CN218674281U - Radiator performance detection equipment of air-cooled refrigerator - Google Patents

Abstract

The utility model provides a radiator performance detection device of an air-cooled refrigerator, which relates to the technical field of radiators and aims to solve the problem that most of the existing detection devices cannot simulate a relatively closed environment, and comprises an operation platform and a detection mechanism; the top of the operating platform is movably connected with a covering mechanism and a clamping structure, and the clamping structure is arranged at the bottom of the covering mechanism; detection mechanism sets up in operation platform's inside, and detection mechanism sets up respectively in control structure's both sides, and control structure swing joint covers the mechanism including in operation platform's inside: apron, fretwork groove, through-hole, apron swing joint are at the top of mount, and the both sides of apron are provided with fretwork groove and through-hole respectively, through apron and mount, can make the heating piece heat under relative confined environment, are convenient for detect the radiator working effect better to make the actual behavior of experimental result laminating radiator.

Description

Radiator performance detection equipment of air-cooled refrigerator

Technical Field

The utility model relates to a radiator technical field especially relates to radiator performance check out test set of forced air cooling refrigerator.

Background

The types of radiators in our daily life are very rich, including refrigerator radiators, and the radiators need to be detected by detection equipment before being installed.

The inventor finds that when the existing detection equipment for the performance of the radiator of the air-cooled refrigerator is used, the radiator of the refrigerator needs to be used under a relatively closed condition, but most of the existing detection equipment cannot simulate a relatively closed environment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a radiator performance check out test set of forced air cooling refrigerator to solve the problem that the most current check out test set of proposing in the above-mentioned background art can't carry out the simulation to comparatively confined environment.

The purpose and the efficacy of the radiator performance detection equipment of the air-cooled refrigerator are achieved by the following specific technical means:

the radiator performance detection equipment of the air-cooled refrigerator comprises an operation platform and a detection mechanism; the top of the operating platform is movably connected with a covering mechanism and a clamping structure, and the clamping structure is arranged at the bottom of the covering mechanism; detection mechanism sets up in operation platform's inside, and detection mechanism sets up respectively in control structure's both sides, and control structure swing joint covers the mechanism including in operation platform's inside: the cover plate is movably connected to the top of the fixing frame, and the two sides of the cover plate are respectively provided with the hollow groove and the through hole.

Further, the operation platform comprises: the fixing frame comprises a fixing frame body, a reserved groove, a sliding groove and a rotating groove, the reserved groove is formed in the fixing frame body, the sliding groove is respectively formed in two sides of the reserved groove, the rotating groove is simultaneously formed in the fixing frame body, the reserved groove is arranged in a stepped mode, and the sliding distance of the sliding block can be limited through the reserved groove arranged in the stepped mode.

Further, the covering mechanism further includes: the connecting blocks A are arranged in two groups, and the two groups of connecting blocks A are respectively and fixedly connected to the fixed frame; the both ends of axis of rotation are rotated with connecting block A respectively and are connected, fixedly connected with apron in the axis of rotation, and the both ends of axis of rotation are equipped with the baffle respectively, and its effect does, can restrict the axis of rotation through the baffle, prevents that the axis of rotation from taking place to rock.

Further, the clamping structure includes: the radiator, the sliding rod, the clamping plate and the elastic piece A are arranged in the cover plate; the sliding rods are respectively connected to two sides of the cover plate in a sliding mode through the through holes, the head ends of the sliding rods are respectively fixedly connected with clamping plates, and the inner sides of the clamping plates are respectively attached to two sides of the radiator; elastic component A swing joint is on the slide bar, and elastic component A's both ends laminate with splint, apron respectively mutually, and elastic component A adopts the spring, and its effect does, can drive two sets of splint simultaneously to inside centre gripping through elastic component A.

Further, the detection mechanism further includes: the temperature detector and the timer are respectively arranged in the fixing frame, the display screens are respectively arranged on the temperature detector and the timer, and the control buttons are respectively arranged on the inner sides of the temperature detector and the timer; the tail end of the lapping rod is lapped with the control button, meanwhile, a sliding block is fixedly connected to the lapping rod, the sliding block is connected to the inside of the fixing frame in a sliding mode through a reserved groove, and an elastic part B is movably connected to the lapping rod; one end of the elastic part B is attached to the fixing frame through the reserved groove, the other end of the elastic part B is attached to the sliding block, one end of the lapping rod is arranged in an arc shape, and the lapping rod arranged in the arc shape can enable the lapping rod to automatically slide towards two ends when being lapped with the heat-conducting plate.

Further, the control structure includes: the heating device comprises a heat conducting plate, connecting blocks B, heating blocks, a control rod and a bearing, wherein the heat conducting plate is connected inside a fixing frame in a sliding mode through a reserved groove, the connecting blocks B are fixedly connected to two sides of the heat conducting plate respectively and are connected with the fixing frame in a sliding mode through sliding grooves respectively, and the heating blocks are installed at the top of the heat conducting plate; the control rod is respectively in threaded connection with the connecting block B, and the bottom of the control rod is movably connected with the bearing.

Further, the control structure further includes: the device comprises a fixed block, a bevel gear A, a bevel gear B and a control shaft; the fixed block is fixedly connected inside the fixed frame through the sliding groove, and a bearing is rotatably connected inside the fixed block; bevel gear A is fixed connection respectively in bevel gear A's bottom, and bevel gear A meshes with bevel gear B mutually respectively, and two sets of bevel gear B are fixed connection respectively on the control shaft, and the control shaft rotates through rotating groove and mount and be connected.

Compare with current structure under, the utility model has the advantages of as follows:

1. the utility model discloses cover the setting of mechanism, through apron and mount, can make the heating piece heat under relative confined environment, and can effectual simulation radiator operational environment in the refrigerator after the heating is accomplished, be convenient for better detect radiator working effect to make the actual behavior of experimental result laminating radiator.

2. The utility model discloses clamping structure's setting can also drive splint simultaneously through elastic component A and carry out the centre gripping to inside to carry out the centre gripping fixed with elastic component A through splint to the radiator, and make the radiator place in one side of heating piece, be convenient for quick dispel the heat to the heating piece.

3. The utility model discloses the setting of control structure, the both sides of heat-conducting plate are equipped with the grade, and its effect does, when the heat-conducting plate slides to the bottom, can slide to both ends through heat-conducting plate control slide bar to the simultaneous control thermoscope is opened simultaneously with the time-recorder, and the quick check out test set of being convenient for is controlled.

4. The utility model discloses the setting of control structure can detect the radiating effect of radiator through thermoscope and time-recorder, can also detect the radiating efficiency of radiator simultaneously.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic sectional view of the operation platform of the present invention;

FIG. 4 is a schematic structural view of the covering mechanism of the present invention;

fig. 5 is a schematic structural view of the clamping structure of the present invention;

fig. 6 is a schematic structural view of the detection mechanism of the present invention;

fig. 7 is a schematic structural diagram of the control structure of the present invention.

In the figure:

1. an operating platform; 101. a fixed mount; 102. reserving a groove; 103. a sliding groove; 104. a rotating groove;

2. a covering mechanism; 201. connecting a block A; 202. a rotating shaft; 203. a cover plate; 204. hollowing out the grooves; 205. a through hole;

3. a clamping structure; 301. a heat sink; 302. a slide bar; 303. a splint; 304. an elastic member A;

4. a detection mechanism; 401. a temperature detector; 402. a control button; 403. a timer; 404. a lap joint rod; 405. a slider; 406. an elastic member B; 407. a display screen;

5. a control structure; 501. a heat conducting plate; 502. connecting block B; 503. a heating block; 504. a control lever; 505. a bearing; 506. a fixed block; 507. a bevel gear A; 508. a bevel gear B; 509. and a control shaft.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings and described below. While the invention will be described in conjunction with the exemplary embodiment, it will be understood that this description is not intended to limit the invention to this exemplary embodiment. On the contrary, the invention is intended to cover not only the exemplary embodiment, but also various alternative, modified, equivalent and other embodiments, which may be included within the spirit and scope of the invention as defined by the appended claims.

Referring to fig. 1 to 7, the heat sink performance detection device of the air-cooled refrigerator comprises an operation platform 1 and a detection mechanism 4; the top of the operating platform 1 is movably connected with a covering mechanism 2 and a clamping structure 3, and the clamping structure 3 is arranged at the bottom of the covering mechanism 2; detection mechanism 4 sets up in operation platform 1's inside, and detection mechanism 4 sets up respectively in control structure 5's both sides, and control structure 5 swing joint covers mechanism 2 including in operation platform 1's inside: the cover plate 203 is movably connected to the top of the fixing frame 101, and the two sides of the cover plate 203 are respectively provided with a hollow groove 204 and a through hole 205.

As shown in fig. 3, the operation platform 1 includes: the fixing frame 101, the preformed groove 102, the sliding groove 103 and the rotating groove 104 are arranged, the preformed groove 102 is arranged inside the fixing frame 101, the sliding grooves 103 are respectively arranged on two sides of the preformed groove 102, and the rotating groove 104 is simultaneously arranged inside the fixing frame 101.

As shown in fig. 4, the covering mechanism 2 further includes: the connecting blocks A201 and the rotating shaft 202 are arranged in two groups, and the two groups of connecting blocks A201 are fixedly connected to the fixing frame 101 respectively; the both ends of axis of rotation 202 rotate with connecting block A201 respectively and are connected, fixedly connected with apron 203 on the axis of rotation 202, through apron 203 and mount 101, can make heating block 503 heat under relative confined environment, and can effectual simulation radiator 301 operational environment in the refrigerator after the heating is accomplished, be convenient for better detect radiator 301 working effect to make the actual behavior of experimental result laminating radiator 301.

As shown in fig. 5, wherein the clamping structure 3 comprises: the heat sink 301, the sliding rod 302, the clamping plate 303 and the elastic piece A304, wherein the heat sink 301 is arranged inside the cover plate 203; the sliding rods 302 are respectively connected to two sides of the cover plate 203 in a sliding manner through the through holes 205, the head ends of the sliding rods 302 are respectively fixedly connected with clamping plates 303, and the inner sides of the clamping plates 303 are respectively attached to two sides of the radiator 301; elastic component A304 swing joint is on slide bar 302, and the both ends of elastic component A304 laminate with splint 303, apron 203 respectively mutually, can also drive splint 303 through elastic component A304 and carry out the centre gripping simultaneously to inside to carry out the centre gripping fixed to radiator 301 through splint 303 and elastic component A304, and make radiator 301 place in one side of heating block 503, be convenient for quick dispel the heat to heating block 503.

As shown in fig. 6, the detecting mechanism 4 further includes: the temperature detector 401, the control button 402, the timer 403, the lap joint rod 404, the sliding block 405, the elastic member B406 and the display screen 407, wherein the temperature detector 401 and the timer 403 are respectively arranged inside the fixed frame 101, the display screen 407 is respectively arranged on the temperature detector 401 and the timer 403, and the control button 402 is respectively arranged on the inner sides of the temperature detector 401 and the timer 403; the tail end of the lapping rod 404 is lapped with the control button 402, meanwhile, a sliding block 405 is fixedly connected to the lapping rod 404, the sliding block 405 is connected to the inside of the fixing frame 101 in a sliding mode through the reserved groove 102, and an elastic part B406 is movably connected to the lapping rod 404; one end of the elastic part B406 is attached to the fixing frame 101 through the preformed groove 102, the other end of the elastic part B406 is attached to the sliding block 405, the temperature detector 401 adopts an infrared temperature detector, meanwhile, the heat dissipation effect of the radiator can be detected through the temperature detector and the timer, and meanwhile, the heat dissipation efficiency of the radiator can be detected.

As shown in fig. 7, wherein the control structure 5 includes: the heat conduction plate 501 is connected inside the fixing frame 101 in a sliding mode through the reserved groove 102, the connection blocks B502 are fixedly connected to two sides of the heat conduction plate 501 respectively, the connection blocks B502 are connected with the fixing frame 101 in a sliding mode through the sliding grooves 103 respectively, and the heating block 503 is installed at the top of the heat conduction plate 501; control lever 504 respectively with connecting block B502 threaded connection, and the bottom and the bearing 505 swing joint of control lever 504, the both sides of heat-conducting plate 501 are equipped with certain slope, its effect be, when heat-conducting plate 501 slides to the bottom, can slide to both ends through heat-conducting plate 501 control slide bar 302 to control thermoscope 401 and time-recorder 403 simultaneously and open, be convenient for quick control detection equipment.

As shown in fig. 7, wherein the control structure 5 further includes: a fixed block 506, a bevel gear A507, a bevel gear B508 and a control shaft 509; the fixed block 506 is fixedly connected inside the fixed frame 101 through the sliding groove 103, and a bearing 505 is rotatably connected inside the fixed block 506; bevel gears A507 are respectively and fixedly connected to the bottom ends of the bevel gears A507, the bevel gears A507 are respectively meshed with bevel gears B508, the two groups of bevel gears B508 are respectively and fixedly connected to a control shaft 509, and the control shaft 509 is rotatably connected with the fixed frame 101 through a rotating groove 104.

The working principle of the embodiment is as follows:

in this implementation, place radiator 301 in the top of mount 101, splint 303 can drive splint 303 through elastic component a304 and fix radiator 301 simultaneously, can heat heating block 503 after the fixed completion, later rotate apron 203 and make apron 203 detain and put at the top of mount 101, later open radiator 301, and control heating block 503 through radiator 301 and dispel the heat, can seal radiator 301 through mount 101 and apron 203, can effectually simulate out the operational environment of radiator 301 in the refrigerator inside, later can also detect heating block 503's temperature through thermoscope 401 and timer 403, at this moment can also detect heating block 503's radiating efficiency through timer 403, when rotating control shaft 509, control shaft 509 can also drive control lever 504 through bevel gear a507 and bevel gear B508 when rotating and rotate, control heat-conducting plate 501 slides to the bottom, and control thermoscope 401 and timer 403 to open together through slide bar 302 simultaneously.

The details of the present invention are well known to those skilled in the art.

In summary, although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments or equivalent replacements may be made to some technical features of the embodiments, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. Radiator performance check out test set of forced air cooling refrigerator, its characterized in that: comprises an operation platform (1) and a detection mechanism (4); the top of the operating platform (1) is movably connected with a covering mechanism (2) and a clamping structure (3), and the clamping structure (3) is arranged at the bottom of the covering mechanism (2); detection mechanism (4) set up in the inside of operation platform (1), and detection mechanism (4) set up respectively in the both sides of control structure (5), and control structure (5) swing joint covers mechanism (2) including in the inside of operation platform (1): the fixing frame comprises a cover plate (203), a hollowed-out groove (204) and a through hole (205), wherein the cover plate (203) is movably connected to the top of the fixing frame (101), and the hollowed-out groove (204) and the through hole (205) are respectively arranged on two sides of the cover plate (203).

2. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 1, wherein: the operating platform (1) comprises: the fixing frame comprises a fixing frame (101), a reserved groove (102), sliding grooves (103) and a rotating groove (104), wherein the reserved groove (102) is formed in the fixing frame (101), the sliding grooves (103) are respectively formed in two sides of the reserved groove (102), and the rotating groove (104) is formed in the fixing frame (101).

3. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 2, wherein: the covering mechanism (2) further comprises: the connecting blocks A (201) and the rotating shaft (202), the connecting blocks A (201) are arranged in two groups, and the two groups of connecting blocks A (201) are respectively and fixedly connected to the fixing frame (101); two ends of the rotating shaft (202) are respectively rotatably connected with the connecting block A (201), and a cover plate (203) is fixedly connected to the rotating shaft (202).

4. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 3, wherein: the clamping structure (3) comprises: the heat sink (301), the sliding rod (302), the clamping plate (303) and the elastic piece A (304), wherein the heat sink (301) is arranged inside the cover plate (203); the sliding rods (302) are respectively connected to two sides of the cover plate (203) in a sliding mode through the through holes (205), the head ends of the sliding rods (302) are respectively fixedly connected with clamping plates (303), and the inner sides of the clamping plates (303) are respectively attached to two sides of the radiator (301); the elastic piece A (304) is movably connected to the sliding rod (302), and two ends of the elastic piece A (304) are respectively attached to the clamping plate (303) and the cover plate (203).

5. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 2, wherein: the detection mechanism (4) further comprises: the temperature measuring device comprises a temperature measuring device (401), a control button (402), a timer (403), a lapping rod (404), a sliding block (405), an elastic piece B (406) and a display screen (407), wherein the temperature measuring device (401) and the timer (403) are respectively arranged in a fixing frame (101), the display screen (407) is respectively arranged on the temperature measuring device (401) and the timer (403), and the control button (402) is respectively arranged on the inner sides of the temperature measuring device (401) and the timer (403); the tail end of the lapping rod (404) is lapped with the control button (402), meanwhile, a sliding block (405) is fixedly connected onto the lapping rod (404), the sliding block (405) is connected into the fixing frame (101) in a sliding mode through the reserved groove (102), and an elastic part B (406) is movably connected onto the lapping rod (404); one end of the elastic part B (406) is attached to the fixing frame (101) through the preformed groove (102), and the other end of the elastic part B (406) is attached to the sliding block (405).

6. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 2, wherein: the control structure (5) comprises: the heat conduction plate (501) is connected inside the fixing frame (101) in a sliding mode through a reserved groove (102), the connecting blocks B (502) are fixedly connected to the two sides of the heat conduction plate (501) respectively, the connecting blocks B (502) are connected with the fixing frame (101) in a sliding mode through sliding grooves (103) respectively, and the heating blocks (503) are installed at the top of the heat conduction plate (501); the control rod (504) is respectively in threaded connection with the connecting block B (502), and the bottom of the control rod (504) is movably connected with the bearing (505).

7. The apparatus for testing the performance of the heat sink of the air-cooled refrigerator as claimed in claim 6, wherein: the control structure (5) further comprises: a fixed block (506), a bevel gear A (507), a bevel gear B (508) and a control shaft (509); the fixing block (506) is fixedly connected inside the fixing frame (101) through the sliding groove (103), and a bearing (505) is rotatably connected inside the fixing block (506); bevel gear A (507) is fixed connection respectively in the bottom of bevel gear A (507), and bevel gear A (507) meshes with bevel gear B (508) mutually respectively, and two sets of bevel gear B (508) are fixed connection respectively on control shaft (509), and control shaft (509) is through rotating groove (104) and mount (101) rotation connection.

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