CN220653129U - Embedded heat abstractor of condenser - Google Patents

Abstract

The utility model discloses an embedded heat dissipation device of a condenser, wherein the condenser is connected with a heat dissipation shell, the heat dissipation shell is connected with a heat dissipation assembly, the heat dissipation assembly comprises an impeller piece arranged in the heat dissipation shell, the impeller piece comprises a concave part, a mounting sink corresponding to the concave part is arranged on the heat dissipation shell, and the heat dissipation assembly comprises a driving piece connected to the mounting sink. The utility model provides an embedded heat dissipation device of a condenser, which partially overlaps a driving piece and an impeller piece in the axial direction to form an embedded structure, thereby reducing the axial width of the whole heat dissipation device, saving the installation space and being beneficial to the integrated installation of the condenser.

Description

Embedded heat abstractor of condenser

Technical Field

The utility model relates to the technical field of condensers, in particular to an embedded heat dissipation device of a condenser.

Background

The condenser is a heat exchange device, which realizes cooling by transferring heat from one medium to another medium, and as the requirements of various indexes in modern industries are gradually increased, the condenser is used as a core component of a refrigerating device in various aspects, and has important roles in improving working environment, cooling equipment, separating mixture and the like, including but not limited to the fields of air conditioning refrigerating systems, power plants, food processing and the like.

For example, publication number "CN207635518U", discloses "an elevator air conditioner employing a composite cooling condenser", comprising a housing including a top cover, a front panel, a rear panel, a left side plate and a right side plate, the bottom of the housing being fixedly connected with a chassis; a first vertical partition plate and a second vertical partition plate are sequentially arranged on the chassis from the front to the back; the novel air conditioner is characterized in that a condenser assembly is arranged between the rear panel and the first partition board, a compressor is arranged between the first partition board and the second partition board, an evaporator assembly is arranged between the second partition board and the front panel, and an air supply device communicated with the evaporator assembly is arranged on the rear panel. However, in practical application, such a manner of directly connecting the impeller through the driving member may cause a large axial width of the entire heat dissipating device, thereby increasing the installation volume, and being unfavorable for the integrated installation of the condenser.

Disclosure of Invention

Aiming at the problem that the prior art mentioned in the background art has large installation space occupied by the heat dissipating device, the utility model provides the embedded heat dissipating device of the condenser, which partially overlaps the driving piece and the impeller piece in the axial direction to form an embedded structure, thereby reducing the axial width of the whole heat dissipating device, saving the installation space and being beneficial to the integrated installation of the condenser.

In order to achieve the above purpose, the present utility model adopts the following technical scheme.

The utility model provides an embedded heat abstractor of condenser, the condenser is connected with the heat dissipation casing, the heat dissipation casing is connected with the radiator unit, the radiator unit is including setting up the inside impeller spare at the heat dissipation casing, the impeller spare is including the depressed part, be provided with the installation heavy groove that corresponds with the depressed part on the heat dissipation casing, the radiator unit is including connecting the driving piece on the heavy groove of installation. The impeller is provided with the concave part, the heat dissipation shell is provided with the installation sinking groove, the concave part is correspondingly arranged with the installation sinking groove, so that a concave area is formed outside the heat dissipation shell, the driving part is connected to the installation sinking groove, namely, the driving part is partially positioned in the concave area, the driving part and the impeller are partially overlapped in the axial direction of the impeller, the width in the axial direction is saved, the whole volume of the condenser is smaller, the space utilization rate of the device integrated with the condenser is improved, and the driving part is generally a motor.

Preferably, the installation sink is provided with a circulation opening, and the circulation opening is communicated with the inside and the outside of the heat dissipation shell. Be provided with the circulation opening on the installation heavy groove, communicate the inside and the outside of heat dissipation casing through the circulation opening, consequently outside air has formed the air current on the circulation opening, consequently at the in-process of heat abstractor work, can dispel the heat to the driving piece in step, avoid the driving piece to produce too much heat accumulation in the course of the work.

Preferably, the bottom of the installation sink is provided with a connection opening, through which the drive element is connected to the impeller element. The driving piece passes the connecting opening and is connected with the impeller piece to can drive the impeller piece and rotate, and the setting of connecting opening can make the inside circulation of air of heat dissipation casing drive the circulation of heat on the driving piece, and condenser and driving piece set up respectively in the both sides of heat dissipation casing, and the homoenergetic is passed under the heat dissipation that the heat dissipation air current produced alone, and the furthest has utilized the radiating effect of inside production heat dissipation air current.

Preferably, the connecting opening is connected with a positioning plate, the driving piece comprises a fixing plate, the fixing plate is abutted on the positioning plate, and a circulation opening is reserved between the connecting opening and the fixing plate. The locating plate that sets up on the connection opening and fixed plate butt guarantee the fixed of driving piece, and the size on the region that does not set up the locating plate on the connection opening is unchangeable, consequently leaves certain clearance between the fixed plate, and this clearance just is the circulation opening, through reserving the circulation opening on the connection opening, can avoid carrying out the opening to other regions in the installation heavy groove, has improved the connection stability of driving piece.

Preferably, the impeller member includes a blade portion, the recess portion includes an intermediate plate, a plurality of partition plates are connected to the intermediate plate, each partition plate is connected to the blade portion, and a circulation gap is provided between each partition plate. The intermediate plate is connected with the blade part through the intermediate plate, and meanwhile, due to the circulation gaps between the intermediate plates, air flow can flow through the intermediate plate, so that heat on the driving piece is taken away, and the whole weight of the impeller piece can be reduced.

Preferably, each of the partition plates is arc-shaped. The division board sets up to the arc, can improve impeller spare stability in the operation in-process, improves the resistance, keeps pivoted equilibrium to increase and the clearance between the driving piece, guarantee that the air current can stably pass through.

Preferably, a plurality of limiting grooves are formed in the side wall of the installation sinking groove, a plurality of limiting connecting plates corresponding to the limiting grooves are arranged on the driving piece, and the limiting grooves are connected with the limiting connecting plates in a clamping mode. The spacing recess is connected with spacing connecting plate, can fix a position the constraint to the driving piece in the installation to improve installation effectiveness, guarantee that the mounted position of driving piece is accurate, and can produce the skew owing to the vibration of driving piece in the course of the work, can lead to the connection stability between bolt and the bolt hole to be destroyed constantly through bolted connection only, leads to the production of connecting looseness and abnormal sound, consequently is connected through the block between spacing recess and the spacing connecting plate, further keeps stability.

Preferably, the limit grooves are annularly and uniformly distributed on the side wall of the installation sink groove. The limiting grooves are uniformly distributed in an annular mode, so that the vibration effect of the driving piece is more dispersed and uniformly applied to the installation sink, stability of the driving piece is guaranteed, and stress uniformity is improved.

The beneficial effects of the utility model are as follows:

(1) The driving piece is arranged in the installation sinking groove, and an overlapping part is generated between the driving piece and the impeller piece in the axial direction, so that the axial span is saved, and the space utilization rate of the equipment is improved;

(2) The circulating openings are formed in the mounting sink, so that heat dissipation airflow generated by rotation of the impeller can dissipate heat of the driving piece, heat dissipation efficiency is improved, heat accumulation generated by operation of the driving piece is reduced, and airflow can fully flow through the driving piece through the arrangement of the middle plate and the partition plate, so that heat dissipation efficiency is guaranteed;

(3) The limiting groove is formed in the installation sinking groove, so that the stability of the driving piece can be improved, and the driving piece can be guided and positioned in the installation process.

Drawings

Fig. 1 is an exploded view of the present utility model.

Fig. 2 is a cross-sectional isometric view of the present utility model.

Fig. 3 is a front view of the heat dissipating housing of fig. 1.

Fig. 4 is an isometric view of the impeller member of fig. 1.

Fig. 5 is an isometric view of the driver of fig. 1.

Fig. 6 is a front view of the drive member coupled to the heat dissipating housing of the present utility model.

In the figure: the condenser comprises a condenser body 1, a heat dissipation shell body 2, a mounting sink groove 21, a 211 limiting groove, a 22 circulation opening, a 23 connection opening, a 24 positioning plate, a 3 heat dissipation assembly, a 31 impeller member, a 311 concave part, a 312 blade part, a 313 middle plate, a 314 spacing plate, a 32 driving member, a 321 fixing plate and a 322 limiting connection plate.

Detailed Description

The utility model is further described below with reference to the drawings and specific embodiments.

Example 1:

as shown in fig. 1, 2 and 4, an embedded heat dissipation device of a condenser is provided, the condenser 1 is connected with a heat dissipation housing 2, the heat dissipation housing 2 is connected with a heat dissipation assembly 3, the heat dissipation assembly 3 comprises an impeller member 31 arranged inside the heat dissipation housing 2, the impeller member 31 comprises a concave portion 311, a mounting sink 21 corresponding to the concave portion 311 is arranged on the heat dissipation housing 2, and the heat dissipation assembly 3 comprises a driving member 32 connected to the mounting sink 21.

The impeller member 31 is provided with the concave portion 311, and the heat dissipation housing 2 is provided with the installation sink 21, the concave portion 311 is correspondingly arranged with the installation sink 21, thereby forming a concave area outside the heat dissipation housing 2, and the driving member 32 is connected to the installation sink 21, that is, the driving member 32 is partially positioned inside the concave area, and the driving member 32 and the impeller member 31 are partially overlapped in the axial direction of the impeller member 31, so that the width in the axial direction is saved, the whole volume of the condenser 1 is smaller, and the space utilization of the device integrated with the condenser 1 is improved, and the driving member 32 is a motor in the embodiment.

As shown in fig. 3, 4, 5 and 6, a connecting opening 23 is formed at the bottom of the installation sink 21, a driving member 32 passes through the connecting opening 23 and is connected with the impeller member 31, a positioning plate 24 is connected to the connecting opening 23, the driving member 32 includes a fixing plate 321, the fixing plate 321 is abutted to the positioning plate 24, a circulation opening 22 is reserved between the connecting opening 23 and the fixing plate 321, and the circulation opening 22 is communicated with the inside and the outside of the heat dissipation shell 2.

The driving piece 32 passes through the connecting opening 23 and is connected with the impeller piece 31, thereby can drive impeller piece 31 to rotate, and the setting of connecting opening 23 can make the inside air circulation of heat dissipation casing 2 drive the heat circulation on the driving piece 32, condenser 1 and driving piece 32 set up respectively in the both sides of heat dissipation casing 2, both can receive the heat dissipation that the heat dissipation air current produced alone down, the furthest has utilized inside radiating effect that produces the heat dissipation air current, the locating plate 24 that sets up on the connecting opening 23 and fixed plate 321 butt, guarantee the fixed of driving piece 32, and the size is unchangeable on the connecting opening 23 in the region of not setting up the locating plate 24, consequently leave certain clearance with fixed plate 321, this clearance just is circulation opening 22, through reserving circulation opening 22 on connecting opening 23, can avoid carrying out the opening to the rest region in the installation heavy groove 21, the connection stability of driving piece 32 has been improved, be provided with circulation opening 22 on the installation heavy groove 21, through the inside and outside of circulation opening 22 intercommunication casing 2, consequently outside air has formed the air current on circulation opening 22, consequently, the size is unchangeable on the area on the connecting opening 23, consequently, the size is unchanged, this clearance is left with fixed plate 321, this clearance is just circulation opening 32, can be guaranteed to the heat in the drive piece in the heat dissipation process of the heat dissipation of the driving piece of the synchronous process of the driving piece.

As shown in fig. 4, the impeller 31 includes a vane 312, the recess 311 includes a middle plate 313, a plurality of evenly distributed partition plates 314 are connected to the middle plate 313, each partition plate 314 is connected to the vane 312, a flow gap is provided between each partition plate 314, and each partition plate 314 is arc-shaped.

The intermediate plate 313 is connected with the blade 312 through the intermediate plate 314, and meanwhile, the intermediate plate 314 has a circulation gap, so that air flow can flow through, heat on the driving piece 32 is taken away, the whole weight of the impeller piece 31 can be lightened, the intermediate plate 314 is arranged into an arc shape, the stability of the impeller piece 31 in the running process can be improved, the resistance is improved, the balance of rotation is kept, the gap between the intermediate plate 314 and the driving piece 32 is increased, and the air flow can pass stably.

As shown in fig. 3 and 6, a plurality of limit grooves 211 are formed on the side wall of the installation sink 21, a plurality of limit connection plates 322 corresponding to the limit grooves 211 are arranged on the driving piece 32, and the limit grooves 211 are connected with the limit connection plates 322 in a clamping manner. The limit grooves 211 are annularly and uniformly distributed on the side wall of the installation sink 21.

The spacing recess 211 is connected with spacing connecting plate 322, can fix a position the constraint to driving piece 32 in the installation, thereby improve installation effectiveness, guarantee that the mounted position of driving piece 32 is accurate, and because the vibration of driving piece 32 can produce the skew in the course of the work, can lead to the connection stability between bolt and the bolt hole to be destroyed constantly through bolted connection, lead to the production of connecting not hard up and abnormal sound, consequently, be connected through the block between spacing recess 211 and the spacing connecting plate 322, further remain stability, spacing recess 211 can make the vibrations effect of driving piece 32 more dispersed evenly act on the heavy groove 21 of installation through annular equipartition, guarantee the stability of driving piece 32, improve the atress homogeneity.

The assembly process of the embedded heat dissipation device of the condenser in this embodiment is as follows: in this embodiment, the heat dissipation housing 2 is provided with a mounting sink 21, in which the mounting sink 21 is recessed toward the condenser 1, the impeller 31 and the driving piece 32 in the heat dissipation assembly 3 are respectively disposed at the inner side and the outer side of the mounting sink 21, the impeller 31 is provided with a recess 311 at a position corresponding to the mounting sink 21, the recess 311 is composed of a middle plate 313 and a plurality of partition plates 314, the middle plate 313 is connected with the output shaft on the driving piece 32, the mounting sink 21 is provided with a connection opening 23, the connection opening 23 is used for connecting the driving piece 32 with the impeller 31, the connection opening 23 is further provided with a positioning plate 24 and a circulation opening 22 for positioning the driving piece 32, and heat dissipation airflow is formed by air intake through the circulation opening 22, and meanwhile, the driving piece 32 is cooled, so that heat generated on the driving piece 32 is taken away, and when the driving piece 32 is mounted, the upper limit connection plate 322 and the limit groove 211 are correspondingly connected, thereby positioning the driving piece 32 is ensured, and the stability of the driving piece 32 in the working process can be avoided from deviating relative to the mounting sink 21.

Claims (8)

1. The utility model provides an embedded heat abstractor of condenser, its characterized in that, condenser (1) are connected with heat dissipation casing (2), heat dissipation casing (2) are connected with radiator unit (3), radiator unit (3) are including setting up impeller spare (31) inside heat dissipation casing (2), impeller spare (31) are including depressed part (311), be provided with on heat dissipation casing (2) with the installation heavy groove (21) that depressed part (311) correspond, radiator unit (3) are including connecting driving piece (32) on installation heavy groove (21).

2. An in-line radiator of a condenser according to claim 1, wherein the installation sink (21) is provided with a flow opening (22), and the flow opening (22) communicates between the inside and the outside of the radiator housing (2).

3. An in-line radiator of a condenser according to claim 1, wherein the bottom of the installation sink (21) is provided with a connection opening (23), and the driving member (32) is connected to the impeller member (31) through the connection opening (23).

4. An in-line heat sink for a condenser according to claim 3, wherein the connection opening (23) is connected with a positioning plate (24), the driving member (32) comprises a fixing plate (321), the fixing plate (321) is abutted against the positioning plate (24), and a circulation opening (22) is left between the connection opening (23) and the fixing plate (321).

5. An in-line radiator for a condenser according to any one of claims 1-4, wherein the impeller member (31) includes a vane portion (312), the recess portion (311) includes an intermediate plate (313), a plurality of partition plates (314) are connected to the intermediate plate (313), each partition plate (314) is connected to the vane portion (312), and a circulation gap is provided between each partition plate (314).

6. An in-line radiator for a condenser according to claim 5, wherein each of the partition plates (314) has an arc shape.

7. The embedded heat dissipating device of a condenser according to any one of claims 1-4, wherein a plurality of limit grooves (211) are provided on a side wall of the installation sink (21), a plurality of limit connection plates (322) corresponding to the limit grooves (211) are provided on the driving member (32), and the limit grooves (211) are connected with the limit connection plates (322) in a clamping manner.

8. An in-line radiator of a condenser according to claim 7, wherein the limit grooves (211) are uniformly distributed on the side wall of the installation sink (21) in a ring shape.