CN205027009U - Refrigerating unit's support subassembly and refrigerating unit - Google Patents

Abstract

The utility model provides a refrigerating unit's support subassembly and refrigerating unit, wherein, refrigerating unit's support subassembly includes: the support, first support (11) and second support (12) including the both ends of condensation reservoir (700) of supporting refrigerating unit, the setting of first support (11) and second support (12) interval, strengthen subassembly (20), connect between first support (11) and second support (12). The technical scheme of the utility model can solve the problem that refrigerating unit is not compact, occupation space is big among the prior art effectively.

Description

The mounting assembly of refrigeration unit and refrigeration unit

Technical field

The utility model relates to refrigeration unit technical field, in particular to a kind of mounting assembly and refrigeration unit of refrigeration unit.

Background technology

At present, parallel-screw refrigeration unit generally comprises compressor, oil eliminator, oil cooler, economizer, condenser, reservoir and evaporimeter etc.Wherein, condenser, reservoir and evaporimeter are generally placed in outside unit framework.Meanwhile, in order to the differential static pressure of the refrigerant inlet of the outlet and oil cooler that ensure reservoir, require reservoir to be positioned on the floor higher than unit framework or pallet (usual placing height is not less than 2m).But this cost of layout is high, take up room large, unit is not compact, and the refrigerant line of unit framework and external condenser, connection between reservoir and evaporimeter is longer, and tube side loss is large, and not energy-conservation, filling coolant quantity increases, and cost is corresponding increase also.

Utility model content

Main purpose of the present utility model is the mounting assembly and the refrigeration unit that provide a kind of refrigeration unit, and to solve, refrigeration unit of the prior art is not compact, take up room large problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind of mounting assembly of refrigeration unit, comprising: bearing, comprise the first bearing and second bearing at the two ends of the condensation reservoir supporting refrigeration unit, the first bearing and the second bearing interval are arranged; Stiffener assembly, is connected between the first bearing and the second bearing.

Further, stiffener assembly comprises: crossbeam, and the first end of crossbeam is arranged on the first bearing, and the second end of crossbeam is arranged on the second bearing; Cant beam, the first end of cant beam is arranged on the first bearing or the second bearing, and the second end of cant beam is arranged on crossbeam.

Further, cant beam is multiple, and the first end of a part of cant beam in multiple cant beam is arranged on the first bearing, and the first end of all the other cant beams is arranged on the second bearing.

Further, cant beam is two, and the first end of a cant beam in two cant beams is arranged on the first bearing, and the first end of another cant beam is arranged on the second bearing, and the second end of two cant beams links together.

Further, cant beam is positioned at the top of crossbeam.

Further, the U-shaped profile of crossbeam and cant beam.

Further, mounting assembly also comprises the connector for the unit framework and stiffener assembly connecting refrigeration unit.

Further, the first end of connector is connected to the junction of the second end of two cant beams.

Further, connector is connecting plate, and connecting plate comprises connecting plate main body, the connecting lateral plate bent on the side of the connection lug being arranged on the first end of connecting plate main body and the second end being arranged on connecting plate main body.

Further, connect on lug and connecting lateral plate and be provided with mounting hole.

Further, the first bearing comprises: the first riser, is vertically arranged; First top board, is arranged on the top of the first riser; First base plate, is arranged on the bottom of the first riser, and the first base plate and the first top board are parallel to each other; First longitudinal gusset, is connected between the first top board and the first base plate; Second bearing comprises: the second riser, is vertically arranged; Second top board, is arranged on the top of the second riser; Second base plate, is arranged on the bottom of the second riser, and the second base plate and the second top board are parallel to each other; Second longitudinal gusset, is connected between the second top board and the second base plate.

Further, first longitudinal gusset is two, two first longitudinal gusset intervals arrange and are parallel to each other, first bearing also comprises the first horizontal gusset be arranged between two first longitudinal gussets, second longitudinal gusset is two, two second longitudinal gusset intervals arrange and are parallel to each other, and the second bearing also comprises the second horizontal gusset be arranged between two second longitudinal gussets.

According to another aspect of the present utility model, provide a kind of refrigeration unit, comprise unit framework, unit framework comprises pedestal, the condensation reservoir that refrigeration unit also comprises the evaporimeter be arranged on pedestal, arranges mounting assembly on an evaporator and be arranged on mounting assembly, mounting assembly is above-mentioned mounting assembly.

Further, unit framework also comprises the installing rack be arranged on pedestal, mounting assembly also comprises the connector for junctor framing and stiffener assembly, and the first end of connector is connected with the stiffener assembly of mounting assembly, and the second end of connector is connected with installing rack.

Application the technical solution of the utility model, arranges the first bearing and second bearing at the two ends of the condensation reservoir supporting refrigeration unit, and arrange stiffener assembly between the first bearing and the second bearing.Stiffener assembly can make to connect between the first bearing and the second bearing more firm, strengthens stability of strutting system.When arranging refrigeration unit, mounting assembly can be placed on the unit framework pedestal of refrigeration unit, and the condensation reservoir in refrigeration unit is placed on mounting assembly, thus ensure that the position of condensation reservoir is higher than the miscellaneous part in refrigeration unit, or the evaporimeter in refrigeration unit can be placed on unit framework pedestal, mounting assembly is placed on the evaporimeter of refrigeration unit, and condensation reservoir is placed on mounting assembly, also can ensure that the position of condensation reservoir is higher than the miscellaneous part in refrigeration unit.The mounting assembly of application the application carries out layout to all parts in refrigeration unit can ensureing that the function of all parts uses impregnable while, make unit compacter, effectively lessly to take up room, reduce cost of layout, and refrigerant line length can be shortened, thus reduce tube side loss, economize energy.

Accompanying drawing explanation

The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of the embodiment of the mounting assembly according to refrigeration unit of the present utility model;

Fig. 2 shows the structural representation of the crossbeam of the mounting assembly of Fig. 1;

Fig. 3 shows the structural representation of the cant beam of the mounting assembly of Fig. 1;

Fig. 4 shows the structural representation of the connector of the mounting assembly of Fig. 1;

Fig. 5 shows the structural representation of the first bearing of the mounting assembly of Fig. 1;

Fig. 6 shows the structural representation of the second bearing of the mounting assembly of Fig. 1;

Fig. 7 shows the structural representation of the embodiment according to refrigeration unit of the present utility model; And

Fig. 8 shows the refrigerant circulation schematic diagram of the refrigeration unit of Fig. 7.

Wherein, above-mentioned accompanying drawing comprises the following drawings mark:

11, the first bearing; 111, the first riser; 112, the first top board; 113, the first base plate; 114, first longitudinal gusset; 115, the first horizontal gusset; 12, the second bearing; 121, the second riser; 122, the second top board; 123, the second base plate; 124, second longitudinal gusset; 125, the second horizontal gusset; 20, stiffener assembly; 21, crossbeam; 22, cant beam; 30, connector; 31, connecting plate main body; 32, lug is connected; 33, connecting lateral plate; 34, mounting hole; 40, pedestal; 100, compressor; 200, oil eliminator; 300, oil cooler; 400, economizer; 500, electric cabinet; 600, evaporimeter; 700, condensation reservoir.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

As shown in Figure 1, the mounting assembly of the refrigeration unit of the present embodiment comprises bearing and stiffener assembly 20.Wherein, bearing comprises first bearing 11 at two ends of the condensation reservoir 700 supporting refrigeration unit and the second bearing 12, first bearing 11 and the second bearing 12 interval and arranges.Stiffener assembly 20 is connected between the first bearing 11 and the second bearing 12.

The mounting assembly of the refrigeration unit of application the present embodiment, arranges first bearing 11 and second bearing 12 at the two ends of the condensation reservoir 700 supporting refrigeration unit, and arrange stiffener assembly 20 between the first bearing 11 and the second bearing 12.Stiffener assembly 20 can make to connect between the first bearing 11 and the second bearing 12 more firm, strengthens stability of strutting system.When arranging refrigeration unit, mounting assembly can be placed on the unit framework pedestal of refrigeration unit, and the condensation reservoir 700 in refrigeration unit is placed on mounting assembly, thus ensure that the position of condensation reservoir 700 is higher than the miscellaneous part in refrigeration unit, or the evaporimeter 600 in refrigeration unit can be placed on unit framework pedestal, mounting assembly is placed on the evaporimeter 600 of refrigeration unit, and condensation reservoir 700 is placed on mounting assembly, also can ensure that the position of condensation reservoir 700 is higher than the miscellaneous part in refrigeration unit.Mounting assembly in application the present embodiment carries out layout to all parts in refrigeration unit can ensureing that the function of all parts uses impregnable while, make unit compacter, effectively lessly to take up room, reduce cost of layout, and refrigerant line length can be shortened, thus reduce tube side loss, economize energy.

As shown in Figure 1 to Figure 3, in the mounting assembly of the present embodiment, stiffener assembly 20 comprises a crossbeam 21 and two cant beams 22.Wherein, the first bearing 11 and the second bearing 12 arranged in parallel, the first end of crossbeam 21 is arranged on the first bearing 11, and the second end of crossbeam 21 is arranged on the second bearing 12.Two cant beams 22 are positioned at the top of crossbeam 21, the first end of a cant beam 22 in two cant beams 22 is arranged on the first bearing 11, the first end of another cant beam 22 is arranged on the second bearing 12, and the second end of two cant beams 22 is arranged on crossbeam 21 and the second end of two cant beams 22 links together.Above-mentioned stiffener assembly 20 and the first bearing 11 or the second bearing 12 form stable triangular structure, and when supporting condensation reservoir, above-mentioned triangular structure can strengthen the bearing capacity of mounting assembly, makes support more firm.Certainly, quantity and the setting position of crossbeam 21 and cant beam 22 are not limited thereto, in unshowned in the drawings embodiment, crossbeam 21 also can be multiple, cant beam 22 also can be one or more, and on cant beam 22 and crossbeam 21, first bearing 11 and on the second bearing 12 between also can be other setting positions.Such as, cant beam 22 is four, in four cant beams 22, two cant beams 22 are positioned at the top of crossbeam 21, the first end of a cant beam 22 in these two cant beams 22 is arranged on the first bearing 11, and the first end of another cant beam 22 is arranged on the second bearing 12, and two cant beams 22 are in addition positioned at the below of crossbeam 21, the first end of a cant beam 22 in these two cant beams 22 is arranged on the first bearing 11, and the first end of another cant beam 22 is arranged on the second bearing 12.

As shown in Figures 2 and 3, in the mounting assembly of the present embodiment, the U-shaped profile of crossbeam 21 and cant beam 22.In the present embodiment, crossbeam 21 is the beam of the U-shaped profile using steel plate cutting and bending to be formed, and cant beam 22 is the beam of the U-shaped profile using medium plate numerical control bending to be formed, and said structure has good intensity and rigidity.It should be noted that, crossbeam 21 and cant beam 22 also can use the section bars such as channel-section steel.Certainly, the concrete structure of crossbeam 21 and cant beam 22 is not limited thereto, and in other embodiments unshowned in the drawings, crossbeam 21 and cant beam 22 also can be intensity and rigidity other structures satisfactory.

As shown in Figure 1 to Figure 3, in the mounting assembly of the present embodiment, the end connecting plate of protrusion is provided with at the two ends of cant beam 22, end connecting plate is provided with multiple bolt through-hole, crossbeam 21 is provided with multiple bolt through-hole equally, and the end connecting plate of above-mentioned cant beam 22 can be linked together by bolt group and crossbeam 21, first bearing 11 or the second bearing 12.It should be noted that, the connected mode between cant beam 22, crossbeam 21, first bearing 11 and the second bearing 12 is not limited by bolt group and connects, and also can be other attainable connected modes, such as welding or riveted joint.

As shown in Figure 1 and Figure 4, in the mounting assembly of the present embodiment, mounting assembly also comprises the connector 30 of unit framework for connecting refrigeration unit and stiffener assembly 20.Connector 30 can be connected by bolt group with unit framework, thus increases refrigeration unit resistance to overturning and lodging tolerance further.

As shown in Figure 1 and Figure 4, in the mounting assembly of the present embodiment, connector 30 is connecting plate.Connecting plate comprises connecting plate main body 31, the connecting lateral plate 33 bent on the side of the connection lug 32 being arranged on the first end of connecting plate main body 31 and the second end being arranged on connecting plate main body 31.Above-mentioned connecting plate uses medium plate numerical control bending to be formed, and the connection lug 32 of connecting plate first end is connected to the junction of the second end of two cant beams 22 by bolt group, the connecting lateral plate 33 of connecting plate second end is connected on unit framework by bolt group.The setting of above-mentioned connection lug 32 and connecting lateral plate 33 is easy to installation operation, convenient disassembly.

As shown in Figure 1 and Figure 4, in the mounting assembly of the present embodiment, connect on lug 32 and connecting lateral plate 33 and be provided with mounting hole 34.Above-mentioned mounting hole 34 is bolt through-hole, and when being connected by bolt group, above-mentioned mounting hole 34 can eliminate process and assemble error.

As shown in Figure 5, in the mounting assembly of the present embodiment, the first bearing 11 comprises the first riser 111, first top board 112, first base plate 113, two first longitudinal gussets 114 and three the first horizontal gussets 115.Wherein, first riser 111 is vertically arranged, first top board 112 is arranged on the top of the first riser 111, first base plate 113 is arranged on the bottom of the first riser 111, first base plate 113 and the first top board 112 are parallel to each other, two first longitudinal gussets 114 are connected between the first top board 112 and the first base plate 113 and two first longitudinal gusset 114 intervals and arrange and be parallel to each other, three the first horizontal gussets 115 are arranged between two first longitudinal gussets 114, and three the first horizontal gusset 115 intervals arrange and are parallel to each other.The first end of crossbeam 21 is connected on the first middle horizontal gusset 115.

As shown in Figure 6, in the mounting assembly of the present embodiment, the second bearing 12 comprises the second riser 121, second top board 122, second base plate 123, two second longitudinal gussets 124 and three the second horizontal gussets 125.Wherein, second riser 121 is vertically arranged, second top board 122 is arranged on the top of the second riser 121, second base plate 123 is arranged on the bottom of the second riser 121, second base plate 123 and the second top board 122 are parallel to each other, two second longitudinal gussets 124 are connected between the second top board 122 and the second base plate 123 and two second longitudinal gusset 124 intervals and arrange and be parallel to each other, three the second horizontal gussets 125 are arranged between two second longitudinal gussets 124, and three the second horizontal gusset 125 intervals arrange and are parallel to each other.Second end of crossbeam 21 is connected on the second middle horizontal gusset 125.

The concrete structure of above-mentioned first bearing 11 and the second bearing 12 can make the first bearing 11 and the second bearing 12 have high resistance to compression, bending resistance, torsional property, strengthens bearing capacity.Meanwhile, each plate in said structure can select different-thickness according to each stress size reasonable, and orthogonally to be welded together according to smooth vertical and horizontal by each plate, improves stock utilization, saves cost.Certainly, the longitudinal gusset in the first bearing 11 and the second bearing 12 and the quantity of horizontal gusset and setting position are not limited thereto, and can select according to specific needs.

As shown in Figure 7, present invention also provides a kind of refrigeration unit, comprise unit framework and be arranged on compressor 100, oil eliminator 200, oil cooler 300, economizer 400 and the electric cabinet 500 on unit framework.Unit framework comprises pedestal 40 and is arranged on the installing rack (not shown) on pedestal 40, and compressor 100, oil eliminator 200, oil cooler 300, economizer 400 and electric cabinet 500 are arranged on installing rack.Refrigeration unit also comprises the evaporimeter 600 be arranged on pedestal 40, is arranged on the mounting assembly on evaporimeter 600 and is arranged on the condensation reservoir 700 on mounting assembly, and mounting assembly is above-mentioned mounting assembly.The refrigeration unit complete machine of the present embodiment is compact, and take up room little, cost is low.

In the refrigeration unit of the present embodiment, mounting assembly also comprises the connector 30 for junctor framing and stiffener assembly 20, the first end of connector 30 is connected with stiffener assembly 20, and the second end of connector 30 is connected (not shown) with installing rack.

As shown in Figure 8, in the refrigeration unit of the present embodiment, refrigerant circulating process following (in figure, dotted line pipeline is gas piping, and solid line pipeline is liquid line):

Compressor 100 is vented after oil eliminator 200 separating oil, enters condensation reservoir 700, forms liquid be stored in condensation reservoir 700 by condensation.Because condensation reservoir 700 position is higher, form a constant static-pressure.Under hydrostatic pressure, fraction liquid refrigerant enters oil cooler 300, and with the refrigerator oil generation heat convection in oil cooler 300, the liquid refrigerant evaporation obtaining heat is risen, and produces thermal siphon, is back in condensation reservoir 700.After major part liquid refrigerant enters economizer 400, flow into evaporimeter 600 and evaporate, then suck compressor 100 air entry, complete a circulation.Wherein, the part entering the liquid refrigerant in economizer 400 directly by sparge pipe to compressor 100 hydrojet, in addition, economizer 400 can also by blowdown pipe to compressor tonifying Qi.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (14)

1. a mounting assembly for refrigeration unit, is characterized in that, comprising:

Bearing, comprise the first bearing (11) and second bearing (12) at the two ends of the condensation reservoir (700) supporting refrigeration unit, described first bearing (11) and described second bearing (12) interval are arranged;

Stiffener assembly (20), is connected between described first bearing (11) and described second bearing (12).

2. mounting assembly according to claim 1, is characterized in that, described stiffener assembly (20) comprising:

Crossbeam (21), the first end of described crossbeam (21) is arranged on described first bearing (11), and the second end of described crossbeam (21) is arranged on described second bearing (12);

Cant beam (22), the first end of described cant beam (22) is arranged on described first bearing (11) or described second bearing (12), and the second end of described cant beam (22) is arranged on described crossbeam (21).

3. mounting assembly according to claim 2, it is characterized in that, described cant beam (22) is for multiple, the first end of cant beam (22) described in a part in described multiple cant beam (22) is arranged on described first bearing (11), and the first end of cant beam described in all the other (22) is arranged on described second bearing (12).

4. mounting assembly according to claim 3, it is characterized in that, described cant beam (22) is two, the first end of a described cant beam (22) in described two cant beams (22) is arranged on described first bearing (11), the first end of cant beam described in another (22) is arranged on described second bearing (12), and the second end of described two cant beams (22) links together.

5. mounting assembly according to claim 2, is characterized in that, described cant beam (22) is positioned at the top of described crossbeam (21).

6. mounting assembly according to claim 2, is characterized in that, the U-shaped profile of described crossbeam (21) and described cant beam (22).

7. mounting assembly according to claim 4, is characterized in that, described mounting assembly also comprises the connector (30) of unit framework for connecting refrigeration unit and described stiffener assembly (20).

8. mounting assembly according to claim 7, is characterized in that, the first end of described connector (30) is connected to the junction of the second end of described two cant beams (22).

9. the mounting assembly according to claim 7 or 8, it is characterized in that, described connector (30) is connecting plate, and described connecting plate comprises connecting plate main body (31), the connecting lateral plate (33) bent on the side of the connection lug (32) being arranged on the first end of described connecting plate main body (31) and the second end being arranged on described connecting plate main body (31).

10. mounting assembly according to claim 9, is characterized in that, described connection lug (32) and described connecting lateral plate (33) are provided with mounting hole (34).

11. mounting assemblies according to claim 1, is characterized in that,

Described first bearing (11) comprising:

First riser (111), is vertically arranged;

First top board (112), is arranged on the top of described first riser (111);

First base plate (113), is arranged on the bottom of described first riser (111), and described first base plate (113) and described first top board (112) are parallel to each other;

First longitudinal gusset (114), is connected between described first top board (112) and described first base plate (113);

Described second bearing (12) comprising:

Second riser (121), is vertically arranged;

Second top board (122), is arranged on the top of described second riser (121);

Second base plate (123), is arranged on the bottom of described second riser (121), and described second base plate (123) and described second top board (122) are parallel to each other;

Second longitudinal gusset (124), is connected between described second top board (122) and described second base plate (123).

12. mounting assemblies according to claim 11, it is characterized in that, described first longitudinal gusset (114) is two, two described first longitudinal gusset (114) intervals arrange and are parallel to each other, described first bearing (11) also comprises the first horizontal gusset (115) be arranged between described two first longitudinal gussets (114), described second longitudinal gusset (124) is two, two described second longitudinal gusset (124) intervals arrange and are parallel to each other, described second bearing (12) also comprises the second horizontal gusset (125) be arranged between described two second longitudinal gussets (124).

13. 1 kinds of refrigeration unit, comprise unit framework, described unit framework comprises pedestal (40), it is characterized in that, described refrigeration unit also comprises the evaporimeter (600) be arranged on described pedestal (40), is arranged on the mounting assembly on described evaporimeter (600) and is arranged on the condensation reservoir (700) on described mounting assembly, the mounting assembly of described mounting assembly according to any one of claim 1 to 12.

14. refrigeration unit according to claim 13, it is characterized in that, described unit framework also comprises the installing rack be arranged on described pedestal (40), described mounting assembly also comprises the connector (30) for connecting described unit framework and described stiffener assembly (20), the first end of described connector (30) is connected with the stiffener assembly (20) of described mounting assembly, and the second end of described connector (30) is connected with described installing rack.