CN215638263U - 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 includes: the bracket component comprises a flow guide part; the water receiving tray is arranged on the support assembly and is provided with a water receiving part and a water discharging part; the drainage part is communicated with the water receiving part and the flow guide part; the bracket component also comprises a middle frame and supporting legs, the water receiving tray is arranged on the middle frame, and one part of the flow guide part is arranged on the middle frame; the landing leg is connected with the well frame, and at least partly one side that deviates from the water collector of well frame that is located the landing leg, and the landing leg is located to another part of water conservancy diversion portion. The middle frame is located to some of water conservancy diversion portion, and the landing leg is located to another part of water conservancy diversion portion, and the comdenstion water on the heat exchanger flows to the water receiving portion of water receiving device, collects the back through water receiving portion, is arranged to the water conservancy diversion portion on the middle frame by drainage component, flows to the water conservancy diversion portion on the landing leg, and then flows out indirect heating equipment. The device limits the flow path of the condensed water in the heat exchange equipment, realizes the collection and directional discharge of the condensed water, and is favorable for improving the use safety of products.

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, including: the bracket component comprises a flow guide part; the water receiving tray is arranged on the support assembly and is provided with a water receiving part and a water discharging part; wherein, drainage part intercommunication water receiving portion and water conservancy diversion portion.

The utility model provides a water receiving device which comprises a support assembly and a water receiving tray. The water receiving tray is provided with a water receiving part and a water discharging part, the support component comprises a flow guide part, the water receiving part is communicated with the water discharging part, and the flow guide part is communicated with the water discharging part, namely the water receiving part is communicated with the flow guide part through the water discharging part.

Specifically, the heat exchange equipment comprises a water receiving device and a heat exchanger, the heat exchanger is located above the water receiving device along the direction from the top to the bottom of the heat exchange equipment, and the heat exchanger is communicated with the water receiving portion of the water receiving device. When the heat exchange equipment works, condensed water on the heat exchanger flows to the water receiving part of the water receiving device, is collected by the water receiving part and then is discharged to the flow guide part on the bracket component by the water discharging part, and then flows out of the heat exchange equipment under the guide of the flow guide part.

The water receiving portion, the drainage portion and the diversion portion are matched with each other to limit the flow path of the condensed water in the heat exchange equipment, the collection and the directional discharge of the condensed water are realized, 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 favorably improved, the service life of the products is favorably prolonged, and the maintenance of subsequent 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, further, along the direction of water collector to bracket component, drainage component is located the top of water conservancy diversion portion.

In this technical scheme, through the cooperation structure of reasonable setting drainage portion and water conservancy diversion portion for along the direction of water collector to bracket component, drainage portion is located the top of water conservancy diversion portion. Like this, under the action of gravity, the water conservancy diversion portion that the smooth flow direction of drainage portion was located the below can be followed to the comdenstion water in the water receiving portion, avoids the comdenstion water to store up the condition emergence in the water receiving portion, can guarantee the validity and the feasibility of drainage.

Meanwhile, the arrangement can reduce the occupation of the diversion part on the upper space of the water tray, and avoid the occurrence of the interference between the diversion part and the heat exchanger of the heat exchange equipment.

In any of the above technical solutions, further, the bracket assembly further includes: the water receiving tray is arranged on the middle frame, and one part of the flow guide part is arranged on the middle frame; the landing leg is connected with the well frame, and at least partly one side that deviates from the water collector is located the well frame to the landing leg, and the landing leg is located to another part of water conservancy diversion portion.

In this technical scheme, the bracket component includes well frame and landing leg, and the landing leg is connected with the well frame, and at least a part of landing leg is located one side that the well frame deviates from the water collector, and the landing leg has support and fixed effect to the frame, and then provides effectual structural support for the bracket component supports the heat exchanger.

Furthermore, the water pan is arranged on the middle frame, and the middle frame plays a role in supporting and fixing the water pan positioned on the middle frame.

Specifically, when the water receiving device is assembled with the heat exchanger of the heat exchange equipment, the heat exchanger is connected with the middle frame, the middle frame plays a role in bearing the heat exchanger, so that the position relation between the heat exchanger and the water receiving tray is ensured, the position relation between the heat exchanger and the water receiving portion is further ensured, and effective and reliable structural support is provided for the condensate water on the heat exchanger to flow to the water receiving portion.

Furthermore, the middle frame is arranged on one part of the flow guide part, the supporting legs are arranged on the other part of the flow guide part, condensed water on the heat exchanger flows to the water receiving part of the water receiving device, is collected by the water receiving part and is discharged to the flow guide part on the middle frame through the water discharging part, flows to the flow guide part on the supporting legs and then flows out of the heat exchange equipment.

In any of the above technical solutions, further, the part of the diversion part on the middle frame is a diversion trench, a notch of the diversion trench faces to one side of the water pan departing from the water receiving part, and the notch of the diversion trench is arranged corresponding to the drainage part; wherein, the guiding gutter is provided with first water conservancy diversion mouth.

In this technical scheme, the part that water conservancy diversion portion was located on the middle standing is the guiding gutter, and the notch of guiding gutter deviates from one side of water receiving portion towards the water collector, and the notch of guiding gutter corresponds the setting with water drainage, and like this, the comdenstion water in the water drainage can flow to the notch of guiding gutter smoothly, and then flows to first guiding opening under the guiding action of guiding gutter to the guiding gutter of discharging.

It can be understood that, the guiding gutter cooperatees with one side that the water collector deviates from water receiving portion to inject the water conservancy diversion passageway of comdenstion water, should set up the current structure of rational utilization water collector, reduced the material input of water conservancy diversion portion, when guaranteeing validity and the feasibility of water conservancy diversion, reduced the input of material, be favorable to reduction in production cost.

In any of the above technical solutions, further, the portion of the flow guiding portion disposed on the middle frame is integrally connected with the middle frame.

In the technical scheme, the part of the flow guide part, which is arranged on the middle frame, is integrally connected with the middle frame, and the structure arrangement simplifies the assembly and subsequent disassembly processes of the flow guide part and the middle frame due to the fact that the assembly process of the flow guide part and the middle frame is omitted, is favorable for improving the assembly and disassembly efficiency, and further can reduce the production and maintenance cost. In addition, the water guide part is integrally connected with the middle frame, so that the requirement on the size precision of the formed water receiving device can be met.

Specifically, a part of the middle frame is arranged in a bending mode to form the diversion trench.

In any one of the above technical solutions, further, the water receiving device further includes a guide plate, the guide plate is detachably connected with the middle frame, and the guide plate is bent and arranged to form a guide groove.

In the technical scheme, the guide plate is detachably connected with the middle frame. The connection mode of the guide plate and the middle rack is any one or combination of the following modes: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

It can be understood that, guide plate and well frame detachable connections, namely, can decide the dismouting of guide plate and well frame and decide the mounted position of guide plate for well frame according to actual conditions, and then applicable different model indirect heating equipment's user demand, the strong adaptability of product has promoted the performance of product.

In any of the above technical solutions, further, the part of the diversion part on the support leg is a water receiving tank, a notch of the water receiving tank is arranged corresponding to the first diversion port, and the water receiving tank is provided with a second diversion port.

In this technical scheme, the part that the landing leg was located to water conservancy diversion portion is the water receiving tank, and the notch and the first water conservancy diversion mouth of water receiving tank correspond the setting, and like this, the comdenstion water that first water conservancy diversion mouth flows can flow to the notch of water receiving tank, then flows by the second water conservancy diversion mouth of water receiving tank. This setting has realized the multistage direction of comdenstion water, when guaranteeing validity and the feasibility of water conservancy diversion comdenstion water, has reduced the occupancy to the inner space of centering.

It can be understood that one side that the water receiving tank deviates from the water collector with well frame cooperatees to inject the water conservancy diversion passageway of comdenstion water, should set up the current structure of rational utilization well frame, reduced the material input of water conservancy diversion portion, when guaranteeing validity and the feasibility of water conservancy diversion, reduced the input of material, be favorable to reduction in production cost.

In any one of the above technical solutions, further, a gap is formed between the water receiving tank and the outer surface of the middle frame.

In this technical scheme, have the clearance between the surface of water receiving tank and well frame, like this, when avoiding bracket component and water collector assembly, take place to interfere and influence the condition emergence of bracket component and water collector assembly between water conservancy diversion portion and the well frame, be favorable to reducing the assembly degree of difficulty of water collector and bracket component, promote the assembly efficiency of water collector and bracket component.

In any one of the above technical solutions, further, the water receiving device further includes: the joint is connected with the second diversion port, and at least one part of the joint protrudes out of one side of the water receiving tank, which deviates from the water receiving tray.

In this technical scheme, the water receiving device still includes the joint, connects the cooperation structure of second water conservancy diversion mouth through reasonable setting for connect and be connected with second water conservancy diversion mouth, and make at least partly protruding one side that stretches out the water receiving tank and deviate from the water collector that connects, connect the effect that plays the comdenstion water of assembling.

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 water receiving tank and deviates from the water receiving tray.

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 water receiving tank that stretches out of joint deviates from water collector one side, and the comdenstion water that the joint flows out 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 technical solutions, further, the water receiving device further includes: and the heating element is connected with the flow guide part and used for supplying heat to the flow guide part.

In this technical scheme, the water receiving device still includes the heating member to make the heating member be connected with water conservancy diversion portion, utilize the heating member to the heat supply of water conservancy diversion portion. When heat exchange equipment is in under the extremely cold environment, accessible heating member is to water conservancy diversion portion heat supply to the comdenstion water in the heating water conservancy diversion portion avoids the comdenstion water to freeze and takes place in order to block up the condition in water conservancy diversion portion, can guarantee that the water conservancy diversion comdenstion water is not subject to the ambient temperature that heat exchange equipment located, can satisfy diversified user demand, and then can promote the adaptability of product use.

Specifically, the heating member is the heating pipe, and the heating pipe is arranged around water conservancy diversion portion, and this setting can be realized heating member and carry out the heat supply to the different positions of water conservancy diversion portion to the comdenstion water of guaranteeing different positions department in the water conservancy diversion portion can not freeze by everyone.

In any of the above technical solutions, further, the heating element includes: the first heating part is arranged in the diversion trench; the second heating part is arranged on the water receiving tank.

In this technical scheme, the heating member includes first heating portion and second heating portion. Through the cooperation structure of rationally setting up first heating portion, second heating portion, guiding gutter and water receiving tank for the guiding gutter is located to first heating portion, and the water receiving tank is located to the second heating portion. The first heating part is used for supplying heat to the diversion trench, and the second heating part is used for supplying heat to the water trench. This setting has increased the area of contact of heating member with water conservancy diversion portion, has realized that heating portion carries out the purpose of heat supply to the different positions of water conservancy diversion portion, can effectively avoid the condensate water to freeze and take place in order to block up the condition in water conservancy diversion portion.

Specifically, the operation states of the first heating part and the second heating part may be controlled according to actual conditions, such as controlling the first heating part and the second heating part to operate, or controlling one of the first heating part and the second heating part to operate, or controlling both the first heating part and the second heating part to stop operating. The use requirements of diversification are met, and the use performance of the product is improved.

In any one of the above technical solutions, further, the drainage portion is located on a peripheral side of the water receiving portion.

In this technical scheme, through the cooperation structure of reasonable setting drainage portion and water receiving portion for drainage portion is located the week side of water receiving portion, and that is, the comdenstion water on the heat exchanger flows to water receiving portion, collects the back through water receiving portion, by the week side flow direction drainage portion of water receiving portion. This setting can guarantee validity and the feasibility of water receiving portion and water conservancy diversion portion intercommunication, guarantees that the comdenstion water that water receiving portion collected can be effectively guided flow to in the water conservancy diversion portion.

In any one of the above technical solutions, further, the drainage portion includes a plurality of drainage holes, and the plurality of drainage holes are arranged at intervals along a circumferential direction of the water receiving portion.

In this technical scheme, drainage portion includes a plurality of wash ports, and through the distribution structure who rationally sets up a plurality of wash ports, a plurality of wash ports are arranged along the circumference interval of water receiving portion, should set up the drainage area who has increased drainage portion, have richened drainage portion's drainage angle for water in the water receiving portion can be followed the drainage portion of different positions department and arranged to the guide structure. Simultaneously, this setting can reduce the machining precision requirement of butt joint water tray when guaranteeing the validity of drainage of water drainage portion, promotes the machining efficiency of product, reduces the manufacturing cost of product, that is to say, even because processing error leads to the local convex-concave of water receiving portion uneven, the slope even, also can guarantee the validity of drainage.

In any one of the above technical solutions, further, the water discharge portion includes a plurality of water discharge grooves, and a plurality of water discharge grooves are arranged along the circumference interval of the water receiving portion, and the water discharge grooves are groove structures formed by the edge of the water receiving tray sinking towards the water receiving portion.

In this technical scheme, water drainage portion includes a plurality of water drainage tank, and wherein, water drainage tank is the edge of water collector and caves in the groove structure who forms towards water collection portion. Through the distribution structure who rationally sets up a plurality of water drainage tank, a plurality of water drainage tank are arranged along the circumference interval of water receiving portion, should set up the drainage area who has increased water discharging portion, have richened water discharging portion's drainage angle for water in the water receiving portion can be followed the water discharging portion of different positions department and arranged to the water conservancy diversion portion. Simultaneously, this setting can reduce the machining precision requirement of butt joint water tray when guaranteeing the validity of drainage of water drainage portion, promotes the machining efficiency of product, reduces the manufacturing cost of product, that is to say, even because processing error leads to the local convex-concave of water receiving portion uneven, the slope even, also can guarantee the validity of drainage.

In any of the above technical solutions, further, the middle frame includes: the frame body is connected with the water receiving tray, and part of the flow guide part is arranged on the frame body; and the reinforcing structure is connected with the frame body.

In this technical scheme, the midframe includes framework and additional strengthening. Wherein, the frame encloses the week side of locating the water collector, and the frame is connected with the water collector, should set up with area of contact and the contact angle of increase frame and water collector to support the water collector simultaneously from a plurality of directions and a plurality of angle, in order to guarantee the overall structure intensity of water collector and well frame.

Further, through setting up additional strengthening for additional strengthening is connected with the framework, utilizes additional strengthening to strengthen the overall structure intensity of putting up in the reinforcing, in order to satisfy the user demand who supports and fix water collector and heat exchanger.

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 component, and the water receiving part of the water receiving tray is communicated with the heat exchanger.

In the technical scheme, the heat exchange equipment further comprises a heat exchanger, the heat exchanger is arranged on the support assembly, and the water receiving part of the water receiving tray is communicated with the heat exchanger. When the heat exchange equipment works, condensed water on the heat exchanger can flow to the water receiving portion, is collected by the water receiving portion and then is discharged to the flow guide portion by the water discharging portion, and then flows out of the flow guide portion under the guide of the flow guide portion.

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 shows a partial schematic view of a water receiving device according to an embodiment of the present invention;

FIG. 2 is an exploded view of the water collector of FIG. 1;

FIG. 3 is a schematic structural view of a water receiving tank and a joint according to an embodiment of the utility model;

FIG. 4 shows a schematic structural diagram of a heat exchange device according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

fig. 6 is a schematic structural diagram of a water receiving device and a heat exchanging part according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

100 water receiving devices, 112 diversion parts, 114 middle frames, 116 support legs, 118 diversion grooves, 120 first diversion ports, 122 water receiving grooves, 124 second diversion ports, 126 frame bodies, 128 reinforcing structures, 130 water receiving discs, 132 water receiving parts, 134 water discharging parts, 140 joints, 150 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 6.

Example 1:

as shown in fig. 1, 2, 4, 5 and 6, an embodiment of the first aspect of the present invention provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

In detail, the water receiving device 100 includes a bracket assembly and a water receiving tray 130. The water receiving tray 130 has a water receiving portion 132 and a water draining portion 134, the bracket assembly includes a flow guiding portion 112, the water receiving portion 132 is connected to the water draining portion 134, the flow guiding portion 112 is connected to the water draining portion 134, that is, the water receiving portion 132 is connected to the flow guiding portion 112 through the water draining portion 134.

Specifically, as shown in fig. 6, the heat exchanging device 200 includes the water receiving device 100 and a heat exchanger 210, the heat exchanger 210 includes a heat exchanging portion 212, the heat exchanger 210 is located above the water receiving device 100 along a top-to-bottom direction of the heat exchanging device 200, and the heat exchanging portion 212 of the heat exchanger 210 is communicated with the water receiving portion 132 of the water receiving device 100. When the heat exchange device 200 works, condensed water on the heat exchanger 210 flows to the water receiving portion 132 of the water receiving device 100, is collected by the water receiving portion 132, is discharged to the diversion portion 112 on the bracket assembly by the drainage portion 134, and then flows out of the heat exchange device 200 under the guidance of the diversion portion 112.

The water receiving portion 132, the drainage portion 134 and the flow guide portion 112 are matched to limit a flow path of the condensed water in the heat exchange device 200, so that the condensed water is collected and directionally discharged, the condensed water is prevented from flowing to other electrified devices or being accumulated in the heat exchange device 200, the use safety and the use reliability of products are improved, the service life of the products is prolonged, and the follow-up products are convenient to maintain.

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.

Specifically, the bracket assembly is detachably connected to the drip tray 130. The bracket assembly is connected with the water pan 130 in any one or combination of the following ways: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

It can be understood that the bracket component is detachably connected with the water collector 130, that is, the disassembly and assembly of the bracket component and the water collector 130 and the installation position of the water collector 130 relative to the bracket component can be determined according to actual conditions, so that the water collector can be suitable for the use requirements of heat exchange equipment 200 with different models, the adaptability of the product is strong, and the use performance of the product is improved.

In other embodiments, the bracket assembly is integrally connected to the water pan 130, and this structure simplifies the assembly and subsequent disassembly processes of the bracket assembly and the water pan 130 because the assembly process of the bracket assembly and the water pan 130 is omitted, which is beneficial to improving the assembly and disassembly efficiency, and further reduces the production and maintenance cost. In addition, the bracket component is integrally connected with the water pan 130, so that the requirement of the dimensional precision of the product forming can be ensured.

In the present embodiment, the number of the flow guide portions 112 is plural, and the plural flow guide portions 112 are arranged at intervals.

In other embodiments, the number of flow guides 112 is one.

Example 2:

as shown in fig. 1, 2, 4, 5 and 6, in addition to embodiment 1, embodiment 2 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

Further, as shown in fig. 2, the drainage portion 134 is located above the flow guiding portion 112 along the direction from the water tray 130 to the bracket assembly.

In detail, the drain part 134 is located above the flow guiding part 112 along the direction from the water tray 130 to the bracket assembly by properly arranging the matching structure of the drain part 134 and the flow guiding part 112. Thus, under the action of gravity, the condensed water in the water receiving portion 132 can smoothly flow from the drainage portion 134 to the diversion portion 112 located below, so that the condensed water is prevented from being accumulated in the water receiving portion 132, and the effectiveness and feasibility of drainage can be ensured.

Meanwhile, the arrangement can reduce the occupation of the flow guide part 112 on the upper space of the water tray 130, and avoid the occurrence of interference between the flow guide part 112 and the heat exchanger 210 of the heat exchange device 200.

Example 3:

as shown in fig. 1, 2, 4, 5, and 6, in addition to embodiment 1 or embodiment 2, embodiment 3 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

Further, as shown in fig. 2, 4 and 5, the stand assembly includes a middle stand 114 and legs 116.

The drain pan 130 is disposed on the middle frame 114, and a portion of the diversion part 112 is disposed on the middle frame 114.

The support legs 116 are connected with the middle frame 114, at least one part of the support legs 116 is positioned at one side of the middle frame 114, which faces away from the water pan 130, and the other part of the flow guide part 112 is arranged on the support legs 116.

In detail, the bracket assembly comprises a middle frame 114 and legs 116, the legs 116 are connected with the middle frame 114, at least one part of the legs 116 is positioned on the side of the middle frame 114 facing away from the water pan 130, and the legs 116 have supporting and fixing effects on the middle frame 114, so that effective structural support is provided for the bracket assembly to support the heat exchanger 210.

Meanwhile, the water pan 130 is arranged on the middle frame 114, and the middle frame 114 supports and fixes the water pan 130 thereon.

Specifically, when the water receiving device 100 is assembled with the heat exchanger 210 of the heat exchange apparatus 200, the heat exchanger 210 is connected to the middle frame 114, and the middle frame 114 plays a role of bearing the heat exchanger 210, so as to ensure a position relationship between the heat exchanger 210 and the water receiving tray 130, further ensure a position relationship between the heat exchanger 210 and the water receiving portion 132, and provide effective and reliable structural support for the condensed water on the heat exchanger 210 to flow to the water receiving portion 132.

In addition, one part of the diversion part 112 is arranged on the middle frame 114, the other part of the diversion part 112 is arranged on the supporting leg 116, condensed water on the heat exchanger 210 flows to the water receiving part 132 of the water receiving device 100, is collected by the water receiving part 132, is drained to the diversion part 112 on the middle frame 114 through the drainage part 134, flows to the diversion part 112 on the supporting leg 116, and then flows out of the heat exchange device 200.

Example 4:

as shown in fig. 1, 2, 4, 5 and 6, based on embodiment 3, embodiment 4 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The stand assembly includes a mid-stand 114 and legs 116.

The drain pan 130 is disposed on the middle frame 114, and a portion of the diversion part 112 is disposed on the middle frame 114.

The support legs 116 are connected with the middle frame 114, at least one part of the support legs 116 is positioned at one side of the middle frame 114, which faces away from the water pan 130, and the other part of the flow guide part 112 is arranged on the support legs 116.

Further, as shown in fig. 2, the portion of the flow guiding portion 112 disposed on the middle frame 114 is a flow guiding groove 118.

The notch of guiding gutter 118 is towards the one side that water collector 130 deviates from water receiving portion 132, and the notch of guiding gutter 118 and drain 134 correspond the setting, and guiding gutter 118 is provided with first water conservancy diversion mouth 120.

In detail, the part of the diversion portion 112 on the middle frame 114 is a diversion trench 118, the notch of the diversion trench 118 faces one side of the water receiving tray 130 deviating from the water receiving portion 132, and the notch of the diversion trench 118 and the drainage portion 134 are correspondingly arranged, so that the condensed water in the drainage portion 134 can smoothly flow to the notch of the diversion trench 118, and further flow to the first diversion port 120 under the guiding effect of the diversion trench 118 to discharge the diversion trench 118.

It can be understood that one side of diversion trench 118 and water collector 130 deviating from water receiving portion 132 cooperate to inject the water conservancy diversion passageway of comdenstion water, should set up the current structure that has rationally utilized water collector 130, reduced water conservancy diversion portion 112's material and drop into, when guaranteeing validity and the feasibility of water conservancy diversion, reduced the input of material, be favorable to reduction in production cost.

Specifically, the number of the first flow guiding openings 120 is at least one.

Further, a portion of the guide portion 112 provided on the middle frame 114 is integrally connected to the middle frame 114.

The part of the flow guide part 112, which is arranged on the middle frame 114, is integrally connected with the middle frame 114, and the structural arrangement simplifies the assembly and subsequent disassembly processes of the flow guide part 112 and the middle frame 114 due to the fact that the assembly process of the flow guide part 112 and the middle frame 114 is omitted, thereby being beneficial to improving the assembly and disassembly efficiency and further reducing the production and maintenance cost. In addition, the integral connection of the diversion part 112 and the middle frame 114 can ensure the dimensional accuracy requirement of the forming of the water receiving device 100.

In other embodiments, the water receiving device 100 further includes a baffle detachably connected to the middle rack 114, and the baffle is bent to form a baffle slot 118.

Wherein, the guide plate is detachably connected with the middle frame 114. The connection of the baffles to the midframe 114 is by any one or combination of the following: clamping, screwing, magnetic attraction and fastening connection through a fastener (such as a screw, a bolt or a rivet).

It can be understood that the guide plate and the middle frame 114 are detachably connected, that is, the guide plate and the middle frame 114 can be disassembled and assembled and the installation position of the guide plate relative to the middle frame 114 can be determined according to actual conditions, so that the heat exchange device 200 can be used for different types, the product adaptability is high, and the product use performance is improved.

Example 5:

as shown in fig. 1, 2, 4, 5 and 6, in addition to embodiment 4, embodiment 5 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The stand assembly includes a mid-stand 114 and legs 116.

The drain pan 130 is disposed on the middle frame 114, and a portion of the diversion part 112 is disposed on the middle frame 114.

The support legs 116 are connected with the middle frame 114, at least one part of the support legs 116 is positioned at one side of the middle frame 114, which faces away from the water pan 130, and the other part of the flow guide part 112 is arranged on the support legs 116.

The part of the flow guide part 112 arranged on the middle frame 114 is a flow guide groove 118.

The notch of guiding gutter 118 is towards the one side that water collector 130 deviates from water receiving portion 132, and the notch of guiding gutter 118 and drain 134 correspond the setting, and guiding gutter 118 is provided with first water conservancy diversion mouth 120.

Further, as shown in fig. 1, 2 and 3, the part of the diversion portion 112 disposed on the support leg 116 is a water receiving tank 122, a notch of the water receiving tank 122 is disposed corresponding to the first diversion opening 120, and the water receiving tank 122 is disposed with a second diversion opening 124.

In detail, the part of the diversion part 112 disposed on the supporting leg 116 is a water receiving tank 122, and the notch of the water receiving tank 122 is disposed corresponding to the first diversion opening 120, so that the condensed water flowing out from the first diversion opening 120 flows to the notch of the water receiving tank 122 and then flows out from the second diversion opening 124 of the water receiving tank 122. This setting has realized the multistage direction of comdenstion water, when guaranteeing validity and the feasibility of water conservancy diversion comdenstion water, has reduced the occupancy to the inner space of centering 114.

It can be understood that one side of the water receiving tank 122 and the side of the middle frame 114 departing from the water receiving tray 130 are matched to limit a flow guide channel of condensed water, the existing structure of the middle frame 114 is reasonably utilized, the material investment of the flow guide part 112 is reduced, the material investment is reduced while the effectiveness and the feasibility of flow guide are ensured, and the production cost is favorably reduced.

Further, a gap is formed between the water receiving tank 122 and the outer surface of the middle frame 114.

In this way, when the bracket assembly and the water pan 130 are assembled, interference between the flow guide part 112 and the middle frame 114 to affect the assembly of the bracket assembly and the water pan 130 occurs, which is beneficial to reducing the assembly difficulty of the water pan 130 and the bracket assembly and improving the assembly efficiency of the water pan 130 and the bracket assembly.

Further, as shown in fig. 1 and 3, the water receiving device 100 further includes a joint 140, the joint 140 is connected to the second diversion opening 124, and at least a portion of the joint 140 protrudes out of a side of the water receiving tank 122 facing away from the water receiving tray 130.

The water receiving device 100 further includes a joint 140, and the joint 140 is connected to the second diversion opening 124 by reasonably setting a matching structure of the joint 140 and the second diversion opening 124, so that at least a part of the joint 140 protrudes out of one side of the water receiving tank 122 deviating from the water receiving tray 130, and the joint 140 plays a role in gathering condensed water.

The condensed water flows along a continuous flow path formed by the inner wall of the joint 140 and then is discharged out of the joint 140. The continuous flow channel formed on the inner wall of the joint 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 joint 140 has the function of collecting flow, so that the frequency of phenomena of flow separation, flow shedding, vortex and the like of condensed water is reduced, the running noise of the product is reduced, and the use performance of the product is improved.

Further, as shown in fig. 4 and 5, the water receiving device 100 further includes a drain pipe 150, and the drain pipe 150 is connected to a portion of the joint 140 protruding out of the side of the water receiving tank 122 away from the water receiving tray 130.

The water receiving device 100 further comprises a drain pipe 150, the drain pipe 150 is connected with a portion, protruding out of the water receiving tank 122, of the joint 140, and the portion is away from one side of the water receiving tray 130, and condensed water flowing out of the joint 140 is discharged out of the heat exchange device 200 through the drain pipe 150. 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 150 and then is discharged out of the drain pipe 150. The continuous flow channel formed on the inner wall of the drain pipe 150 through which the condensed water flows reduces the deflection of the condensed water and the flow loss of the condensed water, so that more energy is converted into dynamic pressure to accelerate the discharge of the condensed water.

In addition, the drain pipe 150 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.

Specifically, the drain pipe 150 is a metal pipe or a plastic pipe.

Alternatively, the drain pipe 150 is a rubber pipe.

Specifically, the number of the second flow guide openings 124 is at least one.

Example 6:

as shown in fig. 1, 2, 3, 4, 5, and 6, in example 5, example 6 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The stand assembly includes a mid-stand 114 and legs 116.

The drain pan 130 is disposed on the middle frame 114, and a portion of the diversion part 112 is disposed on the middle frame 114.

The support legs 116 are connected with the middle frame 114, at least one part of the support legs 116 is positioned at one side of the middle frame 114, which faces away from the water pan 130, and the other part of the flow guide part 112 is arranged on the support legs 116.

The part of the flow guide part 112 arranged on the middle frame 114 is a flow guide groove 118.

The notch of guiding gutter 118 is towards the one side that water collector 130 deviates from water receiving portion 132, and the notch of guiding gutter 118 and drain 134 correspond the setting, and guiding gutter 118 is provided with first water conservancy diversion mouth 120.

The part of the diversion part 112 disposed on the supporting leg 116 is a water receiving tank 122, a notch of the water receiving tank 122 is disposed corresponding to the first diversion opening 120, and the water receiving tank 122 is disposed with a second diversion opening 124.

Further, the water receiving device 100 further includes a heating member, the heating member is connected to the diversion portion 112, and the heating member is used for supplying heat to the diversion portion 112.

In detail, the water receiving device 100 further includes a heating member, and the heating member is connected to the diversion part 112, and the diversion part 112 is heated by the heating member. When heat exchange device 200 is in extremely cold environment, accessible heating member is to water conservancy diversion portion 112 heat supply to the comdenstion water in the heating water conservancy diversion portion 112 avoids the comdenstion water to freeze and takes place with the condition of blockking up in water conservancy diversion portion 112, can guarantee that the water conservancy diversion comdenstion water is not subject to the ambient temperature that heat exchange device 200 was located, can satisfy diversified user demand, and then can promote the adaptability of product use.

Specifically, the heating member is the heating pipe, and the heating pipe is arranged around water conservancy diversion portion 112, and this setting can realize that the heating member supplies heat to the different positions of water conservancy diversion portion 112 to guarantee that the comdenstion water of different positions department in water conservancy diversion portion 112 can not freeze everywhere.

Further, the heating member includes a first heating part and a second heating part. The first heating portion is disposed in the diversion trench 118, and the second heating portion is disposed in the water receiving trench 122.

Wherein the heating member includes a first heating part and a second heating part. The first heating part is arranged on the diversion trench 118, and the second heating part is arranged on the water receiving trench 122 through a matching structure reasonably provided with the first heating part, the second heating part, the diversion trench 118 and the water receiving trench 122. The first heating part is used for supplying heat to the diversion trench 118, and the second heating part is used for supplying heat to the water trench 122. This setting has increased the area of contact of heating member with water conservancy diversion portion 112, has realized that heating portion carries out the purpose of heat supply to the different positions of water conservancy diversion portion 112, can effectively avoid the condensate water to freeze and take place in order to block up the condition in water conservancy diversion portion 112.

Specifically, the operation states of the first heating part and the second heating part may be controlled according to actual conditions, such as controlling the first heating part and the second heating part to operate, or controlling one of the first heating part and the second heating part to operate, or controlling both the first heating part and the second heating part to stop operating. The use requirements of diversification are met, and the use performance of the product is improved.

Example 7:

as shown in fig. 1, 2, 4, 5, and 6, in addition to any of the above embodiments, embodiment 7 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

Further, the drain portion 134 is located on the peripheral side of the water receiving portion 132.

Specifically, by appropriately arranging the matching structure of the drain portion 134 and the water receiving portion 132, the drain portion 134 is located on the peripheral side of the water receiving portion 132, that is, the condensed water on the heat exchanger 210 flows to the water receiving portion 132, is collected by the water receiving portion 132, and then flows to the drain portion 134 from the peripheral side of the water receiving portion 132. The arrangement can ensure the effectiveness and feasibility of the communication between the water receiving portion 132 and the flow guide portion 112, and ensure that the condensed water collected by the water receiving portion 132 can be effectively guided into the flow guide portion 112.

Example 8:

as shown in fig. 1, 2, 4, 5 and 6, in addition to embodiment 7, embodiment 8 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The drain portion 134 is located on the periphery of the water receiving portion 132.

Further, as shown in fig. 2, the drainage portion 134 includes a plurality of drainage holes, and the drainage holes are arranged at intervals along the circumferential direction of the water receiving portion 132.

In detail, the drainage portion 134 includes a plurality of drainage holes, and the plurality of drainage holes are arranged along the circumferential direction of the water receiving portion 132 at intervals by reasonably setting the distribution structure of the plurality of drainage holes, and this setting increases the drainage area of the drainage portion 134, and enriches the drainage angle of the drainage portion 134, so that water in the water receiving portion 132 can be drained to the flow guide structure from the drainage portions 134 at different positions. Meanwhile, the arrangement can reduce the requirement on the processing precision of the water tray 130 while ensuring the effectiveness of drainage of the drainage part 134, improve the processing efficiency of products and reduce the production cost of the products, namely, even if the water receiving part 132 is locally uneven or even inclined due to processing errors, the effectiveness of drainage can be ensured.

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.

Example 9:

as shown in fig. 1, 2, 4, 5 and 6, in addition to embodiment 7, embodiment 9 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The drain portion 134 is located on the periphery of the water receiving portion 132.

Further, the drainage part 134 includes a plurality of drainage grooves arranged at intervals along the circumferential direction of the water receiving part 132, and the drainage grooves are groove structures formed by the edge of the water receiving tray 130 sinking toward the water receiving part 132.

In detail, the drain part 134 includes a plurality of drain grooves, wherein the drain grooves are a groove structure formed by the edge of the water receiving tray 130 being recessed toward the water receiving part 132. Through the distribution structure who rationally sets up a plurality of water drainage tank, a plurality of water drainage tank are arranged along the circumference interval of water receiving portion 132, and this setting has increased the drainage area of water discharging portion 134, has richened water discharging portion 134's drainage angle for water in the water receiving portion 132 can discharge to flow guide portion 112 from the water discharging portion 134 of different positions department. Meanwhile, the arrangement can reduce the requirement on the processing precision of the water tray 130 while ensuring the effectiveness of drainage of the drainage part 134, improve the processing efficiency of products and reduce the production cost of the products, namely, even if the water receiving part 132 is locally uneven or even inclined due to processing errors, the effectiveness of drainage can be ensured.

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 10:

as shown in fig. 1, 2, 4, 5, and 6, in addition to any one of embodiments 3 to 9, embodiment 10 provides a water receiving device 100 including a bracket assembly and a water receiving tray 130.

The bracket assembly comprises a flow guide part 112, the water receiving tray 130 is arranged on the bracket assembly, the water receiving tray 130 is provided with a water receiving part 132 and a drainage part 134, and the drainage part 134 is communicated with the water receiving part 132 and the flow guide part 112.

The stand assembly includes a mid-stand 114 and legs 116.

The drain pan 130 is disposed on the middle frame 114, and a portion of the diversion part 112 is disposed on the middle frame 114.

The support legs 116 are connected with the middle frame 114, at least one part of the support legs 116 is positioned at one side of the middle frame 114, which faces away from the water pan 130, and the other part of the flow guide part 112 is arranged on the support legs 116.

Further, as shown in fig. 1 and 2, the middle rack 114 includes a frame 126 and a reinforcing structure 128, the water tray 130 is connected to the frame 126, a part of the diversion part 112 is disposed on the frame 126, and the reinforcing structure 128 is connected to the frame 126.

In detail, the middle frame 114 includes a frame body 126 and a reinforcing structure 128. The frame 126 surrounds the periphery of the water receiving tray 130, and the frame 126 is connected to the water receiving tray 130, so as to increase the contact area and the contact angle between the frame 126 and the water receiving tray 130, and to support the water receiving tray 130 from multiple directions and multiple angles, thereby ensuring the overall structural strength of the water receiving tray 130 and the middle frame 114.

Meanwhile, by arranging the reinforcing structure 128, the reinforcing structure 128 is connected with the frame body 126, and the reinforcing structure 128 is utilized to enhance the overall structural strength of the middle frame 114, so as to meet the use requirements of supporting and fixing the water pan 130 and the heat exchanger 210.

Specifically, the reinforcing structure 128 includes a first reinforcing rib, a second reinforcing rib, and a third reinforcing rib, the second reinforcing rib is disposed at an interval from the first reinforcing rib, and any one of the first reinforcing rib and the second reinforcing rib is connected to both sides of the frame body 126. The third strengthening rib is located between first strengthening rib and the second strengthening rib, and the one end of third strengthening rib is connected with first strengthening rib, and the other end of third strengthening rib is connected with the second strengthening rib.

The reinforcing structure 128 includes a first reinforcing bead, a second reinforcing bead, and a third reinforcing bead. Through the cooperation structure of rationally setting up first strengthening rib, second strengthening rib and third strengthening rib for first strengthening rib and second strengthening rib interval arrangement, the third strengthening rib is located between first strengthening rib and the second strengthening rib, and the third strengthening rib all is connected with first strengthening rib and second strengthening rib. This be provided with and do benefit to the area of contact of increase first strengthening rib, second strengthening rib and third strengthening rib, and then can promote the cooperation structural strength of additional strengthening 128 and framework 126.

Specifically, the first reinforcing rib, the second reinforcing rib and the third reinforcing rib enclose an I shape.

Example 11:

as shown in fig. 4, 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.

The heat exchange device 200 provided by the present invention includes the water receiving device 100 according to any embodiment of the first aspect, so that all the advantages of the water receiving device 100 are provided, which is not described herein.

Further, as shown in fig. 4, the heat exchanging device 200 further includes: the heat exchanger 210 is arranged on the bracket component, and the water receiving part 132 of the water receiving tray 130 is communicated with the heat exchanger 210.

In detail, the heat exchanging device 200 further comprises a heat exchanger 210, the heat exchanger 210 is disposed on the bracket assembly, and the water receiving portion 132 of the water receiving tray 130 is communicated with the heat exchanger 210. When the heat exchange device 200 is in operation, condensed water on the heat exchanger 210 flows to the water receiving portion 132, is collected by the water receiving portion 132, is discharged to the flow guide portion 112 by the water discharge portion 134, and then flows out of the flow guide portion 112 under the guidance of the flow guide portion 112.

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

Example 12:

as shown in fig. 1 and 2, the heat exchange device 200 includes a heat exchanger 210 (e.g., the heat exchanger 210 is a condenser), a water pan 130, and a bracket assembly.

The drain pan 130 is provided with a plurality of drain portions 134 (e.g., the drain portions 134 are drain holes).

The bracket assembly comprises a middle bracket 114 and a supporting leg 116, one part of the flow guide part 112 is arranged on the middle bracket 114, the other part of the flow guide part 112 is arranged on the supporting leg 116, and the part of the flow guide part 112 arranged on the bracket is a flow guide groove 118. The guide channels 118 are integrally connected with the middle shelf 114, i.e., a portion of the middle shelf 114 is bent to be configured as the guide channels 118.

The part of the diversion part 112 provided on the supporting leg 116 is a water receiving groove 122. The water receiving tank 122 is spaced from the outer surface of the middle frame 114.

The water receiving tank 122 is provided with a second diversion opening 124, the joint 140 is connected with the second diversion opening 124, and at least one part of the joint 140 protrudes out of one side of the water receiving tank 122, which is far away from the water receiving tray 130.

The drain pipe 150 is connected to the joint 140.

The condensed water flowing out of the condenser flows through the water receiving tray 130 and rapidly flows out through the drainage part 134; then flows down from the first diversion ports 120 on both sides after being collected by the diversion trench 118 of the middle frame 114; then the condensed water is collected by the water receiving tank 122, passes through the second diversion port 124, the joint 140 and the drain pipe 150 in sequence, is guided out of the heat exchange device 200, is not frozen and accumulated in the heat exchange device 200, and achieves the purpose of concentrated drainage of the condensed water.

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. A water receiving device, its characterized in that includes:

a bracket assembly including a flow guide;

the water receiving tray is arranged on the support assembly and is provided with a water receiving part and a water discharging part;

wherein, the drainage part intercommunication water receiving portion with water conservancy diversion portion.

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

along the water collector extremely the direction of bracket component, drainage department is located the top of water conservancy diversion portion.

3. The water receiving device of claim 1 or 2, wherein the bracket assembly further comprises:

the water receiving tray is arranged on the middle frame, and one part of the flow guide part is arranged on the middle frame;

the landing leg, with the well frame is connected, at least partly position in the well frame deviates from one side of water collector, another part of water conservancy diversion portion is located the landing leg.

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

the part of the diversion part, which is arranged on the middle frame, is a diversion trench, the notch of the diversion trench faces to one side of the water receiving tray, which is far away from the water receiving part, and the notch of the diversion trench is arranged corresponding to the drainage part;

wherein, the guiding gutter is provided with a first guiding opening.

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

the part of the flow guide part arranged on the middle frame is integrally connected with the middle frame; or

The water receiving device further comprises a guide plate, the guide plate is detachably connected with the middle frame, and the guide plate is arranged in a bending mode to form the guide groove.

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

the part of the diversion part arranged on the supporting leg is a water receiving tank, the notch of the water receiving tank is arranged corresponding to the first diversion port, and the water receiving tank is provided with a second diversion port.

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

a gap is formed between the water receiving tank and the outer surface of the middle frame.

8. A water receiving device as claimed in claim 6, further comprising:

the joint is connected with the second diversion port, and at least one part of the joint protrudes out of one side of the water receiving tank, which deviates from the water receiving tray.

9. A water receiving device as claimed in claim 8, further comprising:

and the drain pipe is connected with the part of the joint, which protrudes out of one side of the water receiving tank, which is far away from the water receiving tray.

10. A water receiving device as claimed in claim 6, further comprising:

and the heating element is connected with the flow guide part and used for supplying heat to the flow guide part.

11. A water receiving device as claimed in claim 10, wherein the heating element comprises:

the first heating part is arranged in the diversion trench;

the second heating part is arranged on the water receiving tank.

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

the drainage part is located on the periphery side of the water receiving part.

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

the drainage part comprises a plurality of drainage holes which are arranged at intervals along the circumferential direction of the water receiving part; and/or

The water draining part comprises a plurality of water draining grooves, the water draining grooves are arranged along the circumferential interval of the water receiving part, and the water draining grooves are groove structures formed by the edge of the water receiving tray sinking towards the water receiving part.

14. A water receiving device as claimed in claim 3, wherein the centre frame comprises:

the frame body is arranged around the periphery of the water receiving tray, and part of the flow guide part is arranged on the frame body;

and the reinforcing structure is connected with the frame body.

15. A heat exchange apparatus, comprising:

water receiving device according to any one of claims 1 to 14.

16. The heat exchange device of claim 15,

the heat exchanger is arranged on the support component, and the water receiving part of the water receiving tray is communicated with the heat exchanger.

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