阅读说明：本技术 一种基于高温热泵技术的高温换热器 (High-temperature heat exchanger based on high-temperature heat pump technology ) 是由 谭年喜 于 2021-07-20 设计创作，主要内容包括：本发明提供一种基于高温热泵技术的高温换热器,其结构包括,固定座、螺纹孔、限位杆、主体、换热端,固定座与螺纹孔进行为一体,限位杆与螺纹孔进行卡合连接,主体嵌入于限位杆之中并存有相应的间隙,换热端与主体为一体,本发明由换热端的换热孔装有的转轴能进一步提升换热效率增加气体流动性,并通过流动通道内壁所装有的清除块能将内壁所存有的蒸汽污垢进行清除后使污垢掉入导出端进行排出,同时导出端通过自身的去除器能够不断调节污垢掉落情况防止形成二次堵塞,以至于能有效防止内壁形成过多蒸汽污垢而产生相应的阻力影响换气效果并且通过转轴增加换气效率同时根据导出端能够防止蒸汽污垢形成的二次堵塞现象。(The invention provides a high-temperature heat exchanger based on a high-temperature heat pump technology, which structurally comprises a fixed seat, a threaded hole, a limiting rod, a main body and a heat exchange end, wherein the fixed seat and the threaded hole are integrated into a whole, the limiting rod and the threaded hole are connected in a clamping way, the main body is embedded in the limiting rod and has a corresponding gap, the heat exchange end and the main body are integrated into a whole, a rotating shaft arranged in a heat exchange hole of the heat exchange end can further improve the heat exchange efficiency and increase the gas fluidity, and the cleaning block arranged on the inner wall of the flow channel can clean the steam dirt on the inner wall and then the dirt falls into the leading-out end to be discharged, meanwhile, the leading-out end can continuously adjust the dropping condition of the dirt through a self remover to prevent the formation of secondary blockage, so that the air exchange effect can be effectively prevented from being influenced by the corresponding resistance generated by the excessive steam dirt formed on the inner wall, the air exchange efficiency is increased through the rotating shaft, and the secondary blocking phenomenon formed by the steam dirt can be prevented according to the leading-out end.)

1. The utility model provides a high temperature heat exchanger based on high temperature heat pump technique, its structure includes fixing base (1), screw hole (2), gag lever post (3), main part (4), heat transfer end (5) its characterized in that: the fixing seat (1) and the threaded hole (2) are integrated, the limiting rod (3) and the threaded hole (2) are connected in a clamping mode, the main body (4) is embedded into the limiting rod (3) and has a corresponding gap, and the heat exchange end (5) and the main body (4) are integrated;

the heat exchange end (5) is provided with a solid layer (51), a support rod (52), heat exchange holes (53) and a rotating shaft (54), the solid layer (51) is connected with the support rod (52) in a clamping mode, the heat exchange holes (53) are embedded into the support rod (52), and the rotating shaft (54) is in clearance fit with the heat exchange holes (53).

2. A high temperature heat exchanger based on high temperature heat pump technology according to claim 1, characterized in that: the heat exchange hole (53) is provided with a flow channel (531), a pulley (532), a pulling shaft (533), a clearing block (534) and a leading-out end (535), the inner wall of the flow channel (531) is in clearance fit with the pulley (532), the pulling shaft (533) is embedded into the pulley (532), the clearing block (534) is movably connected with the pulley (532), and the leading-out end (535) is installed at the side end of the clearing block (534).

3. A high temperature heat exchanger based on high temperature heat pump technology according to claim 2, characterized in that: the leading-out end (535) is provided with a fixed layer (a1), a leading-out channel (a2) and a remover (a3), the fixed layer (a1) and the leading-out channel (a2) are integrated, and the remover (a3) is embedded in the leading-out channel (a 2).

4. A high temperature heat exchanger based on high temperature heat pump technology according to claim 3, characterized in that: the remover (a3) is provided with a rotating body (a31), a balance block (a32) and a protecting body (a33), wherein the rotating body (a31) is movably connected with the balance block (a32), and the protecting body (a33) is arranged on the outer side of the balance block (a 32).

5. A high temperature heat exchanger based on high temperature heat pump technology according to claim 4, characterized in that: the balance weight (a32) is provided with a joint end (b1), a dismounting block (b2) and a spring (b3), the upper end of the joint end (b1) is connected with the dismounting block (b2) in a positioning mode, and the spring (b3) is embedded into the dismounting block (b 2).

6. A high temperature heat exchanger based on high temperature heat pump technology according to claim 1, characterized in that: the bracing piece (52) are equipped with fixed body (521), bolt (522), articulamentum (523), dissolvent (524), fixed body (521) and bolt (522) carry out clearance fit, articulamentum (523) are installed in the lower extreme of fixed body (521), dissolvent (524) and articulamentum (523) are laminated each other.

7. A high temperature heat exchanger based on high temperature heat pump technology according to claim 6, characterized in that: the dissolver (524) is provided with a thermal stratification (c1), a dispersion pipe (c2) and a magnetic block (c3), the thermal stratification (c1) is fixedly connected with the dispersion pipe (c2), and the magnetic block (c3) is embedded in the dispersion pipe (c 2).

8. A high temperature heat exchanger based on high temperature heat pump technology as claimed in claim 7, wherein: magnetism is inhaled piece (c3) and is equipped with recess (c31), regulating body (c32), induction body (c33), adsorption ring (c34), ball (c35), recess (c31) and regulating body (c32) are same centre of a circle, induction body (c33) carries out swing joint with regulating body (c32), adsorption ring (c34) and induction body (c33) carry out flexible activity, ball (c35) and adsorption ring (c34) carry out clearance fit.

Technical Field

The invention relates to the technical field of high-temperature heat pumps, in particular to a high-temperature heat exchanger based on a high-temperature heat pump technology.

Background

The high-temperature heat exchanger can transmit a large amount of heat energy in the high-temperature heat pump into cold fluid through corresponding gas medium holding under the self heat exchange effect so as to achieve the aim of cooling the heat pump, maintain the normal operation of the heat pump and prevent the continuous expansion phenomenon caused by air pressure overload generated by overhigh temperature;

in summary, the inventors found that the following defects mainly exist in the existing heat exchanger: because the heat exchanger is when carrying out the gaseous heat transfer that lasts to high temperature heat pump ware, there is corresponding steam dirt at the heat transfer in-process to can form the situation of laminating each other with the pipeline inner wall when constantly transmitting the conversion along with gaseous, thereby cause along with the dirt can produce corresponding gaseous unable rapid circulation and reduce the efficiency of heat transfer easily to gaseous conversion formation corresponding resistance after lasting increasing.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a high temperature heat exchanger based on high temperature heat pump technique, its structure includes, fixing base, screw hole, gag lever post, main part, heat transfer end, the fixing base carries out as an organic whole with the screw hole, the gag lever post carries out the block with the screw hole and is connected, the main part imbeds among the gag lever post and has corresponding clearance, heat transfer end and main part are as an organic whole.

The heat exchange end is provided with a solid layer, support rods, heat exchange holes and rotating shafts, the solid layer is connected with the support rods in a clamping mode, the heat exchange holes are embedded into the support rods, the rotating shafts are in clearance fit with the heat exchange holes, and the three support rods are arranged in the solid layer in total and form a triangular state.

As a further improvement of the invention, the heat exchange hole is provided with a flow channel, a pulley, a pulling shaft, a clearing block and a leading-out end, the inner wall of the flow channel is in clearance fit with the pulley, the pulling shaft is embedded in the pulley, the clearing block is movably connected with the pulley, the leading-out end is arranged at the side end of the clearing block, the flow channel is formed by mutually combining stainless steel and heat-resistant materials, and the surface end is polished.

As a further improvement of the invention, the leading-out end is provided with a fixed layer, a leading-out channel and a remover, the fixed layer and the leading-out channel are integrated, the remover is embedded in the leading-out channel, the fixed layer is in a solid state, so that the upper end of the leading-out channel is in an open-expanded state, and the remover is provided with two symmetrical states on the inner wall of the leading-out channel.

As a further improvement of the invention, the remover is provided with a rotating body, a balance block and a protective body, wherein the rotating body is movably connected with the balance block, the protective body is arranged on the outer side of the balance block, the rotating body is made of a rotating wheel, so that three balance blocks are arranged in total, and the surface end of the protective body is arc-shaped and is in a smooth state.

As a further improvement of the invention, the balance block is provided with a joint end, a dismounting block and a spring, the upper end of the joint end is connected with the dismounting block in a positioning way, the spring is embedded in the dismounting block, the joint end is in an arc shape, and the dismounting block is provided with a corresponding buckle, so that the spring is in a vertical state.

As a further improvement of the invention, the support rod is provided with a fixing body, a bolt, a connecting layer and a dissolver, the fixing body is in clearance fit with the bolt, the connecting layer is arranged at the lower end of the fixing body, the dissolver is mutually attached to the connecting layer, and the connecting layer is in an arc shape.

As a further improvement of the invention, the dissolver is provided with a thermal layer, a dispersion pipe and a magnetic block, the thermal layer is fixedly connected with the dispersion pipe, the magnetic block is embedded in the dispersion pipe, the dispersion pipe is provided with eight magnetic blocks on the outer side of the magnetic block, and corresponding gaps are arranged among the eight magnetic blocks.

As a further improvement of the invention, the magnetic suction block is provided with a groove, an adjusting body, a summarizing body, an adsorption ring and a ball, the groove and the adjusting body are in the same circle center, the summarizing body is movably connected with the adjusting body, the adsorption ring and the summarizing body are in telescopic movement, the ball is in clearance fit with the adsorption ring, and the adsorption ring has corresponding telescopic performance and toughness.

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

1. the rotating shaft arranged in the heat exchange hole of the heat exchange end can further improve the heat exchange efficiency and increase the gas flowability, the cleaning block arranged on the inner wall of the flow channel can clean steam dirt existing in the inner wall and then enable the dirt to fall into the leading-out end to be discharged, and meanwhile, the leading-out end can continuously adjust the condition that the dirt falls off through the self remover to prevent secondary blockage, so that the air exchange effect can be effectively prevented from being influenced by corresponding resistance caused by excessive steam dirt formed on the inner wall, the air exchange efficiency is increased through the rotating shaft, and the secondary blockage phenomenon formed by the steam dirt can be prevented according to the leading-out end.

2. The invention can form a quick assembly and disassembly effect through the bolt after being further improved by the supporting rod, can melt the thermalization layer of the dissolver along with the temperature rise, can ensure that the fixed liquid flows to the periphery of the magnetic block along with the dispersion pipe to strengthen the fixing effect of the magnetic block and the pipeline so as to prevent the vibration offset phenomenon caused during high-speed air exchange, can subsequently control and contract the adsorption ring through the adjusting body, and can directly shovel out the thermalization layer according to the corresponding shovel to achieve the disassembly effect, so that the fixing effect of air exchange can be effectively strengthened so as to prevent the vibration offset and other phenomena generated during high-speed air exchange.

Drawings

Fig. 1 belongs to a schematic structural diagram of a high-temperature heat exchanger based on a high-temperature heat pump technology.

Fig. 2 is a schematic structural diagram of a heat exchange end front view whole body.

FIG. 3 is a schematic side view of a heat exchange hole.

Fig. 4 is a schematic structural diagram of a leading-out end section.

Fig. 5 is a front view of a removing member.

FIG. 6 is a front view of a component for providing a weight.

Fig. 7 is a schematic structural view of the whole front view of the support rod.

Fig. 8 is a schematic diagram of a top view of a dissolver.

FIG. 9 is a cross-sectional view of a magnetic block.

In the figure: fixing seat-1, threaded hole-2, limiting rod-3, main body-4, heat exchange end-5, solid layer-51, support rod-52, heat exchange hole-53, rotating shaft-54, flow channel-531, pulley-532, pulling shaft-533, removing block-534, leading-out end-535, fixing layer-a 1, leading-out channel-a 2, remover-a 3, rotating body-a 31, balancing block-a 32, protecting body-a 33, connecting end-b 1, dismounting block-b 2, spring-b 3, fixing body-521, bolt-522, connecting layer-523, dissolver-524, thermalization layer-c 1, dispersion pipe-c 2, magnetic attraction block-c 3, groove-c 31, adjusting body-c 32, induction body-c 33, adsorption ring-c 34, ball-c 35.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

fig. 1 to 6 show:

the invention provides a high-temperature heat exchanger based on a high-temperature heat pump technology,

the structure of the heat exchange device comprises a fixing seat 1, a threaded hole 2, a limiting rod 3, a main body 4 and a heat exchange end 5, wherein the fixing seat 1 and the threaded hole 2 are integrated, the limiting rod 3 and the threaded hole 2 are clamped and connected, the main body 4 is embedded into the limiting rod 3 and is provided with a corresponding gap, and the heat exchange end 5 and the main body 4 are integrated.

The heat exchange end 5 is provided with a solid layer 51, a support rod 52, heat exchange holes 53 and a rotating shaft 54, the solid layer 51 is connected with the support rod 52 in a clamping mode, the heat exchange holes 53 are embedded into the support rod 52, the rotating shaft 54 is in clearance fit with the heat exchange holes 53, the three support rods 52 are arranged in the solid layer 51 and form a triangular state, and the support rod 52 can enhance the operation stability of the heat exchange holes 53 through the triangular state of the support rod 52.

The heat exchange hole 53 is provided with a flow channel 531, a pulley 532, a pulling shaft 533, a clearing block 534 and a leading-out end 535, the inner wall of the flow channel 531 is in clearance fit with the pulley 532, the pulling shaft 533 is embedded in the pulley 532, the clearing block 534 is movably connected with the pulley 532, the leading-out end 535 is installed at the side end of the clearing block 534, the flow channel 531 is formed by combining stainless steel and heat-resistant materials, the surface end of the flow channel 531 is polished, and the service cycle of the flow channel 531 can be effectively prolonged under the action of the material of the flow channel 531 to prevent the deformation phenomenon generated in a high-temperature state.

The leading-out end 535 is provided with a fixed layer a1, a leading-out channel a2 and a remover a3, the fixed layer a1 and the leading-out channel a2 are integrated, the remover a3 is embedded in the leading-out channel a2, the fixed layer a1 is in a solid state, so that the upper end of the leading-out channel a2 is in an open-expanded state, two symmetrical states are formed on the inner wall of the leading-out channel a2 by the remover a3, the fixed layer a1 can position the leading-out channel a2 through the solid state, so that the open-expanded state of the upper end of the leading-out channel a2 can concentrate and summarize a large amount of dirt, and the remover a3 can continuously adjust the dirt falling degree to prevent secondary blockage.

The remover a3 is provided with a rotating body a31, a balance weight a32 and a protection body a33, the rotating body a31 is movably connected with a balance weight a32, the protection body a33 is installed on the outer side of the balance weight a32, the rotating body a31 is made of a rotating wheel, so that three balance weights a32 are provided, the surface end of the protection body a33 is in an arc shape and in a smooth state, the rotating body a31 can realize a rotating function through the rotating wheel, and the rotating balance of the rotating body a31 is additionally supported and lifted through the three balance weights a32, so that the protection body a33 can prevent dirt from being clamped into the rotating body a31 and remaining on the surface end through the arc and smooth effects.

The balance block a32 is provided with a joint end b1, a dismounting block b2 and a spring b3, the upper end of the joint end b1 is connected with the dismounting block b2 in a positioning mode, the spring b3 is embedded into the dismounting block b2, the joint end b1 is in an arc shape, the dismounting block b2 is provided with a corresponding buckle, the spring b3 is in a vertical state, the joint end b1 can be matched with all parts through the arc shape, and therefore the buckle of the dismounting block b2 can be buckled with the spring b3 to improve subsequent dismounting efficiency, and the spring b3 is vertical to form a quick pulling and resetting effect.

The specific functions and operation flow of this embodiment are as follows:

in the invention, the heat exchanger of the high-temperature heat pump technology can be fixed in a corresponding heat pump through the mutual matching of the fixing seat 1 and the threaded hole 2, so that the main body 4 and the heat exchange end 5 in the limiting rod 3 can realize a corresponding heat exchange effect, the rotating shaft 54 arranged on the heat exchange end 5 can improve the activity of gas to enhance the heat exchange efficiency, meanwhile, the dirt can directly fall into the leading-out end 535 according to the effect that the pulley 532 and the clearing block 534 arranged on the inner wall of the flow channel 531 of the heat exchange hole 53 are pushed by hot gas to pull out the pulling shaft 533 and can shovel the steam dirt on the inner wall to clear the dirt on the inner wall, the clearing block 534 can reset along with the resilience of the pulling shaft 533, the leading-out end 535 can discharge the dirt together through the leading-out channel a2 of the heat exchanger, and the remover a3 can be driven to comb the dirt further, the secondary blockage is prevented when a large amount of dirt is discharged together, the protective body a33 at the upper end of the remover a3 can prevent the dirt from being clamped into the gap of the rotating body a31 and guide the moving direction of the dirt, so that the dirt is completely discharged together, the spring b3 of the disassembling and assembling block b2 in the balance block a32 can drive the remover a3 to reset quickly after the dirt is discharged according to the performance of the spring b3, in conclusion, the air exchange effect can be effectively prevented from being influenced by the corresponding resistance caused by the excessive steam dirt formed on the inner wall under the mutual matching of all the components, the air exchange efficiency is increased through the rotating shaft, and the secondary blockage phenomenon caused by the steam dirt can be prevented according to the guide end.

Example 2:

fig. 7 to 9 show:

the invention provides a high-temperature heat exchanger based on a high-temperature heat pump technology,

the structure of the portable electronic device comprises a support rod 52 provided with a fixing body 521, a bolt 522, a connecting layer 523 and a dissolver 524, wherein the fixing body 521 is in clearance fit with the bolt 522, the connecting layer 523 is installed at the lower end of the fixing body 521, the dissolver 524 is mutually attached to the connecting layer 523, the connecting layer 523 is in an arc shape, and the connecting layer 523 and the dissolver 524 can form a mutually attached state through the arc shape of the connecting layer 523 so as to maintain the positioning effect of the dissolver 524.

The dissolver 524 is provided with a thermal layer c1, a dispersion pipe c2 and a magnetic block c3, the thermal layer c1 is fixedly connected with the dispersion pipe c2, the magnetic block c3 is embedded in the dispersion pipe c2, the dispersion pipe c2 is provided with eight magnetic blocks c3, and corresponding gaps are formed between the eight magnetic blocks c3, and the dispersion pipe c2 can effectively flow all the dissolving liquid to the outside of the magnetic block c3 in eight directions to enhance the fixing effect.

The magnetic suction block c3 is provided with a groove c31, an adjusting body c32, a storage body c33, an adsorption ring c34 and a ball c35, the groove c31 and the adjusting body c32 are in the same circle center, the storage body c33 is movably connected with the adjusting body c32, the adsorption ring c34 and the storage body c33 perform telescopic movement, the ball c35 and the adsorption ring c34 perform clearance fit, the adsorption ring c34 has corresponding telescopic performance and toughness, and the adsorption ring c34 can achieve the effect of shrinking for subsequent disassembly through the existing performance, so that the subsequent disassembly and maintenance efficiency is improved.

The specific functions and operation flow of this embodiment are as follows:

in the present invention, under the basic action of embodiment 1, after the supporting rod 52 is further improved, the fixing body 521 can improve the self-assembling and disassembling performance by the clamping of the bolt 522 and enhance the fixing performance by the clamping of the thread of the bolt 522, so that the heating layer c1 of the dissolver 524 attached to the lower connecting layer 523 can melt the solid of the device into liquid at high temperature generated during the air exchange of the device, so that the fixing liquid flows to the periphery of the magnetic block c3 through the dispersion pipe c2 to achieve the effect of enhancing the fixing and preventing the vibration offset and the like generated during the high-speed air exchange, and the adjusting body c32 of the magnetic block c3 can be directly controlled to control the absorbing ring c34 to contract towards the absorbing body c33 while the ball c35 can improve the corresponding activity and prevent the blocking phenomenon, and the remaining fixing liquid with the lost magnetic effect can be shoveled by the corresponding shovel to achieve the effect of preventing the blocking phenomenon after the subsequent disassembly and maintenance To the release effect, to sum up the fixed effect that can effectual reinforcing take a breath under the mutual cooperation of each part prevents phenomenons such as vibrations skew that produce in high-speed taking a breath.

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.