CN211345945U

CN211345945U - Energy-saving damping refrigeration equipment

Info

Publication number: CN211345945U
Application number: CN201922399198.6U
Authority: CN
Inventors: 许森永
Original assignee: Kunshan Liankuan Precision Refrigeration Technology Co ltd
Current assignee: Kunshan Liankuan Precision Refrigeration Technology Co ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-08-25
Anticipated expiration: 2029-12-27

Abstract

The utility model discloses an energy-saving damping refrigeration device, wherein a compressor, a condenser, a throttle valve and an evaporator are arranged in a shell, and a damping base is arranged below the shell; a first collecting device is arranged below the evaporator; the condensing pipe comprises an outer pipe and an inner pipe, and a cooling channel is formed between the outer pipe and the inner pipe; the upper end of the compressor is provided with a water collecting tank, a second water outlet of the water collecting tank is connected with a permeable layer on the surface of the compressor, and the middle part of the water collecting tank is provided with a circular truncated cone; the damping base comprises a bottom plate and a damping plate, and a damping structure is arranged between the bottom plate and the damping plate; and a third spring, a fourth spring and a fifth spring are arranged on the connecting pin. The utility model realizes the recovery of the condensed water, and the condensed water with lower temperature is led to the surfaces of the condenser and the compressor, thereby reducing the working temperature of the condenser and the compressor, improving the working efficiency and saving the energy consumption; meanwhile, the damping base is arranged, so that the noise value of the equipment during operation is reduced, the abrasion of parts in the equipment is reduced, and the service life is prolonged.

Description

Energy-saving damping refrigeration equipment

Technical Field

The utility model belongs to the technical field of refrigeration plant, especially, relate to an energy-conserving shock-proof type refrigeration plant.

Background

The refrigeration equipment works by a compressor, refrigerant gas in an evaporator is compressed to a condenser, condensate formed in the heat dissipation process of the condenser is throttled by an expansion valve, the pressure is reduced to evaporation pressure, and the condensate enters the evaporator; the low-pressure refrigerant boils in the evaporator, absorbs heat from the cooled medium, and turns into refrigerant gas that enters the compressor. In the refrigeration process, condensed water generated by the cooling of the evaporator is also continuously discharged, and the air conditioner products on the market generally want to guide the part of the condensed water to the outside for discharging, thereby causing energy waste and environmental pollution; in addition, in the process of refrigeration, certain vibration can be generated in the operation process of the refrigeration equipment, so that the noise is high when the refrigeration equipment works, the working environment is influenced, the abrasion of internal parts of the refrigeration equipment can be caused by frequent vibration, and the service life of the refrigeration equipment is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing an energy-saving damping refrigeration device, which realizes the recovery of condensed water, leads the condensed water with lower temperature to the surfaces of a condenser and a compressor, reduces the working temperature of the condenser and the compressor, improves the working efficiency of the condenser and the compressor, and saves energy consumption; meanwhile, the damping base is arranged at the bottom of the shell, so that the noise value of the equipment during operation is reduced, the abrasion of parts in the equipment is reduced, and the service life of the equipment is prolonged.

In order to solve the technical problem, the utility model discloses a technical scheme be: an energy-saving damping refrigeration device comprises a shell, wherein a compressor, a condenser, a throttle valve and an evaporator are arranged in the shell, the compressor, the condenser, the throttle valve and the evaporator are sequentially connected, and the evaporator is connected with the compressor; a damping base is arranged below the shell, and the shell is connected with the damping base through a connecting pin;

a first collecting device is arranged below the evaporator, and is provided with a water outlet;

the condenser comprises a condensation pipe, the condensation pipe comprises an outer pipe and an inner pipe which are coaxially arranged, a cooling channel is formed between the outer pipe and the inner pipe, a first water inlet is formed in the upper end of the outer pipe, a first water outlet is formed in the lower end of the outer pipe, and the first water inlet is communicated with a water outlet of the first collecting device; a circle of water distribution plate is arranged at the water inlet of the first water inlet of the outer pipe, the water distribution plate extends from the inner wall of the outer pipe to the center, and the water distribution plate is inclined to the inner wall of the outer pipe and forms an overflow groove with the inner wall;

the upper end of the compressor is provided with a water collecting tank, the upper end of the water collecting tank is provided with a second water inlet, the lower end of the water collecting tank is provided with a second water outlet, and the second water inlet is communicated with the water outlet; the surface of the compressor is provided with a permeable layer, a second water outlet of the water collecting tank is connected with the permeable layer, the middle part of the water collecting tank is provided with a circular truncated cone, and the upper end surface of the circular truncated cone is in an upward convex arc shape and is opposite to a second water inlet;

the damping base comprises a bottom plate and a damping plate, the damping plate is arranged above the bottom plate, and a damping structure is arranged between the bottom plate and the damping plate;

the damping structure comprises guide pillars arranged at the lower ends of the damping plates and guide pillar holes arranged at the upper ends of the bottom plates, the guide pillar holes correspond to the guide pillars one by one, damping assemblies are arranged in the guide pillar holes, each damping assembly comprises a primary damping piece, a secondary damping piece and a tertiary damping piece, the primary damping piece is fixedly connected to the bottom wall of each guide pillar hole, the secondary damping pieces are arranged on the periphery of the primary damping pieces and fixedly connected with the bottom walls of the guide pillar holes, and the tertiary damping pieces are arranged on the periphery of the secondary damping pieces and fixedly connected with the bottom walls of the guide pillar holes;

the first-stage damping piece, the second-stage damping piece and the third-stage damping piece respectively comprise damping rings and damping springs, and the damping rings are fixedly connected to the upper ends of the damping springs; the upper end of the damping ring of the primary damping piece is capped;

the connecting pin penetrates through the bottom plate and the damping plate from the lower end of the bottom plate in sequence and then is inserted into the lower end of the shell to realize fixed connection; the connecting pin is characterized in that a third spring is arranged between the head of the connecting pin and the bottom plate, a fourth spring is arranged between the bottom plate and the damping plate of the connecting pin, and a fifth spring is arranged between the damping plate and the shell of the connecting pin.

Furthermore, the side edge of the water distribution plate close to the condensation pipe is arranged to be zigzag.

Furthermore, a moisture preservation layer is further arranged in the cooling channel, and the moisture preservation layer is a sponge layer or a nylon layer.

Further, the permeable layer is a sponge layer or a nylon layer.

Further, a second collecting device is arranged below the compressor, and a third water outlet is formed in the second collecting device.

Further, the connecting pin is in threaded connection with the shell.

Further, when the connecting pin locks the housing, the third spring, the fourth spring and the fifth spring are respectively in a semi-compressed state.

Furthermore, the damping plate and the bottom plate are metal plates; the shock absorption ring is a metal ring.

Further, the fixed connection is a welded connection.

Further, the primary damping member is higher than the secondary damping member, and the secondary damping member is higher than the tertiary damping member.

The utility model has the advantages that:

1. the utility model discloses a recovery of condensate water has been realized through first collection device, simultaneously, because the condensate water that retrieves has lower temperature, because the periphery of condenser pipe is equipped with the outer tube, constitutes cooling channel between outer tube and the condenser pipe, drains condensate water to the condenser surface, has reduced the condenser temperature, has improved the work efficiency of condenser to save the energy consumption; the condensed water is guided to the surface of the compressor, so that the temperature of the compressor is reduced, the working efficiency of the compressor is improved, and the energy consumption is saved; preferably, the water distribution plate is arranged, so that condensed water from the first collecting device can uniformly flow into the cooling flow channel, and the cooling efficiency of the condenser is improved, thereby achieving the purpose of energy conservation; more preferably, the circular truncated cone is arranged in the water collecting tank, the upper end face of the circular truncated cone is in an upward convex arc shape, the effects of drainage and diversion are achieved, condensed water can uniformly enter the permeable layer, and the cooling efficiency of the compressor is improved, so that the purpose of energy conservation is achieved.

2. The utility model discloses set up vibration damping mount at the bottom of casing, pass vibration damping mount's bottom plate and shock attenuation board and with casing threaded connection from vibration damping mount's below through the connecting pin, and the position of connecting pin between its head and bottom plate, the position between bottom plate and the shock attenuation board and the position between shock attenuation board and the casing set up third spring, fourth spring and fifth spring respectively, and above-mentioned spring all is in the semi-compression state when connecting pin locking state, make vibration damping mount have the shock attenuation simultaneously, the vibration amplitude of casing is unlikely too big so as to influence the stability of equipment is whole, this vibration damping mount reduces the noise value of equipment operation, reduce the part wearing and tearing inside the equipment, the life of extension equipment; a damping structure is arranged between the bottom plate and the damping plate, a guide pillar arranged below the damping plate moves downwards under the action of pressure and firstly props against a primary damping part in a guide pillar hole, and then a secondary damping part and a tertiary damping part are sequentially extruded under the action of pressure, so that the aim of gradual damping is fulfilled, and the damping effect is good; the utility model discloses a multiple shock attenuation of vibration damping mount, the shock attenuation effect is good, and the noise value when reducing equipment operation reduces the inside part wearing and tearing of equipment, prolongs the life of equipment.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the shock mount of the present invention;

FIG. 3 is an enlarged view of B1 in FIG. 2;

fig. 4 is a schematic structural diagram of the evaporator and the first collecting device of the present invention;

fig. 5 is a schematic structural diagram of the condensation pipe of the present invention;

figure 6 is a cross-sectional view of the condenser tube of the present invention;

fig. 7 is a schematic structural view of the compressor and the water collecting tank of the present invention;

fig. 8 is a schematic structural view of the water collection tank of the present invention;

the parts in the drawings are marked as follows:

the air conditioner comprises a shell 1, a compressor 11, an evaporator 14, a first collecting device 15, a water outlet 151, a condenser pipe 16, an outer pipe 17, a first water inlet 171, a first water outlet 172, a water distribution plate 173, a cooling channel 18, a water collecting tank 19, a second water inlet 191, a second water outlet 192, a circular truncated cone 193, a second collecting device 110, a third water outlet 1101, an inner pipe 111, a damping base 2, a bottom plate 21, a damping plate 22, a damping structure 23, a guide post 231, a guide post hole 232, a damping assembly 233, a primary damping piece 2331, a secondary damping piece 2332, a tertiary damping piece 2333, a connecting pin 24, a third spring 25, a fourth spring 26 and a fifth spring 27.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example (b): an energy-saving damping type refrigeration device is shown in figures 1-8 and comprises a shell 1, wherein a compressor 11, a condenser, a throttle valve and an evaporator 14 are arranged in the shell, the compressor, the condenser, the throttle valve and the evaporator are sequentially connected, and the evaporator is connected with the compressor; a damping base is arranged below the shell, and the shell is connected with the damping base through a connecting pin;

a first collecting device 15 is arranged below the evaporator, and is provided with a water outlet 51;

the condenser comprises a condensation pipe 16, the condensation pipe comprises an outer pipe 17 and an inner pipe 111 which are coaxially arranged, a cooling channel 18 is formed between the outer pipe and the inner pipe, the upper end of the outer pipe is provided with a first water inlet 171, the lower end of the outer pipe is provided with a first water outlet 172, and the first water inlet is communicated with a water outlet of a first collecting device; a circle of water distribution plate 173 is arranged at the water inlet of the first water inlet of the outer pipe, extends from the inner wall of the outer pipe to the center, is inclined to the inner wall of the outer pipe and forms an overflow groove with the inner wall, and condensed water flows into a moisture retention layer in the cooling channel after passing through the overflow groove, so that the cooling effect of the condenser is improved;

the upper end of the compressor is provided with a water collecting tank 19, the upper end of the water collecting tank is provided with a second water inlet 191, the lower end of the water collecting tank is provided with a second water outlet 192, and the second water inlet is communicated with the water outlet; the surface of the compressor is provided with a permeable layer, a second water outlet of the water collecting tank is connected with the permeable layer, the middle part of the water collecting tank is provided with a circular truncated cone 193, the upper end surface of the circular truncated cone is in an upward convex arc shape and is opposite to a second water inlet;

the damping base comprises a bottom plate 21 and a damping plate 22, the damping plate is arranged above the bottom plate, and a damping structure 23 is arranged between the bottom plate and the damping plate;

the damping structure comprises guide pillars 231 arranged at the lower ends of the damping plates and guide pillar holes 232 arranged at the upper ends of the bottom plates, the guide pillar holes correspond to the guide pillars one by one, damping assemblies 233 are arranged in the guide pillar holes, each damping assembly comprises a primary damping member 2331, a secondary damping member 2332 and a tertiary damping member 2333, the primary damping member is fixedly connected to the bottom walls of the guide pillar holes, the secondary damping member is arranged on the periphery of the primary damping member and is fixedly connected with the bottom walls of the guide pillar holes, and the tertiary damping member is arranged on the periphery of the secondary damping member and is fixedly connected with the bottom walls of the guide pillar holes;

the primary damping piece, the secondary damping piece and the tertiary damping piece respectively comprise damping rings (not shown) and damping springs (not shown), and the damping rings are connected to the upper ends of the damping springs;

the primary damping member comprises a first damping ring (not shown) and a first damping spring (not shown), and the first damping ring is connected to the upper end of the first damping spring; the diameter of the first damping ring is matched with that of the first damping spring; the upper end of the first shock absorption ring is capped;

the secondary damping member comprises a second damping ring (not shown) and a second damping spring (not shown), and the second damping ring is connected to the upper end of the second damping spring; the diameter of the second damping ring is matched with that of the second damping spring;

the third-stage damping member comprises a third damping ring (not shown) and a third damping spring (not shown), and the third damping ring is connected to the upper end of the third damping spring; the diameter of the third damping ring is matched with that of the third damping spring;

the connecting pin 24 penetrates through the bottom plate and the damping plate from the lower end of the bottom plate in sequence and then is inserted into the lower end of the shell to realize fixed connection; a third spring 25 is arranged between the head of the connecting pin and the bottom plate, a fourth spring 26 is arranged at the position of the connecting pin between the bottom plate and the damping plate, and a fifth spring 27 is arranged at the position of the connecting pin between the damping plate and the shell.

The connecting pin is in threaded connection with the shell.

When the connecting pin locks the shell, the third spring, the fourth spring and the fifth spring are respectively in a semi-compression state; so set up, make vibration damping mount have the shock attenuation while, thereby the vibration amplitude of casing is unlikely to too big influence the holistic stability of equipment.

The semi-compressed state refers to: the spring is in compression but there is room for continued compression.

The damping plate and the bottom plate are metal plates; the shock absorption ring is a metal ring.

The fixed connection is welded connection.

The first-level damping piece is higher than the second-level damping piece, and the second-level damping piece is higher than the third-level damping piece.

The diameter of the guide post is matched with that of the guide post hole.

The cross-section of casing is the rectangle, the bottom plate with the shock attenuation board all is the rectangle, four angles of rectangle are equipped with the jack that supplies the connecting pin to peg graft respectively, the casing is equipped with and wants the screw hole that corresponds with the jack, the connecting pin passes the bottom plate and inserts in the screw hole of casing behind the shock attenuation board and casing threaded connection.

The side edge of the water distribution plate close to the condensation pipe is arranged to be in a sawtooth shape, so that uniform water distribution is facilitated.

And a moisture retention layer is also arranged in the cooling channel.

The moisture-keeping layer is a sponge layer or a nylon layer.

The permeable formation is a sponge layer or a nylon layer.

The water distribution plate is integrally formed with the outer pipe.

The circular truncated cone and the water collecting tank are integrally formed.

A second collecting device 110 is arranged below the compressor, and the second collecting device is provided with a third water outlet 1101.

The condensed water flowing out of the first water outlet and the third water outlet can continuously exchange heat with the condenser, so that repeated utilization of the condensed water is realized, the utilization rate of the condensed water is improved, and the energy-saving and environment-friendly effects are achieved.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims

1. The utility model provides an energy-conserving shock-proof type refrigeration plant which characterized in that: the condenser-type air conditioner comprises a shell, wherein a compressor, a condenser, a throttle valve and an evaporator are arranged in the shell, the compressor, the condenser, the throttle valve and the evaporator are sequentially connected, and the evaporator is connected with the compressor; a damping base is arranged below the shell, and the shell is connected with the damping base through a connecting pin;

2. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: the side edge of the water distribution plate close to the condensation pipe is arranged to be serrated.

3. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: still be equipped with the moisturizing layer in the cooling passage, the moisturizing layer is sponge layer or nylon layer.

4. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: the permeable formation is a sponge layer or a nylon layer.

5. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: and a second collecting device is arranged below the compressor and provided with a third water outlet.

6. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: the connecting pin is in threaded connection with the shell.

7. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: when the connecting pin locks the shell, the third spring, the fourth spring and the fifth spring are respectively in a semi-compression state.

8. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: the damping plate and the bottom plate are metal plates; the shock absorption ring is a metal ring.

9. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 8, wherein: the fixed connection is welded connection.

10. The energy-saving and shock-absorbing type refrigerating apparatus according to claim 1, wherein: the first-level damping piece is higher than the second-level damping piece, and the second-level damping piece is higher than the third-level damping piece.