CN213747068U - Support structure, pipeline assembly and outdoor unit - Google Patents

Abstract

An embodiment of the utility model provides a supporting structure, pipeline subassembly and off-premises station, wherein, supporting structure for have the air conditioner on chassis, supporting structure includes: a stent body; the clamping part is arranged on the bracket body; the connecting part is arranged on at least one side of the support body, and the support structure is connected to the chassis through the connecting part. According to the technical scheme of the utility model, the device with the difference links to each other with the chassis of air conditioner under the holistic effect of bearing structure, and the mode that adopts the joint links to each other, when dismantling the device, can effectively reduce the maintenance degree of difficulty to improve the dismantlement efficiency of device.

Description

Support structure, pipeline assembly and outdoor unit

The present application claims priority of chinese patent application filed on 12/08/2020 of chinese patent application entitled "support structure, duct assembly and outdoor unit" under the application number "202022921350.5", the entire contents of which are incorporated herein by reference.

Technical Field

The utility model relates to a connection structure technical field particularly, relates to a supporting structure, a pipeline subassembly and an outdoor machine.

Background

When the air conditioner is used for heating in winter, a large amount of condensed water is often generated in the outdoor unit, and the outdoor environment temperature in winter is low, so that the phenomenon of icing can occur when the condensed water cannot be discharged outwards.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

In view of this, a first aspect of the embodiments of the present invention provides a support structure.

A second aspect of the embodiments provides a pipe assembly.

The utility model discloses the third aspect of embodiment provides an outdoor machine.

In order to achieve the above object, an embodiment of the first aspect of the present invention provides a support structure for an air conditioner having a chassis, the support structure including: a stent body; the clamping part is arranged on the bracket body; the connecting part is arranged on at least one side of the support body, and the support structure is connected to the chassis through the connecting part.

According to the utility model discloses a bearing structure for air conditioner that embodiment of the first aspect provided, the air conditioner includes the chassis, bearing structure can be connected to on the chassis, so that the stability of being connected between reinforcing pipeline and the chassis, specifically, bearing structure is including the support body and locate joint portion and connecting portion on the support body, wherein, connecting portion are used for being connected to the support body on the chassis, joint portion then can be according to the demand, with the device of difference under the holistic effect of bearing structure with the chassis of air conditioner link to each other, the mode of adoption joint links to each other, when dismantling the device, can effectively reduce the maintenance degree of difficulty, in order to improve the dismantlement efficiency of device.

Particularly, when being used for the air conditioner with supporting structure, the air conditioner operation often can produce a large amount of comdenstions water, especially under the lower condition of some ambient temperature, the comdenstion water can't normally be discharged, can lead to inside freezing, can realize fixing heating rod card income joint portion this moment, improvement dismantlement efficiency that can be very big when needs are changed.

The material of the clamping portion may be selected from corrosion-resistant materials with certain elasticity, including but not limited to stainless steel.

Wherein, the position that connecting portion set up can be according to actual joint strength demand to and the space demand of reality confirms, and one side of support body can be located to connecting portion, can also set up the multilateral at the support body.

Additionally, the utility model provides an among the above-mentioned scheme supporting structure can also have following additional technical characterstic:

among the above-mentioned technical scheme, connecting portion include: one end of the connecting plate is connected with the support body, a connecting hole matched with the chassis is formed in the connecting plate, and height difference exists between the plane where the connecting hole is located and the support body.

In this technical scheme, connecting portion include the connecting plate that links to each other with the support body, and through set up the connecting hole on the connecting plate, the accessible connecting hole is fixed the connecting plate on the chassis to realize being connected of supporting structure and chassis.

It should explain, the planar height in connecting hole place is different with the height of support body, there is certain difference in height also between connecting hole place plane and the support body, make after realizing the cooperation through connecting hole and chassis, the support body can be located the top or the below of connecting hole, the long-term bubble water corrosion in fixed bolster bottom has been avoided, in addition, still be convenient for according to the nimble selection of chassis shape of difference or the different position that sets up of connecting hole, and because joint portion sets up on the support body again, and then be convenient for when being connected to joint portion with the equipment, can make the equipment can dodge the structure of chassis inside, also can be through the utilization ratio that improves chassis inner space simultaneously.

The connecting hole can be arranged at any position on the connecting plate, and can be matched with the chassis to realize the fixation of the connecting plate, for example, the connecting hole can be arranged on the part parallel to the bottom wall of the chassis in the connecting plate, and also can be arranged on the part parallel to the side wall of the chassis in the connecting plate.

Among the above-mentioned technical scheme, connecting portion include: the connecting clamping seat comprises two connecting clamps which are respectively arranged on two opposite sides of the bracket body, one end of each connecting clamp is connected with the bracket body, and the other end of each connecting clamp is provided with a buckle sunken towards the other connecting clamp.

In this technical scheme, connecting portion are for connecting the cassette, specifically, including two connect the card, and the relative both sides of support body are located respectively to two connect the card, are equipped with the buckle on every connect the card, and the sunken orientation of buckle is for towards another connect the card, through all setting up the buckle on two connect the card, accessible buckle and chassis cooperation, in short, can stretch into the buckle in the opening on the chassis to the realization is connected cassette and chassis.

Generally, after the buckle is mounted on the chassis, the buckle has a low possibility of failure and damage due to certain reliability, but if damage, such as breakage or the like, occurs, the buckle can be removed from the opening of the chassis after the distance between the two connecting cards is reduced by applying external force to the buckle in opposite directions.

The two connecting cards are arranged on two opposite sides of the bracket body, namely the angle of the two connecting cards relative to the geometric center of the bracket body can be 180 degrees, or when the bracket body is symmetrical, the two connecting cards are also mutually symmetrical.

In the technical scheme, the bracket body is in a polygonal plate shape, and the at least one connecting part and the clamping part are arranged on the same side of the bracket body; or at least one connecting part and the clamping part are arranged on different sides of the bracket body.

In this technical scheme, the shape of support body can be platelike, and the face of support body can be the polygon, can be according to the nimble selection of the demand in processing ease and place space, on this basis, connecting portion and joint portion setting position on the support body can be the same, also can be different, specifically, one or more connecting portion can set up in the homonymy of joint portion, that is, be provided with joint portion and connecting portion simultaneously on one side of support body, can also, one or more connecting portion set up in the different sides of joint portion, that is, be provided with joint portion and connecting portion respectively on the both sides of support body.

Further, when connecting portion and joint portion set up at the homonymy, can be for setting up the upside or the downside at the support body simultaneously, can realize simultaneously being connected with the chassis at the homonymy of support body this moment to and the fixed of heating pipe. It can be understood that when the clamping portion and the connecting portion are arranged on the same side, the overall size of the support structure can be effectively reduced, and the support structure is convenient to use in a structure with limited space.

And when connecting portion and joint portion set up when the different sides, one of them locates the downside promptly, and another locates the upside, generally with connecting portion setting at the downside, joint portion sets up at the upside to be convenient for connect on the one hand, on the other hand also can restrict and have certain distance between the object that joint portion connects and the chassis, especially when having the comdenstion water on the chassis, can reduce the corrosive action of comdenstion water to the object that joint portion connects.

Of course, the upper and lower sides of the above example are only one case, and there are many other possibilities, such as left and right sides, depending on the specific location where the support structure is attached.

Among the above-mentioned technical scheme, joint portion specifically includes: two joint spare, two joint spare link to each other with the relative both sides of support body respectively, and every joint spare is extended to the direction of keeping away from connecting portion by the support body.

In this technical scheme, joint portion includes two joint spares, the one end of joint spare links to each other with the support body, the other end can be towards the direction extension of keeping away from connecting portion, can understand, connecting portion are used for linking to each other with the chassis, and joint portion then is used for fixing some equipment, the direction of extension through injecing joint spare is for keeping away from connecting portion's direction, can make equipment and joint portion cooperate in the time can and the chassis have certain clearance between the wall, on the one hand convenient to detach operation, on the other hand also does benefit to the overall arrangement design to the chassis inner space.

Further, the relative both sides of support body are located to two joint spare to when fixing the equipment to joint portion, the clearance between two joint spares of accessible stretches into and blocks under the effect of two joint spares that set up relatively.

Among the above-mentioned technical scheme, the joint spare includes: one end of the connecting section is connected with one side of the bracket body; one end of the matching section is connected with the other end of the connecting section; the one end of direction section links to each other with the other end of cooperation section, and wherein, the minimum interval between the cooperation section of two joint spare is less than or equal to the minimum interval of direction section.

In this technical scheme, joint spare is including the linkage segment that connects gradually, cooperation section and direction section, and wherein, the linkage segment is used for linking to each other with one side of support body, and when installing on the support body through injecing two relative joint spares, the minimum interval between the cooperation section is less than or equal to the minimum interval between the direction section, through setting up the less cooperation section of interval, on the basis of going into joint portion with the equipment card, can restraint under the effect of two cooperation sections and deviate from joint portion.

Furthermore, through setting up the direction section, can provide the direction for equipment card is gone into joint portion.

The connecting section and the matching section can be in a straight plate shape or in a shape matched with the shape of the equipment, for example, when the equipment is in a tubular shape, the connecting section and the matching section can be in a curved plate shape, and the radian of the connecting section and the radian of the matching section can be the same as that of the equipment.

In the above technical solution, further comprising: and the convex ribs are arranged on the connecting sections.

In this technical scheme, through set up protruding muscle on the linkage segment, can greatly improve the joint strength on being connected to the support body with joint spare, especially be certain angle to joint spare and support body, the setting of protruding muscle can effectively improve joint strength.

Further, the convex rib can be arranged at one end of the connecting section connected with the bracket body.

Among the above-mentioned technical scheme, support body, joint portion and connecting portion integrated into one piece.

In this technical scheme, through with support body, joint portion and connecting portion integrated into one piece, on the one hand can save material, on the other hand, still can strengthen supporting structure's bulk strength.

Among the above-mentioned technical scheme, the support body extends along first direction, and the downward bending type of at least one end of support body becomes connecting portion, and joint portion is bent upward by the support body and is formed, and the support body still includes: the turn-ups is located the both sides of first direction on the support body, and the turn-ups is extended to the direction of joint portion by the support body.

In this technical scheme, extend along the first direction through injecing the support body, on the whole integrated into one piece's of supporting structure basis, the one end or the both ends of support body buckle downwards and can form connecting portion, and joint portion then upwards buckles and forms, through set up the turn-ups in the both sides of support body, by the direction extension of support body to joint portion, also upwards extend and form the turn-ups, multiplicable intensity.

Further, two sides of the bracket body are two sides along the extending direction, namely two sides along the first direction.

In the above technical scheme, on the terminal surface of joint spare, the projection of cooperation section is the arc form, and the projection of two cooperation sections is the same circle, and wherein, the maximum height between turn-ups and the support body is less than the minimum height between the virtual circle that two cooperation sections formed and the support body.

In the technical scheme, the heights of the flanging and the matching section are limited, on the basis that one end of the flanging and one end of the connecting section are connected with the support body, the maximum height of the flanging is lower than the minimum height of a virtual circle formed by the matching section, specifically, the matching section is in an arc plate shape, the projection of the matching section on the end surface of each clamping piece is an arc line, on the basis that the number of the clamping pieces is two, the projection of the matching section on the end surface of each clamping piece can form a virtual circle, and the minimum height of the virtual circle is limited to be larger than the maximum height of the flanging, so that when the clamping parts are matched with the heating pipe, the heating pipe is positioned at the position of the virtual circle, the height of the heating pipe is higher, the interference generated between the heating pipe and the flanging is reduced, and it can be understood that a pipeline can generate certain vibration in the operation process of the air conditioner, if the heating pipe is contacted with the flanging, wear of the lines may occur due to some high frequency vibrations and, more seriously, leakage may occur. In conclusion, the height of the flanging is limited to be smaller than that of the connecting section, and the use safety of the product can be greatly improved.

In the above technical scheme, be equipped with the breach on the support body, joint portion upwards extends by the limit portion of breach and forms, and wherein, the shape of breach and the shape looks adaptation of joint portion.

In this technical scheme, through set up the breach on integrated into one piece's supporting structure, concretely, the breach sets up on the support body, when forming joint portion, can be directly upwards extend by the limit portion of breach, can understand, because the shape of breach and the shape looks adaptation of joint portion, add man-hour, can be directly cut several edges to the breach on integrative supporting structure earlier, after the cutting, upwards buckle partial support body around the limit portion of breach again, can form joint portion, very big saving material, and the production cost is reduced, also reduce the production of waste material.

An embodiment of the second aspect of the present invention provides a pipeline assembly, including: heating a tube; in any of the foregoing support structures provided in the first aspect of the present disclosure, the heating tube is connected to the support structure through the clamping portion of the support structure.

According to the utility model discloses the pipeline subassembly that the embodiment of second aspect provided, including heating pipe and supporting structure, through going into the heating pipe card in the joint portion to realize linking to each other between heating pipe and the supporting structure, need explain ground, the heating pipe can be directly from last joint portion that down inserts the supporting structure when the installation, and the joint portion of supporting structure can be opened outward, inserts back upper end chucking heating pipe, and when needs maintenance change, then can up directly pull out the supporting structure.

Furthermore, because the pipeline subassembly includes the supporting structure of above-mentioned first aspect, therefore the utility model discloses a pipeline subassembly has the supporting structure's of above-mentioned arbitrary embodiment whole beneficial effect, no longer explains herein.

In the above technical scheme, the shape of the heating pipe is matched with the shape of the matching sections of the two clamping pieces in the clamping part.

In this technical scheme, through the shape looks adaptation of the shape of injecing the heating pipe and cooperation section, also when going into joint portion with the heating pipe card, can injecing in the cooperation section under the effect of joint spare, because two shape looks adaptations, the joint spare can realize the restriction of face contact to the heating pipe to improve firm degree.

An embodiment of the utility model provides an outdoor unit, include: the chassis is provided with a boss, and the boss is provided with a matching hole; the pipeline assembly in the embodiment of the second aspect is arranged in the chassis, and the support structure in the pipeline assembly is detachably connected with the boss through the connecting part; and the connecting piece penetrates through the matching hole and the connecting hole of the support structure so as to realize the connection of the chassis and the support structure.

Through the utility model discloses an embodiment of off-premises station, including chassis and pipeline subassembly, wherein, because the off-premises station includes the pipeline subassembly of the embodiment of above-mentioned second aspect, therefore have the whole beneficial effect of the pipeline subassembly of above-mentioned arbitrary embodiment, no longer describe herein.

Wherein, the pipeline subassembly includes heating pipe and supporting structure, and the supporting structure is connected to on the boss through connecting portion, through going into heating pipe card joint portion to realize linking to each other between heating pipe and the supporting structure, need explain ground, the heating pipe when the installation, can be directly from last joint portion that down inserts the supporting structure, and the joint portion of supporting structure can be opened outwards, inserts the back upper end chucking heating pipe of kick-backing, and when needs maintenance change, then can up directly pull out the supporting structure.

In addition, for the convenience of matching, the boss is provided with a matching hole, and the connecting piece penetrates through the matching hole and the connecting hole of the support structure, so that the support structure can be fixed on the chassis, namely the chassis is connected with the support structure.

Wherein, the mating holes that set up on the chassis can be the screw hole, also can be the through-hole. The connecting member may be a bolt or a screw.

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

Drawings

Fig. 1 shows a schematic structural view of a support structure according to an embodiment of the invention;

fig. 2 shows a schematic structural view of a pipeline assembly according to an embodiment of the present invention;

fig. 3 shows a schematic structural view of a support structure according to an embodiment of the invention;

fig. 4 shows a schematic structural view of a support structure according to an embodiment of the invention;

fig. 5 shows a schematic structural view of a support structure according to an embodiment of the invention;

fig. 6 shows a schematic structural view of a pipeline assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural view illustrating an outdoor unit according to an embodiment of the present invention;

fig. 8 is an enlarged schematic view of a partial structure of an outdoor unit according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 8 is:

100: a scaffold structure; 102: a stent body; 1022: flanging; 1023: a notch; 104: a clamping part; 1042: a clamping piece; 1043: a connecting section; 1044: a mating segment; 1045: a guide section; 106: a connecting portion; 1062: a connecting plate; 1064: connecting holes; 1066: connecting the card holder; 1068: buckling; 200: a tubing assembly; 202: heating a tube; 300: an outdoor unit; 302: a chassis; 3022: a mating hole; 3024: a connecting member; 3026: and (4) a boss.

Detailed Description

In order to make the above objects, features and advantages of the embodiments of the present invention more clearly understood, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings and detailed description. 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 application, however, embodiments of the present invention may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

Some embodiments according to the invention are described below with reference to fig. 1 to 8.

Example one

As shown in fig. 1, the support structure 100 provided in this embodiment can be used to fix a heating pipe 202 of an outdoor unit 300 in an air conditioner, and the support structure 100 includes a support body 102, and a clamping portion 104 and a connecting portion 106 disposed on the support body 102, where the connecting portion 106 is used to connect the support body 102 to a chassis 302, and the clamping portion 104 can connect the heating pipe 202 to the chassis 302 of the air conditioner under the overall effect of the support structure 100 according to requirements, and is connected in a clamping manner.

In this embodiment, when being used for the air conditioner with mounting structure 100, the air conditioner operation often can produce a large amount of comdenstions water, especially under the lower circumstances of some ambient temperature, the comdenstion water can't normally be discharged, can lead to inside freezing, can block the heating rod into joint portion 104 this moment and realize fixing, improvement dismantlement efficiency that can be very big when needs are changed.

Wherein, the shape of support body 102 can be platelike, and the face of support body 102 can be the polygon, can be according to the nimble selection of the demand in processing ease and place space, on this basis, connecting portion 106 and joint portion 104 setting position on support body 102 can be the same, also can be different, specifically, one or more connecting portion 106 can set up in the homonymy of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 simultaneously on one side of support body 102, can also ground, one or more connecting portion 106 set up in the different side of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 respectively on the both sides of support body 102.

In a specific embodiment, when the connecting portion 106 and the fastening portion 104 are disposed on the same side, they may be disposed on the upper side or the lower side of the bracket body 102, and at this time, the connection with the bottom plate 302 and the fixing of the heating pipe can be simultaneously achieved on the same side of the bracket body 102. It can be understood that when the clamping portion 104 and the connecting portion 106 are disposed on the same side, the overall size of the supporting structure 100 can be effectively reduced, and the supporting structure can be conveniently applied to a structure with limited space.

In another specific embodiment, the connecting portion 106 and the clamping portion 104 are disposed on different sides, i.e. one of them is disposed on the lower side, and the other is disposed on the upper side, so that the connecting portion 106 is generally disposed on the lower side, and the clamping portion 104 is disposed on the upper side, which is convenient for connection, and on the other hand, the existence of a certain distance between the object connected with the clamping portion 104 and the chassis 302 can be limited, and especially when condensed water exists on the chassis 302, the corrosion effect of the condensed water on the object connected with the clamping portion 104 can be reduced.

Of course, the upper and lower sides described in the above embodiments are just one case, and there are many other possibilities, such as left and right sides, depending on the specific location where the bracket structure 100 is attached.

Further, the holder body 102 has a rectangular plate shape.

The material of the clip portion 104 can be selected from corrosion-resistant materials with certain elasticity, including but not limited to stainless steel.

The position of the connecting portion 106 can be determined according to the actual connecting strength requirement and the actual space requirement.

In one embodiment, as shown in FIG. 1, the connecting portions 106 are disposed on both sides of the stent body 102.

In another embodiment, as shown in fig. 6, the connecting portion 106 is disposed on one side of the bracket body 102, when the outdoor unit 300 is installed, the connecting portion 106 on one side can be inserted into the chassis for positioning, and only one screw needs to be screwed for fixing, so that the assembly efficiency is high and the cost is low. Meanwhile, one side is fixed, and the other side can extend to a position close to the heat exchanger, so that the ice melting is more favorable.

Example two

As shown in fig. 2, the support structure 100 provided in this embodiment can be used to fix a heating pipe 202 of an outdoor unit 300 in an air conditioner, and the support structure 100 includes a support body 102, and a clamping portion 104 and a connecting portion 106 which are disposed on the support body 102, where the connecting portion 106 is used to connect the support body 102 to a chassis 302, and the clamping portion 104 can connect the heating pipe 202 to the chassis 302 of the air conditioner under the overall effect of the support structure 100 according to requirements, and connect the heating pipe with the chassis 302 in a clamping manner.

Specifically, the connecting portion 106 includes a connecting plate 1062 for connecting with the bracket body 102, and by providing a connecting hole 1064 on the connecting plate 1062, the connecting plate 1062 can be fixed on the chassis 302 through the connecting hole 1064, so as to connect the bracket structure 100 with the chassis 302.

Further, the connection plate 1062 is L-shaped, one end of the L-shape is connected to the bracket body 102, and the other end is formed with a connection hole 1064.

Wherein, the shape of support body 102 can be platelike, and the face of support body 102 can be the polygon, can be according to the nimble selection of the demand in processing ease and place space, on this basis, connecting portion 106 and joint portion 104 setting position on support body 102 can be the same, also can be different, specifically, one or more connecting portion 106 can set up in the homonymy of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 simultaneously on one side of support body 102, can also ground, one or more connecting portion 106 set up in the different side of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 respectively on the both sides of support body 102.

Further, the holder body 102 has a rectangular plate shape.

It should be noted that, the height of the plane where the connecting hole 1064 is located is different from the height of the bracket body 102, that is, there is a certain height difference between the plane where the connecting hole 1064 is located and the bracket body 102, so that after the connection hole 1064 is matched with the chassis 302, the bracket body 102 may be located above or below the connecting hole 1064, thereby avoiding long-term water soaking corrosion at the bottom of the fixed bracket, in addition, it is convenient to flexibly select according to different shapes of the chassis 302 or different setting positions of the connecting hole 1064, and since the clamping part 104 is arranged on the bracket body 102, it is convenient to make the equipment avoid the structure inside the chassis 302 when the equipment is connected to the clamping part 104, and at the same time, the utilization rate of the internal space of the chassis 302 may be improved.

The position of the connection hole 1064 on the connection plate 1062 may be any position as long as it can be matched with the chassis 302 to fix the connection plate 1062, for example, the connection hole 1064 may be disposed on a portion of the connection plate 1062 parallel to the bottom wall of the chassis 302, or may be disposed on a portion of the connection plate 1062 parallel to the side wall of the chassis 302.

EXAMPLE III

As shown in fig. 4, the present embodiment provides a support structure 100, which can be used to fix a heating pipe 202 of an outdoor unit 300 in an air conditioner, where the support structure 100 includes a support body 102, and a clamping portion 104 and a connecting portion 106 disposed on the support body 102, where the connecting portion 106 is used to connect the support body 102 to a chassis 302, and the clamping portion 104 can connect the heating pipe 202 to the chassis 302 of the air conditioner under the overall effect of the support structure 100 according to requirements, and connect the heating pipe with the chassis 302 in a clamping manner.

Specifically, the connecting portion 106 is a connecting card seat 1066, specifically two connecting cards, the two connecting cards are respectively disposed on two opposite sides of the bracket body 102, each connecting card is provided with a buckle 1068, a recessed direction of the buckle 1068 is toward another connecting card, that is, the buckle 1068 on the connecting card on one side is recessed toward the connecting card on the other side, the two connecting cards are both provided with the buckles 1068, and the buckles 1068 can be matched with the connecting holes 1064 on the chassis 302, in short, the buckles 1068 can be extended into the openings on the chassis 302, so as to connect the connecting card seat 1066 with the chassis 302.

Generally, after the clip 1068 is mounted on the chassis 302, it has a low possibility of failure and damage due to its reliability, but if damage, such as breaking, occurs, it can be removed from the opening of the chassis 302 by applying an external force to the clip 1068 in the opposite direction and reducing the distance between the two connected cards.

Wherein, the shape of support body 102 can be platelike, and the face of support body 102 can be the polygon, can be according to the nimble selection of the demand in processing ease and place space, on this basis, connecting portion 106 and joint portion 104 setting position on support body 102 can be the same, also can be different, specifically, one or more connecting portion 106 can set up in the homonymy of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 simultaneously on one side of support body 102, can also ground, one or more connecting portion 106 set up in the different side of joint portion 104, that is, be provided with joint portion 104 and connecting portion 106 respectively on the both sides of support body 102.

Further, the holder body 102 has a rectangular plate shape.

The two connection cards are disposed at opposite sides of the bracket body 102, that is, the angle between the two connection cards and the geometric center of the bracket body 102 may be 180 °.

In another embodiment, when the bracket body 102 has a symmetrical structure, the two connection cards are also symmetrical to each other.

As shown in fig. 5, the bracket structure 100 is locked into the matching hole 3022 of the boss 3026 mainly by matching the catch 1068 of the connection card with the matching hole 3022.

Example four

As shown in fig. 5, the present embodiment provides a support structure 100, which can be used to fix a heating pipe 202 of an outdoor unit 300 in an air conditioner, where the support structure 100 includes a support body 102, and a clamping portion 104 and a connecting portion 106 disposed on the support body 102, where the connecting portion 106 is used to connect the support body 102 to a chassis 302, and the clamping portion 104 can connect the heating pipe 202 to the chassis 302 of the air conditioner under the overall effect of the support structure 100 according to requirements, and connect the heating pipe with the chassis 302 in a clamping manner.

On the basis of any of the above embodiments, the clamping member 1042 is composed of two clamping members 1042, one end of the clamping member 1042 is connected to the bracket body 102, and the other end of the clamping member 1042 extends toward a direction away from the connecting portion 106, it can be understood that the connecting portion 106 is used for connecting to the chassis 302, and the clamping portion 104 is used for fixing some equipment, and by defining the extending direction of the clamping member 1042 as a direction away from the connecting portion 106, a certain gap can exist between the equipment and the wall surface of the chassis 302 when the equipment is matched with the clamping portion 104, which is convenient for dismounting operation on one hand, and is also beneficial to the layout design of the space in the chassis 302 on the other hand.

Further, two clamping pieces 1042 are arranged at two opposite sides of the bracket body 102, so that when the equipment is fixed to the clamping portion 104, the equipment can extend into the clamping portion through a gap between the two clamping pieces 1042 and can be clamped by the two clamping pieces 1042 arranged oppositely.

Each clamping member 1042 comprises a connecting section 1043, a matching section 1044 and a guiding section 1045 which are connected in sequence, wherein the connecting section 1043 is used for being connected with one side of the bracket body 102, when the two opposite clamping members 1042 are limited to be installed on the bracket body 102, the minimum distance between the matching sections 1044 is smaller than or equal to the minimum distance between the guiding sections 1045, and through the arrangement of the matching sections 1044 with smaller distances, on the basis that the equipment is clamped into the clamping part 104, the equipment can be limited to be separated from the clamping part 104 under the action of the two matching sections 1044.

As shown in fig. 1 to fig. 3, the shape of the matching section 1044 may be a shape adapted to the shape of the heating pipe 202, for example, an arc shape, and the specific radian of the circular arc-shaped matching section 1044 may be flexibly set according to actual requirements and structures. Further, by providing the guiding section 1045, the device can be guided to be clamped into the clamping portion 104.

The connecting section 1043 and the matching section 1044 may be straight plates or may be shapes adapted to the shape of the equipment, for example, when the equipment is tubular, the connecting section 1043 and the matching section 1044 may be curved plates, and the radian of the curved plates may be the same as that of the equipment.

By arranging the convex ribs on the connecting section 1043, the connecting strength of the clamping piece 1042 connected to the bracket body 102 can be greatly improved, and particularly, the connecting strength can be effectively improved by arranging the convex ribs when the clamping piece 1042 and the bracket body 102 are at a certain angle.

Further, a rib may be provided at an end of the connection section 1043 connected to the bracket body 102.

EXAMPLE five

As shown in fig. 6, the present embodiment provides a support structure 100, which can be used to fix a heating pipe 202 of an outdoor unit 300 in an air conditioner, the support structure 100 includes a support body 102, and a clamping portion 104 and a connecting portion 106 disposed on the support body 102, wherein the support body 102, the clamping portion 104, and the connecting portion 106 are integrally formed, the connecting portion 106 is used to connect the support body 102 to a chassis 302, the clamping portion 104 can connect the heating pipe 202 to the chassis 302 of the air conditioner under the overall effect of the support structure 100 according to requirements, and the connection is performed in a clamping manner.

Of course, the flanges 1022 may be disposed on two sides of the bracket body 102, and the bracket body 102 extends toward the fastening portion 104, that is, extends upward to form the flanges 1022, so that the strength can be increased.

In a specific embodiment, as shown in fig. 3, by defining the heights of the turned edge 1022 and the matching section 1044, on the basis that one end of the turned edge 1022 and one end of the connecting section are both connected to the bracket body 102, the maximum height of the turned edge 1022 is lower than the minimum height of the virtual circle formed by the matching section 1044, specifically, the matching section 1044 is in an arc plate shape, the projection of the matching section 1044 on the end surface of the two clamping members 1042 is an arc line, on the basis that the number of the clamping members 1042 is two, the projection of the matching section 1044 on the end surface of the two clamping members 1042 can form a virtual circle, and by defining the minimum height of the virtual circle to be greater than the maximum height of the turned edge 1022, when the clamping members and the heating pipe are matched, the heating pipe will be located at the position of the virtual circle, so that the height of the heating pipe 202 is higher, and the interference generated between the heating pipe 202 and the turned edge 1022 is reduced, it can be understood that, during the operation of the air conditioner, the conduit will vibrate to some extent, and if the heating tube 202 is in contact with the flange 1022, the conduit may be worn due to some high frequency vibration, and more seriously, a leakage may occur. In conclusion, by limiting the height of the flange 1022 to be less than the height of the connecting section 1043, the use safety of the product can be greatly improved.

Further, in one embodiment, by defining the bracket body 102 to extend along the first direction, on the basis that the bracket structure 100 is integrally formed, one end of the bracket body 102 is bent downward to form the connecting portion 106, and the fastening portion 104 is formed by cutting two places at the top of the bracket body 102 and bending upward respectively.

As shown in fig. 1, still set up breach 1023 on integrated into one piece's supporting structure 100, specifically, breach 1023 sets up on support body 102, when forming joint portion 104, can be directly upwards extended by the limit portion of breach 1023, can understand, because the shape of breach 1023 and the shape looks adaptation of joint portion 104, add man-hour, can directly cut several edges of breach 1023 on integrated supporting structure 100 earlier, after the cutting, upwards buckle two joint spare 1042 in joint portion 104 around the limit portion of two breach 1023 respectively, very big saving material, and low in production cost also reduces the production of waste material.

In another embodiment, the connecting portions 106 can be formed by bending the two ends of the bracket body 102 downward.

EXAMPLE six

As shown in fig. 3, the pipe assembly 200 according to the present embodiment includes a heating pipe 202 and a supporting structure 100, and the heating pipe 202 is clamped into a clamping portion 104 to achieve connection between the heating pipe 202 and the supporting structure 100, and it should be noted that the heating pipe 202 can be directly inserted into the clamping portion 104 of the supporting structure 100 from top to bottom when being installed, the clamping portion 104 of the supporting structure 100 can be opened outward, the heating pipe 202 is clamped by rebounding from the upper end after being inserted, and when needing to be repaired and replaced, the supporting structure 100 can be directly pulled out upward.

In addition, since the pipeline assembly 200 includes the bracket structure 100 of the first aspect, the pipeline assembly 200 of the present invention has all the advantages of the bracket structure 100 in any of the above embodiments, and will not be described herein again.

EXAMPLE seven

As shown in fig. 7 and 8, the outdoor unit 300 of the present embodiment includes a chassis 302 having a boss 3026 therein and a duct assembly 200, wherein the boss 3026 prevents long-term water-soaking corrosion of the bottom of the support structure 100. In addition, since the outdoor unit 300 includes the above-mentioned embodiment of the pipe assembly 200, the pipe assembly 200 includes the heating pipe 202 and the bracket structure 100, and the heating pipe 202 is clamped into the clamping portion 104 to achieve the connection between the heating pipe 202 and the bracket structure 100, illustratively, the heating pipe 202 can be directly inserted into the clamping portion 104 of the bracket structure 100 from top to bottom when being installed, the clamping portion 104 of the bracket structure 100 can be opened outwards, the heating pipe 202 is clamped by rebounding from the upper end after being inserted, and when needing to be repaired and replaced, the bracket structure 100 can be directly pulled out upwards.

The boss 3026 is provided with a fitting hole 3022, and the bracket structure 100 can be fixed on the chassis 302 by arranging a connecting member 3024 through the fitting hole 3022 and the connecting hole 1064 of the bracket structure 100, that is, the chassis 302 and the bracket structure 100 are connected with each other.

The mating hole 3022 provided in the chassis 302 may be a threaded hole or a through hole. The connecting member 3024 may be a bolt or a screw.

According to the utility model provides a supporting structure, pipeline subassembly and off-premises station link to each other the device of difference with the chassis of air conditioner under the holistic effect of supporting structure, and the mode that adopts the joint links to each other, when dismantling the device, can effectively reduce the maintenance degree of difficulty to improve the dismantlement efficiency of device.

In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited 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 meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or unit indicated must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present specification, 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 invention. 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 is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (14)

1. A support structure for an air conditioner having a base pan, the support structure comprising:

a stent body;

the clamping part is arranged on the bracket body;

a connecting part arranged on at least one side of the bracket body,

wherein the support structure is connected to the chassis by the connection portion.

2. A support structure according to claim 1, wherein the connecting portion comprises:

one end of the connecting plate is connected with the bracket body, the connecting plate is provided with a connecting hole matched with the chassis,

wherein, there is the difference in height between the plane of connecting hole place and the support body.

3. A support structure according to claim 1, wherein the connecting portion comprises:

the connecting clamping seat comprises two connecting clamps which are respectively arranged on two opposite sides of the bracket body, one end of each connecting clamp is connected with the bracket body, and the other end of each connecting clamp is provided with a buckle which is sunken towards the other connecting clamp.

4. A scaffold structure according to claim 2 or 3, wherein the scaffold body is in the form of a polygonal plate,

the connecting part and the clamping part are arranged on the same side of the bracket body; or

At least one the connecting portion with joint portion locates the different sides of support body.

5. The support structure of claim 1, wherein the clamping portion specifically comprises:

two joint spare, two the joint spare respectively with the relative both sides of support body link to each other, every the joint spare by the support body is to keeping away from the direction extension of connecting portion.

6. The support structure of claim 5, wherein the clip comprises:

one end of the connecting section is connected with one side of the bracket body;

one end of the matching section is connected with the other end of the connecting section;

one end of the guide section is connected with the other end of the matching section,

the minimum distance between the matching sections of the two clamping pieces is smaller than or equal to the minimum distance between the guide sections.

7. The support structure of claim 6, further comprising:

and the convex rib is arranged on the connecting section.

8. The bracket structure according to claim 6, wherein the bracket body, the catching portion, and the connecting portion are integrally formed.

9. The support structure of claim 8, wherein the support body extends along a first direction, at least one end of the support body is bent downwards to form the connecting part, and the clamping part is formed by bending the support body upwards;

the support body still includes:

the flanging is arranged on the two sides of the first direction on the support body, and the flanging extends from the support body to the direction of the clamping portion.

10. The support structure according to claim 9, wherein on the end face of the clip, the projections of the fitting sections are arc-shaped and the projections of the two fitting sections are concentric,

the maximum height between the flanging and the support body is smaller than the minimum height between a virtual circle formed by the two matching sections and the support body.

11. The supporting structure of claim 9, wherein the supporting body is provided with a notch, the clamping portion is formed by extending upwards from the edge of the notch,

the shape of the notch is matched with that of the clamping portion.

12. A manifold assembly, comprising:

heating a tube;

the support structure of any one of claims 1 to 11, wherein the heating tube is connected to the support structure by a snap-fit portion of the support structure.

13. The manifold assembly of claim 12, wherein the heater tube has a shape that is complementary to the shape of the mating segments of the two latches in the latch portion.

14. An outdoor unit, comprising:

the base plate is provided with a boss, and the boss is provided with a matching hole;

the manifold assembly of claim 12 or 13, disposed within the chassis, wherein the support structure of the manifold assembly is removably connected to the chassis by a connector;

and the connecting piece penetrates through the matching hole and the connecting hole of the support structure so as to realize the connection of the chassis and the support structure.

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