CN114087762A - Fast assembly formula concatenation air-cooler - Google Patents

Abstract

The invention relates to a quick assembly type spliced air cooler which comprises a case body, protective shells connected with the machine case body through locking structures are arranged on two sides of the machine case body, a plurality of discharge grooves are equidistantly formed in the protective shells, the inner side of the protective shell is detachably provided with a filter plate and an assembly part, the assembly part is detachably arranged on the case body through an assembly structure, the assembly part is provided with a plurality of filter holes, the assembly part is provided with an air flow conveying structure and a relative movement structure, the relative movement structure is arranged on one side of the case body, and is connected with the assembly structure, the relative movement structure is used for limiting and unlocking the assembly structure, the device can realize the purpose of limiting and unlocking the assembly structure without any tool, the parts are assembled quickly and the stability is the same relative to the fixing mode of the bolt.

Description

Fast assembly formula concatenation air-cooler

Technical Field

The invention relates to an air cooler, in particular to a quick assembly type spliced air cooler.

Background

The air cooler is divided into an industrial air cooler and a household air cooler, the industrial air cooler is generally used in a refrigeration house and a cold chain logistics refrigeration environment, the household air cooler is also called as a water-cooled air conditioner, and the air cooler is an evaporative cooling and ventilating unit integrating cooling, ventilating, dust prevention and smell removal.

And when the air cooler is transported, the air cooler is very easy to damage due to compact structure, so that the air cooler is assembled after parts are transported.

And adopt the bolt to fix when carrying out the column to parts such as shell, need just can install with the help of the instrument, and have the mounting hole, influence pleasing to the eye.

To the problem that above-mentioned provided through a fast assembly formula concatenation air-cooler.

Disclosure of Invention

The invention aims to provide a quick-assembly spliced air cooler to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a fast assembly formula concatenation air-cooler, fast assembly formula concatenation air-cooler includes:

the box comprises a box body, wherein protective shells connected with the box body through locking structures are mounted on two sides of the box body, a plurality of discharge grooves are formed in the protective shells at equal intervals, and filter plates are detachably mounted on the inner sides of the protective shells;

the assembly part is detachably arranged on the case body through an assembly structure, a plurality of filter holes are formed in the assembly part, and an airflow conveying structure is arranged on the assembly part;

the relative movement structure is arranged on one side of the case body and connected with the assembly structure, and the relative movement structure is used for limiting and unlocking the assembly structure;

the four universal wheels are fixedly arranged at four corners of the bottom of the case body.

As a further scheme of the invention: the condensation structure comprises four locking blocks which are symmetrically and fixedly arranged on the inner side of the case body, the locking blocks are matched with first locking blocks fixed on the inner side of the protective shell, movable grooves are formed in the locking blocks, second locking blocks are slidably arranged on the inner sides of the movable grooves, a first spring in each movable groove is fixedly arranged at one end of each second locking block, and an inclined plane is arranged on one side, far away from the first spring, of each second locking block;

the second locking block is matched with a shrinkage groove formed in the first locking block through the inclined surface.

As a further scheme of the invention: the assembly structure comprises first sliding grooves symmetrically formed in the case body, first sliding blocks fixed to the assembly parts are slidably mounted on the inner sides of the first sliding grooves, and a transmission structure for limiting the first sliding blocks is mounted on one side of the case body.

As a still further scheme of the invention: the transmission structure comprises two limiting plates which are oppositely arranged, a second sliding block is fixed on one side of each limiting plate, the second sliding block is slidably mounted in a second sliding groove formed in the case body, and the limiting plates are connected with the relative movement structure;

the limiting plate limits the first sliding block.

As a further scheme of the invention: the relative movement structure comprises a transmission shaft which is rotatably arranged on one side of the case body, teeth are arranged on the circumference of the outer side of the transmission shaft at equal intervals, the teeth are meshed with the two rack plates, the two rack plates are fixedly connected with the transmission shaft, and the rack plates are connected with a reset structure arranged on the case body;

wherein, the transmission shaft is kept away from one side fixed mounting of rack plate has the knob that is used for exerting oneself.

As a still further scheme of the invention: the reset structure comprises two spring sleeves which are symmetrically and fixedly installed on the case body, a transmission rod is installed inside each spring sleeve in a sliding mode, a second spring fixed to the bottom of each spring sleeve is fixedly installed at one end of each transmission rod, and the other end of each transmission rod is fixed to the rack plate.

As a still further scheme of the invention: the air flow conveying structure comprises:

the two blades are rotatably arranged on two through holes formed in the top of the protective shell through two connecting pieces;

the driving shaft is installed on the protective shell and is respectively connected with the rotating shafts of the two blades through two transmission belts.

Compared with the prior art, the invention has the beneficial effects that: in the embodiment of the invention, after the internal structure of the air cooler is assembled during installation, the protective shells are fixed on the two sides of the chassis body through the locking structure, the fixing effect is the same as the stability of fixing through the bolts, the complicated step of fixing through a screwdriver is omitted, and the installation speed is far higher than that of fixing through the bolts;

the protective shell is arranged on the case body, the filter plate is required to be arranged on the inner side of the protective shell, the filter plate is adsorbed on the inner side of the protective shell in a magnet adsorption mode, and the mounting speed is very high;

the assembly part is installed on the case body by driving the relative movement structure to work through external force, the assembly part is limited by removing force of the relative movement structure so as to be installed on the case body, and the filter holes play roles in preventing dust and installing driving equipment;

the device can rapidly assemble the parts without any tool, and the fixing mode of the stability relative to the bolt is the same.

Drawings

FIG. 1 is a schematic structural view of a rapidly assembled spliced air cooler;

FIG. 2 is a partial cross-sectional view of a chassis body in a quick-assembly spliced air cooler;

FIG. 3 is an exploded view of the structure of the chassis book in the quick assembly type splicing air cooler;

FIG. 4 is an enlarged view of a portion of the structure shown at D in FIG. 3;

FIG. 5 is an enlarged view of a portion of the structure at B in FIG. 1;

FIG. 6 is an enlarged view of a portion of the structure at A in FIG. 1;

fig. 7 is an enlarged view of a portion of the structure at C in fig. 2.

In the figure: 1-protective shell, 2-discharge groove, 3-filter plate, 4-first locking block, 5-assembly part, 6-filter hole, 7-cabinet body, 8-universal wheel, 9-driving shaft, 10-driving belt, 11-blade, 12-first chute, 13-limiting plate, 14-second chute, 15-knob, 16-spring sleeve, 17-rack plate, 18-second slider, 19-shrinkage groove, 20-movable groove, 21-first spring, 22-second locking block, 23-locking block and 24-transmission shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element described herein as being "secured to" or "disposed on" another element may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 7, in an embodiment of the present invention, a quick-assembly splicing air cooler includes:

the box comprises a box body 7, wherein protective shells 1 connected with the box body 7 through locking structures are mounted on two sides of the box body 7, a plurality of discharge grooves 2 are formed in the protective shells 1 at equal intervals, and filter plates 3 are detachably mounted on the inner sides of the protective shells 1;

the assembly part 5 is detachably mounted on the case body 7 through an assembly structure, the assembly part 5 is provided with a plurality of filter holes 6, and the assembly part 5 is provided with an airflow conveying structure;

the relative movement structure is arranged on one side of the case body 7 and connected with the assembly structure, and the relative movement structure is used for limiting and unlocking the assembly structure;

four universal wheels 8, four universal wheels 8 fixed mounting be in chassis body 7 bottom four corners.

In the embodiment of the invention, after the internal structure of the air cooler is assembled during installation, the protective shell 1 is fixed on two sides of the chassis body 7 through the locking structure, the fixing effect is the same as the stability of fixing through the bolt, the complicated step of fixing through a screwdriver is omitted, and the installation speed is far higher than that of fixing through the bolt;

the protective shell 1 is arranged on the case body 7, the filter plate 3 is required to be arranged on the inner side of the protective shell 1, the filter plate 3 is adsorbed on the inner side of the protective shell 1 in a magnet adsorption mode, and the installation speed is very high;

then, the relative movement structure is driven to work through external force, the assembly part 5 is installed on the case body 7 when the relative movement structure works and drives the assembly structure to work, the assembly part 5 is limited by removing force of the relative movement, so that the assembly part 5 is installed on the case body 7, and the filter holes 6 play a role in preventing dust and installing driving equipment;

the device can rapidly assemble the parts without any tool, and the fixing mode of the stability relative to the bolt is the same.

The condensation structure comprises four locking blocks 23 symmetrically and fixedly arranged on the inner side of the case body 7, the locking blocks 23 are matched with the first locking blocks 4 fixed on the inner side of the protective shell 1, a movable groove 20 is formed in each locking block 23, a second locking block 22 is slidably arranged on the inner side of the movable groove 20, one end of each second locking block 22 is fixedly provided with a first spring 21 positioned in the movable groove 20, and one side, far away from the first spring 21, of each second locking block 22 is provided with an inclined plane;

the second locking block 22 is matched with the shrinkage groove 19 formed on the first locking block 4 through the inclined surface.

In the embodiment of the invention, the first locking block 4 is inserted into the locking block 23 through the protective shell 1, the first locking block 4 is matched with the inclined surface to drive the second locking block 22 to move towards the direction of the first spring 21, and simultaneously the first spring 21 is compressed to enable the first spring 21 to store certain elastic potential energy, and when the condensation groove 19 reaches the position of the second locking block 22, the second locking block 22 is driven to reset by releasing the elastic potential energy of the first spring 21 and is matched with the condensation groove 19 to lock the first locking block 4;

thereby it is spacing to carry out first locking piece 4 through second locking piece 22 and the cooperation of condensation groove 19 to make protective housing 1 be in the locking state, the convenience when its stability and installation is all very high, and need not use tools to assist.

The assembly structure comprises first sliding grooves 12 symmetrically formed in the case body 7, first sliding blocks fixed to the assembly parts 5 are slidably mounted on the inner sides of the first sliding grooves 12, and a transmission structure for limiting the first sliding blocks is mounted on one side of the case body 7.

In the embodiment of the invention, the first sliding block is installed inside the first sliding groove 12 through the assembly part 5, and then the first sliding block is limited through the transmission structure, so that the assembly part 5 is stably installed on the case body 7 through limiting the first sliding block;

when the assembly part 5 and the chassis body 7 are taken out, the transmission structure is driven to work through the relative movement structure to lose the limit of the first sliding block, so that the assembly part 5 can be taken out.

The transmission structure comprises two opposite limiting plates 13, a second sliding block 18 is fixed on one side of each limiting plate 13, the second sliding block 18 is slidably mounted in a second sliding groove 14 in a second sliding groove formed in the case body 7, and the limiting plates 13 are connected with the relative movement structure;

the limiting plate 13 limits the first sliding block.

In the embodiment of the invention, when the relative motion structure works, the two limit plates 13 are driven to move relatively, so that the limit of the first limit block is lost, and the first slide block can be assembled and disassembled at the moment;

wherein, the length of the second sliding block 18 is the same as the length of the limit plate 13, and the length of the second sliding chute is greater than the length of the second sliding block 18.

The relative movement structure comprises a transmission shaft 24 rotatably installed on one side of the case body 7, teeth are installed on the circumference of the outer side of the transmission shaft 24 at equal intervals, the teeth are meshed with the two rack plates 17, the two rack plates 17 are both fixedly connected with the transmission shaft 24, and the rack plates 17 are connected with a reset structure installed on the case body 7;

wherein, a knob 15 for exerting force is fixedly arranged on one side of the transmission shaft 24 far away from the rack plate 17.

In the embodiment of the invention, the knob 15 is screwed by external force, the transmission shaft 24 is driven to rotate by the knob 15, teeth are driven to rotate when the transmission shaft 24 rotates, the two rack plates 17 are driven to move oppositely or oppositely by the teeth, so that the limiting plate 13 is driven to move oppositely or oppositely, and the reset structure is driven to work simultaneously;

when the external force of the knob 15 is lost, the two rack plates 17 are driven to move to the initial state through the reset structure;

it should be noted that the transmission ratio between the rack plate 17 and the teeth should be adjusted according to the size of the first sliding chute 12, and the present application does not specifically limit this.

The reset structure comprises two spring sleeves 16 symmetrically and fixedly installed on the case body 7, a transmission rod is installed on the inner sides of the spring sleeves 16 in a sliding mode, a second spring fixed to the bottom of the spring sleeve 16 is fixedly installed at one end of the transmission rod, and the other end of the transmission rod is fixed to the rack plate 17.

In the present exemplary embodiment, the drive rod is moved as the rack plate 17 moves, so that the second spring is compressed or extended by the drive rod, while the rack plate 17 is returned to the starting position by the elastic return of the second spring when the knob 15 is dead.

The air flow conveying structure comprises:

the two blades 11 are rotatably arranged at two through holes formed in the top of the protective shell 1 through two connecting pieces;

and the driving shaft 9 is arranged on the protective shell 1, and the driving shaft 9 is respectively connected with two rotating shafts of the blades 11 through two transmission belts 10.

In the embodiment of the invention, the driving shaft 9 is driven to rotate by the driving equipment, and when the driving shaft 9 rotates, the two blades 11 are driven to rotate simultaneously by the driving belt 10, so that air flow is pumped to the inner side of the case body 7;

wherein, the driving device (not shown in the figure) can be selected according to actual requirements, and the application does not specifically limit the driving device;

it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (7)

1. The utility model provides a fast assembly formula concatenation air-cooler, its characterized in that, fast assembly formula concatenation air-cooler includes:

the box comprises a box body (7), wherein protective shells (1) connected with the box body (7) through locking structures are mounted on two sides of the box body (7), a plurality of discharge grooves (2) are formed in the protective shells (1) at equal intervals, and filter plates (3) are detachably mounted on the inner sides of the protective shells (1);

the assembly part (5) is detachably mounted on the case body (7) through an assembly structure, the assembly part (5) is provided with a plurality of filter holes (6), and the assembly part (5) is provided with an airflow conveying structure;

the relative movement structure is arranged on one side of the case body (7) and is connected with the assembly structure, and the relative movement structure is used for limiting and unlocking the assembly structure;

the four universal wheels (8) are fixedly arranged at four corners of the bottom of the case body (7).

2. The quick assembly type splicing air cooler according to claim 1, wherein the condensation structure comprises four locking blocks (23) symmetrically and fixedly mounted on the inner side of the chassis body (7), the locking blocks (23) are matched with first locking blocks (4) fixed on the inner side of the protective shell (1), movable grooves (20) are formed in the locking blocks (23), second locking blocks (22) are slidably mounted on the inner sides of the movable grooves (20), one ends of the second locking blocks (22) are fixedly mounted with first springs (21) located in the movable grooves (20), and inclined surfaces are arranged on one sides, far away from the first springs (21), of the second locking blocks (22);

the second locking block (22) is matched with a shrinkage groove (19) formed in the first locking block (4) through the inclined surface.

3. The quick assembly splicing air cooler according to claim 2, wherein the assembling structure comprises first sliding grooves (12) symmetrically formed in the case body (7), first sliding blocks fixed to the assembling part (5) are slidably mounted on inner sides of the first sliding grooves (12), and a transmission structure for limiting the first sliding blocks is mounted on one side of the case body (7).

4. The quick assembly splicing air cooler according to claim 2, wherein the transmission structure comprises two opposite limiting plates (13), a second slider (18) is fixed on one side of each limiting plate (13), the second slider (18) is slidably mounted in a second chute (14) formed in a second chute formed in the chassis body (7), and the limiting plates (13) are connected with the relative movement structures;

the limiting plate (13) limits the first sliding block.

5. The quick assembly splicing air cooler according to claim 4, wherein the relative movement structure comprises a transmission shaft (24) rotatably installed on one side of the chassis body (7), teeth are installed on the outer side of the transmission shaft (24) at equal intervals, the teeth are meshed with two rack plates (17), both rack plates (17) are fixedly connected with the transmission shaft (24), and the rack plates (17) are connected with a resetting structure installed on the chassis body (7);

wherein, a knob (15) for exerting force is fixedly arranged on one side of the transmission shaft (24) far away from the rack plate (17).

6. The quick assembly splicing air cooler according to claim 5, wherein the resetting structure comprises two spring sleeves (16) symmetrically and fixedly mounted on the chassis body (7), a transmission rod is slidably mounted inside the spring sleeves (16), one end of the transmission rod is fixedly mounted with a second spring fixed to the bottoms of the spring sleeves (16), and the other end of the transmission rod is fixed to the rack plate (17).

7. The quick assemble splice air cooler of claim 1 wherein the air flow delivery structure comprises:

the two blades (11), the blades (11) are rotatably arranged at two through holes formed in the top of the protective shell (1) through two connecting pieces;

the driving shaft (9) is installed on the protective shell (1) and is respectively connected with the rotating shafts of the two blades (11) through two transmission belts (10).

Images