CN215638264U - Water receiving device and heat exchange equipment - Google Patents

Abstract

The utility model provides a water receiving device and heat exchange equipment. Wherein, water receiving device is used for indirect heating equipment, and indirect heating equipment includes the heat exchanger, and the heat exchanger includes heat transfer portion, and water receiving device includes: the bracket is provided with a water receiving part and a water discharging part, the water receiving part is communicated with the water discharging part, and the water receiving part and the heat exchanging part are arranged correspondingly; the bracket is used for supporting the heat exchanger; the support includes: the water receiving part and the water discharging part are positioned on the periphery of the opening; the clapboard is covered at the opening; wherein, at least one part of the water receiving part is positioned between the edge of the clapboard and the peripheral side wall of the frame body. The water receiving device realizes the collection and the directional discharge of condensed water, and the partition plate has the function of blocking airflow, so that the condition that the airflow directly flows out without heat exchange of the heat exchanger is avoided, the flow path of the airflow of the heat exchanger is ensured, the airflow can fully exchange heat with the heat exchange part of the heat exchanger, and the heat exchange effect of the heat exchanger is ensured.

Description

Water receiving device and heat exchange equipment

Technical Field

The utility model relates to the technical field of heat exchange equipment, in particular to a water receiving device and heat exchange equipment.

Background

The condensed water drainage mode of the air cooling module machine, the commercial heating unit and the like in the current market is a free drainage mode, namely, the condensed water is not collected and is directly drained into the machine or the ground. There are the following problems: 1. the free drainage structure, inside water will all flow into the machine, rivers were gone up to inside electrical part or the copper pipe that generates heat, caused the damage of device or the fracture of pipeline easily. 2. In the extremely cold and high-humidity area, water flows into the interior of the machine, and is frozen to wrap the internal devices, so that the internal devices are damaged. 3. The interior of the machine is frozen, and the maintenance is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the utility model proposes a water receptacle.

A second aspect of the utility model provides a heat exchange apparatus.

In view of this, a first aspect of the present invention provides a water receiving device for a heat exchange device, where the heat exchange device includes a heat exchanger, the heat exchanger includes a heat exchanging portion, and the water receiving device includes: the bracket is provided with a water receiving part and a water discharging part, the water receiving part is communicated with the water discharging part, and the water receiving part and the heat exchanging part are arranged correspondingly; wherein, the support is used for supporting the heat exchanger.

The utility model provides a water receiving device for heat exchange equipment, which comprises a heat exchanger, wherein the heat exchanger comprises a heat exchange part, the water receiving device comprises a support, the support is provided with a water receiving part and a water discharging part, the water receiving part is communicated with the water discharging part, and the water receiving part is arranged corresponding to the heat exchange part of the heat exchanger. When the heat exchange equipment works, the condensed water in the heat exchange part flows down along the outer wall surface of the heat exchange part, and is discharged by the drainage part after being collected by the water receiving part at the water receiving part corresponding to the heat exchange part in the flowing direction. That is, the existing effect that supports the heat exchanger of support has the effect of collecting the comdenstion water again, has richened the service function of water receiving device, is favorable to promoting the performance of product.

The water receiving portion and the water discharging portion are matched with each other to limit the flowing path of the condensed water in the heat exchange equipment, the collection and the directional emission of the condensed water are achieved, the condensed water is prevented from flowing to other electrified devices or being accumulated in the inside of the heat exchange equipment, the use safety and the use reliability of products are improved, the service life of the products is prolonged, and the maintenance of follow-up products are facilitated.

This setting has been solved because heat exchange equipment is not provided with the water receiving device among the correlation technique for inside rivers all flowed into heat exchange equipment, and lead to causing the damage of device or the fracture of pipeline easily, influence subsequent maintenance, and the problem of incident easily takes place, has promoted the performance of product.

The water receiving device provided by the utility model can also have the following additional technical characteristics:

in above-mentioned technical scheme, furtherly, the water receiving portion is the water receiving tank, and the notch and the heat transfer portion of water receiving tank correspond the setting.

In this technical scheme, the structure of reasonable setting water receiving portion for water receiving portion is the water receiving tank, and the notch and the heat transfer portion of water receiving tank correspond the setting, and like this, the comdenstion water that the heat transfer portion flows down flows into the water receiving tank by the notch of water receiving tank, collects the back through the water receiving tank, is discharged by water drainage portion.

Specifically, a part of the bracket is recessed to form a water receiving tank. This set up the structure of rational utilization support, when guaranteeing the validity of water conservancy diversion, reduced the input of material, be favorable to reducing the manufacturing cost of product, and be favorable to alleviateing the weight of product.

Specifically, the distribution shape of the water receiving tank is matched with the shape of the heat exchanging part. If the heat exchanging part is of a U-shaped structure, the water receiving tank is a U-shaped water receiving tank; if the heat exchanging portion is rectangular, the water receiving tank is strip-shaped, which is not illustrated herein. Therefore, the water receiving parts are correspondingly arranged at different positions of the heat exchange part, so that condensed water flowing down at different positions of the heat exchange part can be effectively collected by the water receiving grooves.

In any of the above technical solutions, further, the bracket includes: the water receiving part and the water discharging part are positioned on the periphery of the opening; the clapboard is covered at the opening; wherein, at least one part of the water receiving part is positioned between the edge of the clapboard and the peripheral side wall of the frame body.

In this technical scheme, the support includes support body and baffle, and the support body is provided with the opening, and the opening part is located to the baffle lid. The baffle has the effect of blockking the air current, avoids the air current to take place at the condition that directly flows out after not passing through the heat exchanger heat transfer for the flow path of the air current of heat exchanger is ensured, makes the air current can fully exchange heat with the heat transfer portion of heat exchanger, in order to ensure the heat transfer effect of heat exchanger.

It can be understood that at least one part of the water receiving part is positioned between the edge of the partition plate and the peripheral side wall of the frame body, namely, at least one part of the water receiving part is not blocked by the partition plate, so that the effect that the cover plate blocks the airflow is ensured, and the effect that the water receiving part collects the condensed water is not influenced.

Specifically, the airflow enters the heat exchanger from the peripheral side of the heat exchanger and is discharged from the top of the heat exchanger.

In any of the above technical solutions, further, a gap is provided between the partition plate and the outer surface of the heat exchanger.

In this technical scheme, have the clearance between the surface of baffle and heat exchanger, like this, when avoiding support and heat exchanger assembly, take place to interfere and influence the condition emergence of support and heat exchanger assembly between heat exchanger and the support, be favorable to reducing the assembly degree of difficulty of heat exchanger and support, promote the assembly efficiency of heat exchanger and support.

In any of the above technical solutions, further, the frame body has a support rib, the support rib is arranged around the opening, and the partition board is lapped on the support rib; along the direction of heat exchanger to support, drainage portion and water receiving portion all are located the below of baffle.

In this technical scheme, the support body has the brace rod, and makes the brace rod enclose and locate open-ended week side to with the baffle overlap joint on the brace rod, the brace rod has the effect of supporting with fixed baffle, in order to guarantee baffle and open-ended position relation, and then satisfies the baffle and block the user demand of air current.

Further, along the direction of heat exchanger to support, drainage portion and water receiving portion all are located the below of baffle, and like this, drainage portion and water receiving portion can not be covered by the baffle to guarantee the service function of water receiving portion and drainage portion.

Specifically, the support rib is an annular support rib.

In any one of the above technical solutions, further, the frame body has a baffle, the baffle is connected with the water receiving portion, and the baffle is located between the outer surface of the heat exchanger and the support rib.

In this technical scheme, through the structure of reasonable setting support body for the support body has the baffle, and the baffle is located between the surface and the brace rod of heat exchanger, and the baffle cooperatees with water receiving portion in order to play the effect that blocks the comdenstion water and leak, makes the comdenstion water effectively collected, and the effect of reinforcing water receiving portion collection and water conservancy diversion.

Specifically, recess structure is enclosed out to baffle and water receiving portion, and that is, the baffle forms recess structure's one side lateral wall, and water receiving portion forms recess structure's diapire and opposite side lateral wall. This setting is when guaranteeing the validity that water receiving portion collected the comdenstion water, the rational utilization current structure of support body is favorable to reducing the input of reforming transform material, and then is favorable to reducing the manufacturing cost of product.

In any of the above technical solutions, further, the baffle is an annular structure disposed around the circumference of the heat exchanger.

In this technical scheme, through the structure of reasonable setting baffle for the annular structure of baffle for arranging around heat exchanger circumference, this setting has increased the cooperation area of baffle and heat exchanger, has increased the cooperation angle of baffle and heat exchanger, makes the comdenstion water that arbitrary direction flows all can be blockked by the baffle, the problem that the comdenstion water leaks can not appear, makes the comdenstion water by effective water conservancy diversion to water drainage portion.

In any one of the above technical solutions, further, the bracket further includes a water receiving plate, the water receiving plate is detachably connected with the bracket body, and the water receiving plate is bent to form a water receiving portion.

In this technical scheme, water receiving plate and support body detachable connections, the following any kind or its combination of connected mode of water receiving plate and support body: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

The water receiving plate is connected with the support body is detachable, namely, the dismouting that can decide the support according to actual conditions and the mounted position of decision water receiving plate for the support body, and then applicable different model indirect heating equipment's user demand, the strong adaptability of product has promoted the performance of product.

It can be understood that the water receiving plate is bent to be arranged so as to form the water receiving portion, and the structural strength of the water receiving plate can be enhanced while the use function of the water receiving portion is ensured, so that the overall structural strength of the support is enhanced.

In any of the above technical solutions, further, the frame body is integrally formed with a water receiving portion.

In this technical scheme, support body an organic whole is formed with water receiving portion, and this structure setting is owing to saved the assembly process of water receiving portion, so simplified the assembly of support body and the process of follow-up dismantlement, is favorable to promoting assembly and dismantlement efficiency, and then can reduce production and maintenance cost. In addition, the frame body is integrally formed with a water receiving part, so that the requirement of the frame body on the forming size precision can be met.

In any one of the above technical solutions, further, the water receiving device further includes: the joint is connected with the water discharging part, and at least one part of the joint protrudes out of one side of the support, which deviates from the heat exchanger.

In this technical scheme, the water receiving device is still including connecting, connects and the cooperation structure of water drainage portion through reasonable setting for connect and water drainage portion and be connected, and the at least partly protruding one side that stretches out the support and deviate from the heat exchanger that connects, connect and play the effect of assembling the comdenstion water.

The condensed water flows along a continuous flow path formed by the inner wall of the joint and then is discharged out of the joint. The continuous flow channel is formed on the inner wall of the joint, and the condensed water flows through the continuous flow channel, so that the deflection of the condensed water is reduced, the flow loss of the condensed water is reduced, more energy is converted into dynamic pressure, and the discharge of the condensed water is accelerated.

In addition, the joint has the function of collecting flow, reduces the frequency of the phenomena of flow separation, vortex and the like of condensed water, is favorable for reducing the operation noise of the product, and improves the service performance of the product.

In any one of the above technical solutions, further, the water receiving device further includes: and the drain pipe is connected with the part of the joint, which protrudes out of one side of the bracket and deviates from the heat exchanger.

In this technical scheme, the water receiving device still includes the drain pipe, and the drain pipe is connected with the part that the protruding support that stretches out of joint deviates from heat exchanger one side, and the comdenstion water that connects the outflow passes through drain pipe discharge indirect heating equipment. This setting has realized the collection and the directional emission to the comdenstion water, avoids the comdenstion water to flow to other electrified devices or store up in the inside condition of indirect heating equipment and takes place, is favorable to promoting security, the reliability that the product used.

The condensed water flows along a continuous flow path formed by the inner wall of the drain pipe and then is discharged out of the drain pipe. The continuous flow channel is formed on the inner wall of the drain pipe, and the condensed water flows through the continuous flow channel, so that the deflection of the condensed water is reduced, the flow loss of the condensed water is reduced, more energy is converted into dynamic pressure, and the discharge of the condensed water is accelerated.

In addition, the drain pipe has the function of collecting flow, so that the frequency of the phenomena of flow separation, flow shedding, vortex and the like of condensed water is reduced, the running noise of the product is favorably reduced, and the service performance of the product is improved.

In any one of the above aspects, further, the drain portion includes a plurality of drain holes.

In this technical scheme, drainage portion includes a plurality of wash ports, should set up the drainage area who has increased drainage portion, has richened drainage portion's drainage angle for water in the water receiving portion can be discharged from a plurality of wash ports. Simultaneously, this setting can be when guaranteeing the validity of drainage of water drainage portion, can reduce the machining precision requirement to the support, promotes the machining efficiency of product, reduces the manufacturing cost of product, that is to say, even because machining error leads to the local convex-concave unevenness of water receiving portion, even slope, also can guarantee the validity of drainage.

In any one of the above technical solutions, further, the drainage portion includes a drainage groove, and the drainage groove is a groove structure formed by recessing the edge of the bracket toward the inside of the bracket.

In this technical scheme, the drain includes a plurality of water drainage tank, and water drainage tank is the concave groove structure that the inside sunken formation of edge towards the support of support. This setting has increased the drainage area of water drainage portion, has richened the drainage angle of water drainage portion for water in the water receiving portion can be discharged from a plurality of water drainage tank. Simultaneously, this setting can be when guaranteeing the validity of drainage of water drainage portion, can reduce the machining precision requirement to the support, promotes the machining efficiency of product, reduces the manufacturing cost of product, that is to say, even because machining error leads to the local convex-concave unevenness of water receiving portion, even slope, also can guarantee the validity of drainage.

In any one of the above technical solutions, further, the water receiving device further includes: the heating part is arranged on the bracket and used for supplying heat to the water connection part.

In this technical scheme, the water receiving device still includes heating portion to make heating portion locate the support, accessible heating portion dock water portion heat supply, with the comdenstion water in the heating water receiving portion, avoid the comdenstion water to freeze and take place with the condition of blockking up in the water receiving portion, can guarantee that the water conservancy diversion comdenstion water is not subject to the ambient temperature that indirect heating equipment located, can satisfy diversified user demand, and then can promote the adaptability that the product used.

Specifically, heating portion is the heating pipe, and the heating pipe is arranged around the water receiving portion, and this setting can realize that heating portion supplies heat to the different positions of water receiving portion to the comdenstion water of different positions department in the assurance water receiving portion can not freeze by everywhere.

In any one of the above technical solutions, further, at least a part of the heating portion is located between the heat exchanger and the water discharge portion, and a gap is provided between a part of the heating portion corresponding to the water discharge portion and the water discharge portion.

In this technical scheme, when external environment temperature is lower, the comdenstion water is easily frozen in drainage department, so through the cooperation structure of reasonable setting heating portion and drainage for at least some of heating portion is located between heat exchanger and the drainage, utilizes the heating portion to come the comdenstion water heat supply to drainage department, takes place in the condition that drainage department was frozen in order to avoid the comdenstion water, can effectively be discharged in order to guarantee the comdenstion water in the water receiving portion.

It can be understood that, a gap is formed between the part of the heating part corresponding to the water draining part and the water draining part, so that condensed water can flow through the gap between the heating part and the water draining part, the condensed water flowing to the water draining part can be heated by the heating part, and the condition that the condensed water is frozen at the water draining part can be effectively avoided.

A second aspect of the present invention provides a heat exchange apparatus, comprising: any one technical scheme's in the first aspect water collector.

The heat exchange equipment provided by the utility model comprises the water receiving device according to any one of the technical schemes in the first aspect, so that the heat exchange equipment has all the beneficial effects of the water receiving device, and the description is omitted.

In the above technical solution, further, the heat exchange device further includes: the heat exchanger is arranged on the support and comprises a heat exchanging part, and the heat exchanging part is arranged corresponding to the water receiving part of the water receiving device.

In the technical scheme, the heat exchange equipment further comprises a heat exchanger, the heat exchanger is arranged on the support, and the heat exchange portion of the heat exchanger is arranged corresponding to the water receiving portion of the water receiving device. When the heat exchange equipment works, condensed water on the heat exchange part can flow to the water receiving part, is collected by the water receiving part and then is discharged by the water discharging part.

In any of the above technical solutions, further, the heat exchange device further includes: the stand is connected with the one side that the water receiving device deviates from the heat exchanger.

In this technical scheme, indirect heating equipment still includes the stand, and the stand is connected with the one side that the water receiving device deviates from the heat exchanger, and the stand has the effect of supporting and fixed water receiving device to the assurance is located and has one section distance between heat exchanger and the ground.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a first view of a water receiving device and a heat exchanging part according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram illustrating a second view of the water receiving device and the heat exchanging part according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a schematic structural diagram illustrating a third view of the water receiving device and the heat exchanging part according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram illustrating a fourth view of the water receiving device and the heat exchanging part according to the embodiment of the present invention;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

fig. 7 is a schematic view of a first perspective of a water receiving device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a second view of the water receiving device according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a third view of the water receiving device according to the embodiment of the present invention;

fig. 10 shows a schematic structural diagram of a heat exchange device according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 10 is:

100 water receiving devices, 110 brackets, 112 water receiving parts, 114 water discharging parts, 116 racks, 118 openings, 120 clapboards, 122 support ribs, 124 baffles, 140 water discharging pipes, 200 heat exchange equipment, 210 heat exchangers and 212 heat exchange parts.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A water receiving device 100 and a heat exchange apparatus 200 according to some embodiments of the present invention will be described below with reference to fig. 1 to 10.

Example 1:

as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, an embodiment of the first aspect of the present invention proposes that a water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

In detail, the water receiving device 100 is used for the heat exchange device 200, the heat exchange device 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, the water receiving device 100 includes a bracket 110, the bracket 110 has a water receiving portion 112 and a water discharging portion 114, the water receiving portion 112 is communicated with the water discharging portion 114, and the water receiving portion 112 is arranged corresponding to the heat exchanging portion 212 of the heat exchanger 210. When the heat exchange device 200 operates, the condensed water on the heat exchanging portion 212 flows down along the outer wall surface of the heat exchanging portion 212 to flow to the water receiving portion 112 corresponding to the heat exchanging portion 212, and is collected by the water receiving portion 112 and discharged from the water discharging portion 114. That is, the bracket 110 not only has the function of supporting the heat exchanger 210, but also has the function of collecting condensed water, thereby enriching the use function of the water receiving device 100 and being beneficial to improving the use performance of products.

The water receiving portion 112 and the water discharging portion 114 cooperate to limit a flow path of the condensed water in the heat exchanging device 200, so that the condensed water is collected and discharged directionally, the condensed water is prevented from flowing to other electrified devices or being accumulated in the heat exchanging device 200, the use safety and reliability of the product are improved, the service life of the product is prolonged, and the maintenance of subsequent products is facilitated.

This setting has been solved because heat exchange equipment is not provided with the water receiving device among the correlation technique for inside rivers all flowed into heat exchange equipment, and lead to causing the damage of device or the fracture of pipeline easily, influence subsequent maintenance, and the problem of incident easily takes place, has promoted the performance of product.

Example 2:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of embodiment 1, embodiment 2 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

Further, as shown in fig. 3, 6, 7 and 8, the water receiving portion 112 is a water receiving tank, and a notch of the water receiving tank is disposed corresponding to the heat exchanging portion 212.

In detail, the structure of the water receiving portion 112 is reasonably arranged, so that the water receiving portion 112 is a water receiving tank, and the notch of the water receiving tank is arranged corresponding to the heat exchanging portion 212, so that the condensed water flowing down from the heat exchanging portion 212 flows into the water receiving tank from the notch of the water receiving tank, is collected by the water receiving tank, and is discharged by the water discharging portion 114.

Specifically, a portion of the bracket 110 is recessed to form a water receiving groove. This setting rational utilization support 110's structure, when guaranteeing the validity of water conservancy diversion, reduced the input of material, be favorable to reducing the manufacturing cost of product, and be favorable to alleviateing the weight of product.

Specifically, the distribution shape of the water receiving tank is matched with the shape of the heat exchange part 212. If the heat exchange part 212 is in a U-shaped structure, the water receiving tank is a U-shaped water receiving tank; if the heat exchanging portion 212 has a rectangular structure, the water receiving trough has a strip-shaped structure, which is not illustrated herein. Therefore, the water receiving portions 112 are correspondingly disposed at different positions of the heat exchanging portion 212, so that the condensed water flowing down at different positions of the heat exchanging portion 212 can be effectively collected by the water receiving tank.

Example 3:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of embodiment 1 or embodiment 2, embodiment 3 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

Further, as shown in fig. 2, 5, 6, 7, 8 and 9, the bracket 110 includes a frame body 116 and a partition plate 120, the frame body 116 has a water receiving portion 112, a water discharging portion 114 and an opening 118, and the water receiving portion 112 and the water discharging portion 114 are located on the peripheral side of the opening 118; the partition 120 covers the opening 118; at least a portion of the water receiving portion 112 is located between an edge of the partition 120 and a peripheral sidewall of the frame 116.

In detail, the bracket 110 includes a frame body 116 and a partition 120, the frame body 116 is provided with an opening 118, and the partition 120 is covered at the opening 118. The partition plate 120 has an effect of blocking the airflow, so that the airflow is prevented from directly flowing out after the airflow does not pass through the heat exchanger 210 for heat exchange, and a flow path of the airflow of the heat exchanger 210 is ensured, so that the airflow can fully exchange heat with the heat exchange portion 212 of the heat exchanger 210, and the heat exchange effect of the heat exchanger 210 is ensured.

It can be understood that at least a portion of the water receiving portion 112 is located between the edge of the partition 120 and the peripheral sidewall of the frame 116, that is, at least a portion of the water receiving portion 112 is not blocked by the partition 120, so that the effectiveness of the cover plate for blocking the airflow is ensured, and the collection of the condensed water by the water receiving portion 112 is not affected.

Specifically, the airflow enters the heat exchanger 210 from the peripheral side of the heat exchanger 210, and is discharged from the top of the heat exchanger 210.

Specifically, the partition 120 may be a whole plate, or the partition 120 may include a plurality of sub-plates, which are assembled to form the partition 120.

In this embodiment, the holder 116 is integrally formed with the water receiving portion 112.

The frame body 116 is integrally formed with the water receiving portion 112, and the structure simplifies the assembly and subsequent disassembly processes of the frame body 116 due to the fact that the assembly process of the water receiving portion 112 is omitted, thereby being beneficial to improving the assembly and disassembly efficiency and further reducing the production and maintenance cost. In addition, the water receiving portion 112 is integrally formed on the frame 116 to ensure the dimensional accuracy requirement of the frame 116.

In other embodiments, the bracket 110 further includes a water receiving plate detachably connected to the frame 116, and the water receiving plate is bent to form the water receiving portion 112.

Wherein, water receiving plate and support body 116 detachable connections, following any kind or its combination of the connected mode of water receiving plate and support body 116: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

The water receiving plate is detachably connected with the frame body 116, namely, the disassembly and assembly of the bracket 110 and the installation position of the water receiving plate relative to the frame body 116 can be determined according to actual conditions, so that the use requirements of heat exchange equipment of different types can be met, the adaptability of the product is strong, and the use performance of the product is improved.

It can be understood that the water receiving plate is bent to form the water receiving portion 112, so that the using function of the water receiving portion 112 is ensured, and meanwhile, the structural strength of the water receiving plate can be enhanced, and further, the overall structural strength of the bracket 110 is enhanced.

Example 4:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of embodiment 3, embodiment 4 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

The bracket 110 includes a frame body 116 and a partition 120.

The frame body 116 has a water receiving portion 112, a water discharging portion 114 and an opening 118, and the water receiving portion 112 and the water discharging portion 114 are both located on the periphery side of the opening 118; the partition 120 covers the opening 118; at least a portion of the water receiving portion 112 is located between an edge of the partition 120 and a peripheral sidewall of the frame 116.

Further, the partition 120 has a gap with the outer surface of the heat exchanger 210.

In detail, a gap is formed between the partition plate 120 and the outer surface of the heat exchanger 210, so that the situation that the assembly of the bracket 110 and the heat exchanger 210 is affected due to interference between the heat exchanger 210 and the bracket 110 when the bracket 110 and the heat exchanger 210 are assembled is avoided, the assembly difficulty of the heat exchanger 210 and the bracket 110 is reduced, and the assembly efficiency of the heat exchanger 210 and the bracket 110 is improved.

Example 5:

as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, on the basis of embodiment 3 or 4, embodiment 5 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

The bracket 110 includes a frame body 116 and a partition 120.

The frame body 116 has a water receiving portion 112, a water discharging portion 114 and an opening 118, and the water receiving portion 112 and the water discharging portion 114 are both located on the periphery side of the opening 118; the partition 120 covers the opening 118; at least a portion of the water receiving portion 112 is located between an edge of the partition 120 and a peripheral sidewall of the frame 116.

Further, as shown in fig. 5 and 6, the frame body 116 has support ribs 122, the support ribs 122 are provided around the periphery of the opening 118, and the partition plates 120 are lapped on the support ribs 122.

In the direction from the heat exchanger 210 to the bracket 110, the drain portion 114 and the water receiving portion 112 are both located below the partition 120.

In detail, the frame 116 has the support rib 122, the support rib 122 is disposed around the opening 118, and the partition 120 is overlapped on the support rib 122, and the support rib 122 has the function of supporting and fixing the partition 120, so as to ensure the position relationship between the partition 120 and the opening 118, and further meet the requirement of the partition 120 for blocking the airflow.

Further, in the direction from the heat exchanger 210 to the bracket 110, the water discharge portion 114 and the water receiving portion 112 are both located below the partition 120, so that the water discharge portion 114 and the water receiving portion 112 are not covered by the partition 120 to ensure the functional use of the water receiving portion 112 and the water discharge portion 114.

Specifically, the support rib 122 is an annular support rib.

Further, as shown in fig. 3 and 6, the frame body 116 has a baffle 124, the baffle 124 is connected to the water receiving portion 112, and the baffle 124 is located between the outer surface of the heat exchanger 210 and the support rib 122.

Wherein, through the structure of reasonable setting support body 116 for support body 116 has baffle 124, and baffle 124 is located between heat exchanger 210's surface and the brace rod 122, and baffle 124 cooperatees with water receiving portion 112 in order to play the effect that blocks the comdenstion water and leak, makes the comdenstion water effectively collected, and reinforcing water receiving portion 112 collects and the effect of water conservancy diversion.

Specifically, the baffle 124 and the water receiving portion 112 enclose a groove structure, that is, the baffle 124 forms one side wall of the groove structure, and the water receiving portion 112 forms a bottom wall and the other side wall of the groove structure. This setting is when guaranteeing the validity that water receiving portion 112 collected the comdenstion water, rational utilization the current structure of support body 116, be favorable to reducing the input of reforming transform material, and then be favorable to reducing the manufacturing cost of product.

Further, the baffle 124 is an annular structure disposed circumferentially about the heat exchanger 210.

Wherein, through the structure that rationally sets up baffle 124 for baffle 124 is the annular structure of arranging around heat exchanger 210 circumference, and this setting has increased baffle 124 and heat exchanger 210's cooperation area, has increased baffle 124 and heat exchanger 210's cooperation angle, makes the comdenstion water that arbitrary direction flowed out all can be blockked by baffle 124, the problem that the comdenstion water leaked can not appear, makes the comdenstion water by effective water conservancy diversion to drain 114.

Example 6:

as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, on the basis of any one of the above embodiments, embodiment 6 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

Further, the water receiving device 100 further includes: and a joint connected with the drain portion 114, and at least a portion of the joint protrudes out of a side of the bracket 110 facing away from the heat exchanger 210.

In detail, the water receiving device 100 further comprises a joint, and the joint and the water discharging part 114 are reasonably arranged to form a matching structure, so that the joint is connected with the water discharging part 114, at least one part of the joint protrudes out of one side of the support 110 departing from the heat exchanger 210, and the joint plays a role in gathering condensed water.

The condensed water flows along a continuous flow path formed by the inner wall of the joint and then is discharged out of the joint. The continuous flow channel is formed on the inner wall of the joint, and the condensed water flows through the continuous flow channel, so that the deflection of the condensed water is reduced, the flow loss of the condensed water is reduced, more energy is converted into dynamic pressure, and the discharge of the condensed water is accelerated.

In addition, the joint has the function of collecting flow, reduces the frequency of the phenomena of flow separation, vortex and the like of condensed water, is favorable for reducing the operation noise of the product, and improves the service performance of the product.

Example 7:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of embodiment 6, embodiment 7 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

The water receiving device 100 further includes: and a joint connected with the drain portion 114, and at least a portion of the joint protrudes out of a side of the bracket 110 facing away from the heat exchanger 210.

Further, the water receiving device 100 further comprises a drain pipe 140, and the drain pipe 140 is connected with a portion of the connector protruding out of the side of the bracket 110 away from the heat exchanger 210.

In detail, the water receiving device 100 further comprises a drain pipe 140, the drain pipe 140 is connected with a portion of the joint protruding out of the side of the bracket 110 away from the heat exchanger 210, and the condensate water flowing out of the joint is discharged out of the heat exchange device 200 through the drain pipe 140. This setting has realized the collection and the directional emission to the comdenstion water, avoids the comdenstion water to flow to other electrified devices or store up in the inside condition emergence of indirect heating equipment 200, is favorable to promoting security, the reliability that the product used.

The condensed water flows along a continuous flow path formed by the inner wall of the drain pipe 140 and then is discharged out of the drain pipe 140. The continuous flow channel formed on the inner wall of the drain pipe 140 allows the condensed water to flow through the continuous flow channel, so that the deflection of the condensed water is reduced, the flow loss of the condensed water is reduced, more energy is converted into dynamic pressure, and the discharge of the condensed water is accelerated.

In addition, the drain pipe 140 has a flow-collecting function, so that the frequency of the phenomena of flow separation, flow shedding, vortex and the like of condensed water is reduced, the operation noise of the product is reduced, and the use performance of the product is improved.

In particular, the drain pipe 140 is a metal pipe or a plastic pipe, that is, the arrangement can support the water tray while ensuring the effectiveness and feasibility of drainage.

Alternatively, the drain pipe 140 is a rubber pipe.

Example 8:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of any one of the above embodiments, embodiment 8 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

Further, as shown in fig. 8, the drain portion 114 includes a plurality of drain holes.

In detail, the drain part 114 includes a plurality of drain holes, and this arrangement increases the drain area of the drain part 114 and enriches the drain angle of the drain part 114 so that water in the water receiving part 112 can be drained from the plurality of drain holes. Meanwhile, the arrangement can reduce the requirement on the processing precision of the bracket 110, improve the processing efficiency of products and reduce the production cost of the products while ensuring the drainage effectiveness of the drainage part 114, namely, the drainage effectiveness can be ensured even if the water receiving part 112 is locally uneven or even inclined due to processing errors.

Specifically, the outline of the drainage hole in the cross section is elliptical, triangular, rectangular, pentagonal, or irregular, and the like, which are not listed here. Wherein, the irregular shape refers to a structure with irregular shape.

Specifically, the plurality of drain holes are identical in shape.

Alternatively, some of the plurality of drain holes may have the same shape, and the other drain holes may have different shapes.

Alternatively, any two of the plurality of drain holes may have different shapes.

In other embodiments, the drainage part 114 includes a drainage groove, which is a groove structure formed by recessing the edge of the bracket 110 toward the inside of the bracket 110.

The drainage part 114 includes a plurality of drainage grooves, and the drainage grooves are groove structures formed by the edge of the bracket 110 being recessed toward the inside of the bracket 110. This setting has increased the drainage area of drain 114, has richened drain 114's drainage angle for the water in the water receiving portion 112 can be discharged from a plurality of water drainage tank. Meanwhile, the arrangement can reduce the requirement on the processing precision of the bracket 110, improve the processing efficiency of products and reduce the production cost of the products while ensuring the drainage effectiveness of the drainage part 114, namely, the drainage effectiveness can be ensured even if the water receiving part 112 is locally uneven or even inclined due to processing errors.

Specifically, the plurality of drain grooves are identical in shape.

Alternatively, some of the plurality of drainage grooves may have the same shape, and the other drainage grooves may have different shapes.

Alternatively, any two of the plurality of drain grooves may have different shapes.

Example 9:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, on the basis of any one of the above embodiments, embodiment 9 provides that the water receiving device 100 is used for a heat exchange apparatus 200, the heat exchange apparatus 200 includes a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, and the water receiving device 100 includes a bracket 110.

The bracket 110 is provided with a water receiving part 112 and a water discharging part 114, the water receiving part 112 is communicated with the water discharging part 114, and the water receiving part 112 and the heat exchanging part 212 are correspondingly arranged; wherein the bracket 110 is used to support the heat exchanger 210.

Further, the water receiving device 100 further includes: and a heating part provided on the bracket 110, the heating part supplying heat to the water connection part 112.

In detail, the water receiving device 100 further comprises a heating portion, the support 110 is arranged on the heating portion, the water receiving portion 112 can be heated by the heating portion, condensed water in the water receiving portion 112 can be heated, the condensed water is prevented from being frozen to block the water receiving portion 112, the diversion condensed water is not limited by the environment temperature of the heat exchange device 200, diversified use requirements can be met, and the use adaptability of the product can be improved.

Specifically, the heating portion is a heating pipe, and the heating pipe is arranged around the water receiving portion 112, and this arrangement can realize that the heating portion supplies heat to different positions of the water receiving portion 112 to guarantee that the condensed water at different positions in the water receiving portion 112 can not be frozen.

Wherein, the heating pipe can be one, or the quantity of heating pipe is a plurality of.

Further, at least a part of the heating portion is located between the heat exchanger 210 and the water discharge portion 114, and a gap is provided between a part of the heating portion corresponding to the water discharge portion 114 and the water discharge portion 114.

Wherein, when external environment temperature was lower, the comdenstion water was easily iced in drainage portion 114 department, so through the cooperation structure of reasonable setting heating portion and drainage portion 114 for at least partly being located between heat exchanger 210 and the drainage portion 114 of heating portion utilizes the heating portion to supply heat to the comdenstion water of drainage portion 114 department, takes place in the condition that drainage portion 114 department was iced with the comdenstion water of avoiding the comdenstion water, and in order to guarantee that the comdenstion water in the water receiving portion 112 can be effectively discharged.

It can be understood that there is a gap between the part of the heating portion corresponding to the water discharging portion 114 and the water discharging portion 114, so that the condensed water can flow through the gap between the heating portion and the water discharging portion 114, so as to ensure that the condensed water flowing to the water discharging portion 114 can be heated by the heating portion, and the condition that the condensed water freezes at the water discharging portion 114 can be effectively avoided.

Example 10:

as shown in fig. 10, an embodiment of the second aspect of the present invention provides a heat exchange device 200, including: the water receiving device 100 of any embodiment of the first aspect.

Specifically, the heat exchange device 200 includes: air-cooled modular units, heating units, etc., not to name a few.

Further, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the heat exchange device 200 further includes: the heat exchanger 210 is arranged on the bracket 110, the heat exchanger 210 comprises a heat exchanging part 212, and the heat exchanging part 212 is arranged corresponding to the water receiving part 112 of the water receiving device 100.

The heat exchange device 200 further includes a heat exchanger 210, the heat exchanger 210 is disposed on the bracket 110, and a heat exchange portion 212 of the heat exchanger 210 is disposed corresponding to the water receiving portion 112 of the water receiving device 100. When the heat exchanging device 200 is in operation, the condensed water on the heat exchanging portion 212 flows to the water receiving portion 112, is collected by the water receiving portion 112, and is discharged from the water discharging portion 114. That is, the bracket 110 not only has the function of supporting the heat exchanger 210, but also has the function of collecting condensed water, thereby enriching the use function of the water receiving device 100 and being beneficial to improving the use performance of products.

The water receiving portion 112 and the water discharging portion 114 cooperate to limit a flow path of the condensed water in the heat exchanging device 200, so that the condensed water is collected and discharged directionally, the condensed water is prevented from flowing to other electrified devices or being accumulated in the heat exchanging device 200, the use safety and reliability of the product are improved, the service life of the product is prolonged, and the maintenance of subsequent products is facilitated.

This setting has been solved because heat exchange equipment is not provided with the water receiving device among the correlation technique for inside rivers all flowed into heat exchange equipment, and lead to causing the damage of device or the fracture of pipeline easily, influence subsequent maintenance, and the problem of incident easily takes place, has promoted the performance of product.

Further, the heat exchanging device 200 further comprises: and the upright post is connected with one side of the water receiving device 100, which is far away from the heat exchanger 210.

The heat exchange device 200 further includes a vertical column, the vertical column is connected to a side of the water receiving device 100 away from the heat exchanger 210, and the vertical column has a function of supporting and fixing the water receiving device 100, so as to ensure that a distance is formed between the heat exchanger 210 and the ground.

Example 11:

as shown in fig. 1 to 6, the heat exchanging apparatus 200 includes a heat exchanging portion 212 (e.g., the heat exchanging portion 212 is a condensing portion) and the water receiving device 100, and the water receiving device 100 includes a bracket 110.

As shown in fig. 1 to 6, the bracket 110 has a water receiving portion 112 and a water discharging portion 114, the water receiving portion 112 is a water receiving tank, and the water discharging portion 114 includes a plurality of water discharging holes, and the water discharging holes are communicated with the water receiving tank.

As shown in fig. 1, 2 and 5, the bracket 110 includes a bracket body 116 and a partition 120, the partition 120 is not in contact with the condensation portion, and the partition 120 serves as a wind shield to ensure that the heat exchange air flows through the condensation portion.

The water receiving tank is internally provided with a centralized drain hole, and the drain hole is provided with a joint for draining water.

The water receiving device 100 further includes a heating portion (e.g., the heating portion is a heating pipe), the heating pipe is disposed in the water receiving tank, at least a portion of the heating pipe is located between the heat exchanger 210 and the water discharging portion 114, and a gap is formed between a portion of the heating portion corresponding to the water discharging portion 114 and the water discharging portion 114.

As shown in fig. 3 and 6, the bracket 110 includes a frame 116, the frame 116 has a baffle 124, the baffle 124 is connected to the water receiving portion 112, and the baffle 124 is located between the outer surface of the heat exchanger 210 and the support rib 122. The baffle 124 prevents the condensed water from flowing around and collecting the water into the water receiving tank.

The condensed water flowing out of the condensing part is collected by the water receiving tank, and is guided out of the heat exchange device 200 through the drain hole, the joint and the drain pipe 140 in sequence, so that the condensed water is not frozen and accumulated in the heat exchange device 200, and the purpose of concentrated discharge of the condensed water is achieved.

Wherein, baffle 124 and support body 116 detachable connections, the following any kind or its combination of the connected mode of baffle 124 and support body 116: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

Alternatively, the frame 116 may be integrally formed with the shutter 124.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. The utility model provides a water receiving device for indirect heating equipment, indirect heating equipment includes the heat exchanger, the heat exchanger includes heat exchange portion, its characterized in that, water receiving device includes:

the bracket is provided with a water receiving part and a water discharging part, the water receiving part is communicated with the water discharging part, and the water receiving part and the heat exchanging part are arranged correspondingly;

wherein the bracket is used for supporting the heat exchanger.

2. A water receiving device as claimed in claim 1,

the water receiving part is a water receiving tank, and a notch of the water receiving tank is arranged corresponding to the heat exchange part.

3. A water receiving device as claimed in claim 1 or claim 2, wherein the bracket comprises:

the frame body is provided with the water receiving part, the water discharging part and an opening, and the water receiving part and the water discharging part are located on the periphery of the opening;

the clapboard is covered at the opening;

wherein, at least one part of the water receiving part is positioned between the edge of the clapboard and the peripheral side wall of the shelf body.

4. A water receiving device as claimed in claim 3,

a gap is provided between the separator and the outer surface of the heat exchanger.

5. A water receiving device as claimed in claim 3,

the frame body is provided with support ribs which surround the periphery of the opening, and the partition plate is lapped on the support ribs;

along the direction from the heat exchanger to the support, the water draining part and the water receiving part are both located below the partition plate.

6. A water receiving device as claimed in claim 5,

the frame body is provided with a baffle plate, the baffle plate is connected with the water receiving part, and the baffle plate is positioned between the outer surface of the heat exchanger and the supporting ribs.

7. A water receiving device as claimed in claim 6,

the baffle is an annular structure arranged circumferentially around the heat exchanger.

8. A water receiving device as claimed in claim 3,

the bracket also comprises a water receiving plate which is detachably connected with the bracket body, and the water receiving plate is bent to form the water receiving part; or

The frame body is integrally formed with the water receiving part.

9. A water receiving device as claimed in claim 1 or claim 2, further comprising:

the joint is connected with the drainage part, and at least one part of the joint protrudes out of one side of the support, which deviates from the heat exchanger.

10. A water receiving device as claimed in claim 9, further comprising:

and the drain pipe is connected with the part of the joint, which protrudes out of the bracket and deviates from one side of the heat exchanger.

11. A water receiving device as claimed in claim 1 or claim 2, further comprising:

the drain part comprises a plurality of drain holes; and/or

The drainage part comprises a drainage groove, and the drainage groove is a groove structure formed by the edge of the support towards the inner part of the support in a concave mode.

12. A water receiving device as claimed in claim 1 or claim 2, further comprising:

the heating part is arranged on the support and used for supplying heat to the water receiving part.

13. A water receiving device as claimed in claim 12,

at least a part of the heating part is positioned between the heat exchanger and the water discharging part, and a gap is formed between the part of the heating part corresponding to the water discharging part and the water discharging part.

14. A heat exchange apparatus, comprising:

water receiving device according to any one of claims 1 to 13.

15. The heat exchange apparatus of claim 14 further comprising:

the heat exchanger is arranged on the support and comprises a heat exchange part, and the heat exchange part is arranged corresponding to the water receiving part of the water receiving device.

16. The heat exchange apparatus of claim 15 further comprising:

the stand, with the water receiving device deviates from one side of heat exchanger is connected.

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