CN111928554B - Intelligent household appliance and preservative film system - Google Patents

Abstract

The invention relates to an intelligent household appliance and a preservative film system. The intelligent household appliance comprises a cabinet body, an electronic display screen and a preservative film system, wherein a plurality of storage spaces are formed in the cabinet body, a cabinet door is rotatably arranged on one side of the cabinet body and used for sealing the plurality of storage spaces of the cabinet body, the electronic display screen is installed on the surface of the cabinet door and used for displaying weather and temperature, and the preservative film system is installed in one of the storage spaces and used for sealing a preservative film on a dish. The intelligent household appliance can display weather and can seal the preservative film on the dish.

Description

Intelligent household appliance and preservative film system

Technical Field

The invention relates to an intelligent household appliance and a preservative film system.

Background

Home appliances mainly refer to various electric and electronic appliances used in homes and the like. Also known as civil electric appliances and daily electric appliances. The household appliances are released from heavy, trivial and time-consuming household work, create more comfortable and beautiful life and working environment which are more beneficial to physical and mental health for human beings, provide rich and colorful cultural and entertainment conditions, and become necessities of modern family life. The refrigerator is one of household appliances, and a common refrigerator can only freeze and store food, cannot display weather and cannot cover a preservative film on a dish.

Disclosure of Invention

Based on this, it is necessary to provide an intelligent household appliance and a preservative film system which can display weather and can seal preservative films on dishes.

The utility model provides an intelligence household electrical appliances, includes the cabinet body, electronic display screen and plastic wrap system, and the internal a plurality of storage spaces that are formed with of cabinet, one side of the cabinet body is provided with the cabinet door with rotating, and the cabinet door is used for a plurality of storage spaces of the closed cabinet body, and electronic display screen installs in the surface of cabinet door for show weather and temperature, and plastic wrap system installs in one of them storage space for dish closing cap plastic wrap.

In one embodiment, one of the storage spaces is a shelf space, a shelf is arranged at the bottom of the shelf space, and the preservative film system is arranged on the shelf.

In one embodiment, the shelf is provided with a through groove and a guide groove, the through groove penetrates through the edge of the shelf, and the guide groove is perpendicular to the through groove.

In one embodiment, the preservative film system comprises a disc pushing assembly, a film sealing assembly and a disc swinging assembly which are all installed on the shelf plate, wherein the disc pushing assembly is arranged in a manner of aligning to the through groove and used for pushing the discs to the film sealing assembly, the disc swinging assembly is used for positioning the discs to the position right below the film sealing assembly, and the film sealing assembly is used for performing film sealing operation on the discs.

In one embodiment, the film sealing assembly comprises a film sealing frame, a film sealing cylinder and a film sealing circular plate, wherein the film sealing frame is installed on the shelf, the film sealing cylinder is installed at the top end of the film sealing frame, and the film sealing circular plate is installed on an output shaft of the film sealing cylinder and used for sealing the circular preservative film on the dish.

In one embodiment, the film sealing assembly further comprises a stop plate, the stop plate is fixed on the object placing plate and located at one end of the through groove, an arc-shaped groove is concavely formed in the stop plate, and two positioning columns are convexly arranged at two opposite ends of the arc-shaped groove respectively.

In one of them embodiment, push away the dish subassembly and include pushing away the dish cylinder, push away the dish frame and push away the dish board, push away the dish cylinder and install on the lower surface of putting the thing board, push away the dish frame and include lower axostylus axostyle, lower riser and last axostylus axostyle, lower axostylus axostyle coaxial fastening pushes away on the output shaft of dish cylinder, the relative both ends of lower riser respectively the vertical fixation in the tip of lower axostylus axostyle and the tip of last axostylus axostyle, lower riser aims at the through groove and keeps away from the one end of sealing the membrane subassembly.

In one embodiment, the disk pushing plate is slidably disposed on the upper surface of the storage plate and connected to the end of the upper shaft, the guide groove is aligned with the center of the arc groove of the stop plate, the disk swinging assembly includes two sliding bars, a rail, a reciprocating cylinder, a flexible arc plate and two connecting rods, and the two sliding bars are fixed on the upper surface of the storage plate in parallel.

In one embodiment, the rail is fixed on the upper surface of the shelf and located between the two sliding bars, a bar-shaped sliding groove is formed in the rail, the end portion of the rail is aligned to the guide groove and is arranged at intervals with the end portion of the guide groove, the reciprocating cylinder is installed at one end, far away from the guide groove, of the rail, the flexible arc plate is arranged on the upper surface of the shelf in a sliding mode, one end of each of the two connecting rods is connected to one sliding block in a rotating mode, the other end of each of the two connecting rods is connected to two opposite ends of the flexible arc plate in a sliding mode respectively, and the sliding blocks are inserted into the bar-shaped sliding groove in a sliding mode and are connected with output shafts of the reciprocating cylinders in a sliding mode.

A preservative film system for intelligent household appliances.

Because install electronic display screen on the cabinet door of intelligence household electrical appliances, therefore it can in time show weather and temperature, and the user of being convenient for knows relevant information before going out. The preservative film system is convenient for automatically executing the film sealing operation, thereby saving more labor force.

Drawings

Fig. 1 is a schematic perspective view of an intelligent home appliance according to an embodiment.

Fig. 2 is a schematic perspective view of a plastic wrap system according to an embodiment.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a perspective view of the plastic wrap system of fig. 3 from another perspective.

Detailed Description

Referring to fig. 1 to 4, the present invention relates to an intelligent household appliance. The intelligent household appliance comprises a cabinet body 10, an electronic display screen 11 and a preservative film system 101, wherein a plurality of storage spaces are formed in the cabinet body 10, a cabinet door 15 is rotatably arranged on one side of the cabinet body 10, the cabinet door 15 is used for sealing the plurality of storage spaces of the cabinet body 10, the electronic display screen 11 is installed on the surface of the cabinet door 15 and used for displaying weather and air temperature, and the preservative film system 101 is installed in one of the storage spaces and used for sealing preservative films on dishes.

Because install electronic display screen 11 on the cabinet door 15 of intelligence household electrical appliances, therefore it can in time show weather and temperature, and the user of being convenient for knows relevant information before going out. The preservative film system 101 is convenient for automatically executing film sealing operation, and saves more labor force.

For example, in order to facilitate the film sealing operation, one of the storage spaces is a storage space, a storage plate 105 is disposed at the bottom of the storage space, and the preservative film system 101 is mounted on the storage plate 105. The shelf 105 is provided with a through slot 106 and a guide slot 108, the through slot 106 penetrates the edge of the shelf 105, and the guide slot 108 is perpendicular to the through slot 106. The preservative film system 101 comprises a dish pushing assembly 20, a film sealing assembly 30 and a dish placing assembly 40 which are all installed on a shelf 105, wherein the dish pushing assembly 20 is aligned with the through groove 106 and used for pushing the dishes to the position of the film sealing assembly 30, the dish placing assembly 40 is used for positioning the dishes to the position right below the film sealing assembly 30, and the film sealing assembly 30 is used for performing film sealing operation on the dishes. Push away the dish through setting up dish subassembly 20, utilize pendulum dish subassembly 40 to come the accurate dish of location, recycle and seal membrane subassembly 30 and carry out and seal the membrane operation, and then be convenient for coordinate, accomplish the location and the membrane operation of sealing the dish smoothly.

For example, to facilitate accurate positioning of the dish, the film sealing assembly 30 includes a film sealing frame 31, a film sealing cylinder 32 and a film sealing circular plate 33, the film sealing frame 31 is mounted on the shelf 105, the film sealing cylinder 32 is mounted at the top end of the film sealing frame 31, and the film sealing circular plate 33 is mounted on the output shaft of the film sealing cylinder 32 for sealing the circular preservative film on the dish. The film sealing assembly 30 further includes a stop plate 34, the stop plate 34 is fixed on the shelf 105 and located at one end of the through slot 106, an arc-shaped groove 345 is concavely formed on the stop plate 34, and two positioning pillars 35 are convexly formed at opposite ends of the arc-shaped groove 345 respectively. The disc pushing assembly 20 comprises a disc pushing cylinder 21, a disc pushing frame 22 and a disc pushing plate 23, the disc pushing cylinder 21 is installed on the lower surface of the shelf 105, the disc pushing frame 22 comprises a lower shaft rod 221, a lower vertical plate 223 and an upper shaft rod 225, the lower shaft rod 221 is coaxially fixed on an output shaft of the disc pushing cylinder 21, two opposite ends of the lower vertical plate 223 are respectively and vertically fixed on the end portion of the lower shaft rod 221 and the end portion of the upper shaft rod 225, and the lower vertical plate 223 is aligned to one end, away from the film sealing assembly 30, of the through groove 106. The pushing plate 23 is slidably disposed on the upper surface of the shelf 105 and connected to the end of the upper shaft 225, and the guiding slot 108 is aligned with the center of the arc-shaped groove 345 of the stop plate 34. The pendulum assembly 40 includes two sliding bars 41, a rail 42, a reciprocating cylinder 43, a flexible arc plate 44 and two connecting rods 45, wherein the two sliding bars 41 are fixed on the upper surface of the shelf 105 in parallel. The rail 42 is fixed on the upper surface of the shelf 105 and located between the two sliding bars 41, a bar-shaped sliding groove 425 is formed in the rail 42, the end portion of the rail 42 is aligned with the guide groove 108 and is arranged at an interval with the end portion of the guide groove 108, the reciprocating cylinder 43 is installed at one end of the rail 42 far away from the guide groove 108, the flexible arc plate 44 is slidably arranged on the upper surface of the shelf 105, one ends of the two connecting rods 45 are rotatably connected to one sliding block 455, the other ends of the two connecting rods 45 are respectively slidably connected to two opposite ends of the flexible arc plate 44, and the sliding block 455 is slidably inserted in the bar-shaped sliding groove 425 and connected with an output shaft of the reciprocating cylinder 43.

For example, the present invention also relates to a preservative film system 101. The preservative film system 101 is the preservative film system 101 of the intelligent household appliance.

For example, it is noted that the sealing operation is performed conveniently. An included angle is formed between the two connecting rods 45, and the two connecting rods 45 are symmetrically arranged relative to the central axis of the track 42. The lower surface of the film sealing circular plate 33 is provided with a plurality of control air holes, and the periphery of the bottom surface of the film sealing circular plate 33 is provided with a heating ring surface. The plurality of control air holes can generate vacuum to absorb the circular preservative film, the heating ring surface can thermally press the periphery of the preservative film to the periphery of the dish, and then the plurality of control air holes can generate positive pressure to force the preservative film to be retained on the dish and the film sealing circular plate 33 to be separated from the film sealing circular plate 33 so as to allow the film sealing circular plate 33 to be separated.

For example, two limiting through holes are further formed through the shelf 105, and the two limiting through holes are respectively adjacent to two opposite sides of the two guide grooves 108. The dish pushing assembly 20 further comprises an L-shaped rod 24, an abutting plate 25 and an L-shaped plate 26, wherein one end of the L-shaped rod 24 is fixed on the lower shaft rod 221 of the dish pushing frame 22, and the abutting plate 25 is fixed on the end of the L-shaped rod 24. The extending direction of the contact plate 25 is parallel to the lower shaft 221. The upper surface of the contact plate 25 is a strip-shaped plane and slidably contacts the lower surface of the rack 105, the bottom surface of the contact plate 25 is a strip-shaped inclined surface 255, and the distance between the strip-shaped inclined surface 255 and the lower surface of the rack 105 gradually increases along the direction toward the L-shaped rod 24. Two limit blocking columns 261 (see fig. 3) are convexly arranged on the L-shaped plate 26, the two limit blocking columns 261 are respectively inserted into the two limit through holes and protrude above the object placing plate 105, a bottom plate 265 is transversely and convexly arranged on the L-shaped plate 26, the bottom plate 265 is located below the object placing plate 105, the upper surface of the bottom plate 265 abuts against the strip-shaped inclined surface 255 of the abutting plate 25, a tension spring is arranged on the bottom plate 265, and the top end of the tension spring is connected to the lower surface of the object placing plate 105.

For example, a convex block is protruded from the bottom of the middle portion of the flexible circular arc plate 44, the convex block is slidably inserted into the guide groove 108, the center of the circle of the flexible circular arc plate 44 is located on the track 42, and the two opposite ends of the flexible circular arc plate 44 are respectively bent toward the two slide bars 41. The opposite ends of the flexible arc plate 44 are respectively provided with a sleeve groove 445 at the bottom, and the two sliding bars 41 are respectively inserted into the two sleeve grooves 445. The height of the flexible arc plate 44 is greater than that of the dish, the bottom of the opposite ends of the flexible arc plate 44 are formed with strip-shaped avoiding grooves 446, and the strip-shaped avoiding grooves 446 face the shelf 105, so that the opposite ends of the flexible arc plate 44 are suspended. The two strip-shaped avoiding grooves 446 are respectively arranged on the sides of the two sliding strips 41 which are far away from each other. The distance between the two connecting rods 45 and the shelf 105 is greater than the top height of the dish. For example, the flexible circular arc plate 44 is an elastic plate which can automatically hold the hoop towards the other side after being straightened by force. Specifically, the length of the flexible circular arc plate 44 is less than the perimeter of the dish. The top surfaces of the two opposite ends of the flexible arc plate 44 are provided with arc grooves 447, the arc grooves 447 extend from the end of the flexible arc plate 44 to the middle of the flexible arc plate 44 to form a middle end 448 at the other end, and the distance between the middle end 448 and the middle of the flexible arc plate 44 is greater than the distance between the two opposite ends of the arc grooves 447. The distance between the two limit stops 261 is less than the distance between the middle ends 448 of the two arcuate grooves 447. The end of the connecting rod 45 is provided with a connecting insert post which is slidably inserted into the corresponding arc-shaped groove 447.

When the positioning and film sealing operation is carried out on the dish, the specific steps are as follows: firstly, the dishes filled with food are placed at a designated position on the placing plate 105, the dish pushing cylinder 21 is used for pushing the dishes to the arc-shaped groove 345 of the stop plate 34 through the dish pushing plate 23, the lower vertical plate 223 of the dish pushing frame 22 slides in the through groove 106 to guide and limit the dish pushing frame 22, and the dish pushing frame 22 is also used for synchronously driving the L-shaped rod 24 to drive the abutting plate 25 to abut against the L-shaped plate 26 so as to force the L-shaped plate 26 to descend against the tension of the tension spring, so that the two limiting blocks are retracted into the two limiting through holes. Then, the reciprocating cylinder 43 is used to drive the sliding block 455 to move forward along the strip-shaped sliding slot 425, and further, the two connecting rods 45 are used to force the flexible arc plate 44 to move forward until the protruding block of the flexible arc plate 44 is stopped at the end of the guiding slot 108, the two connecting rods 45 continue to move forward to force the two opposite ends of the flexible arc plate 44 to separate from the two sliding strips 41 and deflect towards one side of the stopping plate 34, the flexible arc plate 44 is used to automatically bend and embrace the periphery of the disk under its own elastic force, so that the disk is aligned with the arc-shaped groove 345, the automatically bent flexible arc plate 44 drags the two connecting rods 45 to move, and the flexible arc plate 44 drives the disk to abut against and be positioned on the side wall of the arc-shaped groove 345.

In the process, the two connecting rods 45 are higher in height and do not touch the dish, and in the process of automatically turning the flexible arc plate 44, the flexible arc plate moves forward, so that the end portions of the two connecting rods 45 can slide to the end portions of the two flexible arc plates 44, the two connecting rods 45 do not affect the subsequent downward movement of the film sealing circular plate 33, and the two strip-shaped avoiding grooves 446 of the flexible arc plate 44 can prevent the two opposite ends of the flexible arc plate 44 from being interfered by the stop plate 34 when the hoop or the pushing positioning is performed. In addition, the length of the flexible arc plate 44 is smaller than the circumference of the dish, so that the flexible arc plate 44 cannot completely embrace the circumference of the dish when embracing the hoop, and therefore the two ends of the flexible arc plate 44 do not reach the two positioning posts 35, and cannot be interfered by the two positioning posts 35 when embracing or pushing positioning, for example, if the dish is not placed correctly or is far away from the arc groove 345 before embracing the hoop, the dish after embracing can be separated from the dish pushing plate 23 and be aligned to the arc groove 345, and then the reciprocating cylinder 43 also continues to drive the dish after embracing to move forward a small distance until the periphery of the dish abuts against the periphery of the arc groove 345. In the hoop process, the arrangement of the swing disc assembly 40 can accurately force the disc to align to the film sealing assembly 30, so that the accuracy of subsequent film sealing is improved.

Thereafter, the film sealing assembly 30 presses the cling film downward to perform the film sealing assembly 30. After the film sealing is finished, the film sealing circular plate 33 is also used for pressing the dish, and the dish pushing cylinder 21 is also used for driving the abutting plate 25 to retreat through the dish pushing frame 22 and the L-shaped rod 24 so as to allow the L-shaped plate 26 to drive the two limit positions to block ascending. The reciprocating cylinder 43 is used for driving the two connecting rods 45 to drive the flexible arc-shaped rods to retreat, so that the flexible arc-shaped plates 44 are separated from the disks until the flexible arc-shaped plates 44 abut against the two limiting blocking posts 261, the two connecting rods 45 continuously retreat, so that the two opposite end portions of the flexible arc-shaped plates 44 are forced to reversely turn around the two limiting blocking posts 261 respectively, and then the two sleeve grooves 445 are respectively sleeved on the two sliding bars 41. Thereafter, the disc pushing cylinder 21 moves forward again to force the two limit stop posts 261 to move downward by using the contact plate 25, and the flexible arc plate 44 is not blocked any more, so that the two connecting rods 45 can drive the flexible arc plate 44 to move backward to return to the original position. That is, when pushing the disc, the disc pushing cylinder 21 is driven once, and when assisting the flexible circular arc plate 44 to return, the disc pushing cylinder 21 is driven to one side by the idle stroke. Thereafter, the circular sealing plate 33 of the sealing assembly 30 is driven by the sealing cylinder 32 to move upward by the positive pressure gas to separate from the released dish.

Through setting up push away dish subassembly 20, seal membrane subassembly 30 and pendulum dish subassembly 40 to can realize pushing away the automation that the dish counterpointed, and then realize sealing the automation of membrane operation, need not the manual work and seal the membrane, practice thrift the manpower, also avoid forgetting the food deterioration damage that the membrane brought. The distance between the middle end 448 and the middle portion of the flexible arc plate 44 is greater than the distance between the opposite ends of the arc groove 447, so that after the flexible arc plate 44 hoops the dish, even if the connecting rods 45 move forward, the ends of the two connecting rods 45 can only be located at most on the opposite sides of the dish and correspond to a small half of the dish, and the downward movement of the film sealing circular plate 33 is unlikely to be hindered. Because the distance between the two limit posts 261 is smaller than the distance between the middle ends 448 of the two arc-shaped grooves 447, when the two connecting rods 45 are pulled backwards, the end portions of the two connecting rods 45 can slide to the end portion of the flexible arc-shaped plate 44, so that the flexible arc-shaped plate 44 is forced to turn backwards under the stop of the limit posts 261.

Claims (6)

1. An intelligent household appliance is characterized by comprising a cabinet body, an electronic display screen and a preservative film system, wherein a plurality of storage spaces are formed in the cabinet body, a cabinet door is rotatably arranged on one side of the cabinet body and used for sealing the plurality of storage spaces of the cabinet body, the electronic display screen is arranged on the surface of the cabinet door and used for displaying weather and temperature, and the preservative film system is arranged in one of the storage spaces and used for sealing preservative films on dishes;

one of the storage spaces is a shelf space, a shelf plate is arranged at the bottom of the shelf space, a preservative film system is arranged on the shelf plate, a through groove and a guide groove are formed in the shelf plate, the through groove penetrates through the edge of the shelf plate, the guide groove is perpendicular to the through groove, the preservative film system comprises a disc pushing assembly, a film sealing assembly and a disc placing assembly, the disc pushing assembly is arranged in an alignment mode with the through groove and used for pushing a disc to the position of the film sealing assembly, the disc placing assembly is used for positioning the disc right below the film sealing assembly, the film sealing assembly is used for performing film sealing operation on the disc and comprises a film sealing frame, a film sealing cylinder and a film sealing circular plate, the film sealing frame is arranged on the shelf plate, the film sealing cylinder is arranged at the top end of the film sealing frame, and the film sealing circular preservative film is arranged on an output shaft of the film sealing cylinder and used for sealing the circular preservative film on the disc.

2. The intelligent household appliance according to claim 1, wherein the film sealing assembly further comprises a stop plate fixed on the shelf and located at one end of the through groove, the stop plate is concavely provided with an arc-shaped groove, and two positioning columns are convexly arranged at two opposite ends of the arc-shaped groove respectively.

3. The intelligent household appliance according to claim 2, wherein the disc pushing assembly comprises a disc pushing cylinder, a disc pushing frame and a disc pushing plate, the disc pushing cylinder is installed on the lower surface of the shelf, the disc pushing frame comprises a lower shaft rod, a lower vertical plate and an upper shaft rod, the lower shaft rod is coaxially fixed on an output shaft of the disc pushing cylinder, opposite ends of the lower vertical plate are respectively and vertically fixed on the end portion of the lower shaft rod and the end portion of the upper shaft rod, and the lower vertical plate is aligned to one end, away from the film sealing assembly, of the through groove.

4. The intelligent household appliance according to claim 3, wherein the disk pushing plate is slidably disposed on the upper surface of the storage plate and connected to the end of the upper shaft, the guiding groove is aligned with the center of the arc-shaped groove of the stopping plate, the disk swinging assembly comprises two sliding bars, a rail, a reciprocating cylinder, a flexible arc plate and two connecting rods, and the two sliding bars are fixed on the upper surface of the storage plate in parallel.

5. The intelligent household appliance according to claim 4, wherein the rail is fixed on the upper surface of the rack and located between the two sliding bars, a bar-shaped sliding groove is formed in the rail, the end portion of the rail is aligned with the guide groove and is spaced from the end portion of the guide groove, the reciprocating cylinder is installed at one end of the rail away from the guide groove, the flexible arc plate is slidably disposed on the upper surface of the rack, one ends of the two connecting rods are rotatably connected to one sliding block, the other ends of the two connecting rods are slidably connected to the two opposite ends of the flexible arc plate, and the sliding block is slidably inserted into the bar-shaped sliding groove and connected with the output shaft of the reciprocating cylinder.

6. A preservative film system for intelligent household appliances according to claim 5.

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