CN111734638A - Vibration reduction air conditioner compressor - Google Patents

Abstract

The invention discloses a vibration-damping air-conditioning compressor, which structurally comprises a compression main machine, an exhaust pipe, a mounting seat, an air inlet pipe, a liquid storage cylinder and a flow slowing mechanism, wherein the exhaust pipe is fixedly arranged at the top of the compression main machine and communicated with the compression main machine, a push plate contracts in a fixed sliding sleeve, an expansion hose contracts and conducts air pressure, the air pressure enters the air guide pipe so as to swell air bubbles, the bottom of the compression main machine is not scratched through a sponge mat, the vibration damping capacity of the compression main machine is improved, external air is sucked through the air inlet pipe, liquid in the liquid storage cylinder flows, the liquid enters the bent pipe from a liquid inlet, the flowing distance of the liquid is increased, the liquid dispersed to two sides is slowed down through a fixed shaft and a blocking plate, the liquid pushes an opening and closing plate to rotate around a torsion shaft, and a side flow port is, the impact force of the same position of the liquid is reduced, so that the liquid and the interior of the compression main machine are prevented from being subjected to liquid impact.

Description

Vibration reduction air conditioner compressor

Technical Field

The invention relates to the field of air-conditioning compressors, in particular to a vibration reduction air-conditioning compressor.

Background

The cylinder rotary air-conditioning compressor adopts the rotary piston to do rotary motion to reduce the pressure inside the compressor, the air inlet of the upper end of the liquid storage cylinder is sucked with gas through the air suction loop, the liquid is evaporated through the gas-liquid separator, the compression of refrigerant steam is completed, but because the rotary piston generates great vibration in the process of doing rotary motion, in the process of vibration, the flowing speed of the liquid inside the liquid storage cylinder is accelerated, the liquid passes through the gas-liquid separator quickly, the evaporation time of the liquid is shortened, the liquid is not evaporated into gas and enters into the compressor completely, the liquid is easy to cause liquid impact with the rotary piston inside the compressor, the abrasion of the rotary piston is increased while the refrigeration effect is reduced, and the service life of the air-conditioning compressor is shortened.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this damping air condition compressor, its structure includes compression host, blast pipe, mount pad, intake pipe, stock solution section of thick bamboo, slows down mobile mechanism, compression host top fixed mounting has the blast pipe and link up mutually, install inside the mount pad compression host bottom, stock solution section of thick bamboo upper end is equipped with the intake pipe and link up mutually, stock solution section of thick bamboo lower extreme is equipped with and slows down mobile mechanism to it link up mutually with the compression host lower extreme to slow down mobile mechanism lower extreme, the mount pad includes unable adjustment base, telescopic machanism, screens mechanism, the unable adjustment base inboard is fixed mutually with the telescopic machanism head end to the telescopic machanism end is equipped with screens mechanism, the laminating of screens mechanism is on compression host bottom outside surface, telescopic machanism and screens mechanism all are equipped with two to be slope one hundred thirty five degrees mirror image settings.

As a further improvement of the invention, the telescopic mechanism comprises a fixed sliding sleeve, a push plate, telescopic hoses, air guide tubes and nested tubes, the fixed sliding sleeve is fixedly arranged on the inner side surface of the fixed base, one end of the push plate is arranged in the fixed sliding sleeve in a clearance fit manner, the other end of the push plate is fixed with the clamping mechanism, the telescopic hoses are arranged in the fixed sliding sleeve, the right ends of the telescopic hoses are fixed with the push plate, the left ends of the telescopic hoses are provided with the air guide tubes and communicated with each other, the air guide tubes penetrate through the nested tubes in a clearance fit manner, the right ends of the nested tubes are arranged in the push plate and communicated with the inside of the clamping mechanism, the telescopic hoses are of a corrugated structure and made of rubber materials and have certain resilience, three telescopic hoses are arranged, and the three telescopic hoses are communicated in series through the air, the outer diameter of the air duct is matched with the inner diameter of the nested pipe, and a sealing gasket is arranged at the joint of the air duct and the nested pipe.

As a further improvement of the invention, the clamping mechanism comprises a snap ring, a sponge cushion, a pressure dividing pipe, air bubbles and a clamping rod, wherein the left side surface of the snap ring is fixed with the right end of the push plate, the right side surface of the snap ring is tightly attached with the sponge cushion, the pressure dividing pipe is arranged in the snap ring and is communicated with the right end of the nested pipe, the pressure dividing pipe is fixed with and communicated with the air bubbles, the air bubbles are arranged in the right side of the snap ring in a clearance fit manner, the clamping rod is fixedly arranged on the right side surface of the snap ring, the snap ring is of an arc-shaped structure, the sponge cushion is also of an arc-shaped structure, the number of the air bubbles is eleven, the air bubbles are uniformly distributed in the right side of the snap ring, and eleven.

As a further improvement of the invention, the flow slowing mechanism comprises a bottom cover, a protrusion mechanism, a flow dividing mechanism and a liquid inlet pipe, wherein the bottom cover is fixedly arranged at the bottom of the liquid storage cylinder and communicated with the liquid storage cylinder, the protrusion mechanism is fixedly arranged in the bottom cover, the flow dividing mechanism is arranged below the protrusion mechanism and communicated with the protrusion mechanism, the lower end of the flow dividing mechanism is communicated with the liquid inlet pipe, the liquid inlet pipe is fixedly arranged at the bottom of the outer side of the bottom cover, the lower end of the liquid inlet pipe is fixed with and communicated with the lower end of the compression main machine, and the protrusion mechanism is of an upper convex arc.

As a further improvement of the invention, the bulge mechanism comprises a drum cover, a liquid inlet, a bent pipe, a fixed shaft and a blocking plate, wherein the lower end of the drum cover is fixedly arranged on the bottom surface of the inner side of the bottom cover, the liquid inlet is embedded in the drum cover, the liquid inlet is communicated with the upper end of the bent pipe, the lower end of the bent pipe is fixedly arranged on the upper surface of the flow dividing mechanism and communicated with the flow dividing mechanism, the fixed shaft is arranged in the lower end of the drum cover, the blocking plate is fixedly welded on the outer surface of the fixed shaft, the number of the liquid inlets and the number of the bent pipes are three, and the.

As a further improvement of the present invention, the flow dividing mechanism includes a flow dividing pipe, a side flow port, an opening and closing plate, and a torsion shaft, wherein the top of the flow dividing pipe is fixed to and communicated with the lower end of the bending pipe, the side flow port is arranged on the side surface of the flow dividing pipe, the inner side of the side flow port is in contact with the opening and closing plate, the torsion shaft is arranged at the upper end of the opening and closing plate, the torsion shaft is hinged with the inner part of the flow dividing pipe, and openings at two sides of the lower end of the flow dividing pipe are communicated.

The invention has the beneficial effects that:

1. through promoting the push pedal for the push pedal is inside contracting at fixed sliding sleeve, and bellows contracts simultaneously, carries out the atmospheric pressure conduction in the time of the bellows contraction, and inside atmospheric pressure entered into the air duct, make the gasbag bubble swell, improved the damping ability of compression host computer when guaranteeing through the foam-rubber cushion that compression host computer bottom can not the scratch, and the vibration of guaranteeing that the inside rotary piston of compression host computer is rotary motion and producing is absorbed.

2. Inhale outside gas through the intake pipe, at this moment the inside liquid of liquid storage cylinder flows, inside liquid enters into the bending tube from the inlet simultaneously, increases the flow distance of liquid, and the liquid that disperses both sides slows down through fixed axle and barrier plate, and liquid promotes the switching board and rotates round the torsion shaft, and at this moment the side flow mouth is opened, reduces the impact force of liquid same position to avoid liquid and the inside liquid that takes place of compression host computer to hit.

Drawings

Fig. 1 is a schematic structural diagram of a vibration reduction air conditioner compressor according to the present invention.

Fig. 2 is a schematic top view of a mounting base according to the present invention.

Fig. 3 is a schematic top view of an internal structure of a telescopic mechanism according to the present invention.

Fig. 4 is a schematic top view of an internal structure of a locking mechanism according to the present invention.

FIG. 5 is a schematic diagram of an internal structure of a flow retarding mechanism according to the present invention.

Fig. 6 is a schematic cross-sectional structural view of a protrusion mechanism according to the present invention.

Fig. 7 is a schematic diagram of an internal structure of a shunt mechanism according to the present invention.

In the figure: a compression host machine-1, an exhaust pipe-2, a mounting seat-3, an air inlet pipe-4, a liquid storage cylinder-5, a flow slowing mechanism-6, a fixed base-31, a telescopic mechanism-32, a clamping mechanism-33, a fixed sliding sleeve-321, a push plate-322, a telescopic hose-323, an air guide pipe-324, a nested pipe-325, a snap ring-331, a sponge cushion-332, a pressure dividing pipe-333, an air bag bubble-334, a clamping rod-335, a bottom cover-61, a bulge mechanism-62, a flow dividing mechanism-63, a liquid inlet pipe-64, a drum cover-62 a, a liquid inlet-62 b, a bent pipe-62 c, a fixed shaft-62 d, a blocking plate-62 e, a flow dividing pipe-63 a, a side flow port-63 b, an opening and closing plate-63 c, Torsion bar-63 d.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to a vibration reduction air conditioner compressor, which structurally comprises a compression main machine 1, an exhaust pipe 2, a mounting seat 3, an air inlet pipe 4, a liquid storage cylinder 5 and a flow retarding mechanism 6, wherein the exhaust pipe 2 is fixedly mounted at the top of the compression main machine 1 and communicated with the top of the compression main machine 1, the bottom of the compression main machine 1 is mounted in the mounting seat 3, the air inlet pipe 4 is arranged at the upper end of the liquid storage cylinder 5 and communicated with the top of the liquid storage cylinder 5, the flow retarding mechanism 6 is arranged at the lower end of the liquid storage cylinder 5, the lower end of the flow retarding mechanism 6 is communicated with the lower end of the compression main machine 1, the mounting seat 3 comprises a fixed base 31, a telescopic mechanism 32 and a clamping mechanism 33, the inner side of the fixed base 31 is fixed with the head end of the telescopic mechanism 32, the tail end of the telescopic mechanism 32 is provided with the clamping mechanism, and be the slope one hundred thirty-five degrees mirror image setting, can be better carry out the card with the bottom of compressing main engine 1 and advance, reduce the installation area of mount pad 3.

Wherein, the telescopic mechanism 32 comprises a fixed sliding sleeve 321, a push plate 322, a telescopic hose 323, an air duct 324 and a nested tube 325, the fixed sliding sleeve 321 is fixedly arranged on the inner side surface of the fixed base 31, one end of the push plate 322 is arranged inside the fixed sliding sleeve 321 by clearance fit, the other end of the push plate 322 is fixed with the position clamping mechanism 33, the telescopic hose 323 is arranged inside the fixed sliding sleeve 321, the right end of the telescopic hose 323 is fixed with the push plate 322, the left end of the telescopic hose 323 is provided with the air duct 324 and is communicated with the air duct, the air duct 324 is arranged inside the nested tube 325 by clearance fit, the right end of the nested tube 325 is arranged inside the push plate 322, the right end of the nested tube 325 is communicated with the position clamping mechanism 33, the telescopic hose 323 has a corrugated structure and is made of rubber material, has a certain resilience, and the number, the three telescopic hoses 323 are communicated in series through the air duct 324, so that air pressure generated when the three telescopic hoses 323 contract is discharged from the air duct 324, the outer diameter of the air duct 324 is matched with the inner diameter of the nested tube 325, and a sealing gasket is arranged at the joint of the air duct 324 and the nested tube 325, so that when the nested tube 325 is pushed outside the air duct 324, the air pressure is conducted in a sealing manner, and air pressure leakage is avoided.

The clamping mechanism 33 comprises a clamping ring 331, a sponge cushion 332, a pressure dividing pipe 333, an air bag bubble 334 and a clamping rod 335, the left side surface of the clamping ring 331 is fixed to the right end of the push plate 322, the right side surface of the clamping ring 331 is tightly attached to the sponge cushion 332, the pressure dividing pipe 333 is installed inside the clamping ring 331, the pressure dividing pipe 333 is communicated with the right end of the nested pipe 325, the pressure dividing pipe 333 is fixed to and communicated with the air bag bubble 334, the air bag bubble 334 is installed inside the right side of the clamping ring 331 in a clearance fit mode, the clamping rod 335 is fixedly installed on the right side surface of the clamping ring 331, the clamping ring 331 is of an arc-shaped structure, the sponge cushion 332 is of an arc-shaped structure, clamping and attaching of the bottom of the compression main machine 1 are facilitated, ten air bag bubbles 334 are uniformly distributed inside the right side of the clamping ring 331, and eleven air bag bubbles, the air pressure is uniformly transmitted to the eleven air sac 334 to be expanded, and the eleven air sac 334 wraps the bottom of the compression host 1, so that the vibration reduction capacity of the bottom of the compression host 1 is improved.

The specific use mode and function of the embodiment are as follows:

in the invention, by pushing the push plate 322, the push plate 322 is contracted inside the fixed sliding sleeve 321, meanwhile, the telescopic hose 323 is contracted, air pressure is conducted while the telescopic hose 323 is contracted, the air pressure enters the air duct 324, the air pressure is conducted to the interior of the nested tube 325 while advancing outside the airway tube 324 through the nested tube 325, then, the air pressure is conducted through the pressure-dividing pipe 333 to swell the air bladder 334, and then the compression body 1 is placed on the bottom surface of the mount base 3, the outer side of the bottom of the compression host 1 is wrapped and attached through the snap rings 331 on the two clamping mechanisms 33, the spongy cushion 332 ensures that the bottom of the compression main body 1 can not be scratched and simultaneously improves the vibration damping capacity of the compression main body 1, meanwhile, the expanded air sac 334 is tightly attached to the outside of the compression main unit 1, so that vibration generated by the rotary motion of the rotary piston inside the compression main unit 1 is absorbed.

Example 2:

as shown in fig. 5 to 7:

wherein, it includes end cover 61, protruding mechanism 62, reposition of redundant personnel mechanism 63, feed liquor pipe 64 to slow down mobile mechanism 6, end cover 61 fixed mounting is in 5 bottoms of liquid storage barrel and link up mutually, the inside fixed mounting of end cover 61 has protruding mechanism 62, protruding mechanism 62 below is equipped with reposition of redundant personnel mechanism 63 and link up mutually, reposition of redundant personnel mechanism 63 lower extreme and feed liquor pipe 64 link up mutually to feed liquor pipe 64 fixed mounting is in end cover 61 outside bottom, feed liquor pipe 64 lower extreme is fixed mutually and link up mutually with 1 lower extreme of compression host computer, protruding mechanism 62 is protruding arc structure, improves and carries out the ability that disperses to liquid toward both sides to improve the choked flow effect to liquid.

Wherein, protruding mechanism 62 includes drum cover 62a, inlet 62b, crooked pipe 62c, fixed axle 62d, barrier plate 62e, drum cover 62a lower extreme fixed mounting is in the inboard bottom surface of end cover 61, inlet 62b inlays inside drum cover 62a, inlet 62b link up with crooked pipe 62c upper end mutually, crooked pipe 62c lower extreme fixed mounting is at reposition of redundant personnel mechanism 63 upper surface and link up mutually, drum cover 62a lower extreme inside is equipped with fixed axle 62d to fixed axle 62d outer fixed surface welding has barrier plate 62e, inlet 62b and crooked pipe 62c all are equipped with threely to inlet 62b is the wide structure of the narrow export of import, has increased the flow distance of liquid through crooked pipe 62c, does benefit to the velocity of flow to liquid and slows down.

The split flow mechanism 63 includes a split tube 63a, a side flow port 63b, an opening and closing plate 63c, and a torsion shaft 63d, the top of the split tube 63a is fixed to and communicated with the lower end of the bending tube 62c, the side surface of the split tube 63a is provided with the side flow port 63b, the inner side of the side flow port 63b is abutted against the opening and closing plate 63c, the upper end of the opening and closing plate 63c is provided with the torsion shaft 63d, the torsion shaft 63d is hinged to the inside of the split tube 63a, openings at two sides of the lower end of the split tube 63a are communicated with the two liquid inlet tubes 64, so that the split flow of liquid is facilitated, the impact force of the same position of liquid is reduced, and the liquid is prevented from.

The specific use mode and function of the embodiment are as follows:

in the invention, in the process of compressing the compression main machine 1, the air pipe 4 sucks external air, at this time, the liquid in the liquid storage cylinder 5 flows, the liquid in the liquid storage cylinder 5 is dispersed through the drum cover 62a and simultaneously the liquid in the liquid storage cylinder 5 is primarily blocked, the flowing speed of the liquid is reduced, meanwhile, the liquid enters the bent pipe 62c from the liquid inlet 62b, the flowing distance of the liquid is increased, then the liquid enters the shunt pipe 63a, the liquid dispersed to the two sides is slowed down through the fixed shaft 62d and the blocking plate 62e, then the liquid enters from the side flow port 63b, the liquid pushes the opening and closing plate 63c to rotate around the torsion shaft 63d, at this time, the side flow port 63b is opened, so that the liquid shunts to flow from the two liquid inlet pipes 64 and enters the compression main machine 1, and the impact force of the same position of the liquid is reduced, thereby avoiding liquid slugging with the interior of the compressor main body 1.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a damping air condition compressor, its structure includes compression host computer (1), blast pipe (2), mount pad (3), intake pipe (4), liquid storage cylinder (5), slows down mobile mechanism (6), compression host computer (1) top fixed mounting has blast pipe (2) and link up mutually, install inside mount pad (3) compression host computer (1) bottom, liquid storage cylinder (5) upper end is equipped with intake pipe (4) and link up mutually, liquid storage cylinder (5) lower extreme is equipped with and slows down mobile mechanism (6) to it link up mutually with compression host computer (1) lower extreme to slow down mobile mechanism (6) lower extreme, its characterized in that:

mount pad (3) are including unable adjustment base (31), telescopic machanism (32), screens mechanism (33), unable adjustment base (31) inboard is fixed mutually with telescopic machanism (32) head end to telescopic machanism (32) end is equipped with screens mechanism (33), screens mechanism (33) laminating is at compression host (1) bottom outside surface.

2. A vibration damped air conditioning compressor as claimed in claim 1 wherein: the telescopic mechanism (32) comprises a fixed sliding sleeve (321), a push plate (322), a telescopic hose (323), an air duct (324) and a nested tube (325), the fixed sliding sleeve (321) is fixedly arranged on the inner side surface of the fixed base (31), one end of the push plate (322) is arranged in the fixed sliding sleeve (321) in a clearance fit manner, the other end of the push plate (322) is fixed with the clamping mechanism (33), the telescopic hose (323) is arranged in the fixed sliding sleeve (321), the right end of the telescopic hose (323) is fixed with the push plate (322), the left end of the telescopic hose (323) is provided with an air duct (324) and communicated with the air duct, the air duct (324) penetrates through the nested tube (325) in a clearance fit manner, the right end of the nested tube (325) is arranged inside the push plate (322), and the right end of the nested pipe (325) is communicated with the inside of the clamping mechanism (33).

3. A vibration damped air conditioning compressor as claimed in claim 2 wherein: screens mechanism (33) are including snap ring (331), foam-rubber cushion (332), partial pressure pipe (333), gasbag bubble (334), kelly (335), snap ring (331) left side surface is fixed mutually with push pedal (322) right-hand member, snap ring (331) right side surface is closely laminated with foam-rubber cushion (332), snap ring (331) internally mounted has partial pressure pipe (333) to partial pressure pipe (333) link up mutually with nested pipe (325) right-hand member, partial pressure pipe (333) are fixed mutually and link up mutually with gasbag bubble (334), gasbag bubble (334) adopt clearance fit to install inside snap ring (331) right side, snap ring (331) right side fixed surface installs kelly (335).

4. A vibration damped air conditioning compressor as claimed in claim 1 wherein: slow down mobile mechanism (6) and include end cover (61), protruding mechanism (62), reposition of redundant personnel mechanism (63), feed liquor pipe (64), end cover (61) fixed mounting is in liquid storage cylinder (5) bottom and link up mutually, the inside fixed mounting of end cover (61) has protruding mechanism (62), protruding mechanism (62) below is equipped with reposition of redundant personnel mechanism (63) and link up mutually, reposition of redundant personnel mechanism (63) lower extreme and feed liquor pipe (64) link up mutually to feed liquor pipe (64) fixed mounting is in end cover (61) outside bottom, feed liquor pipe (64) lower extreme is fixed mutually and link up mutually with compression host computer (1) lower extreme.

5. The vibration damping air conditioner compressor as claimed in claim 4, wherein: protruding mechanism (62) are including drum cover (62a), inlet (62b), crooked pipe (62c), fixed axle (62d), barrier plate (62e), drum cover (62a) lower extreme fixed mounting is in end cover (61) inboard bottom surface, inlet (62b) are inlayed inside drum cover (62a), inlet (62b) link up with crooked pipe (62c) upper end mutually, crooked pipe (62c) lower extreme fixed mounting is at reposition of redundant personnel mechanism (63) upper surface and link up mutually, drum cover (62a) lower extreme inside is equipped with fixed axle (62d) to fixed axle (62d) outer fixed surface welding has barrier plate (62 e).

6. The vibration damped compressor according to claim 5 wherein: the shunt mechanism (63) comprises a shunt pipe (63a), a side flow port (63b), an opening and closing plate (63c) and a torsion shaft (63d), the top of the shunt pipe (63a) is fixed with and communicated with the lower end of a bent pipe (62c), the side face of the shunt pipe (63a) is provided with the side flow port (63b), the inner side of the side flow port (63b) is abutted to the opening and closing plate (63c), the upper end of the opening and closing plate (63c) is provided with the torsion shaft (63d), and the torsion shaft (63d) is hinged with the inner part of the shunt pipe (63 a).

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