CN117870257A - Vehicle-mounted refrigerator and installation method - Google Patents

Abstract

The invention relates to the field of refrigerators, in particular to a vehicle-mounted refrigerator and an installation method, wherein the vehicle-mounted refrigerator comprises a positioning base, the positioning base is of a double-layer design, the upper end of the positioning base is provided with a chute along the front-rear direction, the chute at the upper end of the positioning base is connected with a refrigerator main body in a sliding manner, an upper end cover of the refrigerator main body is provided with sealing covers, the left side and the right side of the two sealing covers in the left-right direction are respectively hinged with the refrigerator main body, the left side and the right side of the inner side of the refrigerator main body are provided with vertical guide rails, and a supporting device is connected in the vertical guide rails in a sliding manner, so that the vehicle-mounted refrigerator can effectively fix and cool beverages filled with glass, simultaneously is convenient for refrigerating and placing other foods, and can well load and support the beverages to be refrigerated with glass filling.

Description

Vehicle-mounted refrigerator and installation method

Technical Field

The invention relates to the field of refrigerators, in particular to a vehicle-mounted refrigerator and an installation method.

Background

In the current life process of people, automobiles are more and more popular, and when long-distance travel is carried out, some foods are often reserved on the automobiles, and some foods are often required to be refrigerated, and then an on-board refrigerator is required, wherein the on-board refrigerator is mainly used as follows: the main function is to provide flowing fresh-keeping, can help to store the article that needs low temperature to preserve, like: insulin, fruit, beverage, etc.

Food stored in a conventional vehicle-mounted refrigerator is mainly divided into two types, namely bulk food materials which occupy more space, bottled or canned drinks, the volume of the vehicle-mounted refrigerator is usually small, the conventional vehicle-mounted refrigerator is usually provided with only a box-shaped storage chamber, and some glass-filled drinks are easy to roll and collide in the vehicle-mounted refrigerator, so that the glass-filled drinks are damaged, and the glass-filled drinks which need to be refrigerated are difficult to be well filled, supported and fixed.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides the vehicle-mounted refrigerator, so that the glass-filled beverage can be effectively and fixedly placed, and other foods can be conveniently placed.

The invention provides a vehicle-mounted refrigerator, which comprises a positioning base, wherein the positioning base is of a double-layer design, a chute along the front-rear direction is formed in the upper end of the positioning base, a refrigerator main body is connected in the chute at the upper end of the positioning base in a sliding manner, two sealing covers are symmetrically arranged at the upper end of the refrigerator main body in the left-right direction, the left side and the right side of the two sealing covers in the left-right direction are respectively hinged with the refrigerator main body, a vertical guide rail is arranged in the left-right direction of the inner side of the refrigerator main body, and a supporting device is connected in the vertical guide rail in a sliding manner.

Preferably, the supporting device comprises an upper erection rod and a lower erection rod, the upper erection rod corresponds to the lower erection rod, the upper erection rod is located at the upper end of the lower erection rod, the upper erection rod and the lower erection rod are both in sliding connection with the vertical guide rail, a plurality of vertical guide rods are fixedly connected to the lower erection rod, the vertical guide rods are in sliding connection with the upper erection rod along the vertical direction, vertical springs are sleeved on the vertical guide rods, the upper ends and the lower ends of the vertical springs are respectively fixedly connected with the upper erection rod and the lower erection rod, two upper erection rods are fixedly connected with each other through a transverse connecting rod, two lower erection rods are fixedly connected with each other through a transverse connecting rod, the upper erection rod and the lower erection rod are both provided with an erection sliding groove, a cup erection mechanism is arranged on the left sliding groove and the right sliding groove of the upper erection rod, and a cup supporting mechanism is arranged on the cup mechanism.

Preferably, the cup erecting mechanism comprises an erecting cross rod, an erecting connecting block, a middle connecting block and an erecting connecting rod, wherein the left side and the right side of the erecting cross rod are connected with the left side and the right side of the upper side in a sliding mode through two erecting sliding grooves, the erecting cross rods are uniformly distributed in the front-back direction, the erecting connecting block is fixedly connected to the middle position of the erecting cross rod, the middle connecting block is arranged at the middle position of the two erecting cross rods, the middle connecting block is respectively provided with one in the left-right direction of the middle of each two erecting cross rods, the middle connecting block is connected with the two erecting connecting blocks which are close to each other in the front-back direction through the erecting connecting rod, two ends of the erecting connecting rod are hinged to the erecting connecting block and the middle connecting block respectively, a cup supporting mechanism is arranged on the erecting connecting rod, and the rear side and the rearmost erecting cross rod of the upper erecting rod are all provided with bolt joints through bolts.

Preferably, the erection connecting rod is fixedly connected with a cooperative gear at the position hinged with the erection connecting block and the middle connecting block, the cooperative gears in the middle connecting block are meshed with each other, and the cooperative gears at the front side or the cooperative gears at the rear side of the erection connecting block are meshed with each other.

Preferably, the lower erection rod is provided with an erection cross rod in a sliding manner in an erection sliding groove, the erection cross rods in the upper and lower directions correspond to each other, a synchronous connecting rod is arranged between the upper erection cross rod and the adjacent erection cross rod corresponding to the lower part, two ends of the synchronous connecting rod are hinged with the erection cross rod, and the middle positions of the two staggered synchronous connecting rods are connected in a mutually rotating manner.

Preferably, the cup bearing mechanism comprises bearing slide rails, bearing slide blocks, bearing connecting rods, bearing racks and bearing gears, wherein the bearing slide rails are fixedly arranged at the lower ends of the bearing slide rails, the bearing slide rails are symmetrically and slidably connected with the bearing racks, the bearing gears are rotationally connected at the middle positions of the bearing racks, the bearing gears are meshed with the bearing racks, the bearing connecting rods are connected with the bearing slide blocks, bearing blocks are hinged to the lower ends of the two bearing connecting rods jointly, bearing rods extending to middle areas defined by the bearing connecting rods are arranged on the bearing blocks, pulling springs are further arranged in the bearing slide rails, and the two ends of each pulling spring are fixedly connected with ports of the bearing slide rails and the bearing slide rails respectively.

Preferably, the tension device comprises a first connecting rod, a first rope wheel, a tension spring, a tension rope, a main gear, a secondary gear and a second rope wheel, wherein the tension connecting rod is arranged in the middle connecting block, a tension slot is formed in the first connecting rod, the tension connecting rod is arranged in the tension slot, one end of the tension connecting rod is rotationally connected with the first connecting rod, one end of the tension connecting rod, which is rotationally connected with the first connecting rod, is rotationally connected with the outer side end of the tension spring, the position of the lower end of the rope wheel is connected with the outer side end of the tension spring, the inner side end of the tension spring is fixedly connected with the tension connecting rod, the first rope wheel is sleeved with the tension rope, the middle connecting block is fixedly connected with the main gear, the secondary gear is meshed with the edge of the main gear, the second rope wheel is fixedly connected with the secondary gear, and the tension rope passes through the shaft of the first connecting rod and the middle connecting block, and is fixedly connected with the outer side of the second rope wheel.

Preferably, the middle position of the erection connecting rod is rotationally connected with an erection lifting block, the erection lifting block is rotationally connected with a rope pulley III, the rope pulley I is coaxially and fixedly connected with a rope pulley IV, the rope pulley III is connected with the rope pulley IV through a cooperative belt, the rope pulley IV is coaxially and fixedly connected with a lifting pull rope, and the lifting pull rope penetrates through the erection lifting block and is fixedly connected with the bearing block.

Preferably, two sides of the supporting rod are respectively provided with a supporting deflection spring, and two ends of the supporting deflection spring are respectively and fixedly connected with the supporting rod and the supporting block.

The invention also provides an installation method of the vehicle-mounted refrigerator, which comprises the following steps:

s1: the vehicle-mounted refrigerator is loaded at the middle position of the first row of seats and the second row of seats and is clamped at the protruding position on the middle base in the carriage through the positioning base;

s2: when some articles which are large in size and not easy to damage are placed, the articles can be directly placed in the refrigerator, and when some fragile bottled articles are placed, the articles can be placed by the vertical guide rail loading supporting device while the splashing phenomenon is prevented;

s3: the sealing cover is placed on the refrigerator main body.

The invention has the beneficial effects that:

(1) According to the invention, when some articles which are large in size and not easy to damage are required to be placed, the articles can be directly placed in the refrigerator, when some fragile bottled articles are placed, and meanwhile, the splashing phenomenon is prevented, the articles can be placed through the vertical guide rail loading supporting device, so that the glass-filled beverage can be effectively and fixedly placed, and meanwhile, the vehicle-mounted refrigerator for placing other foods is also convenient.

(2) In the invention, the erection connecting rods between the two erection cross rods can be synchronously unfolded through the mutual meshing of the cooperative gears, so that the whole structure is more regular, and each contact point between the bottle and the bottled material is symmetrical and uniform, so that the bottled material is not easy to shake.

(3) In the invention, the clamping main gear and the clamping auxiliary gear are meshed with each other to enable the clamping auxiliary gear to rotate, at the moment, the rope pulley II rotates, the rope pulley II drives the rope pulley I to rotate through the clamping pull rope, and meanwhile, the rope pulley I drives the clamping connecting rod to rotate through the clamping spring, so that the rope pulley I is in elastic connection with the clamping connecting rod, and the clamping connecting rod is suitable for clamping bottled materials with different sizes.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a supporting device according to the present invention;

FIG. 3 is a schematic view of a cup erecting mechanism according to the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

FIG. 5 is an enlarged schematic view of FIG. 3 at B;

FIG. 6 is a schematic view of a cup support mechanism according to the present invention;

fig. 7 is a schematic diagram of the connection between the clamping link and the sheave one of the present invention.

In the figure:

1. positioning a base; 2. a refrigerator main body; 21. a vertical guide rail; 3. sealing cover; 4. a support device; 41. an upper erection rod; 411. erecting a sliding groove; 42. a lower erection rod; 421. a vertical guide rod; 422. a vertical spring; 43. a cup mounting mechanism; 431. erecting a cross bar; 432. erecting a connecting block; 433. a middle connecting block; 434. erecting a connecting rod; 4341. a clamping groove; 4342. erecting a hoisting block; 4343. a rope pulley III; 4344. a rope pulley IV; 4345. a cooperative belt; 4346. hoisting a pull rope; 4347. a support deflection spring; 435. a cooperative gear; 436. a synchronous connecting rod; 44. a cup supporting mechanism; 441. bearing the slide rail; 442. a supporting slide block; 443. a bearing connecting rod; 444. a bearing rack; 445. a bearing gear; 446. a support block; 447. pulling the spring; 448. a support rod; 5. a clamping mechanism; 51. clamping the connecting rod; 52. a rope pulley I; 53. clamping a spring; 54. clamping a pull rope; 55. clamping the main gear; 56. clamping the pinion gear; 57. and a rope pulley II.

Detailed Description

The invention is further described in conjunction with the following detailed description in order to make the technical means, the creation features, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one:

as shown in fig. 1 to 7, the invention provides a vehicle-mounted refrigerator, which comprises a positioning base 1, wherein the positioning base 1 is of a double-layer design, a chute along the front-rear direction is formed at the upper end of the positioning base 1, a refrigerator main body 2 is slidably connected in the chute at the upper end of the positioning base 1, a sealing cover 3 is arranged on the upper end cover of the refrigerator main body 2, the left side and the right side of the two sealing covers 3 in the left-right direction are respectively hinged with the refrigerator main body 2, a vertical guide rail 21 is arranged in the left-right direction of the inner side of the refrigerator main body 2, and a supporting device 4 is slidably connected in the vertical guide rail 21.

In the use process, this on-vehicle refrigerator loads the intermediate position at first row seat and second row seat to establish the protrusion position on the carriage inside intermediate mount through positioning base 1 card, and positioning base 1 is double-deck design, just so can place parts such as compressor at the second floor of refrigerator main part 2, can connect the condenser pipe that is connected with the compressor at the lower extreme of refrigerator main part 2, when needing to place some article that the volume is great and be difficult to damage, can directly place in the refrigerator, in placing some fragile bottled materials, prevent the emergence of splash phenomenon simultaneously again, just can place these article through vertical guide rail 21 loading strutting arrangement 4.

As shown in fig. 2 and 3, the supporting device 4 includes an upper erection rod 41 and a lower erection rod 42, the upper erection rod 41 corresponds to the lower erection rod 42, the upper erection rod 41 is located at the upper end of the lower erection rod 42, the upper erection rod 41 and the lower erection rod 42 are both slidably connected with the vertical guide rail 21, a plurality of vertical guide rods 421 are fixedly connected to the lower erection rod 42, the vertical guide rods 421 and the upper erection rod 41 are slidably connected in the vertical direction, vertical springs 422 are sleeved on the vertical guide rods 421, the upper ends and the lower ends of the vertical springs 422 are respectively fixedly connected with the upper erection rod 41 and the lower erection rod 42, two upper erection rods 41 are fixedly connected through transverse connecting rods, two lower erection rods 42 are also fixedly connected through transverse connecting rods, the upper erection rod 41 and the lower erection rod 42 are both provided with erection sliding grooves 411, the left and right support sliding grooves of the upper erection rods 41 are both provided with cup erection mechanisms 43, and the cup support mechanisms 44 are arranged on the cup erection mechanisms.

When placing the cup, place the cup in the cup setting mechanism 43 to carry out the effect of bearing to the bottom of bottled material through cup bearing mechanism 44, thereby can make bottled material be less likely to receive the damage at the further buffering vibrations of in-process that the vehicle was traveling through the cushioning effect of vertical spring 422 simultaneously.

As shown in fig. 2 and 3, the cup erecting mechanism 43 includes an erecting cross bar 431, an erecting connection block 432, a middle connection block 433 and an erecting connection rod 434, the left and right sides of the erecting cross bar 431 are slidably connected with the left and right sides of the upper part, the erecting cross bar 431 is uniformly distributed with a plurality of erecting slide grooves in the front and back directions, the erecting connection block 432 is fixedly connected with the middle position of the erecting cross bar 431, the middle connection block 433 is arranged at the middle position of the two erecting cross bars 431, the middle connection block 433 is respectively provided with one of the two erecting cross bars 431 in the left and right directions, the middle connection block 433 is connected with the two erecting connection blocks 432 close to the front and back through the erecting connection rod 434, two ends of the erecting connection rod 434 are hinged with the erecting connection block 432 and the middle connection block 433 respectively, the erecting connection rod 434 is provided with a cup bearing mechanism 44, the rear side of the upper erecting bar 41 and the last side cross bar 431 are provided with a bolt connection part, and the last side erecting cross bar 431 is fixedly connected with the upper bar 41 through a bolt.

In the process of placing bottled materials, the erecting cross bars 431 are pulled to enable the erecting connecting rods 434 to be in an unfolded state, four erecting connecting rods 434 are arranged between every two erecting cross bars 431 to be in an unfolded state, bottled materials can be placed in the process, and the bottoms of the bottled materials can be supported through the cup supporting mechanism 44.

The erection link 434 is fixedly connected with a cooperative gear 435 at a position hinged with the erection link 432 and the middle connection block 433, the cooperative gears 435 in the middle connection block 433 are engaged with each other, and the cooperative gears 435 at the front side or the cooperative gears 435 at the rear side of the erection link 432 are engaged with each other.

The mutual engagement of the cooperating gears 435 in the mechanism can enable the erection connecting rod 434 between the two erection transverse rods 431 to be synchronously unfolded, so that the whole structure is more regular, the contact points between the bottle and the bottled materials are symmetrical and uniform, and the bottled materials are not easy to shake.

As shown in fig. 2, 3 and 4, the erection slide slot 411 of the lower erection rod 42 is slidably connected with an erection cross rod 431, the erection cross rods 431 in the up-down direction correspond to each other, a synchronization link 436 is disposed between the erection cross rod 431 above and the adjacent erection cross rod 431 corresponding to the lower side, two ends of the synchronization link 436 are hinged with the erection cross rod 431, and the middle positions of the two staggered synchronization links 436 are rotatably connected with each other.

Through the mechanism, the whole cooperative movement of all the erection cross bars 431 is realized, and when one erection cross bar 431 is pulled, all the erection cross bars 431 synchronously and cooperatively move, so that all the erection connecting rods 434 are synchronously and uniformly unfolded.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the cup supporting mechanism 44 includes a supporting slide rail 441, a supporting slide block 442, a supporting connecting rod 443, a supporting rack 444, a supporting gear 445 and a supporting gear 445, the supporting slide rail 441 is fixedly mounted at the lower end of the supporting slide rail 441, the supporting slide rail 441 is symmetrically and slidably connected with the supporting rack 444, the supporting gear 445 is rotatably connected at the middle position of the supporting rack 444, the supporting gear 445 is meshed with the supporting rack 444, the supporting connecting rod 443 is connected with the supporting slide block 442, the lower ends of the two supporting connecting rods 443 are jointly hinged with a supporting block 446, a supporting rod 448 extending to the middle area surrounded by the erecting connecting rod 434 is arranged on the supporting block 446, and a pulling spring 447 is further arranged in the supporting slide rail 441, and two ends of the pulling spring 447 are fixedly connected with a port of the supporting slide rail 441 and the supporting slide rail 441 respectively.

When placing the bottled material on the supporting mechanism, the supporting rod 448 can support the bottom of the bottled material, and simultaneously the supporting block 446 can pull the supporting sliding block 442 through the supporting connecting rod 443, and simultaneously the supporting sliding block 442 can be symmetrically slid by the mutual meshing of the supporting gear 445 and the supporting rack 444, and the pulling spring 447 can be stretched.

As shown in fig. 3 to 7, the erection link 434 and the intermediate connection block 433 are provided with a clamping mechanism 5, the clamping mechanism 5 includes a clamping link 51, a first sheave 52, a clamping spring 53, a clamping pull rope 54, a clamping main gear 55, a clamping pinion 56 and a second sheave 57, the erection link 434 is provided with a clamping groove 4341, the clamping link 51 is provided in the clamping groove 4341, one end of the clamping link 51 is rotatably connected with the erection link 434, one end of the clamping link 51 rotatably connected with the erection link 434 is rotatably connected with a first sheave 52, the position of the lower end of the first sheave 52 is connected with the outer end of the clamping spring 53, the inner end of the clamping spring 53 is fixedly connected with the clamping link 51, the first sheave 52 is sleeved with a clamping pull rope 54, the intermediate connection block 433 is fixedly connected with the clamping main gear 55, the edge of the clamping main gear 55 is meshed with the clamping pinion 56, the clamping pinion 56 is fixedly connected with the second sheave 57, the clamping pull rope 54 passes through the erection link 434, and is fixedly connected with the second sheave 57 from the side of the shaft of the intermediate connection block 433.

In order to further clamp the bottled materials, in the process of expanding the erection link 434, the clamping main gear 55 and the clamping auxiliary gear 56 are meshed with each other to enable the clamping auxiliary gear 56 to rotate, at the moment, the rope pulley II 57 rotates, the rope pulley II 57 drives the rope pulley I52 to rotate through the clamping pull rope 54, and meanwhile, the rope pulley I52 drives the clamping link 51 to rotate through the clamping spring 53, so that the rope pulley I52 and the clamping link 51 are in elastic connection, and the bottle clamping device is suitable for clamping bottled materials with different sizes.

As shown in fig. 3 to 7, the middle position of the erection link 434 is rotatably connected with an erection lifting block 4342, the erection lifting block 4342 is rotatably connected with a rope wheel three 4343, a rope wheel one 52 is coaxially and fixedly connected with a rope wheel four 4344, the rope wheel three 4343 and the rope wheel four 4344 are connected through a cooperative belt 4345, the rope wheel four 4344 is coaxially and fixedly connected with a lifting pull rope 4346, and the lifting pull rope 4346 passes through the erection lifting block 4342 and is fixedly connected with a bearing block 446.

In the process of placing the bottled materials, the bearing block 446 drives the rope pulley III 4343 to rotate through the hoisting pull rope 4346, and the rope pulley III 4343 drives the rope pulley IV 4344 to rotate through the cooperative belt 4345, so that the bottled materials can be further clamped.

As shown in fig. 6, a supporting deflection spring 4347 is disposed on each side of the supporting rod 448, and two ends of the supporting deflection spring 4347 are fixedly connected to the supporting block 446 and the supporting rod 448, respectively.

This allows the support gear 445 to be always oriented in the middle defined by the four mounting links 434 without affecting the overall process when the support device 4 is tightened.

Embodiment two:

the invention also provides an installation method of the vehicle-mounted refrigerator, which comprises the following steps:

s1: the vehicle-mounted refrigerator is loaded at the middle position of a first row of seats and a second row of seats and is clamped at the protruding position of the middle base in the carriage through a positioning base 1;

s2: when some articles which are large in size and not easy to damage are placed, the articles can be directly placed in a refrigerator, when some fragile bottled articles are placed, meanwhile, the splashing phenomenon is prevented, the articles can be placed by loading the supporting device 4 through the vertical guide rail 21, when the cups are placed, the cups are placed in the cup erecting mechanism 43, the bottoms of the bottled articles are supported through the cup supporting mechanism 44, meanwhile, the bottled articles are not easy to damage due to further buffering vibration in the running process of a vehicle through the damping effect of the vertical springs 422, the erecting connecting rods 434 between the two erecting cross rods 431 can be synchronously unfolded through the mutual meshing between the cooperative gears 435, and the advantage is that the whole structure is more regular, so that contact points between the cups and the bottled articles are symmetrical and uniform, and the bottled articles are not easy to shake;

when the bottled materials are placed on the supporting mechanism, the bottom of the bottled materials can be supported by the supporting rod 448, meanwhile, the supporting block 446 can pull the supporting sliding block 442 through the supporting connecting rod 443, meanwhile, the supporting sliding block 442 can symmetrically slide due to the mutual meshing of the supporting gear 445 and the supporting rack 444, and meanwhile, the pulling spring 447 can be stretched;

s3: the sealing cover 3 is placed on the refrigerator main body 2.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a vehicle-mounted refrigerator, includes location base (1), its characterized in that:

the positioning base (1) is of a double-layer design, a chute along the front-rear direction is formed in the upper end of the positioning base (1), and a refrigerator main body (2) is connected in the chute at the upper end of the positioning base (1) in a sliding manner;

the upper end of the refrigerator main body (2) is symmetrically provided with two sealing covers (3) in the left-right direction, the left and right sides of the two sealing covers (3) in the left-right direction are respectively hinged with the refrigerator main body (2), the left-right direction of the inner side of the refrigerator main body (2) is provided with a vertical guide rail (21), and the vertical guide rail (21) is connected with a supporting device (4) in a sliding manner.

2. The vehicle-mounted refrigerator according to claim 1, wherein: the supporting device (4) comprises an upper erection rod (41) and a lower erection rod (42),

the upper erection rod (41) corresponds to the lower erection rod (42), the upper erection rod (41) is located at the upper end of the lower erection rod (42), the upper erection rod (41) and the lower erection rod (42) are in sliding connection with the vertical guide rail (21), a plurality of vertical guide rods (421) are fixedly connected to the lower erection rod (42), the vertical guide rods (421) are in sliding connection with the upper erection rod (41) along the vertical direction, vertical springs (422) are sleeved on the vertical guide rods (421), and the upper ends and the lower ends of the vertical springs (422) are respectively fixedly connected with the upper erection rod (41) and the lower erection rod (42);

the two upper erection rods (41) are fixedly connected through a transverse connecting rod, the two lower erection rods (42) are fixedly connected through a transverse connecting rod, erection sliding grooves (411) are formed in the upper erection rods (41) and the lower erection rods (42), cup erection mechanisms (43) are arranged in the left sliding grooves and the right sliding grooves of the upper erection rods (41) in a common mode, and cup supporting mechanisms (44) are arranged on the cup erection mechanisms (43).

3. The vehicle-mounted refrigerator according to claim 2, wherein: the cup erecting mechanism (43) comprises an erecting cross rod (431), an erecting connecting block (432), an intermediate connecting block (433) and an erecting connecting rod (434),

the left side and the right side of the erection cross rod (431) are in sliding connection with left and right erection sliding grooves (411) above, a plurality of erection cross rods (431) are uniformly distributed in the front-rear direction, erection connecting blocks (432) are fixedly connected to the middle positions of the erection cross rods (431), middle connecting blocks (433) are arranged at the middle positions of the two erection cross rods (431), and each middle connecting block (433) is provided with one middle part of each two erection cross rods (431) in the left-right direction;

the middle connecting block (433) is connected with two erection connecting blocks (432) which are close to each other front and back through an erection connecting rod (434), two ends of the erection connecting rod (434) are respectively hinged with the erection connecting blocks (432) and the middle connecting block (433), a cup supporting mechanism (44) is arranged on the erection connecting rod (434), bolt connection positions are respectively arranged on the rear side of the upper erection rod (41) and the erection cross rod (431) on the rearmost side, and the rearmost side of the erection cross rod (431) is fixedly connected with the upper erection rod (41) through bolts.

4. A vehicle-mounted refrigerator according to claim 3, wherein: the erection connecting rods (434) are fixedly connected with cooperative gears (435) at positions hinged with the erection connecting blocks (432) and the middle connecting blocks (433), the cooperative gears (435) in the middle connecting blocks (433) are meshed with each other, and the cooperative gears (435) at the front sides or the cooperative gears (435) at the rear sides of the erection connecting blocks (432) are meshed with each other.

5. The vehicle-mounted refrigerator according to claim 4, wherein: the lower erection rod (42) is provided with an erection cross rod (431) in a sliding mode in an erection sliding groove (411), the erection cross rods (431) in the upper and lower directions correspond to each other, a synchronous connecting rod (436) is arranged between the erection cross rod (431) in the upper direction and the adjacent erection cross rod (431) in the lower direction, two ends of the synchronous connecting rod (436) are hinged to the erection cross rod (431), and the middle positions of the two staggered synchronous connecting rods (436) are connected in a rotating mode.

6. The vehicle-mounted refrigerator according to claim 5, wherein: the cup bearing mechanism (44) comprises a bearing sliding rail (441), a bearing sliding block (442), a bearing connecting rod (443), a bearing rack (444) and a bearing gear (445),

bearing slide rail (441) fixed mounting is in the lower extreme of bearing slide rail (441), bearing slide rail (441) symmetry sliding connection has bearing rack (444), the intermediate position rotation of bearing rack (444) is connected with bearing gear (445), bearing gear (445) with bearing rack (444) meshes mutually, bearing connecting rod (443) with bearing slide block (442) are connected, and the lower extreme of two bearing connecting rods (443) articulates jointly has bearing piece (446), be provided with on bearing piece (446) and stretch to bearing pole (448) of the intermediate region that erects connecting rod (434) and enclose, still be provided with in bearing slide rail (441) pulling spring (447), the both ends of pulling spring (447) respectively with port and bearing slide rail (441) fixed connection of bearing slide rail (441).

7. The vehicle-mounted refrigerator according to claim 6, wherein: a clamping mechanism (5) is arranged in the erection connecting rod (434) and the middle connecting block (433),

the clamping mechanism (5) comprises a clamping connecting rod (51), a rope pulley I (52), a clamping spring (53), a clamping pull rope (54), a clamping main gear (55), a clamping auxiliary gear (56) and a rope pulley II (57),

the utility model discloses a rope pulley structure, including erect connecting rod (434), set up clamping groove (4341) in, be provided with clamp link (51) in clamp link (4341), the one end of clamp link (51) with erect connecting rod (434) swivelling joint is connected with rope pulley one (52), and the outside end of clamp spring (53) is connected to the position of rope pulley one (52) lower extreme, the inboard end and clamp link (51) fixed connection of clamp spring (53), the cover is equipped with clamp stay cord (54) on rope pulley one (52), with erect connecting rod (434) fixed connection clamp master gear (55) in middle connecting block (433), clamp master gear (56) have clamp pinion (56) to the edge meshing of clamp master gear (55), clamp pinion (56) are last fixedly connected with rope pulley two (57), clamp stay cord (54) pass the axle of erect connecting rod (434) and middle connecting block (433) to wear out the outside fixed connection with rope pulley two (57) from the side of this axle.

8. The vehicle-mounted refrigerator according to claim 7, wherein: the middle position of the erection connecting rod (434) is rotationally connected with an erection lifting block (4342), the erection lifting block (4342) is rotationally connected with a rope pulley III (4343), a rope pulley IV (4344) is coaxially and fixedly connected with a rope pulley III (4343) and the rope pulley IV (4344) are connected through a cooperative belt (4345), a lifting pull rope (4346) is coaxially and fixedly connected with the rope pulley IV (4344), and the lifting pull rope (4346) penetrates through the erection lifting block (4342) and is fixedly connected with a bearing block (446).

9. The vehicle-mounted refrigerator according to claim 7, wherein: the two sides of the supporting rod (448) are respectively provided with a supporting deflection spring (4347), and two ends of the supporting deflection spring (4347) are respectively fixedly connected with the supporting rod (448) and the supporting block (446).

10. A mounting method of a vehicle-mounted refrigerator according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s1: the vehicle-mounted refrigerator is loaded at the middle position of the first row of seats and the second row of seats and is clamped at the protruding position of the middle base in the carriage through the positioning base (1);

s2: when articles which are not easy to damage are placed, the articles can be directly placed in the refrigerator, and when some fragile bottled articles are placed, and meanwhile, the splashing phenomenon is prevented, the articles can be placed by loading the supporting device (4) through the vertical guide rail (21);

s3: the sealing cover (3) is placed on the refrigerator main body (2).