Deicing device and battery replacement mobile device
1. A de-icing arrangement (10), characterized by comprising:
a fixed body (1);
the ice breaking piece (2) is movably arranged on the fixing body (1), and the ice breaking piece (2) is suitable for breaking ice on an object to be deiced so as to clear the ice on the object to be deiced.
2. Deicing device (10) according to claim 1, characterized in that said fixed body (1) has a first and a second opposite side, said first and/or said second side being provided with said icebreaking members (2).
3. Deicing device (10) according to claim 1 or 2, characterized in that the icebreaking member (2) moves with respect to the fixed body (1) along the height direction of the fixed body (1).
4. Deicing device (10) according to claim 1, characterized in that the surface of the fixed body (1) opposite the icebreaking member (2) is provided with a first guide structure (11), the surface of the icebreaking member (2) opposite the fixed body (1) is provided with a second guide structure (21), the first guide structure (11) and the second guide structure (21) being in guiding cooperation for moving the icebreaking member (2) in the height direction of the fixed body (1).
5. The de-icing arrangement (10) according to claim 1, further comprising: the detection piece is used for detecting the object to be deiced and is arranged on the fixing main body (1).
6. Deicing device (10) according to claim 5, characterized in that said fixed body (1) comprises: a mounting body (12) and a contact body (13), said contact body (13) being mounted at an upper end of said mounting body (12), said contact body (13) being adapted to be in contact with said object to be deiced;
the detection piece is arranged on the contact main body (13).
7. Deicing device (10) according to claim 6, characterized in that the upper end of said contact body (13) is provided with a mounting structure (14), said detection element being provided on said mounting structure (14).
8. Deicing device (10) according to claim 1, characterized in that, in the height direction of the fixed body (1), the ice-breaking member (2) has a deicing position in which the ice-breaking member (2) is adapted to knock ice on the object to be deiced and a retracted position;
the height of the upper end of the ice-breaking member (2) is lower than that of the upper end of the fixed body (1) in the retracted position.
9. The de-icing arrangement (10) according to claim 1, further comprising: the ice breaking device comprises a power driving part (31) and a driving connecting rod (32), wherein the driving connecting rod (32) is connected between the power driving part (31) and the ice breaking part (2), and the power driving part (31) drives the ice breaking part (2) to move through the driving connecting rod (32).
10. A battery change mobile device (100) comprising a de-icing device (10) according to any one of claims 1-9.
Background
In the high-latitude areas, the air temperature is low in winter, the outdoor air temperature is easy to be reduced to be below the freezing point, when a vehicle runs on a road in rainy and snowy weather, snow water on the road surface can splash onto a chassis of the vehicle, and the chassis can be frozen by the snow water.
In the related art, for a vehicle using a quick-change battery pack, the quick-change battery pack is arranged on a chassis of the vehicle, when the chassis of the vehicle is frozen, an ice block attached to the chassis can change the appearance shape of the chassis, and the ice block can cause the vehicle not to meet the battery replacement requirement when the battery pack is replaced in a battery replacement station, so that the vehicle battery replacement failure can be caused, and the battery replacement efficiency of the battery replacement station can also be influenced by the repeated battery replacement failure of the vehicle.
Disclosure of Invention
The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a deicing device, which can remove ice on a chassis of a vehicle when an object to be deiced is a vehicle using a quick-change battery pack, so that the vehicle can meet a battery replacement requirement when the battery pack is replaced in a battery replacement station, thereby improving a success rate of replacing the quick-change battery pack for the vehicle and also improving a battery replacement efficiency of the battery replacement station.
The invention further provides a battery replacement mobile device.
The deicing device according to the present invention comprises: a fixed body; the ice breaking piece is movably arranged on the fixing main body and is suitable for breaking ice on an object to be deiced so as to clear the ice on the object to be deiced.
According to the deicing device disclosed by the invention, when an object to be deiced is a vehicle using the quick-change battery pack, the deicing device can remove ice on a vehicle chassis, so that the influence of the ice on the vehicle chassis on the electricity changing operation is avoided.
In some examples of the invention, the fixed body has opposite first and second sides, the first and/or second side being provided with the ice breaking member.
In some examples of the present invention, the icebreaker moves relative to the fixing body in a height direction of the fixing body.
In some examples of the invention, a surface of the fixing body opposite to the icebreaking member is provided with a first guide structure, a surface of the icebreaking member opposite to the fixing body is provided with a second guide structure, and the first guide structure and the second guide structure are in guide cooperation to move the icebreaking member along a height direction of the fixing body.
In some examples of the invention, the deicing device further comprises: the detection piece is used for detecting the object to be deiced, and the detection piece is arranged on the fixed main body.
In some examples of the invention, the fixing body comprises: the contact body is arranged at the upper end of the mounting body and is suitable for being in contact with the object to be deiced; the detection piece is arranged on the contact main body.
In some examples of the invention, the upper end of the contact body is provided with a mounting structure, and the detecting member is provided to the mounting structure.
In some examples of the invention, in the height direction of the fixed body, the ice breaking member has a deicing position in which it is adapted to knock ice on the object to be deiced and a retracted position; the height of the upper end of the ice breaking member is lower than that of the upper end of the fixing body in the retracted position.
In some examples of the invention, the deicing device further comprises: the ice breaking device comprises a power driving piece and a driving connecting rod, wherein the driving connecting rod is connected between the power driving piece and the ice breaking piece, and the power driving piece drives the ice breaking piece to move through the driving connecting rod.
The battery replacement mobile device comprises the deicing device.
Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a schematic view of a deicing device mounted on a battery replacement mobile device according to an embodiment of the present invention;
FIG. 2 is a schematic view of a de-icing apparatus according to an embodiment of the present invention;
FIG. 3 is a schematic view of another angle of a deicer assembly according to an embodiment of the invention;
fig. 4 is a schematic view of another angle of a deicing apparatus according to an embodiment of the present invention.
Reference numerals:
a battery swapping mobile device 100; a slide rail 101; a battery swapping platform 102;
a deicing device 10;
a fixed body 1; a first guide structure 11; a mounting body 12; a contact body 13; a mounting structure 14; a mounting portion 15; a threaded mounting hole 16; a first sub-guide structure 17; a second sub-guide structure 18;
an ice breaking member 2; a second guide structure 21; an ice chisel 22; a third sub-guide structure 23; a fourth sub-guide structure 24;
a power driver 31; a drive link 32; a drive lever 33; a crank 34; a guide rod 35.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.
Referring to fig. 1-4, a de-icing apparatus 10 according to an embodiment of the invention is described below, the de-icing apparatus 10 being mountable on a battery replacement mobile apparatus 100.
As shown in fig. 1 to 4, a deicing apparatus 10 according to an embodiment of the present invention includes: a stationary body 1 and an icebreaking member 2. The ice breaking piece 2 is movably arranged on the fixed main body 1, the ice breaking piece 2 is suitable for breaking ice on an object to be deiced so as to remove the ice on the object to be deiced, and the ice breaking piece 2 can also break objects such as snow on the object to be deiced, so that the object to be deiced is clean and tidy.
The deicing device 10 may be fixed to some devices during use, for example, the deicing device 10 may be fixed to the battery replacement mobile device 100. The fixing body 1 may extend in the height direction of the deicing device 10, and the height direction of the deicing device 10 may be the vertical direction in fig. 1. An installation part 15 may be disposed at one end of the fixing body 1, as shown in fig. 3, one end of the fixing body 1 may refer to a lower end of the fixing body 1, at least one threaded installation hole 16 may be disposed on the installation part 15, and at least one installation hole may be correspondingly disposed on a device cooperating with the deicing device 10, for example, the deicing device 10 is disposed on the battery replacement mobile device 100, and after a bolt sequentially passes through the threaded installation hole 16 and the installation hole on the battery replacement mobile device 100, the bolt may reliably install the deicing device 10 on the battery replacement mobile device 100.
The ice breaking piece 2 is arranged on the fixing body 1, the ice breaking piece 2 is movable relative to the fixing body 1, specifically, the ice breaking piece 2 can move towards or away from an object to be deiced relative to the fixing body 1, the ice breaking piece 2 is suitable for stopping the ice on the object to be deiced, the surface of the ice on the object to be deiced is hit by the ice breaking piece 2, and the ice on the object to be deiced can be broken by the ice breaking piece 2, so that the working effect that the ice on the object to be deiced is removed by the deicing device 10 is achieved.
When the deicing device 10 is disposed on the battery replacement mobile device 100, the deicing device 10 may be disposed in plurality on the battery replacement mobile device 100, and a plurality of deicing devices 10 may be disposed at intervals. The battery replacing mobile device 100 can be used for replacing a battery pack on a vehicle chassis, the battery replacing mobile device 100 needs to be stopped against the battery pack in the process of replacing the battery pack on the vehicle chassis by the battery replacing mobile device 100, the battery replacing mobile device 100 can lift the battery pack, in order to avoid that the battery pack falls off from the battery replacing mobile device 100 when the battery replacing mobile device 100 lifts the battery pack, the external profile of the battery pack needs to meet the battery replacing requirement, and ice blocks on the surface of the battery pack, which is in contact with the battery replacing mobile device 100, need to be removed.
The deicing device 10 can be arranged on the surface of a battery lifting pack of the battery replacing mobile device 100, at the moment, an object to be deiced can be a vehicle using a quick-change battery pack, the plurality of deicing devices 10 are arranged on the surface of the battery lifting pack of the battery replacing mobile device 100, the fixing main body 1 of the deicing device 10 can be fixedly connected to the battery replacing mobile device 100, the ice breaking piece 2 can move towards the direction close to ice on a vehicle chassis, the ice breaking piece 2 can break the ice on the vehicle chassis and/or the ice on the lower surface of the battery pack to remove the ice on the vehicle chassis and/or the ice on the lower surface of the battery pack, and the deicing devices 10 can enable the vehicle to meet the requirement for replacing the battery, so that the vehicle can smoothly replace the battery pack, the success rate of replacing the battery pack of the vehicle can be improved, and the battery replacing efficiency of the battery replacing station can be improved.
Therefore, when the object to be deiced is a vehicle using the quick-change battery pack, the deicing device 10 can remove ice on a vehicle chassis, and compared with the prior art, the deicing device 10 can meet the battery changing requirement when the vehicle changes the battery pack in the battery changing station, so that the success rate of changing the quick-change battery pack for the vehicle can be improved, and the battery changing efficiency of the battery changing station can also be improved.
In some embodiments of the present invention, as shown in fig. 2 to 4, the fixing body 1 may have a first side and a second side opposite to each other, the first side and/or the second side may be provided with the ice breaking member 2, that is, the ice breaking member 2 may be disposed on the first side of the fixing body 1, the ice breaking member 2 may also be disposed on the second side of the fixing body 1, and the ice breaking member 2 may also be disposed on both the first side of the fixing body 1 and the second side of the fixing body 1, preferably, the ice breaking member 2 may be disposed on both the first side of the fixing body 1 and the second side of the fixing body 1, which may increase the deicing range of the deicing device 10, so that the deicing efficiency of the deicing device 10 may be improved.
Furthermore, in the width direction of the deicing device 10, the first side of the fixed body 1 and the second side of the fixed body 1 may be spaced apart from each other, as shown in fig. 2, the width direction of the deicing device 10 may refer to the front-back direction in fig. 2, both the ice breaking member 2 disposed on the first side of the fixed body 1 and the ice breaking member 2 disposed on the second side of the fixed body 1 may be used to remove ice on an object to be deiced, and the ice breaking member 2 disposed on the first side of the fixed body 1 and the ice breaking member 2 disposed on the second side of the fixed body 1 may simultaneously move toward a direction close to ice on the object to be deiced, and the simultaneous movement of the ice breaking member 2 disposed on the first side of the fixed body 1 and the ice breaking member 2 disposed on the second side of the fixed body 1 may increase an impact force to which ice on the object to be deiced, which is beneficial to improving the deicing effect of the deicing device 10. When the object to be deiced is a vehicle, the ice breaking piece 2 arranged on the first side of the fixed main body 1 and the ice breaking piece 2 arranged on the second side of the fixed main body 1 can be used for removing ice on a vehicle chassis or ice on a vehicle battery pack, so that the vehicle can be guaranteed to meet the electricity replacement requirement.
In some embodiments of the present invention, the icebreaking member 2 may move relative to the fixing body 1 along a height direction of the fixing body 1. It should be noted that the height direction of the fixing body 1 may refer to the up-down direction in fig. 2, in the height direction of the fixing body 1, ice on the object to be deiced may be located above the fixing body 1, the ice breaking member 2 may move upward relative to the fixing body 1 along the height direction of the fixing body 1, the ice breaking member 2 may also move downward relative to the fixing body 1 along the height direction of the fixing body 1, the ice breaking member 2 may hit the ice on the object to be deiced for multiple times by moving the ice breaking member 2 up and down along the height direction of the fixing body 1 relative to the fixing body 1, and the ice breaking member 2 may break ice cubes located above the fixing body 1, so that the deicing effect of the deicing device 10 may be achieved.
It should be noted that the end of the ice breaking member 2 that contacts ice on the object to be deiced may be provided with an ice chiseling portion 22, the ice chiseling portion 22 may extend in the height direction of the deicing device 10, and the ice chiseling portions 22 of the two ice breaking members 2 disposed on the fixing body 1 may form an oblique wedge, and when the ice chiseling portion 22 contacts ice, the ice chiseling portion 22 may split the ice along the surface of the ice chiseling portion 22, so that the working effect that the ice breaking member 2 breaks the ice on the object to be deiced may be achieved.
According to some specific embodiments of the present invention, when the deicing device 10 is disposed on the surface of the battery pack lifted by the battery changing mobile device 100, the deicing device 10 may remove ice cubes on the battery pack, ice on the battery pack is located above the deicing device 10 in the height direction of the deicing device 10, the ice breaking member 2 may hit the ice cubes on the battery pack for a plurality of times by moving the ice breaking member 2 up and down along the height direction of the fixing body 1 with respect to the fixing body 1, and the ice breaking member 2 may break the ice cubes on the battery pack located above the fixing body 1, so that the battery pack may be easily replaced by the battery changing mobile device 100.
In some embodiments of the present invention, as shown in fig. 2 to 4, the surface of the fixing body 1 opposite to the icebreaking member 2 may be provided with a first guide structure 11, and the surface of the icebreaking member 2 opposite to the fixing body 1 may be provided with a second guide structure 21, and the icebreaking member 2 may be moved in the height direction of the fixing body 1 by the guide engagement of the first guide structure 11 and the second guide structure 21. Wherein, the first guiding structure 11 may include a first sub-guiding structure 17 and a second sub-guiding structure 18, the second guiding structure 21 may include a third sub-guiding structure 23 and a fourth sub-guiding structure 24, the first sub-guiding structure 17 may be in guiding fit with the third sub-guiding structure 23, and the second sub-guiding structure 18 may be in guiding fit with the fourth sub-guiding structure 24. One of the first sub-guide structure 17 and the third sub-guide structure 23 may be provided as a slider, and the other of the first sub-guide structure 17 and the third sub-guide structure 23 may be provided as a guide rail, and preferably, the third sub-guide structure 23 may be provided as a slider, the first sub-guide structure 17 may be provided as a guide rail, the slider may be provided within the guide rail, and the slider may slide along the guide rail.
Further, the second sub-guide structure 18 may be an inclined surface, the fourth sub-guide structure 24 may be correspondingly disposed as an inclined surface, and the fourth sub-guide structure 24 may move along the surface of the second sub-guide structure 18. The first guide structure 11 and the second guide structure 21 can be extended in the height direction of the deicing device 10, when the third sub-guide structure 23 (i.e., a slider) slides in the first sub-guide structure 17 (i.e., a guide rail), the deicing device 2 can move in the height direction of the fixed body 1, and the first sub-guide structure 17 can guide the movement direction of the third sub-guide structure 23. Similarly, when the fourth sub-guide structure 24 moves along the surface of the second sub-guide structure 18, the second sub-guide structure 18 can guide the moving direction of the fourth sub-guide structure 24. The fixing body 1 may be provided with two first guide structures 11, the two first guide structures 11 may be respectively disposed on a first side of the fixing body 1 and a second side of the fixing body 1, and the ice breaking member 2 disposed on the first side of the fixing body 1 and the ice breaking member 2 disposed on the second side of the fixing body 1 are both provided with second guide structures 21.
And, the second guide structure 21 provided on the icebreaker 2 of the first side of the fixing body 1 may be in guiding engagement with the first guide structure 11 of the first side of the fixing body 1, and the icebreaker 2 provided on the first side of the fixing body 1 may be moved in the height direction of the fixing body 1 after the first guide structure 11 is in guiding engagement with the second guide structure 21. The second guide structure 21 arranged on the ice breaking piece 2 on the second side of the fixed main body 1 can be in guide fit with the first guide structure 11 on the second side of the fixed main body 1, the ice breaking piece 2 arranged on the first side of the fixed main body 1 can move along the height direction of the fixed main body 1 after the first guide structure 11 and the second guide structure 21 are in guide fit, and the first guide structure 11 and the second guide structure 21 can enable the ice breaking piece 2 to impact the same position of ice blocks when reciprocating in the height direction of the fixed main body 1, so that the ice blocks can be broken more easily.
In some embodiments of the present invention, the deicing apparatus 10 may further include: the detection piece can be used for detecting an object to be deiced and can be arranged on the fixed main body 1. The detection piece can be used for detecting the distance between the fixed main body 1 and the object to be deiced, when the detection piece does not detect the object to be deiced in the detection range, it is proved that ice blocks exist between the fixed main body 1 and the object to be deiced, the deicing device 10 can be in a working state, the ice breaking piece 2 can move relative to the fixed main body 1 along the height direction of the fixed main body 1, and the deicing device 10 can remove the ice blocks between the fixed main body 1 and the object to be deiced. When the detection member detects the object to be deiced within the detection range, it is verified that the ice between the fixing body 1 and the object to be deiced has been removed, and the deicing device 10 may be stopped.
Specifically, when the deicing device 10 is disposed on the power conversion moving device 100, the detection piece may be a metal sensor, the metal sensor may be configured to detect a distance between the fixed body 1 and a vehicle chassis, and when the metal sensor does not detect the vehicle chassis within a detection range, it is verified that ice cubes exist between the fixed body 1 and the vehicle chassis, the deicing device 10 may be in an operating state, the ice breaking piece 2 may move relative to the fixed body 1 along a height direction of the fixed body 1, and the deicing device 10 may remove the ice cubes between the fixed body 1 and the vehicle chassis. When the metal sensor detects the vehicle chassis within the detection range, it is proved that ice between the fixing body 1 and the vehicle chassis is removed, the deicing device 10 can stop working, and the battery pack on the vehicle can be replaced by the battery replacement mobile device 100, so that the battery replacement process of the battery pack can be smoothly completed by the battery replacement mobile device 100.
In some embodiments of the present invention, as shown in fig. 2 to 4, the fixing body 1 may include: a mounting body 12 and a contact body 13, the contact body 13 being mountable on the upper end of the mounting body 12, the contact body 13 being adapted to be in contact with an object to be deiced, and a detection member being arrangeable in the contact body 13. The contact body 13 can extend in the height direction of the fixing body 1, the contact body 13 can be arranged to be wedge-shaped, when the contact body 13 is pressed against the ice blocks, an ice skate blade effect can be generated between the contact body 13 and the ice blocks, the contact body 13 can melt the ice blocks, and the contact body 13 can be moved close to the object to be deiced after the ice blocks are melted.
Moreover, the ice chiseling part 22 on the ice breaking piece 2 can move along the side surface of the contact main body 13 in the height direction of the deicing device 10, when the ice chiseling part 22 moves upwards to the highest position in the height direction of the fixed main body 1, the upper end of the ice chiseling part 22 does not exceed the upper end of the contact main body 13, the ice around the contact main body 13 can be removed by the ice chiseling part 22, through the cooperation of the contact main body 13 and the ice chiseling part 22, the deicing device 10 can gradually clear ice blocks between the fixed main body 1 and an object to be deiced until the contact main body 13 contacts the object to be deiced, the fact that the deicing device 10 has removed the ice between the fixed main body 1 and the object to be deiced is proved, through arranging the detection piece on the contact main body 13, the detection piece can detect the distance between the contact main body 13 and the object to be deiced in real time, the detection piece can avoid the ice breaking piece 2 from striking the surface of the object to be deiced after the contact main body 13 and the object to be deiced, incomplete deicing of the deicing device 10 can be prevented, and thus the deicing effect of the deicing device 10 can be improved.
In some embodiments of the present invention, as shown in fig. 2 and 4, the upper end of the contact body 13 may be provided with a mounting structure 14, and the sensing member may be provided to the mounting structure 14. Preferably, the mounting structure 14 may be a mounting groove, which may be defined by the contact body 13, and the detection member may be disposed within the mounting structure 14. Through setting up the detection piece in the upper end of contact subject 13, the detection piece can be more accurate detect out contact subject 13 and wait to remove the distance between the ice object, and specific embodiment can be, the detection piece can be provided with less detection range, when contact subject 13 with wait to remove the ice between the ice object contactless, the detection piece can not detect and wait to remove the ice object, when contact subject 13 with wait to remove the ice between the ice object, the detection piece can detect and wait to remove the ice object. The deicing device 10 can judge the distance between the contact main body 13 and the object to be deiced through whether the detection piece detects the object to be deiced, so that the contact main body 13 and the object to be deiced can be guaranteed to stop working after being contacted, and the deicing effect of the deicing device 10 can also be guaranteed.
In some embodiments of the present invention, the ice-breaking members 2 may have, in the height direction of the fixing body 1, a deicing position in which the ice-breaking members 2 are adapted to chisel ice on an object to be deiced, and a retracted position in which the upper end of the ice-breaking members 2 is at a lower height than the upper end of the fixing body 1. Wherein, the ice breaking pieces 2 can be moved from the deicing position to the retracted position, and the ice breaking pieces 2 can also be moved from the retracted position to the deicing position, as shown in fig. 2, in the height direction of the deicing device 10, when the ice breaking pieces 2 are moved from bottom to top, the ice breaking pieces 2 can be moved from the retracted position to the deicing position, and the height position of the upper ends of the ice breaking pieces 2 at the deicing position does not exceed the height position of the upper ends of the contact bodies 13. When the ice-breaking member 2 is moved from the top to the bottom, the ice-breaking member 2 may be moved from the deicing position to the retracted position, and the ice-breaking member 2 may be reciprocated between the deicing position and the retracted position.
Moreover, when the contact body 13 is pressed against the ice of the object to be deiced, an ice blade effect can be generated between the contact body 13 and the ice on the object to be deiced, the ice block pressed against the contact body 13 on the object to be deiced can be melted, and the contact body 13 can extend into the ice block. When the ice breaking piece 2 moves from the withdrawing position to the deicing position, in order to enable the ice breaking piece 2 to reach the upper end of the contact main body 13, the ice breaking piece 2 can interfere with ice on an object to be deiced, and the ice breaking piece 2 can impact the surface of ice blocks on the object to be deiced, through enabling the ice breaking piece 2 to reciprocate between the deicing position and the withdrawing position, the surface of the ice blocks can be impacted for many times, the ice blocks can be broken after being impacted for many times, the broken ice blocks can fall off from the object to be deiced, and therefore the working effect that the ice breaking piece 2 chisells ice on the object to be deiced can be achieved.
In some embodiments of the present invention, as shown in fig. 4, the deicing apparatus 10 may further include: a power driving member 31 and a driving link 32, the driving link 32 can be connected between the power driving member 31 and the ice breaking member 2, and the power driving member 31 can drive the ice breaking member 2 to move through the driving link 32. Wherein, the power driving member 31 may be a motor, the driving link 32 may include a driving rod 33 and a crank 34, one end of the driving rod 33 may be connected with the ice breaking member 2, and the other end of the driving rod 33 may be connected with one end of the crank 34. The other end of the crank 34 may be connected to the power driver 31.
When the power driving member 31 works, the power driving member 31 can drive the crank 34 to rotate, the crank 34 can drive the driving rod 33 to move in the height direction of the fixed main body 1 when rotating, and when the driving rod 33 is connected with the ice breaking member 2, the driving rod 33 can drive the ice breaking member 2 to reciprocate between the ice removing position and the withdrawing position, so that the ice breaking member 2 can impact ice on an object to be deiced for multiple times to remove the ice on the object to be deiced. And, power driving piece 31 can transmit power to icebreaking piece 2 through drive connecting rod 32, and power can be turned into the impact on icebreaking piece 2, and the impact can be acted on the surface of the ice-cube on the object of waiting to remove ice, can make icebreaking piece 2 break the ice-cube.
Further, a guide rod 35 can be further arranged between the ice breaking part 2 and the driving connecting rod 32, a guide rod via hole is formed in the fixing main body 1, one end of the guide rod 35 can be connected with the ice breaking part 2, the other end of the guide rod 35 can be connected with one end, far away from the crank 34, of the driving rod 33 after penetrating through the guide rod via hole, the guide rod via hole is suitable for guiding the guide rod 35, so that the guide rod 35 can move in the height direction of the fixing main body 1, and the guide rod 35 can drive the ice breaking part 2 to move relative to the fixing main body 1 along the height direction of the fixing main body 1 when moving.
The battery replacement mobile device 100 according to the embodiment of the invention includes the deicing device 10 of the above embodiment, and the deicing device 10 is disposed on the battery replacement mobile device 100. The battery replacing mobile device 100 may further include a slide rail 101 and a battery replacing platform 102, the battery replacing platform 102 may be used to lift a battery, the battery replacing platform 102 may be used to detach the battery from the vehicle, the battery replacing platform 102 may also be used to mount the battery on the vehicle, the battery replacing platform 102 may move along the slide rail 101, and the slide rail 101 may enable the battery to be transferred between the battery replacing station and the vehicle. The deicing device 10 may be disposed on the battery swapping platform 102, specifically, the deicing device 10 may be disposed on a surface of a battery lifting of the battery swapping platform 102, and the contact main body 13 may be disposed away from the battery swapping platform 102, as shown in fig. 1, the surface of the battery lifting of the battery swapping platform 102 may refer to an upper surface of the battery swapping platform 102 in fig. 1. When the object to be deiced is a vehicle using a quick-change battery pack, the deicer 10 can remove ice on a chassis of the vehicle, and compared with the prior art, the deicer 10 can meet the battery changing requirement when the vehicle changes the battery pack in the battery changing station, so that the success rate of changing the quick-change battery pack by the vehicle can be improved, and the battery changing efficiency of the battery changing station can also be improved.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.
In the description of the present invention, "a plurality" means two or more.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.