CN220572669U - Tubular evaporator with small occupied area - Google Patents

Abstract

The utility model discloses a tubular evaporator with small occupied area, which comprises a tubular evaporator, wherein a fixed base is arranged right below the tubular evaporator, a movable rotating structure is arranged right above the fixed base, a connecting block is transversely arranged inside the movable rotating structure, the tubular evaporator with small occupied area can be stretched out from two sides through the structure arranged inside the base when a plurality of groups of tubular evaporators are stacked and installed, then the stored fixed structure is rotated to be unfolded by 90 degrees in a rotating mode, then the fixed structure is structurally reinforced through the transverse connecting block, then the other group of tubular evaporators are stacked and fixed right above the tubular evaporator, when the stacked and installed and fixed are not needed, the storage area inside the base can be effectively stored, and the storage mode can not increase the area required by placement on the premise of providing effective support for the tubular evaporators.

Description

Tubular evaporator with small occupied area

Technical Field

The utility model relates to the technical field of refrigeration devices, in particular to a tubular evaporator with small occupied area.

Background

The evaporation is a physical process of converting liquid into gas, in general, the evaporator is an object for converting liquid into gas, there are a large number of evaporators in industry, wherein the evaporator applied to a refrigerating system is one of the four important components, the evaporator is an important component in refrigerating, low-temperature condensed liquid passes through the evaporator to exchange heat with the outside air, gasification absorbs heat, the refrigerating effect is achieved, the evaporator mainly comprises a heating chamber and an evaporating chamber, the heating chamber provides heat required by evaporation for the liquid, the liquid is caused to boil and evaporate, the evaporating chamber completely separates gas from liquid, and the existing Chinese patent publication No. CN201297807Y is searched, and the application number is CN 200820204280.8. The water inlet and outlet pipe is vertical or inclined to the axis of the shell. When two or more shell-and-tube evaporators are longitudinally arranged side by side and are installed in parallel, water inlet and outlet pipes positioned between two adjacent shell-and-tube evaporators are communicated through butt joint water pipes, and water inlet and outlet pipes positioned on the outermost shell-and-tube evaporators are communicated with connecting pipes. When the shell and tube evaporators are arranged transversely side by side and are installed in parallel, the two water inlet and outlet pipes on each shell and tube evaporator are respectively communicated with the main water pipe positioned on the side surface of the shell and tube evaporator through connecting pipes, but the following problems still exist when the shell and tube evaporator is installed:

1. the traditional tubular evaporator needs a large number of places to install and fix when a plurality of groups of tubular evaporators are installed, and the installation mode is inconvenient for installing places with small places.

2. When a general tubular evaporator is stacked up and down in mirror images, fixed components cannot be effectively stored, and fixed components cannot be effectively stored on the tubular evaporator which does not need to be stacked.

Disclosure of Invention

The utility model aims to provide a tubular evaporator with small occupied area, so as to solve the problems that the tubular evaporator in the market at present, which is proposed by the background technology, has large occupied area and fixed components cannot be effectively stored when not needed.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a tubular evaporator that area is little, includes tubular evaporator, be provided with unable adjustment base under the tubular evaporator, unable adjustment base is provided with the removal revolution mechanic directly over, and the inside of removal revolution mechanic transversely is provided with the connecting rod.

Preferably, the fixed base comprises a bottom plate and a vertical plate, the movable rotating structure comprises a strip-shaped plate, a connecting block, a first rotating shaft, a second rotating shaft and a protruding block, and the connecting block comprises a first connecting block and a second connecting block.

Preferably, the unable adjustment base equidistance divide into a plurality of groups and sets up the position under the tubular evaporator, and the molding of bottom plate is the bar rectangular plate, and the both sides are provided with the recess of bar directly over the bottom plate bar rectangular plate, and the both sides are provided with the riser directly over the bottom plate, and the molding of riser is the rectangular plate cubic, and the rectangular plate top of riser is put in the middle the position and is provided with the arc recess, and the below of riser rectangular plate top arc recess is provided with horizontal link up the spout, and the tubular evaporator sets up the inside at riser rectangular plate top arc recess.

Preferably, be provided with two sets of parallel interval distribution's strip shaped plate directly over the bottom plate, and the strip shaped plate sets up the inboard at two sets of risers, and the strip shaped plate is provided with horizontal strip and link up the spout, and the quantity of connecting block is two sets of, and the connecting block setting is in the interval of every riser of group and strip shaped plate reservation, and two sets of connecting blocks present the setting of head and tail mirror image, and the both sides of the one end of connecting block are provided with a rotation axis, and a rotation axis level of two sets of rotation axis sets up in the horizontal strip of riser and strip shaped plate reservation link up the inslot.

Preferably, the other end of the connecting block is vertically provided with a groove, a second rotating shaft is transversely arranged in the groove of the connecting block, a lug is arranged on the second rotating shaft, the lug is arranged in the strip-shaped groove reserved on two sides right above the bottom plate, and a mounting plate is vertically arranged on the outermost side of the connecting block.

Preferably, the connecting block interval is provided with two sets of parallel trompil that link up, and the connecting rod level of No. one sets up the inside at the horizontal trompil of a plurality of connecting block below, and the connecting rod level of No. two sets up the inside at the horizontal trompil of a plurality of connecting block top.

Compared with the prior art, the utility model has the beneficial effects that: a tubular evaporator with small occupied area.

1. This area is little tubular evaporator stacks the structure that sets up through the base inside when installing through multiunit tubular evaporator, can stretch out to both sides, then rotates into 90 expansion through rotatory mode with the fixed knot who accomodates to construct, then carries out the reinforcement of structure to fixed knot through horizontal connecting block, then stacks another group tubular evaporator and fixes directly over tubular evaporator.

2. This tubular evaporator that area is little is to not need piling up the installation fixed time, can carry out effectual accomodating through the inside accomodating area of base, thereby this mode of accomodating is not increasing and is placed required regional area under the prerequisite that can provide effectual tubular evaporator and support.

Drawings

FIG. 1 is a schematic front elevational view of a tube evaporator with a small floor area;

FIG. 2 is a schematic side elevation cross-sectional view of a tubular evaporator of the present utility model with a small footprint;

FIG. 3 is a schematic view of a tubular evaporator with small floor area;

FIG. 4 is a schematic three-dimensional view of a tubular evaporator structure B with a small floor area;

fig. 5 is a schematic view of a three-dimensional accommodating state of a tubular evaporator structure C with a small occupied area;

fig. 6 is a schematic view showing a three-dimensional unfolding state of the tubular evaporator structure C with a small occupied area.

In the figure: 1. a tube evaporator; 2. a fixed base; 201. a bottom plate; 202. a vertical plate; 3. moving the rotating structure; 301. a strip-shaped plate; 302. a connecting block; 303. a first rotating shaft; 304. a second rotating shaft; 305. a bump; 306. a mounting plate; 4. a connecting rod; 401. a first connecting rod; 402. and a second connecting rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: a fixed base 2 is arranged right below the tubular evaporator 1, a movable rotating structure 3 is arranged right above the fixed base 2, and a connecting rod 4 is transversely arranged inside the movable rotating structure 3.

The fixed base 2 is composed of a bottom plate 201 and a vertical plate 202, the movable rotating structure 3 is composed of a strip-shaped plate 301, a connecting block 302, a first rotating shaft 303, a second rotating shaft 304 and a bump 305, and the connecting rod 4 is composed of a first connecting rod 401 and a second connecting rod 402.

Unable adjustment base 2 equidistance divide into a plurality of groups and set up the position under tubular evaporator 1, the molding of bottom plate 201 is the bar rectangular plate, the both sides are provided with the recess of bar directly over the bottom plate 201 bar rectangular plate, the both sides are provided with riser 202 directly over the bottom plate 201, and the molding of riser 202 is the rectangular plate cubic, the rectangular plate top of riser 202 is put in the middle the position and is provided with the arc recess, the below of riser 202 rectangular plate top arc recess is provided with horizontal run through spout, tubular evaporator 1 sets up the inside at riser 202 rectangular plate top arc recess, this structure can effectually carry out the supporting role to the equipment of top.

Two groups of parallel spaced strip-shaped plates 301 are arranged right above the bottom plate 201, the strip-shaped plates 301 are arranged on the inner sides of the two groups of vertical plates 202, the strip-shaped plates 301 are provided with horizontal strip-shaped through sliding grooves, the number of the connecting blocks 302 is two, the connecting blocks 302 are arranged in the reserved intervals of each group of vertical plates 202 and the strip-shaped plates 301, the two groups of connecting blocks 302 are arranged in a head-tail mirror image mode, a first rotating shaft 303 is arranged on two sides of one end of each connecting block 302, the two groups of first rotating shafts 303 are horizontally arranged in the reserved transverse strip-shaped through grooves of the vertical plates 202 and the strip-shaped plates 301, and the structure can be effectively divided into areas so as to facilitate movement of subsequent structures.

The other end of connecting block 302 is provided with the recess perpendicularly, and the inside rotation axis 304 that transversely is provided with of recess of connecting block 302, is provided with lug 305 on the epaxial of rotation axis 304 No. two, and lug 305 sets up in the inside bar recess that both sides were reserved directly over bottom plate 201, and the outside of connecting block 302 is provided with mounting panel 306 perpendicularly, and this structure can be effectual will carry out more steady motion at the plate of operation.

Connecting block 302 interval is provided with two sets of parallel trompil that link up, and connecting rod 401 level sets up the inside of the horizontal trompil in a plurality of connecting block 302 below, and connecting rod 402 level sets up the inside of the horizontal trompil in a plurality of connecting block 302 top, and this connecting block can effectually fix the structure after expanding.

Working principle: firstly, the tubular evaporator 1 needs to be placed in a region to be installed, then the two groups of connecting blocks 302 are horizontally moved out to the outside, at this time, when the connecting blocks 302 are moved, one end of each connecting block 302 is connected with a bump 305 through a second rotating shaft 304, effective stable movement work is performed in a chute reserved right above the bottom plate 201, one end of each connecting block 302 is provided with a first rotating shaft 303, the first rotating shaft 303 is moved in a bar-shaped chute reserved by the vertical plate 202 and the bar-shaped plate 301, so that the connecting blocks 302 are more stably moved, when the connecting blocks 302 are moved to a designated region, the connecting blocks 302 are rotated by 90 degrees upwards through the first rotating shaft 303, the first connecting rods 401 are installed in horizontal holes reserved by the vertical plate 202 and the connecting blocks 302, at this time, the connecting blocks 302 are fixed, then the other groups of the tubular evaporator 1 can be more stably fixed through the second connecting rods 402 penetrating through another groups of transverse holes reserved by the second connecting rods, at this time, the other groups of tubular evaporator 1 are hoisted onto a mounting plate 306 above the connecting blocks 302, and the stacking work can be completed through screws, so that the stacking work can be completed through knobs, which is not described in detail in the prior art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (3)

1. The utility model provides a tubular evaporator of area is little, includes tubular evaporator (1), its characterized in that: a fixed base (2) is arranged right below the tubular evaporator (1), a movable rotating structure (3) is arranged right above the fixed base (2), and a connecting rod (4) is transversely arranged inside the movable rotating structure (3);

the fixed base (2) consists of a bottom plate (201) and a vertical plate (202), the movable rotating structure (3) consists of a strip-shaped plate (301), a connecting block (302), a first rotating shaft (303), a second rotating shaft (304) and a convex block (305), and the connecting rod (4) consists of a first connecting rod (401) and a second connecting rod (402);

the fixed base (2) is equidistantly divided into a plurality of groups and is arranged at the position right below the tubular evaporator (1), the shape of the bottom plate (201) is a strip-shaped rectangular plate, strip-shaped grooves are formed in the two sides right above the strip-shaped rectangular plate of the bottom plate (201), the two sides right above the bottom plate (201) are provided with vertical plates (202), the shape of each vertical plate (202) is rectangular plate-shaped, an arc-shaped groove is formed in the middle position above the rectangular plate of each vertical plate (202), a transverse through chute is formed below the arc-shaped groove above the rectangular plate of each vertical plate (202), and the tubular evaporator (1) is arranged in the arc-shaped groove above the rectangular plate of each vertical plate (202);

two groups of parallel spaced strip-shaped plates (301) are arranged right above the bottom plate (201), the strip-shaped plates (301) are arranged on the inner sides of the two groups of vertical plates (202), the strip-shaped plates (301) are provided with horizontal strip-shaped through sliding grooves, the number of the connecting blocks (302) is two, the connecting blocks (302) are arranged in the reserved intervals of each group of vertical plates (202) and the strip-shaped plates (301), the two groups of connecting blocks (302) are arranged in a head-tail mirror image mode, a first rotating shaft (303) is arranged on two sides of one end of each connecting block (302), and the two groups of first rotating shafts (303) are horizontally arranged in the reserved transverse strip-shaped through grooves of the vertical plates (202) and the strip-shaped plates (301).

2. A small footprint tube evaporator according to claim 1 wherein: the other end of connecting block (302) is provided with the recess perpendicularly, and the inside rotation axis (304) that transversely is provided with of recess of connecting block (302), is provided with lug (305) on the epaxial of rotation axis (304) No. two, and lug (305) set up in the inside of the bar recess of both sides reservation directly over bottom plate (201), and the outside of connecting block (302) is provided with mounting panel (306) perpendicularly.

3. A small footprint tube evaporator according to claim 2 wherein: the connecting blocks (302) are provided with two groups of parallel through holes at intervals, a first connecting rod (401) is horizontally arranged in the horizontal holes below the connecting blocks (302), and a second connecting rod (402) is horizontally arranged in the horizontal holes above the connecting blocks (302).