CN109297241B - Refrigerator internal ice removing device adopting reciprocating vibration mode - Google Patents

Abstract

The invention provides a reciprocating vibration type refrigerator internal ice removing device, and relates to the field of daily necessities. This inside ice-cube remove device of refrigerator of reciprocal vibration mode, including fixed left case, the bottom of fixed left case is provided with reciprocal driving rod, and the bottom of reciprocal driving rod bonds with the top of the empty solid section of thick bamboo in side, and the bottom of the solid section of thick bamboo of side accuse bonds with the top of being connected the sucking disc, and the right side of fixed left case bonds and has installation right side case and gripping handle. This inside ice-cube remove device of refrigerator of reciprocating vibration mode, connect the sucking disc and adsorb back on the ice surface, driving motor control poker rod and protruding granule contact, make and connect the continuous reciprocating vibration behind the sucking disc connection ice-cube, the shaking force that utilizes the vibration to form reduces the adhesion force of ice-cube and refrigerator inner wall gradually, help getting rid of the ice-cube bold, and do not contact with the refrigerator and also do not produce the application of force to the refrigerator, the traditional mode deicing through striking off or heating has been avoided, the damage to the refrigerator has been avoided, help guaranteeing its life.

Description

Refrigerator internal ice removing device adopting reciprocating vibration mode

Technical Field

The invention relates to the technical field of daily necessities, in particular to a device for removing ice cubes in a refrigerator in a reciprocating vibration mode.

Background

The refrigerator is an indispensable furniture in life and is used for prolonging the shelf life of food. Due to the fact that water vapor enters the refrigerator when the door is opened and closed frequently or due to other reasons, the inner wall of the refrigerator is easy to freeze, refrigeration performance is affected, and the interior of the refrigerator needs to be deiced. Application number is CN 201720924341.7's a novel refrigerator defroster, gets rid of ice through the mode of striking off, easily causes wearing and tearing to the inner wall of refrigerator, influences the effect that keeps warm, and application number is CN 201621199121.4's a refrigerator defroster needs to heat the inside of refrigerator, easily produces expend with heat and contract with cold effect, leads to the deformation of refrigerator to influence its performance, has leaded to the difficult clearance of freezing of refrigerator inside.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the device for removing ice cubes in the refrigerator in a reciprocating vibration mode, and solves the problems that the ice in the refrigerator is not easy to clean and the refrigerator is easy to damage.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an inside ice-cube remove device of refrigerator of reciprocal vibration mode, is including fixed left case, the bottom of fixed left case is provided with reciprocal pin, the bottom of reciprocal pin bonds with the top of the empty solid section of thick bamboo in side, the bottom of the empty solid section of thick bamboo in side bonds with the top of being connected the sucking disc, the right side of fixed left case bonds and has installation right side case and gripping handle.

A driving motor is bonded on the top of the inner wall of the fixed left box, a poke rod is welded on an output shaft of the driving motor, the bottom of the poke rod is contacted with the top of the rebound magnetic plate, the bottom of the rebound magnetic plate is bonded with the top of the reciprocating drive rod, the bottom of the reciprocating driving rod penetrates through the poking magnetic plate, the bottom of the inner wall of the fixed left box and the linkage gear and is bonded with the top of the side hollow fixed cylinder, the linkage gear is movably connected with the bottom of the fixed left box through a connecting bearing, the top of the connecting sucker is hermetically communicated with a vacuum connecting cylinder, the vacuum connecting cylinder is internally provided with a piston matched with the vacuum connecting cylinder, the top of the piston is movably connected with the bottom of the linkage screw rod through a fixed bearing, the top of the linkage screw penetrates through the top of the inner wall of the side hollow solid cylinder and is in threaded connection with the side hollow solid cylinder, a rotating grinding wheel is bonded to the top of the linkage screw, and the rotating grinding wheel extends to the outside of the side hollow solid cylinder through a gap of the side hollow solid cylinder.

The bottom border department welding of linkage gear has injectd and supports the pole, the bottom of injectting to the pole passes through rivet and the top swing joint of bended-arc flat bar, the bottom of bended-arc flat bar extends to the below of connecting the sucking disc and is the level form, the lateral part of linkage gear is provided with the drive gear rather than the meshing, the top of drive gear and the output shaft welding machine of driving motor, driving motor bonds in the inner wall bottom of installation right case.

Preferably, the poke rod is L-shaped, hemispherical convex particles are bonded to the top of the rebound magnetic plate, the convex particles are located on the motion tracks of the poke rod and the rebound magnetic plate, and the poke rod is in contact with the smooth convex particles when rotating, so that the rebound magnetic plate can descend, the motion state of the rebound magnetic plate is changed, and the rebound magnetic plate and the fixed left box move relatively.

Preferably, stir the inside of magnetic sheet and offer the opening with reciprocal drive rod looks adaptation, and stir the magnetic sheet and kick-back the magnetic sheet and be close to one side magnetic field direction each other the same, magnet has like poles and repels, the physical phenomenon that opposite sex attracted, and the magnetic sheet that kick-backs drives reciprocal drive rod upward movement.

Preferably, the bottom of the limiting and supporting rod is provided with a notch, the top of the curved flat rod extends into the notch and is movably connected through a rivet, the curved flat rod can only bend towards one side of the notch, when the linkage gear drives the curved flat rod to rotate, the curved flat rod is shielded by the side wall of the limiting and supporting rod and can rotate on an ice surface along with the curved flat rod, the curved flat rod cannot contact and rotate with the ice surface in a reverse direction, and meanwhile, the curved flat rod can be bent to leave the ice surface after the ice surface is leveled and is fixed by the rivet and the friction force between the curved flat rod and the curved flat rod.

Preferably, the lateral wall of the solid section of thick bamboo of side space bonds and has the friction heat generation board, the bottom camber arc of friction heat generation board extends to the lateral part of connecting the sucking disc and the inboard contact of curved arc flat bar, and friction heat generation board and curved arc flat bar are the copper product and make, the curved arc flat bar is continuous in rotatory while with the friction heat generation board frictional contact, the metal is rubbed each other and is easily produced more heat, help improving the temperature on curved arc flat bar surface, the level efficiency of ice surface with higher speed, copper has good heat conductivity simultaneously, with the ice surface of heat direction contact fast, level with higher speed.

(III) advantageous effects

The invention provides a device for removing ice cubes in a refrigerator in a reciprocating vibration mode. The method has the following beneficial effects:

1. according to the device for removing ice cakes in the refrigerator in the reciprocating vibration mode, the poke rod is in contact with the smooth convex particles when rotating, so that the rebound magnetic plate can descend, the motion state of the rebound magnetic plate is changed, the rebound magnetic plate and the fixed left box move relatively, the purpose of controlling the reciprocating drive rod to descend is achieved, the repulsion force generated between the poke magnetic plate and the rebound magnetic plate enables the rebound magnetic plate to drive the reciprocating drive rod to move upwards, and the reciprocating drive rod can continuously move upwards and downwards.

2. According to the refrigerator internal ice block removing device adopting the reciprocating vibration mode, the linkage screw can be controlled to rotate and lift at the top of the side hollow fixed cylinder by rotating the grinding wheel, so that the piston is controlled to lift in the vacuum connecting cylinder, when the connecting sucker is adsorbed on an ice surface, the air pressure in the connecting sucker can be reduced by the lifting of the piston, the adsorption of the connecting sucker is firmer, the piston does not rotate along with the rotation of the linkage screw by the fixed bearing, the abrasion of the piston is reduced, and the tight adsorption effect of the connecting sucker is ensured.

3. According to the refrigerator internal ice block removing device adopting the reciprocating vibration mode, the bent arc flat rod can only bend towards one side of the notch, when the linkage gear drives the bent arc flat rod to rotate, the bent arc flat rod is shielded by the side wall of the limiting abutting rod and can rotate on the ice surface along with the side wall of the limiting abutting rod to grind the ice surface, the ice surface cannot be in contact rotation with the ice surface in the reverse direction, and meanwhile, the bent arc flat rod can be bent to be away from the ice surface after the ice surface is leveled and is fixed by means of the friction force between the rivet and the connecting sucker, so that the adsorption of the connecting sucker on the ice surface.

4. According to the refrigerator internal ice block removing device adopting the reciprocating vibration mode, the bent arc flat rod continuously and frictionally contacts with the friction heat generating plate while rotating, metal is mutually rubbed to easily generate more heat, the improvement of the surface temperature of the bent arc flat rod is facilitated, the leveling efficiency of an ice surface is accelerated, copper has good heat conductivity, the heat is quickly guided to the contacted ice surface, the leveling is accelerated, and even if the friction heat generating plate has heat, the bent arc flat rod conducts the temperature when contacting with the friction heat generating plate due to the heat conduction on the bent arc flat rod, so that the internal heat is reduced.

5. According to the refrigerator internal ice block removing device adopting the reciprocating vibration mode, after the connecting sucker is adsorbed on the ice surface, the driving motor controls the poke rod to be in contact with the convex particles, so that the connecting sucker is continuously and reciprocally vibrated after being connected with an ice block, the bonding force between the ice block and the inner wall of the refrigerator is gradually reduced by utilizing the vibration force formed by vibration, the removal of the large ice block is facilitated, the ice block is not in contact with the refrigerator or does not apply force to the refrigerator, the traditional ice removal by scraping or heating is avoided, the damage to the refrigerator is avoided, and the service life of the refrigerator is facilitated to be ensured.

Drawings

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

FIG. 2 is a schematic view of the connection between a limiting support rod and a curved flat rod according to the present invention.

In the figure: the device comprises a left fixed box 1, a reciprocating driving rod 2, a side hollow fixed cylinder 3, a connecting sucker 4, a vacuum connecting cylinder 5, a pneumatic piston 6, a linkage screw 7, a rotating grinding wheel 8, a shifting magnetic plate 9, a rebound magnetic plate 10, a shifting rod 11, a driving motor 12, a right installed box 13, a driving motor 14, a driving gear 15, a linkage gear 16, a limiting and abutting rod 17, a curved arc flat rod 18, a friction heat generating plate 19 and a gripping handle 20.

Detailed Description

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

The embodiment of the invention provides a device for removing ice cubes in a refrigerator in a reciprocating vibration mode, which comprises a fixed left box 1, wherein a reciprocating driving rod 2 is arranged at the bottom of the fixed left box 1, the bottom of the reciprocating driving rod 2 is bonded with the top of a side hollow solid cylinder 3, the bottom of the side hollow solid cylinder 3 is bonded with the top of a connecting sucker 4, and a right box 13 and a gripping handle 20 are bonded on the right side of the fixed left box 1.

The top of the inner wall of the fixed left box 1 is bonded with a driving motor 12, an output shaft of the driving motor 12 is welded with a poke rod 11, the bottom of the poke rod 11 is in contact with the top of the rebound magnetic plate 10, the poke rod 11 is in an L shape, hemispherical convex particles are bonded on the top of the rebound magnetic plate 10 and are positioned on the motion tracks of the poke rod 11 and the rebound magnetic plate 10, the poke rod 11 is in contact with the smooth convex particles during rotation, so that the rebound magnetic plate 10 can descend, the motion state of the rebound magnetic plate 10 is changed, the rebound magnetic plate and the fixed left box 1 move relatively to achieve the purpose of controlling the reciprocating drive rod 2 to descend, the bottom of the rebound magnetic plate 10 is bonded with the top of the reciprocating drive rod 2, the bottom of the reciprocating drive rod 2 penetrates through the poke magnetic plate 9, the bottom of the inner wall of the fixed left box 1 and the linkage gear 16 and is bonded with the top of the side hollow solid cylinder 3, a through hole matched with the, the magnetic field direction of one side of the toggle magnetic plate 9, which is close to the rebound magnetic plate 10, is the same, the magnets have the physical phenomena of like poles repelling each other and opposite poles attracting each other, the repulsion force generated between the toggle magnetic plate 9 and the rebound magnetic plate 10 enables the rebound magnetic plate 10 to drive the reciprocating drive rod 2 to move upwards, so that the reciprocating drive rod 2 continuously moves up and down, the linkage gear 16 is movably connected with the bottom of the fixed left box 1 through a connecting bearing, the top of the connecting sucker 4 is hermetically communicated with the vacuum connecting cylinder 5, the interior of the vacuum connecting cylinder 5 is provided with the piston 6 matched with the vacuum connecting cylinder 5, the top of the piston 6 is movably connected with the bottom of the linkage screw 7 through a fixed bearing, the top of the linkage screw 7 penetrates through the top of the inner wall of the side hollow solid cylinder 3 and is connected with the inner wall of the linkage screw 7 through threads, the top of the rotation grinding wheel 8 is bonded with the rotation grinding wheel 7, the rotation grinding wheel 8 extends to the exterior through the gap of the side hollow solid cylinder, thereby control piston 6 is at the inside lift of a 5 section of thick bamboo in vacuum, when connecting sucking disc 4 and adsorbing on the ice surface, the piston 6 rises and to reduce the inside atmospheric pressure of connecting sucking disc 4 to make the absorption of connecting sucking disc 4 more firm, fixing bearing makes piston 6 not rotatory along with linkage screw 7's rotation, has reduced the wearing and tearing of piston 6, has guaranteed the tight effect of inhaling of connecting sucking disc 4.

The bottom edge of the linkage gear 16 is welded with a limiting and supporting rod 17, the bottom of the limiting and supporting rod 17 is movably connected with the top of a curved arc flat rod 18 through a rivet, one side of the bottom of the limiting and supporting rod 17 is provided with a notch, the top of the curved arc flat rod 18 extends into the notch and is movably connected through the rivet, the curved arc flat rod 18 can only bend towards one side of the notch, when the linkage gear 16 drives the linkage gear to rotate, the curved arc flat rod 18 is shielded by the side wall of the limiting and supporting rod 17 and can rotate on an ice surface along with the side wall of the curved arc flat rod to grind the ice surface, the curved arc flat rod 18 can not contact with the ice surface to rotate in the reverse direction, the curved arc flat rod can be bent to leave the ice surface after the ice surface is leveled, the linkage gear is fixed through the friction force between the rivet and the linkage gear, the adsorption of the ice surface by the connecting sucker 4 is avoided from being influenced, the bottom of the curved arc flat, the top of a driving gear 15 and an output shaft welding machine of a driving motor 14 are welded, the driving motor 14 is adhered to the bottom of the inner wall of a right mounting box 13, a friction heat generating plate 19 is adhered to the side wall of a side hollow solid cylinder 3, a bottom curved arc of the friction heat generating plate 19 extends to the side part of a connecting sucker 4 to be contacted with the inner side of a curved arc flat rod 18, the friction heat generating plate 19 and the curved arc flat rod 18 are both made of copper materials, the curved arc flat rod 18 is continuously in friction contact with the friction heat generating plate 19 while rotating, metal is easy to generate more heat due to mutual friction, the temperature of the surface of the curved arc flat rod 18 is improved, the leveling efficiency of an ice surface is accelerated, copper has good heat conductivity, heat is quickly guided to the contacted ice surface to accelerate leveling, even if heat exists on the friction heat generating plate 19, the heat on the curved arc flat rod 18 is guided out, the temperature of the curved arc flat rod 18 is also conducted when the curved arc, reduce its inside heat, connect sucking disc 4 and adsorb on the ice surface after, driving motor 12 control poker rod 11 and protruding granule contact, make and connect sucking disc 4 and connect continuous reciprocating vibration behind the ice-cube, the vibration power that utilizes the vibration to form reduces the adhesive force of ice-cube and refrigerator inner wall gradually, help getting rid of the ice-cube bold, and do not contact with the refrigerator and also do not produce the application of force to the refrigerator, avoided traditional mode deicing through striking off or heating, avoided the damage to the refrigerator, help guaranteeing its life.

The characteristics of this embodiment are, the continuous and friction heat generation board friction 19 contact of curved arc flat bar 18 when rotatory, the metal looks mutual friction easily produces more heat, help improving the temperature on curved arc flat bar 18 surface, the efficiency of leveling of ice surface accelerates, simultaneously copper has good heat conductivity, the ice surface with heat direction contact fast, level with higher speed, after connecting sucking disc 4 adsorbs on the ice surface, driving motor 12 control poker rod and protruding granule contact, make and connect continuous reciprocating vibration behind sucking disc 4 connection ice-cube, the power of shaking that utilizes the vibration to form reduces the adhesive force of ice-cube and refrigerator inner wall gradually, help getting rid of the bold ice-cube, and also do not produce the application of force to the refrigerator with the refrigerator contact, avoided traditional mode through scraping or heating, the damage to the refrigerator has been avoided the deicing.

In the embodiment, the whole device is that the driving motor 14 controls to drive the gear 15 to rotate, the linkage gear 16 meshed with the gear drives the limiting support rod 17 to rotate, the curved arc flat rod 18 continuously and frictionally contacts with the friction heat generating plate 19 while rotating, metal mutually rubs to easily generate more heat, the temperature of the surface of the curved arc flat rod 18 is improved, the leveling efficiency of the ice surface is accelerated, copper has good heat conductivity, heat is quickly guided to the contacted ice surface and is leveled quickly, after the contact surface of the connecting sucker 4 and the ice surface is leveled, the curved arc flat rod 18 is bent to be away from the ice surface, the fixing is realized by virtue of the friction force between rivets, the adsorption of the connecting sucker 4 on the ice surface is avoided, the linkage screw 7 can be controlled to rotate and rise at the top of the side hollow fixed cylinder 3 by rotating the grinding wheel 8, so that the piston 6 is controlled to rise and fall in the vacuum connecting cylinder 5, when connecting sucking disc 4 and adsorbing on the ice surface, the inside atmospheric pressure of connecting sucking disc 4 can be reduced in the rise of piston 6, thereby make the absorption of connecting sucking disc 4 more firm, fixing bearing makes piston 6 not rotatory along with linkage screw 7's rotation, the wearing and tearing of piston 6 have been reduced, the tight effect of inhaling of connecting sucking disc 4 has been guaranteed, driving motor 12 control poker rod 11 and protruding granule contact, make connecting sucking disc 4 connect the continuous reciprocal vibration behind the ice-cube, the vibration power that utilizes the vibration to form reduces the adhesive force of ice-cube and refrigerator inner wall gradually, help getting rid of the bold, and also do not produce the application of force to the refrigerator with the refrigerator contact, the traditional mode deicing through striking off or heating has been avoided, avoid the damage to the refrigerator, help guaranteeing its life.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an inside ice-cube remove device of refrigerator of reciprocating vibration mode, includes fixed left case (1), its characterized in that: the bottom of the fixed left box (1) is provided with a reciprocating driving rod (2), the bottom of the reciprocating driving rod (2) is bonded with the top of a side hollow solid cylinder (3), the bottom of the side hollow solid cylinder (3) is bonded with the top of a connecting sucker (4), and the right side of the fixed left box (1) is bonded with a mounting right box (13) and a grasping handle (20); the inner wall top of the fixed left box (1) is bonded with a driving motor (12), an output shaft of the driving motor (12) is welded with a poke rod (11), the bottom of the poke rod (11) is in contact with the top of a rebound magnetic plate (10), the bottom of the rebound magnetic plate (10) is bonded with the top of a reciprocating drive rod (2), the bottom of the reciprocating drive rod (2) penetrates through a poke magnetic plate (9), the inner wall bottom of the fixed left box (1) and a linkage gear (16) and is bonded with the top of a side hollow solid cylinder (3), the linkage gear (16) is movably connected with the bottom of the fixed left box (1) through a connecting bearing, the top of the connecting sucker (4) is hermetically communicated with a vacuum connecting cylinder (5), a piston (6) matched with the vacuum connecting cylinder (5) is arranged inside the vacuum connecting cylinder (5), and the top of the piston (6) is movably connected with the bottom of a linkage screw (7) through a fixing bearing, the top of the linkage screw rod (7) penetrates through the top of the inner wall of the side hollow solid cylinder (3) and is in threaded connection with the top of the inner wall, a rotating grinding wheel (8) is bonded to the top of the linkage screw rod (7), and the rotating grinding wheel (8) extends to the outside of the side hollow solid cylinder through a gap of the side hollow solid cylinder (3); the welding of bottom border department of linkage gear (16) has injectd and supports pole (17), the bottom of injectting to pole (17) is through the top swing joint of rivet and curved arc flat bar (18), the bottom of curved arc flat bar (18) extends to the below of connecting sucking disc (4) and is the level form, the lateral part of linkage gear (16) is provided with rather than the drive gear (15) of meshing, the top that drives gear (15) welds with the output shaft of driving motor (14), driving motor (14) bond in the inner wall bottom of installation right case (13).

2. The apparatus for removing ice cubes inside a refrigerator in a reciprocating vibration mode as set forth in claim 1, wherein: the poke rod (11) is L-shaped, hemispherical convex particles are bonded to the top of the rebound magnetic plate (10), and the convex particles are located on the motion tracks of the poke rod (11) and the rebound magnetic plate (10).

3. The apparatus for removing ice cubes inside a refrigerator in a reciprocating vibration mode as set forth in claim 1, wherein: the poking magnetic plate (9) is internally provided with a through hole matched with the reciprocating driving rod (2), and the direction of a magnetic field at one side of the poking magnetic plate (9) close to the rebounding magnetic plate (10) is the same.

4. The apparatus for removing ice cubes inside a refrigerator in a reciprocating vibration mode as set forth in claim 1, wherein: one side of the bottom of the limiting and abutting rod (17) is provided with a notch, and the top of the bent arc flat rod (18) extends into the notch and is movably connected through a rivet.

5. The apparatus for removing ice cubes inside a refrigerator in a reciprocating vibration mode as set forth in claim 1, wherein: the lateral wall of the side hollow solid cylinder (3) is bonded with a friction heat-generating plate (19), the bottom bent arc of the friction heat-generating plate (19) extends to the side part of the connecting sucker (4) to be in contact with the inner side of the bent arc flat rod (18), and the friction heat-generating plate (19) and the bent arc flat rod (18) are made of copper materials.

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