CN111453200A - Plastic packaging container capable of being heated by physical friction - Google Patents

Abstract

The invention provides a plastic packaging container capable of being heated by physical friction, which comprises a main body, a sealing cover and a friction groove, wherein the sealing cover is embedded above the main body, and the friction groove is formed in an opening at the bottom end in the main body; the main part is including putting the thing board, put the thing board including blow vent and heat-sink shell, the friction groove is including the friction plate, application of force board and displacement groove, the friction plate is including the stopper, the fluting, the wire casing, displacement axis and swivelling chute, the displacement axis is including winding groove, the displacement groove is including the ball, the device is provided with the friction plate, can rock through the friction plate when the people is for removing the main part and let its quick travel about relapse rub it, produce the heat through the friction and to the inside continuous injection heat.

Description

Plastic packaging container capable of being heated by physical friction

Technical Field

The invention relates to the technical field of plastic packaging, in particular to a plastic packaging container.

Background

The plastic packaging container is a container which is made of plastic raw materials through molding and is used for packaging articles. Along with the rapid development of petrochemical industry, the plastic industry develops rapidly, and plastic packaging containers have replaced packaging containers made of materials such as metal, glass, ceramic, wood and the like in many aspects, and the existing plastic packaging containers only have a simple storage effect, so that if food is stored, the food is easily cooled, the heat cannot be dissipated, and if the food is heated through an electric appliance structure, the food cannot be added due to the fact that the plastic packaging container structure is too simple, and certain potential safety hazards are easily caused.

Disclosure of Invention

The invention aims to solve the technical problem that when a plastic packaging container stores food, the internal heat of the plastic packaging container cannot be guaranteed not to disappear, so that the food in the plastic packaging container can be cooled.

The purpose and the effect of the plastic packaging container capable of being heated by physical friction are achieved by the following specific technical means:

a plastic packaging container capable of being heated by physical friction comprises a main body, a sealing cover and a friction groove, wherein the sealing cover is embedded above the main body, and the friction groove is formed in an opening at the bottom end in the main body;

the main body comprises an object placing plate and an offset groove, the object placing plate is fixedly connected inside the main body and close to the middle of the bottom end, and an opening of the offset groove is formed in the bottom end of the middle inside the main body;

the object placing plate comprises an air vent and a heat absorbing layer, the air vent is opened on the surface of the top end of the object placing plate, and the heat absorbing layer is fixedly connected to the bottom end of the object placing plate;

the offset groove comprises an offset ring, and the offset ring is embedded in the middle of the offset groove;

the friction groove comprises a friction plate, a force application plate and a displacement groove, the friction plate is embedded in the friction groove, the force application plate is embedded in two sides of the friction groove, and openings of the displacement groove are arranged on two sides of the friction groove;

the friction plate comprises a limiting block, a slot, a wire slot, a displacement shaft, a rotary slot and an offset column, wherein the limiting block is fixedly connected to two sides of the friction plate, the slot opening is formed in the middle of two sides of the friction plate, the wire slot opening is formed in two sides of the middle of the slot, the displacement shaft is embedded in one side of the middle of the slot, the rotary slot opening is formed in one side of the middle of the slot, and the offset column is fixedly connected to the bottom end of the friction plate;

the displacement shaft comprises a winding groove which is fixedly connected to the peripheral surfaces of the displacement shaft close to the two ends;

the displacement groove comprises a ball, and the ball is embedded in one side of the middle of the displacement groove.

Further preferred embodiments: the vent is an opening with a circular top surface.

Further preferred embodiments: the heat absorbing layer is a rectangular plate with the area of the top end of the storage plate consistent with that of the top end of the storage plate, and the heat absorbing layer is made of copper.

Further preferred embodiments: the friction plate is a rectangular plate embedded in the middle of the inside of the friction groove, and the thickness of the friction plate is smaller than the width of the friction groove.

Further preferred embodiments: the limiting blocks are protrusions with semicircular shapes at two sides of the friction plate.

Further preferred embodiments: the grooving is that the friction plate both sides are the fluting of rectangular form.

Further preferred embodiments: the wire casing is the trompil that fluting middle part both sides are circular form, and the trompil is inside to run through there is the pull wire, and the both ends of pull wire are connected respectively simultaneously with displacement axis and on the application of force board.

Further preferred embodiments: the winding groove is a spiral groove on the peripheral surface of the displacement shaft close to the two ends.

Further preferred embodiments: the force application plate is a rectangular plate with two sides of the friction groove connected through a spring.

Further preferred embodiments: the ball is a ball in the circular slot at the inner wall of the middle part of the slot of the displacement slot, and part of the bulge of the ball is exposed at one side of the inner wall of the middle part of the slot of the displacement slot.

Has the advantages that:

(1) the plastic packaging container capable of being physically frictionally heated is provided with a friction plate, when the friction plate moves to one side, because one end of a traction wire of the friction plate is connected with a winding groove wound on a displacement shaft, the traction wire can be pulled out from the winding groove when the traction wire is pulled due to the movement of the friction plate, and the displacement shaft can rotate when pulled, when the displacement shaft rotates to one side, the traction wire connected with the surface of the winding groove at the other end can be pulled to be wound on the winding groove for bundling, when the bundling is performed, the other end of the traction wire is connected to a force application plate, one side can pull a spring of the force application plate to extend and move to one side, meanwhile, the moving direction of the friction plate can support the surface of the force application plate at the other side to compress the force application plate, when the force application plate moves to a certain distance, the compressed back ejects the friction plate to one side due to the elasticity of the spring, the application of force board that extends simultaneously also can reset because of the elasticity of spring and drag, lets the displacement axis constantly rotate repeatedly through this process for the removal about the whole friction plate is constantly going on is giving up heat to heat absorption layer friction and is letting enthusiasm to distribute to the article on putting the thing board through the vent port, makes and can heat article through physical friction production heat.

(2) When the main body is manually taken up to move, the friction plate in the friction groove in the main body can move left and right due to swinging of the friction plate, the thickness of the friction plate is smaller than the width of the friction groove when the friction plate moves, the bottom end of the friction plate can be suspended in the air, the two sides of the friction plate can be embedded into the grooves of the displacement groove due to the limiting blocks, the friction plate can only move along the grooves to enable the top end of the friction plate to be attached to the bottom end of the heat absorption layer to perform left and right moving friction, the limiting blocks can support the balls in the displacement grooves when the friction plate moves left and right, and the balls are driven to roll through the movement of the limiting blocks to enable the friction plate to move along the displacement grooves more quickly and smoothly.

(3) And when the friction plate rocks about the main part bottom, the skew post of its bottom can carry out the skew at the skew groove middle part of the inside bottom of main part and remove, and the skew post is embedded in the skew ring in the skew groove, can compress spring on every side when the friction plate takes place to rock and drive its skew ring and rock the skew, make can reduce its range of rocking the skew but increase through its elasticity and rock frictional speed and number of times, can slow down like this and rock the influence to the main part when the friction plate is inside in the main part.

Drawings

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

Fig. 2 is an overall front sectional structure diagram of the present invention.

FIG. 3 is a schematic overall side-view cross-sectional structure of the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3 according to the present invention.

Fig. 5 is a schematic view of the overall structure of the friction plate of the present invention.

Fig. 6 is an enlarged view of the structure at B in fig. 5 according to the present invention.

Fig. 7 is a schematic view showing an overall structure of the friction plate and the bottom end of the main body according to the present invention.

In FIGS. 1-7: the heat-absorbing plate comprises a main body 1, an object placing plate 101, an air vent 1011, a heat-absorbing layer 1012, an offset groove 102, an offset ring 1021, a sealing cover 2, a friction groove 3, a friction plate 301, a limiting block 3011, a slot 3012, a line slot 3013, a displacement shaft 3014, a winding slot 30141, a rotation slot 3015, an offset column 3016, a force applying plate 302, a displacement slot 303 and a ball 3031.

Detailed Description

As shown in figures 1 to 7:

the invention provides a plastic packaging container capable of being heated by physical friction, which comprises a main body 1, a sealing cover 2 and a friction groove 3, wherein the sealing cover 2 is embedded above the main body 1, and the friction groove 3 is arranged at an opening at the bottom end in the main body 1;

the main body 1 comprises an object placing plate 101 and an offset groove 102, the object placing plate 101 is fixedly connected to the inside of the main body 1 close to the middle of the bottom end, and an opening of the offset groove 102 is formed in the bottom end of the middle inside the main body 1;

the object placing plate 101 comprises an air vent 1011 and a heat absorbing layer 1012, the air vent 1011 is opened on the top surface of the object placing plate 101, and the heat absorbing layer 1012 is fixedly connected to the bottom end of the object placing plate 101;

the offset groove 102 comprises an offset ring 1021, and the offset ring 1021 is embedded in the middle of the offset groove 102;

the friction groove 3 comprises a friction plate 301, a force application plate 302 and a displacement groove 303, the friction plate 301 is embedded in the friction groove 3, the force application plate 302 is embedded in two sides of the friction groove 3, and openings of the displacement groove 303 are arranged on two sides of the friction groove 3;

the friction plate 301 comprises a limiting block 3011, a slot 3012, a wire slot 3013, a displacement shaft 3014, a rotation slot 3015 and an offset column 3016, the limiting block 3011 is fixedly connected to two sides of the friction plate 301, an opening of the slot 3012 is arranged in the middle of two sides of the friction plate 301, an opening of the wire slot 3013 is arranged on two sides of the middle of the slot 3012, the displacement shaft 3014 is embedded in one side of the middle of the slot 3012, an opening of the rotation slot 3015 is arranged on one side of the middle of the slot 3012, and the offset column 3016 is fixedly connected to;

the displacement shaft 3014 includes a winding slot 30141, and the winding slot 30141 is fixedly connected to the displacement shaft 3014 near the peripheral surfaces of the two ends;

the displacement groove 303 includes a ball 3031, and the ball 3031 is embedded in the middle side of the displacement groove 303.

Wherein, vent 1011 is the trompil that is circular form for putting thing board 101 top surface, can let better the giving off of heat through vent 1011.

The heat absorbing layer 1012 is a rectangular plate with the top end area of the object placing plate 101 consistent with that of the object placing plate, the heat absorbing layer 1012 is made of copper, and heat can be generated better during friction due to the copper of the heat absorbing layer 1012.

The friction plate 301 is a rectangular plate embedded in the middle of the friction groove 3, the thickness of the friction plate 301 is smaller than the width of the friction groove 3, and heat is generated by friction at the bottom of the heat absorbing layer 1012 through repeated left-right movement of the friction plate 301.

The limiting block 3011 is a semicircular protrusion on both sides of the friction plate 301, and the friction plate 301 can move left and right more stably without position deviation through the limiting block 3011.

The slot 3012 is a slot on both sides of the friction plate 301.

The wire slot 3013 is a circular opening at both sides of the middle of the slot 3012, and a pull wire penetrates through the inside of the opening, and meanwhile, the two ends of the pull wire are respectively connected to the displacement shaft 3014 and the force application plate 302, and the displacement shaft 3014 and the force application plate 302 can be connected by the pull wire through the wire slot 3013.

Among them, the winding groove 30141 is a spiral groove on the peripheral surface of the displacement axis 3014 near both ends.

Wherein, the force application plate 302 is a rectangular plate material with two sides of the friction groove 3 connected by a spring.

The ball 3031 is a ball in a circular slot at the inner wall of the middle part of the slot of the displacement slot 303, and a part of the protrusion of the ball is exposed at one side of the inner wall of the middle part of the slot of the displacement slot 303.

The working principle is as follows:

the specific using mode and function of this embodiment, firstly put the article to be held into the placing board 101 inside the main body 1, then embed the sealing cover 2 above the main body 1 to seal the inside and then store and conveniently transport it, when the main body 1 is manually taken up and moved, the shaking of its movement will make the friction board 301 of the friction groove 3 inside the main body 1 move left and right because of its swing, and the thickness of the friction board 301 is smaller than the width of the friction groove 3 when moving, so its bottom end will be suspended in the air, and both sides will make the top end of the friction board 301 attach to the bottom end of the heat absorbing layer 1012 to move left and right because the limiting block 3011 is embedded in the slot of the displacement groove 303, so that it can only move along the slot, so that the top end of the friction board 301 will attach to the bottom end of the heat absorbing layer 1012 to move left and right, and when the friction board 301 moves left and right, the limiting block 3011 will abut against the ball 3031 of the displacement groove 303, the movement of the stopper 3011 drives the ball 3031 to roll, so that the friction plate 301 moves along the displacement slot 303 more quickly and smoothly, when the friction plate 301 moves to one side, because one end of the pull wire is connected to the winding slot 30141 wound on the displacement shaft 3014, when the pull wire is pulled due to the movement of the friction plate 301, the pull wire is pulled out from the winding slot 30141, and when the pull wire is pulled, the displacement shaft 3014 rotates, when the displacement shaft 3014 rotates to one side, the pull wire connected to the surface of the winding slot 30141 at the other end is pulled to be wound on the winding slot 30141 for bundling, and when the pull wire is wound, the other end of the pull wire is connected to the force applying plate 302, one side of the force applying plate 302 pulls the spring to extend to one side, and the direction of the friction plate 301 moves to abut against the surface of the force applying plate 302 to compress the other side of the force applying plate 302, when the force applying plate 302 which is compressed after moving to a certain distance ejects the friction plate 301 to one side due to the elasticity of the spring, and the extended force applying plate 302 is also pulled and reset due to the elasticity of the spring, the displacement shaft 3014 is continuously and repeatedly rotated through the process, so that the whole friction plate 301 continuously moves left and right to absorb the heat generated by the friction of the heat absorbing layer 1012 to be dissipated to the object on the object placing plate 101 through the vent 1011, so that the object can be heated by the heat generated by physical friction, when the friction plate 301 shakes left and right at the bottom end of the main body 1, the offset column 3016 at the bottom end of the friction plate 301 deflects and moves in the middle of the offset groove 102 at the bottom end of the main body 1, and the offset column 3016 is embedded in the offset ring 1021 in the offset groove 102, when the friction plate 301 shakes to drive the offset ring 1021 to swing and offset, the surrounding spring is compressed, so that the magnitude of its wobbling offset can be reduced but the speed and number of times of wobbling friction can be increased by its elasticity, which can decelerate the influence of the friction plate 301 on the main body 1 when wobbling inside the main body.

Claims (10)

1. A plastic packaging container capable of being heated by physical friction comprises a main body (1), a sealing cover (2) and a friction groove (3), and is characterized in that: a sealing cover (2) is embedded above the main body (1), and a friction groove (3) is formed in an opening at the bottom end inside the main body (1);

the main body (1) comprises an object placing plate (101) and an offset groove (102), the object placing plate (101) is fixedly connected to the inner part of the main body (1) close to the middle of the bottom end, and an opening of the offset groove (102) is formed in the bottom end of the middle part of the inner part of the main body (1);

the object placing plate (101) comprises an air vent (1011) and a heat absorbing layer (1012), wherein the opening of the air vent (1011) is formed in the top end surface of the object placing plate (101), and the heat absorbing layer (1012) is fixedly connected to the bottom end of the object placing plate (101);

the offset groove (102) comprises an offset ring (1021), and the offset ring (1021) is embedded in the middle of the offset groove (102);

the friction groove (3) comprises a friction plate (301), a force application plate (302) and displacement grooves (303), the friction plate (301) is embedded in the friction groove (3), the force application plate (302) is embedded in two sides of the friction groove (3), and openings of the displacement grooves (303) are arranged on two sides of the friction groove (3);

the friction plate (301) comprises a limiting block (3011), a slot (3012), a wire slot (3013), a displacement shaft (3014), a rotary slot (3015) and an offset column (3016), the limiting block (3011) is fixedly connected to two sides of the friction plate (301), an opening of the slot (3012) is formed in the middle of two sides of the friction plate (301), an opening of the wire slot (3013) is formed in two sides of the middle of the slot (3012), the displacement shaft (3014) is embedded in one side of the middle of the slot (3012), an opening of the rotary slot (3015) is formed in one side of the middle of the slot (3012), and the offset column (3016) is fixedly connected to the bottom end of the friction plate (301);

the displacement shaft (3014) comprises a winding groove (30141), and the winding groove (30141) is fixedly connected to the peripheral surface of the displacement shaft (3014) close to two ends;

the displacement groove (303) comprises a ball (3031), and the ball (3031) is embedded in one side of the middle part of the displacement groove (303).

2. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the vent (1011) is a circular opening on the top surface of the storage plate (101).

3. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the heat absorbing layer (1012) is a rectangular plate with the top end area of the object placing plate (101) consistent with that of the object placing plate, and the heat absorbing layer (1012) is made of copper.

4. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the friction plate (301) is a rectangular plate embedded in the middle of the inside of the friction groove (3), and the thickness of the friction plate (301) is smaller than the width of the friction groove (3).

5. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the limiting block (3011) is a semicircular bulge on two sides of the friction plate (301).

6. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the slot (3012) is a slot with rectangular two sides of the friction plate (301).

7. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the wire casing (3013) is a circular opening at two sides of the middle of the slot (3012), a traction wire penetrates through the opening, and the two ends of the traction wire are respectively connected with the displacement shaft (3014) and the force application plate (302).

8. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the winding groove (30141) is a spiral groove with displacement axis (3014) near the peripheral surface of two ends.

9. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the force application plate (302) is a rectangular plate connected with the two sides of the friction groove (3) through springs.

10. A physically friction heatable plastic packaging container as defined in claim 1 wherein: the ball (3031) is a ball in a circular slot at the inner wall of the middle part of the slot of the displacement slot (303), and part of the bulge of the ball is exposed at one side of the inner wall of the middle part of the slot of the displacement slot (303).

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