CN104832430A - Compressor and refrigeration cycling apparatus - Google Patents

Abstract

The present invention provides a compressor that can be assembled easily and can improve the salability of a check valve. In addition, the invention also provides a refrigeration cycling apparatus comprising the compressor. The compressor comprises a hermetic container (2); a compression mechanism (3) set inside the hermetic container (2) and has a compression chamber (16), a suction port (31) and a suction passage (32); a through passage (41) that penetrates the wall of the hermetic container (2) and communicates the suction port (31) and the hermetic container (2); and a check valve (33) that is set in the suction passage (32); a sealing tube is pressed in the side of the suction passage (32) nearer to the inlet port (31) than the check valve (33); the end of the sealing tube at the side near to the check valve (33) is processed through mechanical processing in high precision; the check valve (33) abuts against the end face of the sealing tube, so that the suction passage (32) is closed.

Description

Compressor and refrigerating circulatory device

Technical field

The present invention relates to compressor and possess the refrigerating circulatory device of this compressor.

Background technique

As existing compressor, such as there is following structure, it possesses: seal container; Compressing mechanism, it is arranged in seal container, and the suction passage being formed with pressing chamber, suction port and will being communicated with between pressing chamber with suction port; Motor drive mechanism, it drives compressing mechanism; Suction pipe, it is by through for the wall of seal container, and its one end is connected with suction port; And safety check, it is arranged at suction passage.Suction passage is closed by being connected to the end face of one end be connected with suction port of suction pipe by safety check.By forming in like fashion, when compressor stops compressed action, to the refrigeration agent of the high pressure in seal container and refrigerator oil via suction passage and suction pipe adverse current, and carry out suppressing (such as with reference to patent documentation 1 to the situation that the pipe arrangement etc. be connected with suction pipe flows out.)。

Patent documentation 1: Japanese Laid-Open Patent Publication 59-141782 publication (page upper right hurdle the 18th, row ~ 2nd, the 1st page of hurdle, lower-left the 12nd row, the 1st figure ~ the 5th figure)

In existing compressor, in order to improve the contiguity degree between the end face of one end be connected with suction port of suction pipe and the face abutted with this end face of safety check, and guarantee the sealing of safety check, such as, the face abutted with this end face planeness separately making the end face of one end be connected with suction port of suction pipe and safety check is needed to realize higher precision respectively, in addition, also need to make the parallelism between the end face of one end be connected with suction port of suction pipe and the face abutted with this end face of safety check realize higher precision.

But, as existing compressor, when so that mode through for the wall of seal container is installed suction pipe, suction pipe is assembled in the wall of seal container by the usual mode by welding, such as, in this case, the assembly precision based on welding is lower, causes the posture being difficult to the suction pipe after managing assembling thus.Therefore, be difficult to make the parallelism between the end face of one end be connected with suction port of suction pipe and the face abutted with this end face of safety check realize higher precision, gap can be produced between end face in one end be connected with suction port of suction pipe and the face abutted with this end face of safety check.Its result, when compressor stops compressed action, the refrigeration agent of the high pressure in seal container and refrigerator oil can to outflows such as the pipe arrangements be connected with suction pipe, in addition, cause the burden of the slide part of the running shaft, bearing etc. of motor drive mechanism to increase because the refrigerator oil in seal container reduces, the reliability of compressor is reduced.In other words, in existing compressor, although ensure that the easiness of assembling, there is the problem points that the sealing of safety check is lower.

Summary of the invention

The present invention completes under the background of above-mentioned this problem, obtains a kind of easiness both having guaranteed to assemble, improves again the compressor of the sealing of safety check.In addition, a kind of refrigerating circulatory device possessing this compressor is obtained.

Compressor of the present invention possesses: seal container; Compressing mechanism, it is arranged in above-mentioned seal container, and the suction passage being formed with pressing chamber, suction port and will being communicated with between above-mentioned pressing chamber with above-mentioned suction port; Through stream, it is by through for the wall of above-mentioned seal container and be communicated with outward with above-mentioned seal container by above-mentioned suction port; And safety check, it is arranged at above-mentioned suction passage, sealed pipe is pressed into the region of the above-mentioned safety check of ratio in above-mentioned suction passage near the side of above-mentioned suction port, wherein, the end face of the side of the close above-mentioned safety check of above-mentioned sealed pipe passes through the mode of machining by fine finishing, above-mentioned safety check abuts with the above-mentioned end face of above-mentioned sealed pipe, thus is closed by above-mentioned suction passage.

In compressor involved in the present invention, sealed pipe is pressed into the region of the ratio safety check in suction passage near the side of suction port, wherein, the end face of the side of the close safety check of above-mentioned sealed pipe passes through the mode of machining by fine finishing, safety check abuts with the end face of the side of the close safety check of sealed pipe, thus is closed by suction passage.Therefore, regardless of structure, manufacturing process etc. by through for the wall of seal container and that suction port and seal container are communicated with outward through stream, can both suppress to produce gap between the face of safety check and the face abutted with this face, the sealing of safety check is improved.In addition, the sealing of safety check is just made to improve by the easy operation that indentation sealing pipe is such.

Accompanying drawing explanation

Fig. 1 is the figure for being described structure and the action of the scroll compressor involved by mode of execution 1.

Fig. 2 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 1.

Fig. 3 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 1.

Fig. 4 is the figure be described for the structure of the sealed pipe to the scroll compressor involved by mode of execution 1.

Fig. 5 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 2.

Fig. 6 is the figure for being described the state of inhalation port before and after the press-in of sealed pipe of the scroll compressor involved by mode of execution 2.

Fig. 7 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 3.

Fig. 8 is the figure for being described the state of inhalation port before and after the press-in of press-in pipe of the scroll compressor involved by mode of execution 3.

Description of reference numerals:

1 ... scroll compressor; 2 ... seal container; 3 ... compressing mechanism; 4 ... motor drive mechanism; 5 ... inhalation port; 6 ... discharge port; 7 ... oil storage portion; 11 ... fixed scroll portion; 12 ... swing scroll portion; 13 ... guiding frame; 14 ... framework; 15 ... Othemos ring; 16 ... pressing chamber; 21 ... motor stator; 22 ... motor rotor; 23 ... main shaft; 24 ... counterweight part; 25 ... rotor housing; 31 ... suction port; 32 ... suction passage; 32a ... inner peripheral surface; 32b ... bearing surface; 33 ... safety check; 33a ... spool; 33b ... spring; 34 ... exhaust port; 35 ... sealed pipe; 35a ... end face; 35b ... outer circumferential face; 41 ... through stream; 42 ... suction pipe; 42a ... large diameter portion; 42b ... path part; 43 ... O type ring; 44 ... press-in pipe; 100 ... refrigerating circulatory device.

Embodiment

Below, accompanying drawing is utilized to be described compressor involved in the present invention.

In addition, below, be that the situation of high-pressure closed vessel (shell) the formula scroll compressor of the refrigerant circulation loop being applied to refrigerating circulatory device is described to compressor involved in the present invention, but be not limited to this situation, compressor involved in the present invention also can be other compressors.In addition, the structure below illustrated, action etc. are an example, and compressor involved in the present invention is not limited to this structure, action etc.In addition, in the various figures, for detailed configuration, suitably simplify or omit diagram.In addition, for the explanation repeated, suitably simplify or omit.

Mode of execution 1.

Below, the scroll compressor involved by mode of execution 1 is described.

The structure of < scroll compressor and action >

The structure of the scroll compressor involved by mode of execution 1 and action are described.

Fig. 1 is the figure for being described structure and the action of the scroll compressor involved by mode of execution 1.In addition, in FIG, the flowing of refrigeration agent is represented with arrow.

As shown in Figure 1, scroll compressor 1 possesses: seal container 2; Compressing mechanism 3, it is arranged at the top in seal container 2; Motor drive mechanism 4, it is arranged at the downside of the compressing mechanism 3 in seal container 2, and drives compressing mechanism 3; Inhalation port 5, the connections such as its pipe arrangement for the refrigerant circulation loop of formation refrigerating circulatory device 100, and in seal container 2, suck refrigeration agent from this pipe arrangement etc.; And discharge port 6, the connections such as its pipe arrangement for the refrigerant circulation loop of formation refrigerating circulatory device 100, and to discharging refrigerants such as this pipe arrangements in seal container 2.Bottom in seal container 2 plays function as oil storage portion 7, for stockpiling the refrigerator oil that each slide part in seal container 2 lubricates.Refrigerator oil is discharged together with refrigeration agent via discharge port 6, and is inhaled into together with refrigeration agent via inhalation port 5.Refrigerating circulatory device 100 is such as aircondition, refrigerator etc.

Compressing mechanism 3 mainly has fixed scroll portion 11, swings scroll portion 12, guiding frame 13, framework 14 and Othemos ring (oldham ring) 15.Guiding frame 13 is fixed on seal container 2 by the mode of welding.Guiding frame 13 is fixed in fixed scroll portion 11 by bolt.Swing scroll portion 12 to be kept by framework 14, the directed framework 13 of framework 14 keeps.The claw being formed at Othemos ring 15 is locked in fixed scroll portion 11 and the groove portion swinging scroll portion 12 formation.Be formed at the groove portion in fixed scroll portion 11 and be formed at the mutual form right angle in groove portion swinging scroll portion 12.

The lower surface of the platform dish in fixed scroll portion 11 and swing the upper surface of platform dish of scroll portion 12, is formed with the center of showing greatly platform dish and is starting point and with the jut of the outside of the platform dish involute swirl shape that is terminal.Be formed at the jut swinging scroll portion 12 and there is the shape making the jut being formed at fixed scroll portion 11 revolve turnback.Be formed at the jut in fixed scroll portion 11, be formed at the jut swinging scroll portion 12 and engage, form pressing chamber 16 thus.

Motor drive mechanism 4 mainly has: motor stator 21, motor rotor 22, main shaft 23, counterweight part 24 and rotor housing (cup) 25.Motor stator 21 is fixed on seal container 2.Main shaft 23 and motor rotor 22 link, and motor rotor 22 is driven rotation by motor stator 21, makes main shaft 23 rotate thus.Be formed with eccentric part in the upper end of main shaft 23, boss (boss) portion that this eccentric part is formed via bearing etc. and the lower surface at the platform dish swinging scroll portion 12 links.

Fixed scroll portion 11 has: suction port 31; Suction passage 32, is communicated with between its pressing chamber 16 formed in suction port 31 and the terminal side at involute swirl shape; Safety check 33, it is arranged at suction passage 32; And exhaust port 34, it is communicated with outer to the pressing chamber 16 formed in the starting point side of involute swirl shape and compressing mechanism 3.By by through stream 41 through for the wall of seal container 2, the pipe arrangement etc. of suction port 31 with the refrigerant circulation loop forming refrigerating circulatory device 100 is communicated with.In other words, one end of suction pipe 42 through for the wall of seal container 2 is connected with suction port 31.

If main shaft 23 is driven in rotation, then by the engaging between the claw that is formed at Othemos ring 15 with the groove portion being formed at fixed scroll portion 11 and swinging scroll portion 12, the rotation swinging scroll portion 12 is limited.Therefore, if main shaft 23 is driven in rotation, then swings scroll portion 12 and swing with the running shaft of the confined state of rotation around main shaft 23.Along with this swing, the pressing chamber 16 formed in the terminal side of involute swirl shape makes smaller volume while move towards the starting point side of involute swirl shape, the refrigeration agent flowing into the pressing chamber 16 formed in the terminal side of involute swirl shape via suction port 31 is compressed along with this moves, thus becomes the refrigeration agent of high pressure.This pressing chamber 16 moving to the starting point side of involute swirl shape is communicated with exhaust port 34, thus the refrigeration agent of high pressure flows out outside compressing mechanism 3 via exhaust port 34.The refrigeration agent flowing out to the high pressure outside compressing mechanism 3 via discharge port 6 to the discharge such as pipe arrangement of refrigerant circulation loop forming refrigerating circulatory device 100.

The structure of < inhalation port and action >

The structure of the inhalation port of the scroll compressor of mode of execution 1 and action are described.

Fig. 2 and Fig. 3 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 1.In addition, Fig. 2 illustrates that scroll compressor 1 carries out the state of compressed action, and Fig. 3 illustrates that scroll compressor 1 stops the state of compressed action.In addition, in Fig. 2 and Fig. 3, represent the flowing of refrigeration agent with arrow.

As shown in FIG. 2 and 3, one end of suction pipe 42 is connected with the suction port 31 in fixed scroll portion 11 via O type ring 43.Suction pipe 42 is welded in the wall of seal container 2.After O type ring 43 is disposed in suction port 31, suction pipe 42 can be inserted into the inner side of O type ring 43.Suction pipe 42 is connected with suction port 31 via O type ring 43, improves the sealing between suction pipe 42 and suction port 31 thus.In addition, also one end of suction pipe 42 can be connected with suction port 31 via miscellaneous part or space.In addition, also the other end of miscellaneous part with suction pipe 42 can be connected, and miscellaneous part is welded in the wall of seal container 2.In other words, if suction pipe 42 form by through for the wall of seal container 2 and that suction port 31 and seal container 2 are communicated with outward through stream 41 at least partially.

Safety check 33 has spool 33a and spring 33b.The face of the side of the close suction port 31 of spool 33a is plane, and this spool 33a is exerted a force towards the direction close with suction port 31 by spring 33b.In addition, sealed pipe 35 is pressed into the suction passage 32 in fixed scroll portion 11.Under state before sealed pipe 35 is pressed into, with in the inner peripheral surface 32a of suction passage 32, compared with the internal diameter of the inner peripheral surface in region that is particularly pressed into for sealed pipe 35, the external diameter of sealed pipe 35 is thicker.In addition, safety check 33 can not have spring 33b.

Under the state that scroll compressor 1 carries out compressed action, as shown in Figure 2, by the compression transfer movement to refrigeration agent undertaken by compressing mechanism 3, produce towards the suction pressure of pressing chamber 16 at suction passage 32.And safety check 33 is pressed by the opposite direction of this suction pressure towards the force direction of spring 33b, spring 33b is shunk, thus suction passage 32 is opened, make refrigeration agent flow into pressing chamber 16.

Under the state that scroll compressor 1 stops compressed action, as shown in Figure 3, the differential pressure produced between low pressure by the refrigeration agent near the high pressure of the refrigeration agent in seal container 2 and suction pipe 42, makes the refrigeration agent in seal container 2 for passing through and adverse current from suction passage 32.Meanwhile, refrigerator oil is also for adverse current together with refrigeration agent.Now, by the reaction force of spring 33b and for the refrigeration agent of adverse current and the pressure of refrigerator oil, safety check 33 is pressed on sealed pipe 35, make the plane face of safety check 33, touch with the end face of sealed pipe 35, thus suction passage 32 is closed, to refrigeration agent and refrigerator oil from suction pipe 42 by and the situation of the adverse current such as pipe arrangement to the refrigerant circulation loop forming refrigerating circulatory device 100 suppresses.

Fig. 4 is the figure be described for the structure of the sealed pipe to the scroll compressor involved by mode of execution 1.

As shown in Figure 4, sealed pipe 35 is cylindric.Sealed pipe 35 is such as made up of the metallic material of mechanical processing characteristic excellence.And, under the state before sealed pipe 35 is pressed into, carry out fine finishing by the mode of machining to the outer circumferential face 35b of sealed pipe 35 and near the end face 35a of the side of safety check 33.By adopting machining, the planeness of the end face 35a of the side near safety check 33 can be made to realize higher precision.By adopting machining, the cylindricity of outer circumferential face 35b and outer circumferential face 35b can be made to realize higher precision relative to the perpendicularity of end face 35a.In addition, under state before sealed pipe 35 is pressed into, by the mode of machining, make the cylindricity of the inner peripheral surface in region in the inner peripheral surface 32a of suction passage 32, that particularly supply sealed pipe 35 to be pressed into and realize higher precision relative to the perpendicularity in the plane face of safety check 33.

By forming in like fashion, when be formed as sealed pipe 35 and be pressed into suction passage 32 and the inner peripheral surface 32a of suction passage 32 abut with the outer circumferential face 35b of sealed pipe 35 state time, ensure that the parallelism between the plane face of safety check 33 and the end face 35a of sealed pipe 35 with higher precision.In addition, except the plane face of safety check 33, also ensure that the planeness of the end face 35a of sealed pipe 35 with higher precision.Therefore, sealing between the plane face of safety check 33 and the end face 35a of sealed pipe 35 is improved, reliably achieve closing of suction passage 32, thus reliably to refrigeration agent and refrigerator oil from suction pipe 42 by and the situation of the adverse current such as pipe arrangement to the refrigerant circulation loop forming refrigerating circulatory device 100 suppresses.

Mode of execution 2.

Below, the scroll compressor involved by mode of execution 2 is described.

In addition, for the explanation repeated with the scroll compressor involved by mode of execution 1, suitably simplify or omit.

The structure of < inhalation port and action >

The structure of the inhalation port of the scroll compressor involved by mode of execution 2 and action are described.

Fig. 5 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 2.In addition, Fig. 5 illustrates that scroll compressor 1 stops the state of compressed action.In addition, in Figure 5, the flowing of refrigeration agent is represented with arrow.

As shown in Figure 5, be formed with bearing surface 32b at the inner peripheral surface 32a of the suction passage 32 in fixed scroll portion 11, it bears the end face 35a of the side of the close safety check 33 of sealed pipe 35.Under state before sealed pipe 35 is pressed into, by the mode of machining, realize cylindricity and its perpendicularity relative to the plane face of safety check 33 of the inner peripheral surface in region in the inner peripheral surface 32a of suction passage 32, that particularly supply sealed pipe 35 to be pressed into higher precision.In addition, under the state before sealed pipe 35 is pressed into, by the mode of machining, with higher precision realize bearing surface 32b relative in the inner peripheral surface 32a of suction passage 32, the perpendicularity of inner peripheral surface in region that is particularly pressed into for sealed pipe 35.

Fig. 6 is the figure for being described the state of inhalation port before and after the press-in of sealed pipe of the scroll compressor involved by mode of execution 2.

By forming in like fashion, as shown in Figure 6, be pressed into suction passage 32 and make the state that the inner peripheral surface 32a of suction passage 32 abuts with the outer circumferential face 35b of sealed pipe 35 being formed as sealed pipe 35, and the end face 35a of the bearing surface 32b and sealed pipe 35 that are formed as suction passage 32 abut state time, ensure that the parallelism between the plane face of safety check 33 and the end face 35a of sealed pipe 35 with higher precision.Therefore, sealing between the plane face of safety check 33 and the end face 35a of sealed pipe 35 is improved, reliably suction passage 32 is closed, thus reliably to refrigeration agent and refrigerator oil from suction pipe 42 by and the situation of the adverse current such as pipe arrangement to the refrigerant circulation loop forming refrigerating circulatory device 100 suppresses.In addition, by forming bearing surface 32b, make the location of the end face 35a of sealed pipe 35 become easy, the workability of assembling is improved.In addition, by forming bearing surface 32b, the positioning precision of the end face 35a of sealed pipe 35 is improved, and makes the plane face of safety check 33, is improved with the reliability that the end face 35a of sealed pipe 35 abuts in the suitable position that spring 33b produces reaction force.

Mode of execution 3.

Below, the scroll compressor involved by mode of execution 3 is described.

In addition, for the explanation repeated with the scroll compressor involved by mode of execution 1 and mode of execution 2, suitably simplify or omit.

The structure of < inhalation port and action >

The structure of the inhalation port of the scroll compressor involved by mode of execution 3 and action are described.

Fig. 7 is the figure be described for structure and the action of the inhalation port to the scroll compressor involved by mode of execution 3.In addition, Fig. 7 illustrates that scroll compressor 1 stops the state of compressed action.In addition, in the figure 7, the flowing of refrigeration agent is represented with arrow.

As shown in Figure 7, the side that suction pipe 42 is being connected with the pipe arrangement etc. of the refrigerant circulation loop forming refrigerating circulatory device 100 has large diameter portion 42a, has path part 42b in the side be connected with suction port 31.In other words, suction pipe 42 is formed as the state of the end diameter reducing of the side be connected with suction port 31.Press-in pipe 44 is pressed into by the inner side to path part 42b.Under state before press-in pipe 44 is pressed into, the external diameter of press-in pipe 44 is thinner than the internal diameter of suction port 31, and the external diameter of press-in pipe 44 is thicker than the internal diameter of the path part 42b of suction pipe 42.The internal diameter of the large diameter portion 42a of suction pipe 42 is thicker than the external diameter of press-in pipe 44.The external diameter of the path part 42b of suction pipe 42 also can be thinner than the internal diameter of suction port 31 under the state before press-in pipe 44 is pressed into.

Fig. 8 is the figure for being described the state of inhalation port before and after the press-in of press-in pipe of the scroll compressor involved by mode of execution 3.

By forming in like fashion, as shown in Figure 8, under the state that suction pipe 42 is inserted into suction port 31, the inner side of press-in pipe 44 to the path part 42b of suction pipe 42 is pressed into, thus, path part 42b is expanding, the state that the inner peripheral surface being formed as suction port 31 abuts with the outer circumferential face of suction pipe 42, and the inner peripheral surface of suction port 31 is connected with higher contiguity degree with the outer circumferential face of suction pipe 42.Therefore, the sealing between suction port 31 and suction pipe 42 is improved, and reliably suppresses the situation of refrigeration agent via suction port 31 to seal container 2 internal leakage flowing into suction passage 32 from suction pipe 42.Especially, when being pressed into pipe 44 and being made up of metallic material etc., compared with situation about making for resin with the O type ring 43 of the scroll compressor of mode of execution 1 etc., can be suppressed following situation, that is: produce damage, deterioration etc. due to the heat produced when suction pipe 42 is welded in the wall of seal container 2 at parts, the sealing between suction port 31 and suction pipe 42 is reduced.In addition, because suction pipe 42 has large diameter portion 42a, thus can shorten the distance be pressed into by press-in pipe 44, the workability of assembling is improved.

Although be illustrated mode of execution 1 ~ mode of execution 3 above, the present invention is not limited to the explanation of each mode of execution.Such as can also combine the whole of each mode of execution or a part.

Claims (6)

1. a compressor, is characterized in that, possesses:

Seal container;

Compressing mechanism, it is arranged in described seal container, and the suction passage being formed with pressing chamber, suction port and will being communicated with between described pressing chamber with described suction port;

Through stream, it is by through for the wall of described seal container and be communicated with outward with described seal container by described suction port; And

Safety check, it is arranged at described suction passage,

Sealed pipe is pressed into safety check described in the ratio in described suction passage near the region of the side of described suction port, and wherein, the end face of the side of the close described safety check of described sealed pipe passes through the mode of machining by fine finishing,

Described safety check abuts with the described end face of described sealed pipe, thus is closed by described suction passage.

2. compressor according to claim 1, is characterized in that,

The inner peripheral surface in the described region in described suction passage and the outer circumferential face of described sealed pipe pass through the mode of machining by fine finishing,

Described sealed pipe is pressed into the described region in described suction passage, and the outer circumferential face of described sealed pipe abuts with the inner peripheral surface in the described region in described suction passage.

3. compressor according to claim 1 and 2, is characterized in that,

The mode being formed through machining at the inner peripheral surface of described suction passage carries out the bearing surface of fine finishing,

Described sealed pipe is pressed into the described region in described suction passage, and the described end face of described sealed pipe abuts with described bearing surface.

4. compressor according to claim 1 and 2, is characterized in that,

The suction pipe be connected with described suction port by one end at least partially of described through stream is formed,

Press-in pipe is pressed into the inner side of described one end of described suction pipe, and the outer circumferential face of described one end of described suction pipe abuts with the inner peripheral surface of described suction port.

5. compressor according to claim 4, is characterized in that,

Described one end undergauge of described suction pipe.

6. a refrigerating circulatory device, is characterized in that,

Possesses the compressor according to any one of Claims 1 to 5.