block a11 rotates when the vibration ball a12 is subjected to the force of throwing out moisture, and the vibration ball a12 extrudes the adhering plate a2 under the gravity of the gravity block a13, so that the moisture is condensed into water flow to overflow.

The collecting structure a3 is provided with a filter ring a31, a collecting ring a32 and a flow port a33, the flow port a33 is positioned inside the collecting ring a32, the filter ring a31 is attached to the inner side of the collecting ring a32, the outer side of the collecting ring a32 is embedded inside the supporting plate a4, the filter ring a31 is made of sponge and has an effect of easy compression, and the flow port a33 is of an outward opening structure, so that moisture flows through the filter ring a31 from the flow port a33 to the outside, and backflow of the moisture on the collecting ring a32 is avoided.

The embodiment has the following specific use modes and functions:

in the invention, when moisture is thrown onto the adhering plate a2 on the inner side of the supporting plate a4, the adhering plate a2 is squeezed under the gravity of the gravity structure a1, so that the moisture flows to the collecting structure a3, water is collected, the sliding block a11 rotates when the vibration ball a12 is subjected to the force of throwing the moisture, the vibration ball a12 extrudes the adhering plate a2 under the gravity of the gravity block a13, so that the moisture is condensed into water flow to overflow, then the moisture flows outwards from the flow port a33 through the filter ring a31, backflow of the moisture on the collecting ring a32 is avoided, liquid accumulation of the moisture is presented in an interlayer between the outer side of the collecting structure a3 and the inner side of the supporting plate a4, the moisture is subjected to stress treatment, and the moisture is prevented from flowing along with waste heat air.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims (7)

1. The utility model provides a high temperature heat pump waste heat recovery tobacco flue-curing house, its structure is including retrieving mechanism (1), drawing box (2), closing plate (3) are inlayed and are fixed in retrieving mechanism (1) left and right sides, it installs in drawing box (2) upper end, its characterized in that to retrieve mechanism (1) lower extreme:

retrieve mechanism (1) and be equipped with guide board (11), revolution mechanic (12), collection box (13), circulation pipe (14), guide board (11) lower extreme inlays admittedly in circulation pipe (14) upper end, install in collection box (13) inboard in the guide board (11) outside, revolution mechanic (12) run through in the middle of collection box (13) upper end, circulation pipe (14) lower extreme is installed in drawing wind case (2) upper end.

2. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 1, characterized in that: the rotating structure (12) is provided with a rotating shaft (121), a guiding structure (122) and a blocking structure (123), the blocking structure (123) is embedded outside the rotating shaft (121), the inner side of the guiding structure (122) is in clearance fit with the outer side of the blocking structure (123), the guiding structure (122) and the rotating shaft (121) are located on the same central axis, and the guiding structure (122) penetrates through the middle of the upper end of the recycling box (13).

3. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 2, characterized in that: the barrier structure (123) is equipped with infiltration piece (w1), stripper plate (w2), hang plate (w3), circulation structure (w4), stripper plate (w2) laminating is on the left of hang plate (w3), infiltration piece (w1) run through inside hang plate (w3), circulation structure (w4) left side is installed on hang plate (w3) right side, circulation structure (w4) is located infiltration piece (w1) right side, hang plate (w3) inlays admittedly in axis of rotation (121) outside.

4. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 3, characterized in that: circulation structure (w4) are equipped with drainage hole (w41), go-between (w42), guide block (w43), drainage hole (w41) are located go-between (w42) inside, guide block (w43) are embedded and are fixed at guide block (w43) inboard, install in hang plate (w3) right side in go-between (w42) outside.

5. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 2, characterized in that: the guide structure (122) is provided with a gravity structure (a1), a laminating plate (a2), a collection structure (a3) and a support plate (a4), the gravity structure (a1) is clamped inside the laminating plate (a2), the laminating plate (a2) is laminated on the inner side of the collection structure (a3), the outer side of the collection structure (a3) is embedded and fixed on the inner side of the support plate (a4), and the inner side of the laminating plate (a2) is in clearance fit with the outer side of the blocking structure (123).

6. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 5, characterized in that: the gravity structure (a1) is provided with a sliding block (a11), a vibrating ball (a12), a gravity block (a13) and a rotating shaft (a14), the sliding block (a11) is embedded outside the rotating shaft (a14), the gravity block (a13) is welded outside the rotating shaft (a14), the outer side of the sliding block (a11) is in clearance fit with the inner side of the vibrating ball (a12), and the vibrating ball (a12) is clamped inside the laminating plate (a 2).

7. The high-temperature heat pump waste heat recovery tobacco flue-curing house of claim 5, characterized in that: the collecting structure (a3) is provided with a filtering ring (a31), a collecting ring (a32) and a flow opening (a33), the flow opening (a33) is located inside the collecting ring (a32), the filtering ring (a31) is attached to the inner side of the collecting ring (a32), and the outer side of the collecting ring (a32) is embedded and fixed on the inner side of the supporting plate (a 4).

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