Compressor, refrigeration system, and method for manufacturing a compressor
Brazing and spot welding the accumulator to the support base enhance rigidity and joint strength, addressing low support rigidity and vibration issues in compressors.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Patents
- Current Assignee / Owner
- DAIKIN INDUSTRIES LTD
- Filing Date
- 2024-11-18
- Publication Date
- 2026-06-24
AI Technical Summary
The existing method of joining an accumulator to a support base using resistance welding results in low support rigidity and inadequate suppression of vibration.
The accumulator and support base are joined by brazing and spot welding, with spot welds reducing gap variations and brazing increasing support rigidity and joint strength.
This method enhances the support rigidity of the accumulator, suppresses vibration, and improves joint strength between the compressor body and support base.
Smart Images

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Abstract
Description
Technical Field
[0001] The present disclosure relates to a compressor, a refrigeration device, and a method of manufacturing a compressor.
Background Art
[0002] Patent Document 1 discloses a compressor in which an accumulator is joined to a support base by resistance welding a support base (mounting bracket) provided on the side surface of the compressor body and the accumulator.
Prior Art Documents
Patent Documents
[0003]
Patent Document 1
Summary of the Invention
Problems to be Solved by the Invention
[0004] Here, when the accumulator and the support base are joined to each other only by resistance welding with low joining strength, the support rigidity of the accumulator may become low, and there is a possibility that the vibration of the accumulator cannot be suppressed.
[0005] An object of the present disclosure is to increase the support rigidity of the accumulator and suppress the vibration of the accumulator.
Means for Solving the Problems
[0006] A first aspect of the present disclosure includes a compressor body (11), a support base (30) provided on a side surface of the compressor body (11), and an accumulator (20) attached to the support base (30) so as to face a support surface (30a) of the support base (30), and the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by brazing.
[0007] In the first embodiment, the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined together by brazing in a state of surface contact, thereby increasing the support rigidity of the accumulator (20) and suppressing vibration of the accumulator (20).
[0008] A second aspect of the present disclosure is the compressor of the first aspect, wherein the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by one or more spot welds (34) formed by resistance welding.
[0009] In the second embodiment, the spot welds (34) can reduce the variation in the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20), thereby increasing the support rigidity of the accumulator (20).
[0010] A third aspect of the present disclosure is a compressor according to the first or second aspect, wherein the compressor body (11) and the support base (30) are joined to each other by welding.
[0011] In the third embodiment, welding can be used to increase the joint strength between the compressor body (11) and the support base (30).
[0012] A fourth aspect of this disclosure is a refrigeration system comprising a compressor (10) of any one of the first to third aspects.
[0013] In a fourth embodiment, a refrigeration system equipped with a compressor (10) can be provided.
[0014] A fifth aspect of the present disclosure is a method for manufacturing a compressor, comprising the steps of: positioning an accumulator (20) facing a support surface (30a) of a support base (30) provided on the side of a compressor body (11); joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) to each other by one or more spot welds (34) formed by resistance welding; and joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) to each other by brazing.
[0015] In the fifth embodiment, by reducing the variation in the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) using spot welds (34), brazing is performed by impregnating the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) with brazing material (40), thereby suppressing variations in joint strength and increasing the support rigidity of the accumulator (20). [Brief explanation of the drawing]
[0016] [Figure 1] Figure 1 is a refrigerant circuit diagram showing the configuration of the refrigeration system in this embodiment. [Figure 2] Figure 2 is a side view showing the configuration of the compressor. [Figure 3] Figure 3 is a plan cross-sectional view showing the configuration of the compressor. [Figure 4] Figure 4 is a plan cross-sectional view showing the accumulator's opposing surface facing the support surface of the support base. [Figure 5] Figure 5 is a plan cross-sectional view showing the state in which the accumulator has been resistance-welded to the support surface of the support base. [Figure 6] Figure 6 is a plan cross-sectional view showing the state in which the support surface of the support base and the opposing surface of the accumulator are brazed together. [Modes for carrying out the invention]
[0017] As shown in FIG. 1, the compressor (10) is provided in the refrigeration device (1). The refrigeration device (1) has a refrigerant circuit (1a) filled with a refrigerant. The refrigerant circuit (1a) includes a compressor (10), a radiator (3), a decompression mechanism (4), and an evaporator (5). The decompression mechanism (4) is, for example, an expansion valve. The refrigerant circuit (1a) performs a vapor compression refrigeration cycle.
[0018] The refrigeration device (1) is an air conditioner. The air conditioner may be a dedicated cooling machine, a dedicated heating machine, or an air conditioner that switches between cooling and heating. In this case, the air conditioner has a switching mechanism (for example, a four-way switching valve) for switching the circulation direction of the refrigerant. The refrigeration device (1) may also be a water heater, a chiller unit, a cooling device that cools the air inside a storage, etc. The cooling device cools the air inside a refrigerator, a freezer, a container, etc.
[0019] 〈Compressor Body〉 As shown in FIG. 2, the compressor (10) includes a compressor body (11), an accumulator (20), and a support base (30). The support base (30) supports the accumulator (20) on the compressor body (11). The support base (30) is joined to the compressor body (11) and the accumulator (20). The configuration of the support base (30) will be described later.
[0020] The compressor body (11) includes a casing (12), a drive mechanism (50), and a compression mechanism (55). The drive mechanism (50) and the compression mechanism (55) are housed inside the casing (12).
[0021] The casing (12) is formed of a vertically long cylindrical sealed container. A first suction pipe (13) and a second suction pipe (14) penetrate and are fixed to the body portion of the casing (12). A discharge pipe (15) penetrates and is fixed to the upper part of the casing (12).
[0022] The drive mechanism (50) includes a motor (51) and a drive shaft (54). The motor (51) includes a stator (52) and a rotor (53). The drive shaft (54) is fixed inside the axial center of the rotor (53). When the motor (51) is energized, the drive shaft (54) is rotated together with the rotor (53).
[0023] The compression mechanism (55) is, for example, a two-cylinder rotary fluid machine. The compression mechanism (55) is located below the motor (51). The compression mechanism (55) is connected to the drive shaft (54). The rotational drive of the drive shaft (54) compresses the refrigerant in the compression mechanism (55).
[0024] <accumulator> An accumulator (20) is connected to the upstream side of the compressor body (11). The accumulator (20) temporarily stores the refrigerant before it is drawn into the compressor body (11) and separates the liquid refrigerant and oil contained in the gaseous refrigerant into gas and liquid forms.
[0025] The accumulator (20) includes a sealed container (21), an inlet pipe (22), a first outlet pipe (23), and a second outlet pipe (24). The inlet pipe (22) allows refrigerant to flow into the sealed container (21). The first outlet pipe (23) and the second outlet pipe (24) allow refrigerant to flow out of the sealed container (21).
[0026] The sealed container (21) is composed of a vertically elongated cylindrical member. An inlet pipe (22) is connected to the upper part of the sealed container (21). A first outlet pipe (23) and a second outlet pipe (24) are connected to the lower part of the sealed container (21). The upper ends of the first outlet pipe (23) and the second outlet pipe (24) extend upward inside the sealed container (21) and open at a position near the top of the internal space of the sealed container (21).
[0027] The lower end of the first outlet pipe (23) extends downward from the lower end of the sealed container (21) and then bends toward the first suction pipe (13) of the compressor body (11) and connects to the first suction pipe (13). The lower end of the second outlet pipe (24) extends downward from the lower end of the sealed container (21) and then bends toward the second suction pipe (14) of the compressor body (11) and connects to the second suction pipe (14).
[0028] <Support stand> As shown in Figure 3, the support base (30) is provided on the side of the compressor body (11). The support base (30) has a base portion (31), a pair of arm portions (32), and a fixing portion (33).
[0029] The base portion (31) is made of a plate-shaped member. The base portion (31) is provided with a support surface (30a). The accumulator (20) is attached to the support base (30) facing the support surface (30a) of the base portion (31).
[0030] The pair of arms (32) are formed by bending both ends of the base (31) in the circumferential direction. The arms (32) extend toward the side of the compressor body (11).
[0031] The fixing part (33) is provided at the tip of the arm part (32). The compressor body (11) and the support base (30) are joined to each other by welding. Specifically, the fixing part (33) is welded to the side of the compressor body (11) by providing a weld bead (35) along the vertical direction of the fixing part (33).
[0032] Here, the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by brazing. In addition, the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by one or more spot welds (34) formed by resistance welding. In the example shown in Figure 3, two spot welds (34) are provided.
[0033] <Method of manufacturing a compressor> The procedure for joining the accumulator (20) to the support base (30) will be described below. As shown in Figure 4, the process involves placing the opposing surface (20a) of the accumulator (20) against the support surface (30a) of the support base (30). Here, the base portion (31) of the support base (30) is provided with a bulge portion (38) that bulges out from the support surface (30a) toward the accumulator (20). The bulge portion (38) is the part that becomes the spot weld (34) when resistance welding the support base (30) and the accumulator (20).
[0034] As shown in Figure 5, the process involves joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) by one or more spot welds (34) formed by resistance welding. Specifically, the bulging portion (38) of the support base (30) shown in Figure 4 is pressed against the opposing surface (20a) of the accumulator (20), and a concentrated current is passed through the bulging portion (38) to melt and solidify it. As a result, the support base (30) and the accumulator (20) are joined to each other by spot welds (34).
[0035] As shown in Figure 6, the process involves joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) by brazing. Specifically, the support base (30) and the accumulator (20) are brazed together by impregnating the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20).
[0036] -Effects of the embodiment- According to this embodiment, by brazing, the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other in a state of surface contact, thereby increasing the support rigidity of the accumulator (20) and suppressing vibration of the accumulator (20).
[0037] According to this embodiment, the spot welds (34) reduce variations in the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20), thereby increasing the support rigidity of the accumulator (20).
[0038] According to this embodiment, welding can be used to increase the joint strength between the compressor body (11) and the support base (30).
[0039] According to this embodiment, a refrigeration system equipped with a compressor (10) can be provided.
[0040] According to this embodiment, by using spot welding (34) to reduce variations in the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20), brazing is performed by impregnating the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20), thereby suppressing variations in joint strength and increasing the support rigidity of the accumulator (20).
[0041] Furthermore, the brazing material (40) seals the gap between the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20), thereby preventing water from entering this gap.
[0042] Other embodiments Although embodiments and modifications have been described above, it will be understood that various changes in form and details are possible without departing from the spirit and scope of the claims. Furthermore, elements of the embodiments, modifications, and other embodiments described above may be combined or substituted as appropriate. In addition, the designations "first," "second," "third," etc. in the specification and claims are used to distinguish the phrases to which these designations are given, and do not limit the number or order of such phrases. [Industrial applicability]
[0043] As described above, this disclosure is useful for compressors, refrigeration systems, and methods for manufacturing compressors. [Explanation of symbols]
[0044] 1. Refrigeration equipment 10 Compressor 11 Compressor Unit 20 Accumulators 20a Opposing surface 30 Support stand 30a Support surface 34-point weld
Claims
1. Compressor body (11) and A support base (30) is provided on the side of the compressor body (11), The system comprises an accumulator (20) attached to the support base (30) facing the support surface (30a) of the support base (30), The support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by brazing. The support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) are joined to each other by one or more spot welds (34) formed by resistance welding. Compressor.
2. In the compressor according to claim 1, The compressor body (11) and the support base (30) are joined to each other by welding. Compressor.
3. A compressor (10) according to claim 1 or 2 is provided. Refrigeration equipment.
4. The process involves positioning the accumulator (20) opposite the support surface (30a) of the support base (30) provided on the side of the compressor body (11), The process involves joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) with one or more spot welds (34) formed by resistance welding, The process includes joining the support surface (30a) of the support base (30) and the opposing surface (20a) of the accumulator (20) to each other by brazing. A method for manufacturing a compressor.