CN211953331U - High-efficient refrigeration condenser - Google Patents

Abstract

The utility model discloses a high-efficient refrigeration condenser, including the organism, the organism includes frame, condensation subassembly and axial fan, and in the frame was located to the condensation subassembly, the top of frame was equipped with the roof, and on axial fan located the roof, axial fan was located the top of condensation subassembly, and the both ends of condensation subassembly are equipped with seal assembly, and the outside of frame is equipped with the concatenation subassembly, and the concatenation subassembly is used for assembling between two at least organisms. The utility model discloses a quick radiating effect, at the outside installation concatenation subassembly of frame after that, in the use, the vibrations of condenser are big, the temperature is high, assembles a plurality of condensers through the concatenation subassembly to make a plurality of condensers realize the integration, guaranteed can not influence each other between a plurality of condensers.

Description

High-efficient refrigeration condenser

Technical Field

The utility model belongs to the technical field of refrigeration plant, concretely relates to high-efficient refrigeration condenser.

Background

The condenser is a component of a refrigeration system, belonging to a type of heat exchanger, which can convert gas or vapor into liquid and transfer the heat in the tube to the air near the tube in a quick manner. The working process of the condenser is a heat release process, so the temperature of the condenser is higher; the gas passes through a long tube (usually coiled into a solenoid) to dissipate heat into the surrounding air, and metals such as copper, which are highly thermally conductive, are commonly used to transport vapor. In order to improve the efficiency of the condenser, radiating fins with excellent heat conduction performance are often added on the pipeline, the radiating area is enlarged to accelerate the heat dissipation, and the air convection is accelerated through a fan to take away the heat.

At present, for a large central air conditioner, an outdoor unit needs a large condenser so as to ensure high heat dissipation rate. The power required to the condenser is also generally different depending on the area and temperature to be adjusted. At present, in order to solve the problems, a plurality of condensers are often required to be assembled so as to ensure that the use requirements are met. At present, how to design a single condenser to better assemble a plurality of condensers is a technical problem to be solved by the technology in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems in the prior art, the utility model provides a high-efficient refrigeration condenser, through installing the condensation subassembly in the frame, install axial fan on the roof at the top of frame, then install seal assembly on the condensation subassembly, axial fan work back, wind enters into the condensation subassembly from the both sides of condensation subassembly, because seal assembly's setting, the leakproofness in the condensation subassembly has been guaranteed, make wind upwards discharge through axial fan again, thereby the effect of quick heat dissipation has been realized, then install the concatenation subassembly in the outside of frame, in the use, the vibrations of condenser are big, the temperature is high, assemble a plurality of condensers through the concatenation subassembly, thereby make a plurality of condensers realize the integration, can not influence each other between a plurality of condensers; in the installation method, the installation position of the first condenser is determined according to the size of the condenser, the positions of the groove on the installation platform and the first sliding groove, so that the first condenser is convenient to adjust in position and the subsequent condenser is convenient to install, the subsequent condenser is prevented from being placed on the positions of the groove on the installation platform and the first sliding groove in the installation process and being clamped, the condenser is placed on the lifting rod of the adjusting platform on the y-axis adjusting platform, the lifting rod drives the condenser to lift, the position of the condenser is convenient to adjust, the arrangement of the balancing weight increases the adjustment stability of the condenser, the second driving motor drives the y-axis ball screw to rotate, so that the adjusting platform and the lifting frame on the adjusting platform are driven to move in the y-axis direction, the second driving motor drives the x-axis ball screw to rotate, so that the y-axis adjusting platform is driven to move in the x-axis direction, and then, after the first condenser is installed on the first installation station, the condenser in the y-axis direction is firstly assembled until the condenser in the y-axis direction is assembled, and then the condenser in the x-axis direction is assembled, so that the assembly of the condenser is completed.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a high-efficient refrigeration condenser, includes the organism, its characterized in that: the organism includes frame, condensation subassembly and axial fan, and in the frame was located to the condensation subassembly, the top of frame was equipped with the roof, and axial fan located on the roof, axial fan was located the top of condensation subassembly, and the both ends of condensation subassembly are equipped with seal assembly, and the outside of frame is equipped with the concatenation subassembly, and the concatenation subassembly is used for assembling between two at least organisms. The utility model discloses an at the interior installation condensation subassembly of frame, install axial fan on the roof at the top of frame, install seal assembly on condensation subassembly after that, axial fan work back, wind enters into in the condensation subassembly from condensation subassembly's both sides, because seal assembly's setting, the leakproofness in the condensation subassembly has been guaranteed, make wind rethread axial fan upwards discharge, thereby quick radiating effect has been realized, at the outside installation concatenation subassembly of frame after that, in the use, the vibrations of condenser are big, high temperature, assemble a plurality of condensers through the concatenation subassembly, thereby make a plurality of condensers realize the integration, can not influence each other between a plurality of condensers has been guaranteed.

Further, the bottom of frame is equipped with the support frame, and the support frame supports condensation assembly's bottom, and condensation assembly includes V type condensing coil and protection casing, and protection casing fixed connection is in V type condensing coil's both sides, and V type condensing coil connects on seal assembly in the bottom, fixed connection between V type condensing coil's the top and seal assembly's the top, and seal assembly's bottom supports on the support frame. The setting of support frame has increased the steadiness of being connected between condensation subassembly and seal assembly and the frame.

Further, seal assembly includes base and closing plate, and closing plate fixed connection is at the both ends of base respectively, and sealing connection between closing plate and V type condensing coil's the front and back both sides, the base is equipped with the locating piece, and V type condensing coil's bottom corresponds the locating piece and is equipped with the constant head tank, and the locating piece inserts in the constant head tank. The base is installed to V type condensing coil's bottom for the locating piece has increased V type condensing coil's installation accuracy in inserting the constant head tank, and closing plate sealing connection is both sides around V type condensing coil, thereby has increased condensation assembly's whole leakproofness, has improved heat exchange efficiency.

Further, the roof is equipped with the bellied mounting hole that makes progress, and the mounting hole runs through the roof, and the mounting hole communicates in with the condensation subassembly, and axial fan locates in the mounting hole, and the outside cover of mounting hole is equipped with the fan cover. The arrangement of the mounting hole is convenient for the mounting of the axial flow fan, and the fan cover plays a role in protecting the axial flow fan.

Further, fixedly connected with compresses tightly the subassembly on the roof, and the upper portion that compresses tightly the subassembly compresses tightly the roof, compresses tightly the bottom of subassembly and the top fixed connection of concatenation subassembly. Axial fan during operation can produce great vibrations to arouse the vibrations of roof, lead to the not hard up of roof even, the setting that compresses tightly the subassembly plays a effect that compresses tightly to the roof, avoids not hard up of roof, and has reduced the vibrations of roof.

Further, the roof is the step form, and the pressure subassembly is equipped with the pressure frame, and the top that compresses tightly the frame is equipped with the portion of compressing tightly of inside extension, and the bottom of the portion of compressing tightly supports the roof, and the top of the portion of compressing tightly is equipped with first fastening screw, and first fastening screw passes the portion of compressing tightly and twists in the roof. Compress tightly the roof through the portion that compresses tightly, first fastening screw will compress tightly frame and roof fixed connection to realized compressing tightly the effect of subassembly to the roof, avoided the not hard up of roof, and reduced the vibrations of roof.

Further, the concatenation subassembly includes first concatenation frame, the second concatenation frame, third concatenation frame and fourth concatenation frame, first concatenation frame fixed connection is in the front side of frame, second concatenation frame fixed connection is in the rear side of frame, third concatenation frame fixed connection is in the right side of frame, fourth concatenation frame fixed connection is in the left side of frame, first concatenation frame and second concatenation frame phase-match, third concatenation frame is in fourth concatenation frame phase-match, the bottom that compresses tightly the frame is equipped with downwardly extending's chucking portion, the upper end of chucking portion chucking frame, first concatenation frame is supported respectively to the four sides of the bottom of chucking portion, the second concatenation frame, the top of third concatenation frame and fourth concatenation frame, the bottom of chucking portion is equipped with the spacing groove, first concatenation frame, the second concatenation frame, third concatenation frame all is equipped with the stopper with the top of fourth concatenation frame, stopper and spacing groove phase-match. Firstly, first splice frame, the second splice frame, the frame is installed to third splice frame and fourth splice frame, install the roof again, will compress tightly the frame and compress tightly on the roof after that, make the chucking of card-tight part in the outside of frame, the stability of frame has been increased, first splice frame, the second splice frame, the stopper at the top of third splice frame and fourth splice frame inserts the spacing groove of card-tight part, thereby realized compressing tightly subassembly and splicing assembly's being connected, guaranteed compressing tightly subassembly and splicing assembly's an organic whole nature.

Further, the equal fixedly connected with triangle boss in four corners department of first concatenation frame and second concatenation frame, the triangle boss extends to one side of frame, and one side of triangle boss supports the frame, and fixedly connected with second fastening screw between frame and the triangle boss, the four sides of first concatenation frame are equipped with first concatenation piece, and the second concatenation frame corresponds first concatenation piece and is equipped with first splice groove, first splice groove and first concatenation piece phase-match. The setting up of triangle boss has increased first concatenation frame, the steadiness of second concatenation frame, the triangle boss extends to one side of frame, the steadiness of frame has still been increased, twist the second fastening screw between frame and the triangle boss, thereby realized first concatenation frame, the frame is assembled respectively in frame fixed connection to the second, when assembling between a plurality of condensers, insert the first concatenation piece that is located the first concatenation piece of assembling the condenser of front end to the second that is located the condenser of rear end and assemble the first splice groove on the frame, thereby accomplish the condenser and in the ascending installation of x axle.

Furthermore, all be equipped with the stiffener in third splice frame and the fourth splice frame, the stiffener extends to one side of frame, and the upper and lower both sides of stiffener support the frame, fixedly connected with third fastening screw between frame and the stiffener, and the four sides of third splice frame all are equipped with the second and splice the piece, and the fourth splice frame corresponds the second and splices the piece and is equipped with the second splice groove, second splice piece and splice groove phase-match. The setting up of stiffener has increased the third splice frame, the steadiness of fourth splice frame, the stiffener extends to one side of frame, the steadiness of frame has still been increased, twist third fastening screw between frame and the stiffener, thereby realized the third splice frame, the fourth splice frame is respectively in frame fixed connection, when assembling between a plurality of condensers, make the second splice block on the third splice frame on the condenser on right side insert the second splice groove on the fourth splice frame on the left condenser, thereby accomplish the installation of condenser in the y axial.

The installation method of the high-efficiency refrigeration condenser is characterized by comprising the following steps:

a. preparation before installation

The mounting table is first reset, the condenser size is then measured, and suitable cranes are then prepared according to the condenser size.

b. Fixed point

Firstly, setting a first installation station in an installation area of an installation platform according to the position of a groove on the installation platform, the first sliding groove and the size of a condenser;

c. assembly of condenser

1) Condenser clamp

Firstly, a condenser is placed on a lifting rod on one side of a lifting frame, the lifting frame and the lifting rod are positioned on one side of a y-axis adjusting platform, the other side of the lifting frame is connected with a balancing weight, the balancing weight is installed on the y-axis adjusting platform, the lifting rod props against the bottom of a machine body, and then the lifting rod rises to drive the condenser to rise so as to suspend the condenser in the air;

2) adjustment of condenser y-axis

A second driving motor drives a y-axis ball screw on the y-axis adjusting platform to rotate, so that a second sliding block connected to the y-axis ball screw drives a lifting frame on the adjusting platform to move, and a second sliding block at the bottom of the adjusting platform slides along a sliding rail at the top of the y-axis adjusting platform in the y-axis direction, so that a first condenser moves to a set position in the y-axis direction;

3) x-axial adjustment of condenser

The first driving motor drives the X-axis ball screw positioned in the groove of the mounting table to rotate, so that the first sliding block connected to the X-axis ball screw drives the y-axis adjusting platform to move, the first sliding blocks at two ends of the bottom of the y-axis adjusting platform slide along the first sliding groove on the mounting table in the X-axis direction, and the first condenser moves above the first mounting station;

4) placement of the condenser

The lifting rod is controlled to descend, so that the condenser is placed on a first station of an installation area of the installation platform, the lifting rod continues to descend, the lifting rod is separated from the machine body, the first driving motor operates, the y-axis adjusting platform resets, the second driving motor operates, the adjusting platform resets, and the second condenser continues to be conveyed;

5) inter-assembly between condensers

According to the position of the first station, a second station is determined, the second condenser is assembled in the y-axis direction, the second splicing block on the third splicing frame on the first condenser is inserted into the second splicing groove on the fourth splicing frame on the second condenser, and during splicing in the x-axis direction, the first splicing block on the first splicing frame of the condenser positioned at the front end is inserted into the first splicing groove on the second splicing frame of the condenser positioned at the rear end, so that the condenser is assembled.

The utility model discloses owing to adopted above-mentioned technical scheme, following beneficial effect has:

the utility model discloses an at the interior installation condensation subassembly of frame, install axial fan on the roof at the top of frame, install seal assembly on condensation subassembly after that, axial fan work back, wind enters into in the condensation subassembly from condensation subassembly's both sides, because seal assembly's setting, the leakproofness in the condensation subassembly has been guaranteed, make wind rethread axial fan upwards discharge, thereby quick radiating effect has been realized, at the outside installation concatenation subassembly of frame after that, in the use, the vibrations of condenser are big, high temperature, assemble a plurality of condensers through the concatenation subassembly, thereby make a plurality of condensers realize the integration, can not influence each other between a plurality of condensers has been guaranteed.

The utility model discloses well concatenation subassembly includes first concatenation frame, the second concatenation frame, third concatenation frame and fourth concatenation frame, first concatenation frame fixed connection is in the front side of frame, second concatenation frame fixed connection is in the rear side of frame, third concatenation frame fixed connection is in the right side of frame, fourth concatenation frame fixed connection is in the left side of frame, first concatenation frame and second concatenation frame phase-match, third concatenation frame is in fourth concatenation frame phase-match, the bottom that compresses tightly the frame is equipped with downwardly extending's chucking part, the upper end of chucking part chucking frame, first concatenation frame is supported respectively to the four sides of the bottom of chucking part, the second concatenation frame, the top of third concatenation frame and fourth concatenation frame, the bottom of chucking part is equipped with the spacing groove, first concatenation frame, the second concatenation frame, third concatenation frame all is equipped with the stopper with the top of fourth concatenation frame, stopper and spacing groove phase-match. Firstly, first splice frame, the second splice frame, the frame is installed to third splice frame and fourth splice frame, install the roof again, will compress tightly the frame and compress tightly on the roof after that, make the chucking of card-tight part in the outside of frame, the stability of frame has been increased, first splice frame, the second splice frame, the stopper at the top of third splice frame and fourth splice frame inserts the spacing groove of card-tight part, thereby realized compressing tightly subassembly and splicing assembly's being connected, guaranteed compressing tightly subassembly and splicing assembly's an organic whole nature.

The utility model discloses at the equal fixedly connected with triangle boss in the four corners department of first concatenation frame and second concatenation frame, the triangle boss extends to one side of frame, and one side of triangle boss supports the frame, fixedly connected with second fastening screw between frame and the triangle boss, and the four sides of first concatenation frame are equipped with first concatenation piece, and the second concatenation frame corresponds first concatenation piece and is equipped with first concatenation groove, first concatenation groove and first concatenation piece phase-match. The setting up of triangle boss has increased first concatenation frame, the steadiness of second concatenation frame, the triangle boss extends to one side of frame, the steadiness of frame has still been increased, twist the second fastening screw between frame and the triangle boss, thereby realized first concatenation frame, the frame is assembled respectively in frame fixed connection to the second, when assembling between a plurality of condensers, insert the first concatenation piece that is located the first concatenation piece of assembling the condenser of front end to the second that is located the condenser of rear end and assemble the first splice groove on the frame, thereby accomplish the condenser and in the ascending installation of x axle.

The utility model discloses all be equipped with the stiffener in third concatenation frame and fourth concatenation frame, the stiffener extends to one side of frame, and the upper and lower both sides of stiffener support the frame, fixedly connected with third fastening screw between frame and the stiffener, and the four sides of third concatenation frame all are equipped with the second and splice the piece, and the fourth concatenation frame corresponds the second and splices the piece and is equipped with the second splice groove, second splice piece and splice groove phase-match. The setting up of stiffener has increased the third splice frame, the steadiness of fourth splice frame, the stiffener extends to one side of frame, the steadiness of frame has still been increased, twist third fastening screw between frame and the stiffener, thereby realized the third splice frame, the fourth splice frame is respectively in frame fixed connection, when assembling between a plurality of condensers, make the second splice block on the third splice frame on the condenser on right side insert the second splice groove on the fourth splice frame on the left condenser, thereby accomplish the installation of condenser in the y axial.

In the step b, the installation position of the first condenser is determined according to the size of the condenser, the position of the groove on the installation platform and the position of the first sliding groove, so that the first condenser is convenient to adjust on position, the subsequent condenser is convenient to install, the subsequent condenser is prevented from being placed on the position of the groove on the installation platform and the first sliding groove in the installation process,

the utility model discloses in step c, the clamping of condenser, on the lifter of the regulation platform on the platform is adjusted to y axial through placing the condenser, the lifter drives the condenser and rises, the regulation of the condenser position of being convenient for, the setting of balancing weight has increased the stability that the condenser was adjusted, second driving motor drive y axial ball rotates, thereby it carries out the ascending removal of y axial to drive the crane on regulation platform and the regulation platform, second driving motor drive x axial ball rotates, thereby it adjusts the platform at the ascending removal of x axial to drive y axial, after installing first installation station with first condenser, assemble the condenser in the y axial earlier, after the equipment of the ascending condenser in the y axial is accomplished, assemble the ascending condenser in the x axial again, thereby accomplish the equipment of condenser.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic structural view of a high-efficiency refrigeration condenser of the present invention;

FIG. 2 is a schematic structural view of the connection between the middle frame and the axial flow fan;

FIG. 3 is a schematic structural view of the splicing assembly of the present invention;

fig. 4 is a schematic structural view of the middle pressing frame of the present invention;

fig. 5 is a schematic structural view of the sealing assembly of the present invention;

FIG. 6 is a schematic structural view of a V-shaped condensing coil according to the present invention;

FIG. 7 is a schematic structural view of the lifting rod of the present invention lifting the body;

fig. 8 is a schematic structural view of the machine body of the present invention being conveyed to a first mounting station;

fig. 9 is a schematic structural view of the machine body of the present invention when the machine body is placed at the first mounting station;

fig. 10 is a schematic structural view of the assembled middle body of the present invention;

in the figure, 1-body; 2-a frame; 3-a condensing assembly; 4-an axial flow fan; 5-a sealing component; 6-splicing the components; 7-a support frame; 8-V type condensing coil; 9-a protective cover; 10-a base; 11-a sealing plate; 12-positioning blocks; 13-positioning grooves; 14-mounting holes; 15-a top plate; 16-a fan guard; 17-a hold down assembly; 18-a compacting frame; 19-a first fastening screw; 20-a first splice rack; 21-a second splice rack; 22-a third splicing frame; 23-a fourth splice rack; 24-a gripping portion; 25-a limit groove; 26-a limiting block; 27-triangular reinforcing blocks; 28-a second fastening screw; 29-a first tile; 30-a first splice groove; 31-a reinforcing rod; 32-a third fastening screw; 33-a second tile; 34-a second splice groove; 35-a mounting table; 36-a groove; 37-a first glide groove; 38-a lifting frame; 39-lifting rod; a 40-y axial adjustment platform; 41-a balancing weight; 42-a second drive motor; a 43-y axial ball screw; 44-a second slide; 45-adjusting the table; 46-a second sliding block; 47-a slide rail; 48-a first drive motor; 49-X axial ball screw; 50-a first slider; 51-a first sliding block; 52-the compacting section.

Detailed Description

As shown in fig. 1 to 6, for the utility model relates to a high-efficient refrigeration condenser, including organism 1, organism 1 includes frame 2, condensation subassembly 3 and axial fan 4, and condensation subassembly 3 is located in frame 2, and the top of frame 2 is equipped with roof 15, and on axial fan 4 located roof 15, axial fan 4 was located condensation subassembly 3's top, and condensation subassembly 3's both ends are equipped with seal assembly 5, and the outside of frame 2 is equipped with concatenation subassembly 6, and concatenation subassembly 6 is used for assembling between two at least organisms 1.

The bottom of frame 2 is equipped with support frame 7, and support frame 7 supports the bottom of condensation subassembly 3, and condensation subassembly 3 includes V type condensing coil 8 and protection casing 9, and 9 fixed connection of protection casing are in V type condensing coil 8's both sides, and 8 bottom connections of V type condensing coil are on seal assembly 5, fixed connection between the top of V type condensing coil 8 and seal assembly 5's the top, and seal assembly 5's bottom supports on support frame 7. The arrangement of the support frame 7 increases the connection stability between the condensation assembly 3 and the sealing assembly 5 and the frame 2.

Seal assembly 5 includes base 10 and closing plate 11, and closing plate 11 is fixed connection respectively at the both ends of base 10, sealing connection between closing plate 11 and V type condenser coil 8's the front and back both sides, and base 10 is equipped with locating piece 12, and V type condenser coil 8's bottom corresponds locating piece 12 and is equipped with constant head tank 13, and locating piece 12 inserts in constant head tank 13. The base 10 is installed to V type condenser coil 8's bottom for locating piece 12 has increased V type condenser coil 8's installation accuracy in inserting constant head tank 13, and both sides around V type condenser coil 8 are connected in closing plate 11 sealing, thereby have increased condensation assembly 3's whole leakproofness, have improved heat exchange efficiency.

The top plate 15 is provided with an upward convex mounting hole 14, the mounting hole 14 penetrates through the top plate 15, the mounting hole 14 is communicated with the interior of the condensation component 3, the axial flow fan 4 is arranged in the mounting hole 14, and a fan cover 16 is sleeved on the outer side of the mounting hole 14. The installation hole 14 is provided to facilitate the installation of the axial flow fan 4, and the fan guard 16 plays a role in protecting the axial flow fan 4.

The top plate 15 is fixedly connected with a pressing assembly 17, the upper portion of the pressing assembly 17 presses the top plate 15, and the bottom of the pressing assembly 17 is fixedly connected with the top of the splicing assembly 6. Axial fan 4 during operation can produce great vibrations to arouse the vibrations of roof 15, lead to the not hard up of roof 15 even, the setting that compresses tightly subassembly 17 plays a effect that compresses tightly to roof 15, avoids not hard up of roof 15, and has reduced the vibrations of roof 15.

The top plate 15 is step-shaped, the pressing assembly 17 is provided with a pressing frame 18, the top of the pressing frame 18 is provided with a pressing portion 52 extending inwards, the bottom of the pressing portion 52 is abutted against the top plate 15, the top end of the pressing portion 52 is provided with a first fastening screw 19, and the first fastening screw 19 penetrates through the pressing portion 52 and is screwed into the top plate 15. The top plate 15 is pressed by the pressing part 52, and the pressing frame 18 and the top plate 15 are fixedly connected by the first fastening screw 19, so that the pressing effect of the pressing assembly 17 on the top plate 15 is realized, the looseness of the top plate 15 is avoided, and the vibration of the top plate 15 is reduced.

The splicing component 6 comprises a first splicing frame 20, a second splicing frame 21, a third splicing frame 22 and a fourth splicing frame 23, the first splicing frame 20 is fixedly connected to the front side of the frame 2, the second splicing frame 21 is fixedly connected to the rear side of the frame 2, the third splicing frame 22 is fixedly connected to the right side of the frame 2, the fourth splicing frame 23 is fixedly connected to the left side of the frame 2, the first splicing frame 20 is matched with the second splicing frame 21, the third splicing frame 22 is matched with the fourth splicing frame 23, a clamping part 24 extending downwards is arranged at the bottom of the pressing frame 18, the clamping part 24 clamps the upper end of the frame 2, four sides of the bottom of the clamping part 24 respectively abut against the tops of the first splicing frame 20, the second splicing frame 21, the third splicing frame 22 and the fourth splicing frame 23, a limiting groove 25 is arranged at the bottom of the clamping part 24, the tops of the first splicing frame 20, the second splicing frame 21, the third splicing frame 22 and the fourth splicing frame 23 are respectively provided with a limiting block 26, the limiting block 26 is matched with the limiting groove 25. Firstly, install first splice rack 20, second splice rack 21, third splice rack 22 and fourth splice rack 23 on frame 2, install roof 15 again, will compress tightly frame 18 and compress tightly on roof 15 next, make chucking 24 chucking in the outside of frame 2, the stability of frame 2 has been increased, first splice rack 20, second splice rack 21, stopper 26 at the top of third splice rack 22 and fourth splice rack 23 inserts in the spacing groove 25 of chucking 24, thereby realized compressing tightly subassembly 17 and splice subassembly 6's being connected, guaranteed compressing tightly subassembly 17 and splice subassembly 6's an organic whole nature.

Equal fixedly connected with triangle boss 27 in the four corners department of first splice rack 20 and second splice rack 21, triangle boss 27 extends to one side of frame 2, and one side of triangle boss 27 supports frame 2, and fixedly connected with second fastening screw 28 between frame 2 and the triangle boss 27, and the four sides of first splice rack 20 are equipped with first splice block 29, and second splice rack 21 corresponds first splice block 29 and is equipped with first splice groove 30, first splice groove 30 and first splice block 29 phase-match. The triangle reinforcing block 27 is arranged to increase the stability of the first splicing frame 20 and the second splicing frame 21, the triangle reinforcing block 27 extends to one side of the rack 2, the stability of the rack 2 is also increased, the second fastening screws 28 are screwed between the rack 2 and the triangle reinforcing block 27, so that the first splicing frame and the second splicing frame are respectively fixedly connected with the rack 2, when a plurality of condensers are assembled, the first splicing block 29 on the first splicing frame of the condenser positioned at the front end is inserted into the first splicing groove 30 on the second splicing frame of the condenser positioned at the rear end, and the condenser is installed in the x-axis direction.

All be equipped with stiffener 31 in third splice frame 22 and the fourth splice frame 23, stiffener 31 extends to one side of frame 2, and the upper and lower both sides of stiffener 31 support frame 2, fixedly connected with third fastening screw 32 between frame 2 and the stiffener 31, and the four sides of third splice frame 22 all are equipped with second concatenation piece 33, and fourth splice frame 23 corresponds second concatenation piece 33 and is equipped with second splice groove 34, and second concatenation piece 33 and splice groove phase-match. The setting of stiffener 31 has increased third splice frame 22, the steadiness of fourth splice frame 23, stiffener 31 extends to one side of frame 2, the steadiness of frame 2 has still been increased, screw in third fastening screw 32 between frame 2 and the stiffener 31, thereby the third splice frame has been realized, the fourth splice frame is respectively in frame 2 fixed connection, when assembling between a plurality of condensers, make the second splice piece 33 on the third splice frame on the condenser on right side insert the second splice groove 34 on the fourth splice frame on the left condenser, thereby accomplish the ascending installation of condenser in the y axle.

As shown in fig. 7 to 10, the method for installing a high-efficiency refrigeration condenser of the present invention comprises the following steps:

a. preparation before installation

The mounting table 35 is first reset, the condenser size is then measured, and suitable cranes 38 are then prepared according to the condenser size.

b. Fixed point

First, a first mounting position is set in the mounting area of the mounting table 35 according to the position of the groove 36 and the first sliding groove 37 on the mounting table 35 and the size of the condenser.

c. Assembly of condenser

1) Condenser clamp

On the lifter 39 on crane 38 one side was placed at first to the condenser, crane 38 was located one side of y axial adjustment platform 40 with lifter 39, and balancing weight 41 is connected to crane 38's opposite side, and balancing weight 41 installs on y axial adjustment platform 40, and lifter 39 supports the bottom of organism 1, and lifter 39 rises after that to drive the condenser and rise, make the condenser unsettled.

2) Adjustment of condenser y-axis

The second driving motor 42 drives the y-axis ball screw 43 on the y-axis adjusting platform 40 to rotate, so that the second slider 44 connected to the y-axis ball screw 43 drives the lifting frame 38 on the adjusting platform 45 to move, and the second sliding block 46 at the bottom of the adjusting platform 45 slides along the slide rail 47 at the top of the y-axis adjusting platform 40 in the y-axis direction, so that the first condenser moves to a set position in the y-axis direction.

3) X-axial adjustment of condenser

The first driving motor 48 drives the X-axis ball screw 49 located in the groove 36 of the mounting table 35 to rotate, so that the first slider 50 connected to the X-axis ball screw 49 drives the y-axis adjusting platform 40 to move, and the first sliding blocks 51 at the two ends of the bottom of the y-axis adjusting platform 40 slide in the X-axis direction along the first sliding grooves 37 on the mounting table 35, so that the first condenser moves to the position above the first mounting station.

4) Placement of the condenser

Controlling the lifting rod 39 to descend so that the condenser is placed on the first station of the installation area of the installation platform 35, continuously descending the lifting rod 39 so that the lifting rod 39 is separated from the machine body 1, operating the first driving motor 48 so that the y-axis adjusting platform 40 is reset, operating the second driving motor 42 so that the adjusting platform 45 is reset, and continuously conveying the second condenser;

5) inter-assembly between condensers

And according to the position of the first station, determining a second station, assembling the second condenser in the y-axis direction, inserting the second splicing block 33 on the third splicing frame on the first condenser into the second splicing groove 34 on the fourth splicing frame on the second condenser, and inserting the first splicing block 29 on the first splicing frame of the condenser at the front end into the first splicing groove 30 on the second splicing frame of the condenser at the rear end during splicing in the x-axis direction, thereby completing the assembly of the condenser.

The utility model discloses an install condensation subassembly 3 in frame 2, install axial fan 4 on the roof 15 at the top of frame 2, then install seal assembly 5 on condensation subassembly 3, axial fan 4 work back, wind enters into condensation subassembly 3 from the both sides of condensation subassembly 3 in, because seal assembly 5's setting, the leakproofness in condensation subassembly 3 has been guaranteed, make wind rethread axial fan 4 discharge upwards, thereby the effect of quick heat dissipation has been realized, then install concatenation subassembly 6 in the outside of frame 2, in the use, the vibrations of condenser are big, the temperature is high, assemble a plurality of condensers through concatenation subassembly 6, thereby make a plurality of condensers realize the integration, guaranteed that can not influence each other between a plurality of condensers; in the installation method, the installation position of the first condenser is determined according to the size of the condenser and the positions of the groove 36 and the first sliding groove 37 on the installation platform 35, so that the first condenser is convenient to adjust in position, the subsequent condenser is also convenient to install, the subsequent condenser is prevented from being placed in the positions of the groove 36 and the first sliding groove 37 on the installation platform 35 in the installation process, the condenser is clamped, the condenser is placed on the lifting rod 39 of the adjusting platform 45 on the y-axis adjusting platform 40, the lifting rod 39 drives the condenser to lift, the position of the condenser is convenient to adjust, the stability of the condenser adjustment is increased due to the arrangement of the counterweight block 41, the second driving motor 42 drives the y-axis ball screw 43 to rotate, the adjusting platform 45 and the lifting frame 38 on the adjusting platform 45 are driven to move in the y-axis direction, the second driving motor 42 drives the X-axis ball screw 49 to rotate, thereby drive y axial adjustment platform 40 and upwards remove in the x axial, after installing first condenser in first installation station, assemble the condenser on the y axial earlier, after the condenser assembly on the y axial is accomplished, assemble the ascending condenser of x axial again to accomplish the equipment of condenser.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides a high-efficient refrigeration condenser, includes the organism, its characterized in that: the machine body comprises a rack, a condensation assembly and an axial flow fan, wherein the condensation assembly is arranged in the rack, a top plate is arranged at the top of the rack, the axial flow fan is arranged on the top plate, the axial flow fan is positioned above the condensation assembly, sealing assemblies are arranged at two ends of the condensation assembly, a splicing assembly is arranged on the outer side of the rack, and the splicing assembly is used for splicing at least two machine bodies.

2. A high efficiency refrigerant condenser as set forth in claim 1 wherein: the bottom of frame is equipped with the support frame, the support frame supports the bottom of condensation subassembly, the condensation subassembly includes V type condensation coil pipe and protection casing, protection casing fixed connection be in V type condensation coil pipe's both sides, V type condensation coil pipe bottom is connected on the seal assembly, V type condensation coil pipe's top with fixed connection between the top of seal assembly, seal assembly's bottom supports on the support frame.

3. A high efficiency refrigerant condenser as set forth in claim 2 wherein: the sealing assembly comprises a base and sealing plates, the sealing plates are fixedly connected to two ends of the base respectively, the sealing plates are connected with the front side and the rear side of the V-shaped condensing coil in a sealing mode, a positioning block is arranged on the base, the bottom of the V-shaped condensing coil corresponds to the positioning block and is provided with a positioning groove, and the positioning block is inserted into the positioning groove.

4. A high efficiency refrigerant condenser as set forth in claim 1 wherein: the top plate is provided with an upward protruding mounting hole, the mounting hole penetrates through the top plate, the mounting hole is communicated with the interior of the condensation assembly, the axial flow fan is arranged in the mounting hole, and a fan cover is sleeved on the outer side of the mounting hole.

5. A high efficiency refrigerant condenser as set forth in claim 1 wherein: the top plate is fixedly connected with a pressing assembly, the upper portion of the pressing assembly presses the top plate, and the bottom of the pressing assembly is fixedly connected with the top of the splicing assembly.

6. A high efficiency refrigerant condenser as set forth in claim 5 wherein: the top plate is step-shaped, the pressing assembly is provided with a pressing frame, the top of the pressing frame is provided with a pressing portion extending inwards, the bottom of the pressing portion abuts against the top plate, the top end of the pressing portion is provided with a first fastening screw, and the first fastening screw penetrates through the pressing portion and is screwed into the top plate.

7. A high efficiency refrigerant condenser as set forth in claim 6 wherein: the splicing assembly comprises a first splicing frame, a second splicing frame, a third splicing frame and a fourth splicing frame, wherein the first splicing frame is fixedly connected to the front side of the frame, the second splicing frame is fixedly connected to the rear side of the frame, the third splicing frame is fixedly connected to the right side of the frame, the fourth splicing frame is fixedly connected to the left side of the frame, the first splicing frame is matched with the second splicing frame, the third splicing frame is matched with the fourth splicing frame, a downwardly extending clamping part is arranged at the bottom of the compression frame, the clamping part is clamped to the upper end of the frame, four sides of the bottom of the clamping part are respectively abutted to the first splicing frame, the second splicing frame, the third splicing frame and the top of the fourth splicing frame, a limit groove is arranged at the bottom of the clamping part, and the first splicing frame is abutted to the second splicing frame, The third splice frame with the top of fourth splice frame all is equipped with the stopper, the stopper with the spacing groove phase-match.

8. A high efficiency refrigerant condenser as set forth in claim 7 wherein: first concatenation frame with the equal fixedly connected with triangle boss in four corners department of second concatenation frame, the triangle boss extends to one side of frame, one side of triangle boss supports the frame, the frame with fixedly connected with second fastening screw between the triangle boss, the four sides of first concatenation frame are equipped with first concatenation piece, the second concatenation frame corresponds first concatenation piece is equipped with first splice groove, first splice groove with first concatenation piece phase-match.

9. A high efficiency refrigerant condenser as set forth in claim 7 wherein: the third splicing frame and the fourth splicing frame are internally provided with reinforcing rods, the reinforcing rods extend to one side of the rack, the upper side and the lower side of each reinforcing rod are abutted against the rack, third fastening screws are fixedly connected between the rack and the reinforcing rods, four sides of the third splicing frame are provided with second splicing blocks, the fourth splicing frame corresponds to the second splicing blocks, the second splicing blocks are provided with second splicing grooves, and the second splicing blocks are matched with the splicing grooves.

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