WO2019057187A1 - 电池包及电动工具组件 - Google Patents
电池包及电动工具组件 Download PDFInfo
- Publication number
- WO2019057187A1 WO2019057187A1 PCT/CN2018/107226 CN2018107226W WO2019057187A1 WO 2019057187 A1 WO2019057187 A1 WO 2019057187A1 CN 2018107226 W CN2018107226 W CN 2018107226W WO 2019057187 A1 WO2019057187 A1 WO 2019057187A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- battery pack
- housing
- battery
- waterproof
- terminal
- Prior art date
Links
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25F—COMBINATION OR MULTI-PURPOSE TOOLS NOT OTHERWISE PROVIDED FOR; DETAILS OR COMPONENTS OF PORTABLE POWER-DRIVEN TOOLS NOT PARTICULARLY RELATED TO THE OPERATIONS PERFORMED AND NOT OTHERWISE PROVIDED FOR
- B25F5/00—Details or components of portable power-driven tools not particularly related to the operations performed and not otherwise provided for
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25F—COMBINATION OR MULTI-PURPOSE TOOLS NOT OTHERWISE PROVIDED FOR; DETAILS OR COMPONENTS OF PORTABLE POWER-DRIVEN TOOLS NOT PARTICULARLY RELATED TO THE OPERATIONS PERFORMED AND NOT OTHERWISE PROVIDED FOR
- B25F5/00—Details or components of portable power-driven tools not particularly related to the operations performed and not otherwise provided for
- B25F5/02—Construction of casings, bodies or handles
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/42—Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
- H01M10/425—Structural combination with electronic components, e.g. electronic circuits integrated to the outside of the casing
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/204—Racks, modules or packs for multiple batteries or multiple cells
- H01M50/207—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/233—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by physical properties of casings or racks, e.g. dimensions
- H01M50/24—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by physical properties of casings or racks, e.g. dimensions adapted for protecting batteries from their environment, e.g. from corrosion
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/247—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders specially adapted for portable devices, e.g. mobile phones, computers, hand tools or pacemakers
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/262—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders with fastening means, e.g. locks
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/271—Lids or covers for the racks or secondary casings
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/296—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by terminals of battery packs
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/50—Current conducting connections for cells or batteries
- H01M50/543—Terminals
- H01M50/547—Terminals characterised by the disposition of the terminals on the cells
- H01M50/548—Terminals characterised by the disposition of the terminals on the cells on opposite sides of the cell
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M2220/00—Batteries for particular applications
- H01M2220/30—Batteries in portable systems, e.g. mobile phone, laptop
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/204—Racks, modules or packs for multiple batteries or multiple cells
- H01M50/207—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape
- H01M50/213—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for cells having curved cross-section, e.g. round or elliptic
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Definitions
- the present invention relates to a battery pack and a power tool assembly, and more particularly to a waterproof seal structure of a battery pack and a power tool assembly.
- AC-powered power tools Limited by the length of the power cord, its use can only be within the length of the power cord, limiting the range and mobility of the power tool.
- the energy source of the battery pack as a power tool is already unstoppable.
- the technical problem to be solved by the present invention is to provide a battery pack structure which is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a cover a cover; a bottom, engaging the cover to form a battery case;
- the battery pack includes a plurality of cells, each of the cells is provided with a core body portion, a first electrode end on a side of the core body portion, and a core body a second electrode end on the other side of the portion;
- the battery terminal block electrically connected to the battery core group, the battery terminal block comprising a battery pack terminal electrically connected to the housing terminal and a terminal block carrying the battery pack terminal;
- a mounting cavity defined in the battery pack housing and housing the battery pack and the battery terminal block, the mounting cavity being formed with a plug connector for inserting the housing terminal to be electrically connected to the battery pack terminal ;
- a sealing member is disposed in the mounting cavity to block a passage from the insertion interface to the battery core group
- the battery pack further includes a battery pack case seal that blocks communication between the outside and the mounting cavity, the battery pack case seal being disposed at a joint of the cover and the bottom;
- connection trip device is mounted on the battery pack housing, and the connection trip device is isolated outside the mounting chamber.
- the sealing member is pressed between the plug connector and the terminal block.
- the sealing member has a thickness in a free state that is greater than a gap between the terminal block and the plug connector.
- the plug connector is attached with the sealing member, and the sealing member attached to the plug connector is disposed on an inner wall of the battery pack, and the sealing member is provided with a through hole An opening configured to prevent the sealing member from isolating the insertion interface from the configuration of the battery core for insertion of the housing terminal.
- the sealing member located within the mounting cavity is disposed opposite the battery terminal block.
- the terminal block is configured as a waterproof case
- the waterproof case is provided with an opening for the insertion of the housing terminal in a direction facing the insertion interface
- the sealing member is sealed in the Between the inner wall of the battery pack and the waterproof case to seal the assembly gap between the waterproof case and the inner wall of the battery pack.
- the maximum cross-sectional area of the waterproof case in the direction in which the cover and the bottom are engaged is greater than the cross-sectional area of the plug in the engaging direction.
- the sealing member is a soft gasket, a potting body, a waterproof adhesive, and a weld formed by welding between the waterproof case and the inner wall of the battery pack.
- the sealing member is a partition disposed between the battery terminal block and the battery core group, the battery core group being located on the partitioning member and the inner wall of the battery pack case Within the enclosed space.
- connection trip device is detachably mounted on the cover and movable relative to the cover to enable the battery pack and the power tool to be locked or released. Get rid of.
- the battery pack housing sinks on its outer surface with a latching cavity at least partially surrounding the connecting trip device, the latching cavity forming a movement for the connecting tripping device
- the movable space, the locking cavity and the mounting cavity are not in communication with each other.
- the battery pack includes a spacer detachably coupled to the battery pack case and the spacer
- an isolating sealing structure between the battery pack case, and the spacer is recessed inwardly with a latching cavity for receiving the connecting trip device.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a battery pack and a power tool detachably connected to the battery pack, the battery pack comprising:
- a cover a cover; a bottom, engaging the cover to form a battery case;
- the battery pack includes a plurality of cells, each of the cells is provided with a core body portion, a first electrode end on a side of the core body portion, and a core body a second electrode end on the other side of the portion;
- the battery terminal block electrically connected to the battery core group, the battery terminal block comprising a battery pack terminal electrically connected to the housing terminal and a terminal block carrying the battery pack terminal;
- a mounting cavity defined in the battery pack housing and housing the battery pack and the battery terminal block, the mounting cavity being formed with a plug connector for inserting the housing terminal to be electrically connected to the battery pack terminal ;
- the power tool includes:
- a housing a tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- a functional component having a motor that provides a driving force to the power tool
- a sealing member is disposed in the mounting cavity to block a passage from the insertion interface to the battery core group
- the battery pack further includes a battery pack case seal that blocks communication between the outside and the mounting cavity, the battery pack case seal being disposed at a joint of the cover and the bottom;
- connection trip device is mounted on the battery pack housing, and the connection trip device is isolated outside the mounting chamber.
- the sealing member is pressed between the plug connector and the terminal block.
- the thickness of the sealing member in the free state is greater than the gap between the terminal block and the plug connector.
- the plug connector is attached with the sealing member, and the sealing member attached to the plug connector is disposed on an inner wall of the battery pack, and the sealing member is provided with a through hole The through hole is configured to prevent the sealing member from isolating the insertion interface from the battery core group for insertion of the housing terminal.
- the sealing member located within the mounting cavity is disposed opposite the battery terminal block.
- the terminal block is configured as a waterproof case
- the waterproof case is provided with an opening for the insertion of the housing terminal in a direction facing the insertion interface
- the sealing member is sealed in the Between the inner wall of the battery pack and the waterproof case to seal the assembly gap between the waterproof case and the inner wall of the battery pack.
- the maximum cross-sectional area of the waterproof case in the direction in which the cover and the bottom are engaged is greater than the cross-sectional area of the plug in the engaging direction.
- the sealing member is a soft gasket, a potting body, a waterproof adhesive, and a weld formed by welding between the waterproof case and the inner wall of the battery pack.
- the sealing member is a partition disposed between the battery terminal block and the battery core group, the battery core group being located on the partitioning member and the inner wall of the battery pack case Within the enclosed space.
- connection trip device is detachably mounted on the cover and movable relative to the cover to enable the battery pack and the power tool to be locked or released. Get rid of.
- the battery pack housing sinks on its outer surface with a latching cavity at least partially surrounding the connecting trip device, the latching cavity forming a movement for the connecting tripping device
- the movable space, the locking cavity and the mounting cavity are not in communication with each other.
- the battery pack includes a spacer detachably coupled to the battery pack case, and an isolation sealing structure between the spacer and the battery pack case, the spacer A latching cavity for receiving the connection tripping device is recessed inward.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, a water inlet for receiving an external water source, and an outward conveying The outlet of the water flow.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the functional component includes a pump driven by the motor to deliver a flow of water outwardly, the functional component being disposed within the housing.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and the voltage of each battery pack is 18 to 42V.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a power tool and a battery pack electrically connected to the power tool, the power tool comprising:
- a housing a tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- a functional component having a motor that provides a driving force to the power tool
- the battery pack is detachably coupled to the housing, and the battery pack includes:
- a cover a cover; a bottom, engaging the cover to form a battery case;
- the battery pack includes a plurality of cells, each of the cells is provided with a core body portion, a first electrode end on a side of the core body portion, and a core body a second electrode end on the other side of the portion;
- the battery terminal block electrically connected to the battery core group, the battery terminal block comprising a battery pack terminal electrically connected to the housing terminal and a terminal block carrying the battery pack terminal;
- the battery pack includes a waterproof and permeable structure covering at least a portion of the periphery of the battery core, the waterproof and permeable structure comprising a first waterproof body covering the first electrode end of each of the batteries and a second battery covering each of the batteries An extreme second waterproof body, and the bottom of the bag is provided with a drain hole that allows the mounting cavity to communicate with the outside.
- the first waterproof body and the second waterproof body may be a waterproof layer formed by potting, and the waterproof layer is adhered to the first electrode end and the second electrode end.
- the outer surface may be a waterproof layer formed by potting, and the waterproof layer is adhered to the first electrode end and the second electrode end.
- first waterproof body and the second waterproof body may be sealed boxes, and the first electrode end and the second electrode end are received in the inner cavity of the sealed box body. in vivo.
- the battery pack further includes an adhesive bond sealed to the sealed case and the first and second electrode ends.
- the waterproof gas permeable structure further includes a third waterproof body covering each of the core bodies.
- the first waterproof body, the second waterproof body and the third waterproof body are integrally configured as a single unitary structure, and the independent unitary structure completely covers the battery core group The periphery.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, a water inlet for receiving an external water source, and an outward conveying The outlet of the water flow.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the functional component further includes a pump driven by the motor to deliver a flow of water outwardly, the functional component being disposed within the housing.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and the voltage of each battery pack is 18 to 42V.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a power tool and a battery pack electrically connected to the power tool, the power tool comprising:
- a housing comprising first and second half shells joined to each other and a receiving cavity defined in the housing;
- the tool electrical device including a motor for providing a driving force to the power tool, a main body control board, and a switch disposed in the housing, the switch controlling the motor to operate
- the main control board has a built-in control program, which can be used to control the power supply status of the battery pack;
- a pump driven by the motor comprising a pump body, a plunger disposed in the pump body, a water flow inlet and a water flow outlet disposed on the pump body, and a central cavity capable of reciprocating the plunger room;
- An outlet pipe is received in the casing and has a water outlet communicating with a water outlet of the pump;
- the tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- the battery pack is detachably coupled to the housing, and the battery pack includes:
- a cover a cover; a bottom, engaging the cover to form a battery case;
- the battery pack includes a plurality of cells, each of the cells is provided with a core body portion, a first electrode end on a side of the core body portion, and a core body a second electrode end on the other side of the portion;
- the battery terminal block electrically connected to the battery core group, the battery terminal block comprising a battery pack terminal electrically connected to the housing terminal and a terminal block carrying the battery pack terminal;
- a mounting cavity defined in the battery pack housing and housing the battery pack and the battery terminal block, the mounting cavity being formed with a plug connector for inserting the housing terminal to be electrically connected to the battery pack terminal ;
- the housing is provided with a main housing seal that blocks passage between the first half shell and the second half shell to the receiving cavity of the housing, isolating the water outlet and a water outlet seal of the passage between the tool electrical devices and a tool terminal seal sealing the passage between the tool wiring row and the assembly gap of the housing to the receiving cavity;
- the battery pack and the power tool When the battery pack and the power tool are mated, there is a matching gap between the power tool and the battery pack, and at least one of the power tool and the battery pack is configured to block from the fitting gap a plug seal to the passage between the plug connectors;
- the battery pack further includes a battery pack case seal that blocks communication between the outside and the mounting cavity, the battery pack case seal being disposed at a joint of the cover and the bottom;
- connection trip device is mounted on the battery pack housing, and the connection trip device is isolated outside the mounting chamber.
- the tool terminal block is provided with an abutting surface
- the housing terminal at least partially protrudes outwardly from the abutting surface
- the battery pack includes a mating fit with the mating surface.
- the mating surface is formed on the mating surface.
- the spigot seal is disposed between the mating face and the mating face.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, receiving an external water source, and communicating with the water outlet Into the water inlet.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the motor and the pump are disposed within the body portion.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and each battery pack has a voltage of 18 to 60V.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a power tool and a battery pack electrically connected to the power tool, the power tool comprising:
- a housing comprising first and second half shells joined to each other and a receiving cavity defined in the housing;
- the tool electrical device including a motor for providing a driving force to the power tool, a main body control board, and a switch disposed in the housing, the switch controlling the motor to operate
- the main control board has a built-in control program, which can be used to control the power supply status of the battery pack;
- a pump driven by the motor comprising a pump body, a plunger disposed in the pump body, a water flow inlet and a water flow outlet disposed on the pump body, and a central cavity capable of reciprocating the plunger room;
- An outlet pipe is received in the casing and has a water outlet communicating with a water outlet of the pump;
- the tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- the battery pack is detachably coupled to the housing, and the battery pack includes:
- a cover a cover; a bottom, engaging the cover to form a battery case;
- the charging body includes a battery core group for performing charging and discharging and a battery terminal block electrically connected to the battery core group
- the battery core group includes a plurality of battery cores, each of which is provided with a battery core portion and a location a first electrode end on one side of the core body and a second electrode end on the other side of the core body, the battery terminal block including a battery pack terminal electrically connected to the housing terminal and carrying the Terminal block for the battery pack terminal;
- a mounting cavity defined in the battery pack housing and housing the battery pack and the battery terminal block, the mounting cavity being formed with a plug connector for inserting the housing terminal to be electrically connected to the battery pack terminal ;
- the housing is provided with a main housing seal that blocks passage between the first half shell and the second half shell to the receiving cavity of the housing, isolating the water outlet and a water outlet seal of the passage between the tool electrical devices and a tool terminal seal sealing the passage between the tool wiring row and the assembly gap of the housing to the receiving cavity;
- the battery pack and the power tool When the battery pack and the power tool are mated, there is a matching gap between the power tool and the battery pack, and at least one of the power tool and the battery pack is configured to block from the fitting gap a plug seal to the passage between the plug connectors;
- the battery pack further includes a waterproof gas permeable structure completely covering the periphery of the charged body.
- the waterproof and permeable structure is a waterproof layer formed by potting, or a waterproof tape wrapped around the periphery of the battery pack, or a sealed box housed in the mounting cavity.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, receiving an external water source, and communicating with the water outlet Into the water inlet.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the motor and the pump are disposed within the body portion.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and each battery pack has a voltage of 18 to 60V.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a power tool and a battery pack electrically connected to the power tool, the power tool comprising:
- a housing comprising first and second half shells joined to each other and a receiving cavity defined in the housing;
- the tool electrical device disposed in the receiving cavity, the tool electrical device comprising a motor for providing a driving force to the power tool, a main body control board, and a switch disposed in the housing, the switch controlling the motor to operate,
- the main body control board has a built-in control program, which can be used to control the power supply state of the battery pack;
- a pump driven by the motor comprising a pump body, a plunger disposed in the pump body, a water flow inlet and a water flow outlet disposed on the pump body, and a central cavity capable of reciprocating the plunger room;
- An outlet pipe is received in the casing and has a water outlet communicating with a water outlet of the pump;
- the tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- the battery pack is configured to be a built-in battery housed in the receiving cavity;
- the housing is provided with a main housing seal that blocks passage from the engagement gap of the first and second half shells to the receiving chamber and isolates the water outlet and the tool A water outlet seal for the passage between the electrical devices.
- the housing further includes a waterproof charging interface electrically connected to the internal battery.
- the power tool assembly further includes a wireless charger capable of inductively mating with the internal battery to charge the internal battery.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, receiving an external water source, and communicating with the water outlet Into the water inlet.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the motor and the pump are disposed within the body portion.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and each battery pack has a voltage of 18 to 60V.
- the technical problem to be solved by the present invention is to provide a power tool assembly that is simple in structure and can ensure that the DC power tool can meet certain waterproof standards.
- a power tool assembly includes a power tool and a battery pack electrically connected to the power tool, the power tool comprising:
- a housing comprising first and second half shells joined to each other and a receiving cavity defined in the housing;
- the tool electrical device includes a motor for providing a driving force to the power tool, a main body control board, and a switch disposed in the housing, the switch controls the motor to operate, and the main body control board has a control program built therein, which can be used for Control the battery pack power supply status;
- a pump driven by the motor comprising a pump body, a plunger disposed in the pump body, a water flow inlet and a water flow outlet disposed on the pump body, and a central cavity capable of reciprocating the plunger room;
- An outlet pipe is received in the casing and has a water outlet communicating with a water outlet of the pump;
- the tool terminal block connected to the housing, the tool terminal block including a housing terminal and a base carrying the housing terminal;
- the battery pack is configured to be a built-in battery housed in the housing cavity, the power tool assembly further comprising a waterproof sealed box disposed in the housing, the tool electrical device and the built-in The batteries are all housed in the waterproof sealed box body.
- the power tool is a high pressure cleaner
- the housing includes a handle for gripping, a body portion disposed at an angle to the handle, receiving an external water source, and communicating with the water outlet Into the water inlet.
- the body portion is disposed at one end of the handle, and the battery pack is disposed at the other end of the handle.
- the motor and the pump are disposed within the body portion.
- the high pressure cleaner outputs a working water pressure of 0.3 MPa to 5 MPa.
- the number of battery packs is configured to be one or more, and each battery pack has a voltage of 18 to 60V.
- FIG. 1 is a partial structural view of a battery pack in a first embodiment of the battery pack waterproofing provided by the present invention under corresponding conditions.
- FIG. 2 is a cross-sectional view showing a battery pack in a second embodiment of the battery pack waterproofing provided by the present invention under the corresponding conditions.
- Fig. 3 is a cross-sectional view showing a battery pack in a third embodiment of the battery pack waterproofing provided by the present invention under the corresponding conditions.
- FIG. 4 is a cross-sectional view of a battery pack of a possible mode of the fourth embodiment of the battery pack waterproofing provided by the present invention under the corresponding conditions.
- Fig. 5 is a cross-sectional view showing a battery pack of another possible mode in the fourth embodiment of the battery pack waterproofing provided by the present invention under the corresponding conditions.
- Fig. 6 is a cross-sectional view showing a battery pack of another possible mode in the fourth embodiment of the battery pack waterproofing provided by the present invention under the corresponding conditions.
- Figure 7 is a cross-sectional view showing one embodiment of a battery pack in a second embodiment in which the battery pack is waterproofed under the condition that the electrical components of the hand-held high-pressure cleaner assembly of the present invention are required to be waterproof.
- FIG. 8 is a cross-sectional view showing another embodiment of the battery pack in the second embodiment in which the battery pack is waterproofed in the case where the electric device of the hand-held high-pressure cleaner assembly of the present invention is required to be waterproof.
- Figure 9 is a perspective view of the hand held high pressure cleaner of the present invention.
- Figure 10 is a perspective view of the hand held high pressure cleaner and battery pack of the present invention.
- Figure 11 is a schematic view showing the hand-held high-pressure cleaner shown in Figure 10 and the battery pack being assembled to remove half of the housing.
- Figure 12 is a partially exploded view of the battery pack of the present invention.
- Figure 13 is a schematic view showing the first embodiment of the waterproofing of the tool electrical components in the housing of the hand-held high pressure cleaner of the present invention.
- Figure 14 is a schematic view showing a second embodiment of the waterproofing of the tool electrical components in the housing of the hand held high pressure cleaner of the present invention.
- Fig. 15 is a partial schematic view showing a charging mode in which a battery pack is built in a casing.
- Figure 16 is a schematic view showing a third embodiment of the waterproofing of the tool electrical components in the housing of the hand-held high pressure cleaner of the present invention.
- Figure 17 is a schematic view showing a third embodiment of the battery pack waterproofing provided in the hand-held high pressure cleaner assembly of the present invention in which the electrical components are required to be waterproof.
- Figure 18 is a cross-sectional view of the hand held high pressure cleaner of Figure 14 taken along the line A-A, which is a schematic view of a first embodiment of heat dissipation from a hand held high pressure cleaner housing.
- Figure 19 is a schematic illustration of a second embodiment of heat dissipation from a hand held high pressure cleaner housing.
- Figure 20 is a schematic illustration of a third embodiment of heat dissipation from a hand held high pressure cleaner housing.
- Figure 21 is a schematic illustration of a fourth embodiment of heat dissipation from a hand held high pressure cleaner housing.
- a high pressure cleaner assembly 100 which includes a high pressure cleaner 1 and an energy unit electrically connected to the high pressure cleaner 1.
- the energy unit is a direct current power source.
- the DC power source can be the battery pack 2.
- the high pressure cleaner 1 includes a housing 10, a tool electric device 11 disposed in the housing 10, and a trigger 13.
- the tool electric device 11 includes a motor 111 that supplies a driving force to the high-pressure cleaner 1, a main body control board 12, a switch 105 provided in the casing 10, and a plurality of wires connected between the electric devices.
- the motor 111 and the battery pack 2 are electrically connected to the main body control board 12.
- the main body control board 12 is disposed at an upper position where the casing 10 is connected to the battery pack 2.
- the trigger 13 is operatively coupled to the switch 105 to control the operation of the motor 111.
- the main body control board 12 incorporates a control program for controlling the power supply state of the battery pack 2, whether the motor 111 is rotated, and the change of the rotational speed of the motor 111.
- the high pressure cleaner 1 further includes a transmission mechanism 112 that connects the motor 111 and a pump 113 that is driven by the transmission mechanism 112.
- the transmission mechanism 112 is for converting the rotational motion of the motor 111 into the reciprocating motion of the pump 113.
- the motor 111, the transmission mechanism 112, and the pump 113 constitute a functional component of the high pressure cleaner 1.
- the transmission mechanism 112 is a gear reduction mechanism.
- the casing 10 is substantially in the shape of a pistol, and the casing 10 is formed by a left and right Haval structure and is connected by a first half shell 101 and a second half shell 102.
- the housing 10 includes a handle 103 for gripping, a main body portion 104 disposed at an angle to the handle 103, a water inlet 1041 for receiving an external water source, and a water outlet 1042 for outwardly outputting a water flow.
- the motor 111, the transmission mechanism 112, and the pump 113 are located within the body portion 104.
- the high-pressure cleaner 1 provided by the present invention is a hand-held high-pressure cleaner.
- the hand-held high-pressure cleaner 1 itself does not have a water tank for storing a water source, but is connected to a water pipe (not shown) through the water inlet 1041.
- the water pipe (not shown) is connected to an external water source, and the external water source may be a pond, a faucet or the like.
- the hand-held high-pressure cleaner 1 further includes a tool terminal block 14 electrically connected to the battery pack 2.
- the tool terminal block 14 includes a base 141 having an abutment surface 140 and a plurality of housing terminals 142 retained within the base 141.
- the tool terminal block 14 is disposed at an end of the handle 103 that faces away from the body portion 104 and is configured to be fixedly coupled to the bottom of the housing 10.
- the fixed connection can be understood to mean that the tool terminal block 14 and the bottom of the housing 10 are integrated with each other by an adhesive.
- the detachable connection between the tool terminal block 14 and the bottom of the housing 10 can also be achieved by mechanical construction.
- the tool terminal block 14 is provided with a locking member (not shown), and the bottom of the housing 10 is provided with a locking hole (not shown) that engages with the locking member, and the tool terminal block 14 is inserted into the locking hole through the locking member. In this way, the tool terminal block 14 is reliably positioned.
- the battery pack 2 is disposed at an end of the handle 103 that is away from the main body portion 104.
- the battery pack 2 includes a cover 21, a bottom 22 connected to the cover 21, a battery pack 23 for charging and discharging, and a battery pack 23;
- the battery pack control board 24 and the battery pack 25 electrically connected to the battery pack control board 24 are connected.
- the cover 21 and the bottom 22 respectively have receiving chambers, and the cover 21 and the bottom 22 are opposed to each other to form a battery pack case.
- the battery case is provided with a mounting surface 211 that can be mated with the mating surface 140 and defines a mounting cavity 20 for receiving the battery core group 23 and the battery terminal block 25.
- the mating surface 211 is formed on the cover 21. More specifically, the cover 21 includes an upper surface 212 and a boss 213 projecting upward from the upper surface 212.
- the boss 213 includes a top surface 2131, a pair of side surfaces 2132 connecting the upper surface 212 and the top surface 2131, and a front end surface 2133.
- the mating surface 211 is formed by combining one surface or a plurality of faces of the cover 21.
- the battery terminal block 25 is housed in the chamber surrounded by the boss 213 and the battery group 23.
- the battery pack 23 includes a plurality of cells 231 disposed in a row or row of rows within the mounting cavity 20.
- Each of the cells 231 includes a core body portion 2311, a first electrode end 2312 on the side of the core body portion 2311, and a second electrode end 2313 on the other side of the core body portion 2311.
- the first electrode end 2312 is disposed opposite to the second electrode end 2313 and the polarities of the electrodes are opposite.
- the adjacent first electrode ends 2312 on the side of the core body portion 2311 have opposite polarities.
- the battery terminal block 25 includes a plurality of battery pack terminals 251 that are electrically connected to the housing terminals 142. In one of the possible implementations, as shown in FIG.
- the battery terminal block 25 further includes a terminal block 252 carrying the battery pack terminals 251.
- the battery terminal block 25 is electrically connected to the battery pack control board 24 through the conductive member 253.
- the conductive member 253 may be a conductive electrode tab or a wire; in another possible manner, as shown in FIG. 2, the battery pack terminal 251 is directly supported on the battery pack control board 24, and is electrically connected to the battery pack control board 24.
- the sexual connection, that is, the battery pack control board 24 can be used as a terminal block.
- the battery pack 2 further includes a connection trip device 26 mounted on the battery pack case.
- the connection trip device 26 is movable relative to the battery pack housing to connect or disconnect the battery pack 2 from the hand held high pressure washer 1.
- the connection trip device 26 includes an operation portion 261 and a catch portion 262.
- the operation unit 261 is specifically a button. The button can drive the snap portion 262 up and down relative to the battery pack housing to enable the battery pack 2 to operatively withdraw from the housing 10.
- an elastic device 263 is disposed between the bottom surface of the connection trip device 26 and the outer surface of the cover 21.
- the elastic device 263 is a spring.
- the outer surface of the cover 21 is provided with a mounting groove 210, and the spring is at least partially restrained in the mounting groove 210.
- the hand-held high-pressure cleaner 1 is inserted into the battery pack 2 to form an insertion interface 27 for electrically connecting the housing terminal 142 and the battery pack terminal 251.
- the plug connector 27 is optionally disposed on the hand held high pressure cleaner 1 or the battery pack 2.
- the present invention provides a battery pack 2 of two morphological configurations depending on the position at which the plug connector 27 is disposed.
- the battery pack 2 has the first configuration. That is, the housing terminal 142 is configured as a tab-shaped terminal that protrudes outward, and the mating surface 211 of the battery pack 2 is formed with the plug-in interface 27 for inserting the housing terminal 142 to be electrically connected to the battery pack terminal 251.
- the battery pack terminal is configured as a tab terminal (not shown) that protrudes outward.
- the battery pack terminal is inserted into the housing 10 through the plug connector to be electrically connected to the housing terminal 142.
- the hand-held high-pressure cleaner 1 can position different working water pressures and working water flow ranges according to the cleaning scenario and the cleaning object difference.
- the working water pressure outputted by the hand-held high-pressure cleaner 1 can be selected to be a specific value or a range value within a range of 0.2 MPa to 10 MPa, and the working water flow output to the outside can be 1.5.
- the L/Min ⁇ 8L/Min range is selected as a specific value or a range value.
- the working water pressure of the hand-held high-pressure cleaner 1 can be positioned at 0.3 to 2.49 MPa, the working water flow rate can be positioned at 1.5 L/Min to 3.4 L/Min, or the working water pressure of the hand-held high-pressure cleaner 1 is positioned at 0.3 MPa. ⁇ 5Mpa, the working water flow can be positioned from 1.5L/Min to 6L/Min.
- the number of the battery packs 2 is one or more.
- the number of the battery packs 2 is one, and the voltage of the battery pack 2 is 18V to 60V, that is, the battery pack 2
- the voltage can be 18V, 20V, 28V, 36V, 38V, 40V, 42V, 56V, 60V.
- the capacity of the battery pack 2 can be 1.5 Ah, 2 Ah, 2.5 Ah, 3 Ah, 4 Ah.
- the number of battery packs 2 may also be two.
- the hand-held high-pressure cleaner 1 powered by the battery pack 2 is bound to meet the user's demand for portability.
- the DC type hand-held high pressure cleaner 1 has corresponding waterproof requirements. Only when the corresponding waterproof requirements are met, the DC handheld high-pressure cleaner 1 can guarantee the safety of the user.
- the waterproof requirement here should be understood as placing the hand-held high-pressure cleaner 1 equipped with the battery pack 2 in the corresponding extreme environment for the corresponding working water pressure of the hand-held high-pressure cleaner 1 and the corresponding voltage of the battery pack 2. Underneath, and to ensure that the machine can meet the waterproof standard.
- the DC handheld high-pressure cleaner 1 is limited to the variety of ways in which the user can hold the machine (depending on the use scene or the cleaning conditions, the user can rotate the body radially, select the appropriate The angle is held by the machine), which is more stringent for waterproofing. Therefore, the extreme environment here should be understood as the multi-directional test of the hand-held high-pressure cleaner 1 to which the battery pack 2 is attached. That is, the vertical holding machine or the vertical holding machine or the inverted machine formed by turning the machine 180 degrees can satisfy the corresponding working water pressure and the corresponding waterproof requirement under the voltage of the battery pack 2.
- the hand-held high-pressure cleaner 1 and the battery pack 2 are mated and matched, and in general, there is a fitting margin at the mating portion. That is, the surface in which the battery pack 2 and the hand-held high-pressure cleaner 1 are in contact with each other cannot be completely tightly fitted, and there is an assembly gap between the battery terminal block 25 and the inner wall of the battery pack mounting chamber 20.
- the external water flow can flow into the plug-in port 27 of the battery pack along the mating margin between the hand-held high-pressure cleaner 1 and the battery pack 2, and flows in from the gap between the battery terminal block 25 and the inner wall of the battery pack mounting cavity 20.
- the embodiments of the present disclosure provide the following battery pack waterproof implementation modes, which are described in detail as follows:
- the battery pack 2 includes a waterproof and permeable structure 3 covering at least a portion of each of the batteries 231.
- the waterproof and permeable structure 3 includes a first waterproof body 31 covering the first electrode end 2312 of each of the battery cores 231 and a packaged battery core. 231 The second waterproof body 32 of the second electrode end 2313.
- each of the cells 231 is not completely covered by the waterproof gas permeable structure 3, and only the two electrode ends of the respective cells 231 are covered with the waterproof gas permeable structure 3.
- the hand-held high-pressure cleaner 1 to which the battery pack 2 is attached is placed in a corresponding test environment, and it is ensured that the two electrode ends of the respective batteries 231 have no water.
- the battery pack control board 24 and/or the battery terminal block 25 may be disposed between the first waterproof body 31 and the second waterproof body 32.
- the first waterproof body 31 and the second waterproof body 32 may be a potting body formed by a potting form.
- the first waterproof body 31 and the second waterproof body 32 can also be designed as a waterproof tape.
- the first waterproof body 31 and the second waterproof body 32 are sealed casings (not shown) made of a waterproof material, and the overlapping portions of the sealed casing and the battery core 23 can pass through.
- the adhesive is adhered (specifically, it can be a waterproof adhesive).
- the bottom 22 is further provided with a drainage hole 220, and the water flow can reach the drainage hole 220 along the space between the battery core group 23 and the bottom 22, and the battery pack is infiltrated through the drainage hole.
- the water flow in the chamber 20 is discharged outward.
- the number of the drainage holes 220 may be one or several, for example, six drainage holes or eight drainage holes or the like may be disposed. In the case where there are several drainage holes, adjacent drainage holes are offset with respect to each other.
- the battery pack 2 further includes a drainage path disposed between the battery pack 23 and the drain hole 220 for guiding the water flow to be quickly and outwardly discharged outward along a certain path.
- the drain hole 220 is disposed at the lowest point of the bottom 22. This design ensures that there is no water accumulation between adjacent cells 231.
- the drain hole 220 provided in the bottom 22 is used to realize the integration of the battery pack 2 with the hand-held high-pressure cleaner 1.
- the machine can meet the test standards under certain conditions.
- the existing battery pack 2 platform has small changes and low cost, and the volume increase of the battery pack 2 is also small.
- the difference from the first embodiment is mainly that, in the first embodiment, the battery pack 23 is partially wrapped, and in the present embodiment, The battery pack 23 is integrally sealed.
- the waterproof and permeable structure 3 further includes a third waterproof body (not shown) covering the periphery of each of the core body portions 2311.
- the first waterproof body 31, the second waterproof body 32, and the third waterproof body are integrally formed as an independent unitary structure, and the independent integral structure completely covers the periphery of the battery core group 23 to block The external water flow flows into the two electrode ends of the cell and/or is attached between the cells 231.
- the waterproof and permeable structure 3 is a potting body 34 formed by a potting form, and the potting body 34 is completely wrapped around the battery group 23.
- the battery pack 2 further includes a conductive member 253 electrically connected between the battery pack 23 and the battery pack control board 24.
- the joint between the conductive member 253 and the potting body 34 is also coated with a waterproof adhesive to prevent water from flowing into the battery pack 23 through the gaps.
- the waterproof and permeable structure 3 can also be designed as a waterproof tape. The waterproof tape can be wound directly around the entire periphery of the battery pack.
- the difference from the first embodiment is mainly that, in the first embodiment, the battery pack 23 is partially wrapped, and in the present embodiment, The battery pack 23 is integrally sealed.
- the waterproof and permeable structure 3 is a sealed case 35 housed in the mounting cavity 20.
- the sealed casing 35 is made of a waterproof material.
- the sealed casing 35 includes a first sealed casing 351 and a second sealed casing 352 that are joined to each other.
- the first sealed casing 351 and the second sealed casing 352 are joined to form a receiving space.
- the battery packs 23 are all housed in the accommodating space.
- the first sealed box body 351 and the second sealed box body 352 can be fastened by screw fastening or snapping.
- the battery pack 2 further includes a joint seal 353 disposed between the first seal case 351 and the second seal case 352.
- the joint seal 353 blocks the external water flow from flowing into the accommodating space through the joint slit.
- the joint seal 353 may be a seal ring, and the first seal case 351 and the second seal case 352 are in contact with each other, and the seal ring is pressed to seal the assembly gap.
- the joint seal 353 can also be a waterproof adhesive.
- the battery pack 2 further includes a conductive member 253 electrically connected between the battery pack 23 and the battery pack control board 24.
- a conductive member 253 electrically connected between the battery pack 23 and the battery pack control board 24.
- the joint of the conductive member 253 and the sealed casing is also coated with a waterproof adhesive 354 to prevent water from flowing into the battery pack 23 through the gaps.
- the plug connector 27 communicates with the inside of the mounting cavity 20.
- the water flow entering from the plug connector 27 can flow into the mounting cavity 20 through the assembly gap.
- the battery pack 2 is provided with a sealing member 4 that blocks a passage from the fitting gap to the battery group 23. And the sealing member 4 is disposed in the mounting cavity 20 of the battery pack 2.
- a sealing member (not shown) is pressed between the socket 270 and the terminal block 251.
- the thickness of the sealing member 4 in the free state is larger than the gap between the terminal block 251 and the insertion port 27 to fill the gap between the terminal block 251 and the inner wall of the battery pack, and the flow of water entering from the insertion port 27 is prevented from further flowing into the gap. Installed in the cavity 20.
- the sealing member 4 is a ring that is pressed between the battery terminal block 25 and the battery pack case. Waterproof structure 41. The gap between the battery terminal block 25 and the inner wall of the battery pack is filled and sealed.
- the sealing member 4 is pressed against the battery terminal block. Between 25 and the battery pack 23, in the direction from the first electrode terminal 2312 to the second electrode terminal 2313, the sealing member 4 is pressed between the battery pack case and the battery terminal block 25.
- the sealing member 4 is attached to the terminal block 252 of the battery pack 2.
- a ring-shaped recess (not shown) is formed on the outer periphery of the terminal block 252.
- the sealing member 4 is fitted in the groove.
- the battery pack 2 further includes an adhesive that bonds the sealing member 4 and the groove together.
- the sealing member 4 can be understood as a partition wall that is sealed between the battery terminal block 25 and the mounting cavity 20, so that even if the water flow can flow along the insertion port 27 on the battery pack 2, it cannot enter the mounting cavity. 20 inside.
- the terminal block 252 is configured as a waterproof case, and the battery pack terminal 251 is integrally formed with the waterproof case 252.
- the waterproof case 252 is provided with an opening through which the housing terminal 142 is inserted in a direction facing the plug connector 27.
- the opening can be designed as a separate unit. It is also possible to design a plurality of offsets relative to each other, and a plurality of openings and the battery pack terminals 251 are in one-to-one correspondence.
- the sealing member 4 is sealed between the inner wall of the battery pack 2 and the waterproof case 252 to block the assembly gap between the waterproof case 252 and the inner wall of the battery pack.
- the maximum cross-sectional area of the waterproof case 252 in the joining direction of the cover 21 and the bottom 22 is not less than the cross-sectional area of the insertion interface 27 in the engaging direction.
- a sealing member (not shown) is attached to the plug connector 27, and a sealing member attached to the plug connector is disposed on the inner wall of the battery pack 2 to cooperate with the battery pack 2 Face 211 is set back to back.
- the sealing member is provided with a through hole through which the housing terminal 142 is inserted. To ensure the sealing property, the through hole and the housing terminal are interference-fitted, and the through hole is provided to be a structure that does not hinder the sealing member from being separated from the socket 27 and the battery group 23. The body terminal 142 is inserted.
- the sealing member 4 is one or more of a block-shaped soft gasket, a potting body formed by a potting form, a waterproof adhesive, and a weld formed by welding. A combination.
- the sealing member 4 is a partitioning plate 42 disposed between the battery terminal block 25 and the battery pack 23, and the battery pack 23 is located on the partitioning plate 42 and the inner wall of the battery pack. Enclosed in the sealed space. The peripheral edge of the partition plate 42 abuts against the inner wall of the battery pack.
- the sealing member 4 further includes a waterproof adhesive or waterproof gasket 43 adhered between the peripheral edge of the partitioning plate 42 and the inner wall of the battery pack.
- the mounting cavity 20 is provided with two brackets that are parallel in front and rear (ie, the plugging direction of the battery pack), and the partitioning plate 42 is located between the two parallel brackets 202.
- the mounting cavity 20 can also be provided with two parallel brackets in the left-right direction (ie, the direction from the first electrode end 2312 to the second electrode end 2313), that is, the partition plate is supported on the above four brackets, and the assembly is performed. Higher stability.
- the cover 21 and the bottom 22 of the battery pack 2 provided by the embodiment of the present disclosure have a split structure.
- the cover 21 and the bottom 22 are fastened by screws (not shown). With the screw fastening connection, there is a possibility that there is an assembly gap at the junction of the cover 21 and the bottom 22.
- the external water flow can flow into the mounting cavity 20 of the battery pack 2 through the assembly gap, resulting in water between the two electrode ends of each of the battery cells 231 and/or between the battery packs 23, thereby causing the circuit inside the battery pack 2. Short-circuit, causing safety risks such as electric leakage, electric shock, and even battery explosion. Therefore, in the present embodiment, as shown in FIG.
- the battery pack 2 is further provided with a battery pack case seal that blocks the passage from the fitting gap between the cover 21 and the bottom 22 to the cell group 23.
- the battery pack case seal 28 is disposed at the junction of the cover 21 and the bottom 22, and when the cover 21 and the bottom 22 are engaged, the battery case seal 28 blocks the flow of external water into the mounting cavity 20.
- the joint here is not only the area where the screw is fastened or the area where the snap structure is engaged, but the area where the entire outer peripheral edge of the cover 21 and the entire outer peripheral edge of the bottom 22 contact.
- the battery pack housing seal 28 is a soft gasket. When the bottom 22 and the cover 21 are in contact, the soft gasket is squeezed to seal the assembly gap between the cover 21 and the bottom 22.
- the cover 21 and the bottom 22 can be sealed by welding, such as ultrasonic welding or laser welding.
- the battery pack 2 further includes a display device 29 that characterizes the operational characteristics of the battery pack and a display device housing cavity 201 that houses the display device.
- the display device housing cavity 201 is located within the mounting cavity 20.
- the display device 29 includes a display device control board 291, a power indicator light 292 electrically connected to the display device control board 291, and a power display button 293, and the power display button 293 is operatively triggered to illuminate the power indicator light 292.
- the display device housing chamber 201 is defined by the battery pack case seal 28 as a closed space to prevent external water from flowing into the battery pack 2 through the display device housing chamber 201.
- connection trip device is mounted on the battery pack housing and that the connection trip unit is at least partially located within the mounting chamber 20.
- the connection trip device is movable relative to the battery pack housing to effect connection or disengagement with the housing 10.
- connection trip device 26 and the mounting cavity 20 are configured to be independent of each other and not in communication.
- the connection trip device 26 is mounted on the battery pack case, and the connection trip device 26 is isolated from the mounting cavity 20 of the battery pack 2.
- the battery case is formed with an active space for moving the trip device 26, and the movable space is independently isolated from the mounting cavity 20, and further flows into the mounting cavity 20 when the external water flow enters the active space.
- the attachment trip device 26 is detachably mounted on the outer surface of the cover 21.
- the cover 21 is integrally formed, and the cover 21 is sunk at its outer surface with a locking cavity 214 at least partially surrounding the connection trip device 26.
- the locking cavity 214 forms the above-mentioned movable space for the connection tripping device 26 to move up and down.
- the locking cavity 214 and the mounting cavity 20 are not in communication with each other to prevent the external water flow from entering the locking cavity 214 and further entering the mounting cavity 20.
- the battery pack 2 further includes a spacer (not shown).
- the spacer is detachably mounted to the battery pack case and the spacer is recessed inwardly with a latching cavity for receiving the trip device 26. That is, the locking cavity and the mounting cavity are separated by the spacer.
- the battery pack 2 further includes an isolation sealing structure (not shown) disposed between the spacer and the battery pack case to block the assembly gap between the spacer and the battery pack case to the mounting cavity. Inside the passage. Specifically, the isolating sealing structure is a soft gasket that is pressed between the spacer and the battery pack case.
- the spacer and the battery pack case may also be sealed by soldering.
- the battery pack 2 can be mated to the hand-held type only by blocking all the water inlet paths on the battery pack 2 without any change to the structure of the battery pack 23.
- the whole machine formed by the high pressure cleaner 1 can meet the test standards under certain conditions. So designed to ensure the waterproof reliability of the battery pack 2, the structure is simple, the cost is low, and the battery pack platform does not need to be changed too much, so that the battery pack 2 for powering the handheld high-pressure cleaner 1 can also be Power other tools.
- the industry has different waterproof requirements for the DC high pressure cleaner 1 .
- the different waterproof requirements are considered in consideration of the working water pressure of the hand-held high-pressure cleaner 1 and the voltage of the battery pack.
- the above three embodiments ensure that the working water pressure of the spray is less than 2.5Mpa, and the DC handheld high-pressure cleaner assembly with a battery pack voltage of less than 42.4V meets the waterproof requirements of the safety standard.
- the waterproofness of the battery pack 2 can satisfy the safety. Requirements in the standard.
- the industry is directed to the DC handheld
- the high-pressure cleaner 1 has stricter waterproof requirements, and it is necessary to satisfy the whole machine (hand-held high-pressure cleaner 1 and battery pack 2).
- the surface of the charged body cannot have water, and it needs to meet a certain creepage distance.
- the first half shell 101 and the second half shell 102 of the housing 10 are both solid.
- the first half shell 101 and the second half shell 102 may be connected by a conventional mechanical fastening such as a screw or a snap and formed with a receiving cavity 106.
- a conventional mechanical fastening such as a screw or a snap
- the joint between the first half shell 101 and the second half shell 102 is bound to have a joint gap.
- the external water flow can flow into the housing cavity 106 of the housing 10 through the joint gap, resulting in water on the surface of the tool electrical device housed in the housing 10. Therefore, in the present embodiment, as shown in FIG.
- the casing 10 is also provided with a main casing seal that blocks the passage from the joint gap of the first half shell 101 and the second half shell 102 to the accommodation chamber 106. Item 5.
- the main body casing seal 5 is disposed at the junction of the first half shell 101 and the second half shell 102. When the first half shell 101 and the second half shell 102 are assembled, the main casing seal 5 blocks the flow of water into the housing chamber 106 of the casing 10.
- the main housing seal 5 is a soft sealing strip.
- the first half shell 101 and the second half shell 102 may also be sealed by welding. That is, the main housing seal 5 can also be understood as a waterproof adhesive or a solder sealing method such as ultrasonic welding.
- the pump 113 includes a pump body 1131, a plunger (not shown) housed in the pump body 1131, a water flow inlet (not shown) provided on the pump body 1131, a water flow outlet (not shown), and a center. A chamber (not shown).
- the water inlet on the pump body 1131 is connected to the water inlet 1041.
- the plunger movement drives the cleaning liquid to flow into the central chamber through the water inlet 1041, and flows from the water outlet of the pump body 1131 toward the outlet pipe 110.
- the hand-held high-pressure cleaner 1 further includes an outlet pipe 110 that is in communication with the water outlet of the pump body 1131, and the outlet pipe 110 is housed in the casing 10.
- the outlet pipe seal 6 that receives the passage between the chambers 106 isolates the water outlet 1042 from the tool electrical components housed within the housing 10.
- the outlet pipe seal 6 is a seal that is squeezed between the outlet pipe 110 and the casing 10.
- the outlet pipe seal 6 can also be a potting body formed by potting.
- the assembly gap between the housing 10 and the outlet pipe 110 can also be filled by welding.
- the tool terminal block 14 is fixedly coupled to the bottom of the housing 10, the tool terminal block 14 and the housing 10 have an assembly gap, and the tool terminal block 14 and the housing 10 are provided with a tool terminal block.
- a seal (not shown) is provided to prevent external water flow from flowing into the housing cavity 106 of the housing 10 through the assembly gap.
- the tool terminal block seal (not shown) is a seal ring that is squeezed between the tool terminal block 14 and the housing 10.
- the tool terminal block seal may also be a potting body formed by potting.
- the gap between the housing 10 and the tool terminal block 14 can also be filled by soldering.
- the joint gap between the half shells is sealed, the fitting gap between the outlet pipe 110 and the casing 10 is sealed, and the assembly gap between the casing 10 and the tool terminal block 14 is sealed to seal in all directions.
- the water leakage port existing on the casing 10 prevents water from flowing into the casing receiving cavity 106, resulting in water on the surface of the tool electric device housed in the casing 10.
- the difference between the embodiment and the above embodiment is: the first in the embodiment.
- the connection between the half shell 101 and the second half shell 102 is only fastened by a simple mechanical connection, such as a snap, a screw, etc., and the joint of the first half shell 101 and the second half shell 102 may not be provided with a waterproof seal. structure.
- the waterproof sealing structure in this embodiment is disposed within the inner cavity of the housing 10.
- the hand-held high-pressure cleaner 1 further includes a waterproof sealed casing 7 housed in the casing 10.
- the tool electrical components in the housing 10 are housed in the waterproof sealed case 7.
- the motor 111, the main body control board 12, and the conductive members electrically connecting the devices are housed in the waterproof sealing case 7 to prevent water from coming into contact with the tool electrical components in the housing 10.
- the switch 105 housed in the housing 10 can be used to control the operation of the motor 111.
- the switch 105 is a push switch, and includes a button 1051 for pressing, when the handheld high voltage needs to be activated.
- the button 1051 is operatively pressed to the activated state, at which time the motor 111 rotates to provide power; when the hand-held high pressure washer 1 needs to be turned off, the button 1051 is operatively pressed to the released state.
- the motor 111 can stop rotating for a preset time.
- the switch 105 in order to facilitate the operable pressing or release of the button 1051 on the switch 105, the switch 105 is not disposed within the waterproof sealed case 7. In order to prevent water from entering the interior of the casing 10 through the joint of the first half-shell 101 and the second half-shell 102, the use of the switch 105 is affected.
- the switch 105 can be a waterproof switch.
- the switch 105 can also be located inside the waterproof sealed case 7 with the motor 111, the main body control board 12, and the conductive members electrically connected between the electric devices.
- the switch 105 is an inductive switch.
- the tool electrical device housed in the housing 10 is directly placed in the waterproof sealing case 7 to prevent water from entering the housing cavity 106 of the housing 10, thereby causing tools in the housing 10.
- the surface of the electrical device has water.
- the first half shell 101 and the second half shell 102 of the housing 10 are shown in FIG.
- the joint is not provided with a waterproof sealing structure.
- the outer peripheral surface of the main body control panel 12 housed in the casing 10 is provided with a wrap layer.
- the wrap layer can be realized by means of potting.
- the switch 105 is a waterproof switch.
- the motor 111 is a high heat dissipation waterproof motor.
- the hand-held high-pressure cleaner 1 further includes a conductive member electrically connected between the above-mentioned electric devices. Specifically, the conductive member is a plurality of cable assemblies 15.
- the cable assemblies 15 include a first cable assembly 151 that electrically connects the tool terminal block 14 to the main body control board 12, a second cable assembly 152 that electrically connects the waterproof switch 105 to the main body control board 12, and a high heat dissipation motor.
- the 111 is electrically connected to the third cable assembly 153 of the waterproof switch 105.
- Each of the cable assemblies 15 includes a waterproof connector 154, a first cable 155 electrically connected to one end of the waterproof connector 154, and a second cable 156 electrically connected to the other end of the waterproof connector 154.
- the two cables are electrically connected to the respective tool electrical components.
- the two electrical devices can be electrically connected without being disassembled by the arrangement of the cable assembly 15. Further assurance does not destroy the waterproof effect of the corresponding electrical device itself.
- the position of the battery pack 2 is provided in two different ways.
- the first arrangement of the battery pack as shown in Figures 13-16, the battery pack 2 is completely housed in the housing 10. In other words, the battery pack 2 is non-detachably connected to the housing 10.
- the housing 10 is waterproofed in such a manner that the joint gap between the two half shells is sealed and the fitting gap between the outlet pipe 110 and the casing 10 is sealed, that is, Waterproofing of the battery pack 2 and the housing 10 can be achieved.
- the housing 10 is waterproofed by the second embodiment, that is, the tool electrical device housed in the casing and the battery pack 2 are housed together in the waterproof sealed casing 7.
- the motor 111, the main body control board 12, the battery pack 2, and the conductive members electrically connected between the electrical components are housed in the waterproof sealed case 7.
- whether or not the switch 105 is disposed in the waterproof sealed casing 7 can be selected according to the type of the switch 105.
- the waterproof sealing of the battery pack 2 and the housing 10 can be achieved in only one step, and no additional waterproof structure of the battery pack 2 is required, and the waterproof structure is simpler.
- the battery pack 2 is built in the casing 10, and the battery pack can be understood as a built-in battery.
- the battery pack 2 since the battery pack 2 is housed in the casing 10, it is necessary to further consider how to charge the battery pack 2.
- the present invention provides two solutions.
- One solution is to provide a waterproof charging interface 16 for telecommunications connection with the battery pack 2 on the housing 10 as shown in FIG.
- the battery pack is charged through the charging interface 16.
- the battery pack 2 further includes a wireless charging assembly (not shown) housed within the mounting cavity 20.
- the handheld high pressure cleaner 1 further includes a wireless charger 17. It should be noted that the wireless charger 17 can be used as a part of the hand-held high-pressure cleaner 1 or as an accessory. When the handheld high pressure cleaner 1 is placed on the wireless charger 17, the wireless charger 17 can be inductively coupled with the wireless charging component within the battery pack 2 to wirelessly charge the battery pack 2.
- the battery pack 2 is detachably connected to the casing 10. It can be understood that the battery pack 2 is external. At this time, it is also necessary to waterproofly seal the charged body on the battery pack 2 so that the tool electrical components on the casing 10 and the charged body on the battery pack 2 are not in contact with water.
- the following describes how the battery pack is used in the present embodiment when the operating water pressure of the hand-held high-pressure cleaner 1 is greater than 2.5 MPa and the voltage of the battery pack 2 detachably connected to the hand-held high-pressure cleaner 1 is greater than 42.4 volts.
- the charged body on 2 is waterproof.
- the cover 21 and the bottom 22 of the battery pack 2 provided by the embodiment of the present disclosure have a split structure.
- the cover 21 and the bottom 22 are fastened by screws (not shown). With the screw fastening connection, there is a possibility that there is an assembly gap at the junction of the cover 21 and the bottom 22.
- the external water flow can flow into the mounting cavity 20 of the battery pack 2 through the assembly gap, resulting in water between the two electrode ends of each of the battery cells 231 and/or between the battery packs 23, thereby causing the circuit inside the battery pack 2. Short-circuit, causing safety risks such as electric leakage, electric shock, and even battery explosion.
- the joint between the cover 21 and the bottom 22 needs to be waterproof.
- the specific working water pressure of the portable high-pressure cleaner 1 can be less than 2.5Mpa, and the voltage of the battery pack 2 matched with the hand-held high-pressure cleaner 1 is less than 42.4V, and the hand-held high-pressure cleaner 1 ejects
- the fourth embodiment of the battery pack 2 is waterproof and sealed with respect to the cover 21 and the bottom 22 The scheme (shown in Figure 4) is not repeated here.
- connection tripping device 26 on the battery pack 2 can also be referred to the waterproof sealing of the connecting tripping device 26 in the fourth embodiment of the battery pack 2 waterproofing (as shown in FIG. 12). I will not repeat them this time.
- the hand-held high-pressure cleaner 1 and the battery pack 2 are mated, there is a matching gap between the hand-held high-pressure cleaner 1 and the battery pack 2, in order to avoid the battery pack terminal 251 and the housing terminal 142 housed in the mounting cavity 20. Contact with the outside water flow.
- at least one of the hand-held high-pressure cleaner 1 and the battery pack 2 is provided with a socket seal 270 that blocks a passage from the fitting gap to the insertion port 27. .
- the interposer seal 270 can isolate the battery pack terminal 251 and the case terminal 142 from the outside, and suppress external water flow from flowing into the battery pack terminal 251 and the case terminal 142 through the fitting gap.
- the interposer seal 270 is coupled between the tool terminal block 14 and the mating face 211 of the battery pack 2. With regard to the connection of the interposer seal 270, in one embodiment, the interposer seal 270 is attached to the tool terminal block. Specifically, as shown in FIG. 9, the interposer seal 270 is fixedly attached to at least a portion of the mating surface 140 by an adhesive.
- the plug connector 270 is configured to abut against the mating surface 211 of the battery pack 2 and isolate the battery pack terminal 251 and the housing terminal 142 from the outside to suppress external water flow. It enters into the mounting cavity 20 of the battery pack 2 through the plug connector 27.
- the interposer seal 270 can be attached to the mating face 140 by an adhesive or can be attached to the mating face 140 by fasteners (not shown) or any other feasible means.
- the plug connector 270 may be an elastically deformable block cushion made of a waterproof insulating material.
- the block cushion includes a plurality of through openings (not shown) that are configured to allow the housing terminals 142 to be correspondingly inserted in a configuration that does not interfere with the block cushion isolation plug.
- the interposer seal 270 can also be selected as an integrally formed strip seal (not shown).
- the sealing ring is disposed on the mating surface 140. After the battery pack 2 is coupled to the hand-held high-pressure cleaner 1, the plug-in interface 27 is located in the sealed space enclosed by the strip-shaped sealing ring.
- the interposer seal 270 can also be movably disposed on the tool terminal block 14.
- the interface between the plug connector seal 270 and the tool terminal block 14 can be driven.
- the distance between 140 changes, and at least one distance prevents external water flow from entering the mounting cavity 20 through the plug connector 27.
- the arrangement of the activity herein can be understood as the plug seal 270 and the tool terminal block 14 being non-fixed, and the plug seal 270 is detachable.
- the interposer seal 270 is coupled to the mating face 211 of the battery pack 2.
- the plug seal 270 inhibits external water flow from entering the mounting cavity 20 of the battery pack 2 through the plug connector 27.
- the battery pack 2 includes a waterproof body that is completely covered in the mounting cavity 20 of the battery pack 2 (except the battery terminal block 25).
- the waterproof and permeable structure 8 is an independent unitary structure. That is, each of the electrified bodies is integrally wrapped by the waterproof and permeable structure 8.
- the independent gas permeable structure may also be a split structure, and the charged body located in the battery pack 2 may also be wrapped in a separate body.
- the waterproof and permeable structure 8 is a potting body formed by potting.
- the waterproof and permeable structure 8 is a sealed box housed in the mounting cavity 20.
- the sealed box body is made of a waterproof material.
- each of the electrified bodies is respectively provided with a sealed casing.
- the battery pack 23 is housed in the cell casing 81
- the battery pack control panel 24 is housed in the control panel casing 82
- the display device 29 is housed in the display device casing.
- the sealed casing can also be a separate casing.
- the battery pack 2 and the hand-held high-pressure cleaner 1 are mated, there is a matching gap between the hand-held high-pressure cleaner 1 and the battery pack 2, in order to prevent the battery terminal block 25 from coming into contact with the outside water flow.
- at least one of the hand held high pressure cleaner 1 and the battery pack 2 is provided with a plug seal 270 that blocks a passage from the mating gap to the plug connector 27.
- the interposer seal 270 can isolate the battery pack terminal 251 from the outside, and suppress external water flow from flowing into the battery pack terminal 251 through the mating gap.
- the specific embodiment of the plug interface seal 270 can be used when the operating water pressure of the hand-held high-pressure cleaner 1 is greater than 2.5 MPa, and the voltage of the battery pack 2 detachably connected to the hand-held high-pressure cleaner 1 is greater than 42.4 volts.
- the description of the first embodiment for waterproofing the charged body on the battery pack 2 will not be repeated here.
- the hand-held high-pressure cleaner 1 or the battery pack 2 is selectively connected with a hollow waterproof cover 18, and the waterproof cover 18 includes a bag sleeved around the periphery of the battery pack 2. The portion 181 and the pocket portion 182 through which the battery pack 2 passes. The periphery of the pocket portion 182 is pressed against the housing 10 to form a seal with the housing 10.
- the waterproof sleeve 18 When the battery pack 2 is mated with the hand-held high-pressure cleaner 1, the waterproof sleeve 18 is connected to the casing 10 and forms a sealed space with the casing 10, and the battery pack 2 is housed in the sealed space.
- the arrangement of the waterproof cover 18 can be understood as wearing a waterproof overshoe for the battery pack 2.
- only the housing 10 of the high-pressure cleaner 1 needs to be waterproof sealed, and no additional waterproof structure of the battery pack 2 is required, and the waterproof sealing of the high-pressure cleaner 1 is realized only in one step, and the waterproof structure is more Simple; on the other hand, the structure of the battery pack 2 is not changed, and the battery pack 2 can be commonly used for other power tools.
- first and second embodiments for waterproofing the respective electrical components housed in the housing 10 of the high pressure cleaner 1 are each placed in a sealed space.
- the present invention proposes three embodiments for the heat dissipation of the motor 111.
- the hand-held high-pressure cleaner 1 further includes a heat-dissipating pad 19 that is wrapped around the periphery of the motor 111.
- the heat sink pad 19 is abutted between the motor 111 and the housing 10 to facilitate transfer of heat from the motor 111 to the housing 10 through the heat sink pad 19.
- the entire housing 10 or at least the housing 10 corresponding to the area of the motor 111 is made of a high heat dissipation material.
- the high heat dissipation material may be aluminum.
- the high pressure cleaner 1 includes a first heat dissipation system 114 disposed around the motor 111.
- the first heat dissipation system 114 includes a fan 1141 capable of rotating to generate an air flow, a heat dissipation pipe 1142, and a support frame 1143 supporting the heat dissipation pipe 1142 on the periphery of the motor 111.
- the fan 1141 may also be a self-contained structure of the motor 111.
- the heat pipe 1142 is spiral, and is circumferentially disposed around the periphery of the motor 111.
- the heat pipe 1142 is disposed through the support frame 1143 and the motor 111.
- the heat pipe 1142 includes a first nozzle 1144 that communicates with the water inlet 1041 of the hand held high pressure cleaner 1 and a second nozzle 1145 that communicates with the water flow inlet of the pump 113.
- the external water flows from the water inlet 1041 into the heat pipe 1142 and flows out of the second nozzle 1145 of the heat pipe 1142 into the pump 113.
- the motor 111 drives the fan 1141 to rotate, and the airflow generated by the rotation of the fan 1141 transmits the heat of the motor 111 to the heat pipe 1142.
- the water flow continuously flows between the first nozzle 1144 and the second nozzle 1145 of the heat pipe 1142 to ensure that the hand-held high-pressure cleaner can continuously dissipate heat for the motor 111 under the working state.
- the heat pipe 1142 may not be provided in a spiral shape, and may be configured as a plurality of heat pipes 1142 circumferentially disposed on the periphery of the motor.
- the heat dissipation tubes 1142 may or may not communicate with each other. As long as the nozzle of one end of each heat pipe 1142 is communicated with the water inlet 1041 of the hand-held high pressure cleaner 1, the nozzle of the other end of each heat pipe 1142 can communicate with the water inlet of the pump 113 of the high pressure cleaner 1.
- the water in the heat pipe 1142 is continuously flowing cooling water.
- rapid heat dissipation is achieved.
- the linear distance between the heat pipe 1142 and the motor 111 is no more than 20 cm.
- the hand-held high pressure cleaner 1 includes a second heat dissipation system 115 disposed around the motor 111.
- the second heat dissipation system 115 includes a heat sink 1151 connected to the pump 113 and a condenser 1152 connected to the heat sink 1151.
- the condenser 1152 includes a first condenser 1153 wound around the outer surface of the motor 111 and a second condenser 1154 connected between the first condenser 1153 and the fins 1151.
- the first condensation tube 1153 is in direct contact with the outer surface of the motor 111, and the heat sink 1151 is also in direct contact with the outer surface of the pump 113, which is understood to be the first condensation tube 1153.
- the heat sink 1151 is attached to the outer circumference of the pump 113 so as to be attached to the outer circumference of the motor 111.
- the first condenser 1153 is spiral.
- the cross section of the condenser 1152 is square.
- the condensing tube 1152 includes a hollow inner cavity (not shown), a porous capillary core layer (not shown) that is in close contact with the inner cavity wall, and a working liquid located in the inner cavity that can be filled with the porous capillary core layer.
- the inner chamber is operatively arranged to be a negative pressure.
- One end of the condenser 1152 near the fin 1151 is configured as a cooling end 1155, and an end close to the motor 111 is configured as an evaporation end 1156.
- the evaporation end 1156 When the motor 111 is in the activated state, the evaporation end 1156 is heated, the working liquid in the porous capillary core layer evaporates and vaporizes, and the steam flows to the cooling end 1155 under a slight pressure difference, and heat is released at the cooling end 1155 to condense into a cooling liquid. The chilled liquid then flows back to the evaporation end 1156 along the porous capillary core layer. In this cycle, the heat of the motor 111 is continuously transferred from the evaporation end 1156 to the cooling end 1155 to dissipate heat to the motor 111.
- the high pressure cleaner 1 includes a third heat dissipation system 116 disposed around the motor 111.
- the third heat dissipation system 116 includes a fan 1161 capable of rotating to generate an air flow, a heat sink assembly 1162, and a water pipe branch 1160 coupled to the heat sink assembly.
- the fan 1161 can also be a self-contained structure of the motor 111.
- the fin assembly 1162 includes a support member 1163 and a plurality of fins 1164 coupled to the support member 1163.
- the water pipe branch is provided with two branches, and the two water pipe branches can be symmetrically arranged at 180 degrees.
- the two water pipe branches are interspersed with the support members. One end of each pipe is connected to the water inlet 1041, and the other end of each pipe is connected to the inner cavity of the pump.
- the cooling water flow continuously flows in each of the pipes to ensure the temperature of the fin assembly is lowered.
Landscapes
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- General Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Biophysics (AREA)
- Computer Hardware Design (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Manufacturing & Machinery (AREA)
- Battery Mounting, Suspending (AREA)
- Portable Power Tools In General (AREA)
Abstract
一种电池包,包括:包盖(21)、包底(22)、电芯组(23),用于进行充放电,电芯组包括若干电芯(231);电池接线排(25),电连接于电芯组;安装腔(20),收容电芯组和电池接线排,安装腔形成有插接口(27);连接脱扣装置(26),能够带动电池包和电动工具锁定连接或释放脱离;安装腔内设有阻断从插接口到电芯组之间通路的密封构件(4);电池包还包括阻断外界和安装腔连通的电池包壳体密封件(28),设置在包盖和包底的接合处;连接脱扣装置安装在电池包壳体上,并隔离在安装腔之外。还涉及一种与与该电池包可拆卸连接的电动工具。
Description
本发明涉及一种电池包及电动工具组件,尤其涉及电池包及电动工具组件的防水密封结构。
如今在园林机械、动力工具的行业中,由于交流供电的电动工具,受限于电源供应,其使用场景必须配备相应的交流电源,降低了户外场景应用的便捷性,此外,交流供电的电动工具受限于电源线的长度,其使用只能在电源线长度范围之内,限缩了电动工具的使用范围和可移动性。
因此,电池包作为电动工具的能量来源已经势不可挡。但由于园林机械、动力工具使用工况较复杂,在使用或者存储的过程中,尤其在潮湿或者有水的环境中使用,难免会有水通过电池包上的进水路径进入电池包的安装腔内,如此,不仅会影响元器件的寿命,甚至还会引起火灾,不满足相应的安规要求。因此,有必要设计一种防水电池包以解决上述问题。
发明内容
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电池包结构。
为实现上述目的,本发明所采用的技术方案是:
一种电池包,其可拆卸地附接到设有壳体端子的电动工具,所述电池包包括:
包盖;包底,与所述包盖相接合构成电池包壳体;
电芯组,用于进行充放电,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部一侧的第一电极端和位于电芯体部另一侧的第二电极端;
电池接线排,电连接于所述电芯组,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;
安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排,所述安装腔形成有供所述壳体端子插入以与所述电池包端子电性连接的插接口;
连接脱扣装置,能够带动所述电池包和所述电动工具锁定连接或释放脱离;
所述安装腔内设有阻断从所述插接口到所述电芯组之间的通路的密封构件;
所述电池包还包括阻断外界和所述安装腔连通的电池包壳体密封件,所述电池包壳体密封件设置在所述包盖和包底的接合处;
所述连接脱扣装置安装在所述电池包壳体上,所述连接脱扣装置隔离在所述安装腔之外。
在其中一种实施例中,所述密封构件被压紧在所述插接口和所述端子座之间。
在其中一种实施例中,所述密封构件处于自由状态下的厚度大于所述端子座到所述插接口之间的间隙。
在其中一种实施例中,所述插接口附着有所述密封构件,且附着在所述插接口上的所述密封构件设置在所述电池包的内壁上,所述密封构件设有贯通的开孔,所述开孔配备为不妨碍所述密封构件隔离所述插接口与所述电芯组的构造供所述壳体端子穿插。
在其中一种实施例中,位于所述安装腔内的所述密封构件与所述电池接线排相对设置。
在其中一种实施例中,所述端子座构造为一防水箱体,所述防水箱体面向所述插接口的方向设有供所述壳体端子穿插的开口,所述密封构件密封在所述电池包的内壁和所述防水箱体之间,以封堵所述防水箱体和所述电池包的内壁之间的装配间隙。
在其中一种实施例中,所述防水箱体在所述包盖和包底接合方向上的最大横截面积大于所述插接口在所述接合方向上的横截面积。
在其中一种实施例中,所述密封构件为被挤压在所述防水箱体和所述电池包内壁之间的软性密封垫、灌胶体、防水黏合剂、焊接形成的熔合体中的一种或者多种组合体。
在其中一种实施例中,所述密封构件为设置在所述电池接线排和所述电芯组之间的分隔件,所述电芯组位于所述分隔件和所述电池包壳体内壁围设的空间内。
在其中一种实施例中,所述连接脱扣装置可拆卸的安装在所述包盖上,并能够相对于所述包盖运动,以实现所述电池包和所述电动工具锁定连接或释放脱离。
在其中一种实施例中,所述电池包壳体于其外表面下沉有至少部分包围所述连接脱扣装置的锁扣腔,所述锁扣腔形成供所述连接脱扣装置运动的活动空间,所述锁扣腔与所述安装腔彼此不连通。
在其中一种实施例中,所述电池包包括与所述电池包壳体可拆卸连接的隔离件以及位于所述隔离件
和所述电池包壳体之间的隔离密封结构,所述隔离件向内凹陷有收容所述连接脱扣装置的锁扣腔。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电池包和所述电池包可拆卸连接的电动工具,所述电池包包括:
包盖;包底,与所述包盖相接合构成电池包壳体;
电芯组,用于进行充放电,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部一侧的第一电极端和位于电芯体部另一侧的第二电极端;
电池接线排,电连接于所述电芯组,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;
安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排,所述安装腔形成有供所述壳体端子插入以与所述电池包端子电性连接的插接口;
连接脱扣装置,能够带动所述电池包和所述电动工具锁定连接或释放脱离;
所述电动工具包括:
壳体;工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
功能部件,具有为所述电动工具提供驱动力的电机;
所述安装腔内设有阻断从所述插接口到所述电芯组之间的通路的密封构件;
所述电池包还包括阻断外界和所述安装腔连通的电池包壳体密封件,所述电池包壳体密封件设置在所述包盖和包底的接合处;
所述连接脱扣装置安装在所述电池包壳体上,所述连接脱扣装置隔离在所述安装腔之外。
在其中一种实施例中,所述密封构件被压紧在所述插接口和所述端子座之间。
在其中一种实施例中,所述密封构件处于自由状态下的厚度大于所述端子座到所述插接口之间的间 隙。
在其中一种实施例中,所述插接口附着有所述密封构件,且附着在所述插接口上的所述密封构件设置在所述电池包的内壁上,所述密封构件设有贯通孔,所述贯通孔配备为不妨碍所述密封构件隔离所述插接口与所述电芯组的构造供所述壳体端子穿插。
在其中一种实施例中,位于所述安装腔内的所述密封构件与所述电池接线排相对设置。
在其中一种实施例中,所述端子座构造为一防水箱体,所述防水箱体面向所述插接口的方向设有供所述壳体端子穿插的开口,所述密封构件密封在所述电池包的内壁和所述防水箱体之间,以封堵所述防水箱体和所述电池包的内壁之间的装配间隙。
在其中一种实施例中,所述防水箱体在所述包盖和包底接合方向上的最大横截面积大于所述插接口在所述接合方向上的横截面积。
在其中一种实施例中,所述密封构件为被挤压在所述防水箱体和所述电池包内壁之间的软性密封垫、灌胶体、防水黏合剂、焊接形成的熔合体中的一种或者多种组合体。
在其中一种实施例中,所述密封构件为设置在所述电池接线排和所述电芯组之间的分隔件,所述电芯组位于所述分隔件和所述电池包壳体内壁围设的空间内。
在其中一种实施例中,所述连接脱扣装置可拆卸的安装在所述包盖上,并能够相对于所述包盖运动,以实现所述电池包和所述电动工具锁定连接或释放脱离。
在其中一种实施例中,所述电池包壳体于其外表面下沉有至少部分包围所述连接脱扣装置的锁扣腔,所述锁扣腔形成供所述连接脱扣装置运动的活动空间,所述锁扣腔与所述安装腔彼此不连通。
在其中一种实施例中,所述电池包包括与所述电池包壳体可拆卸连接的隔离件以及位于所述隔离件和所述电池包壳体之间的隔离密封结构,所述隔离件向内凹陷有收容所述连接脱扣装置的锁扣腔。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源的入水口以及向外输送水流的出水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述功能部件包括由所述电机驱动以向外输送水流的泵,所述功能部件设置于所述壳体内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~42V。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电动工具及与所述电动工具电性连接的电池包,所述电动工具包括:
壳体;工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
功能部件,具有为所述电动工具提供驱动力的电机;
所述电池包可拆卸地与所述壳体相配接,所述电池包包括:
包盖;包底,与所述包盖相接合构成电池包壳体;
电芯组,用于进行充放电,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部 一侧的第一电极端和位于电芯体部另一侧的第二电极端;
电池接线排,电连接于所述电芯组,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;
安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排;
所述电池包包括包覆于至少部分所述电芯组外围的防水透气结构,所述防水透气结构包括包覆各电芯第一电极端的第一防水体及包覆各电芯第二电极端的第二防水体,且所述包底设有使得所述安装腔与外部连通的排水孔。
在其中一种实施例中,所述第一防水体和所述第二防水体可为灌胶方式形成的防水层,所述防水层黏附于所述第一电极端与所述第二电极端的外表面。
在其中一种实施例中,所述第一防水体和所述第二防水体可为密封盒体,所述第一电极端和所述第二电极端收容于所述密封盒体的内腔体内。
在其中一种实施例中,所述电池包还包括密封于所述密封盒体和所述第一、第二电极端的附着黏合体。
在其中一种实施例中,所述防水透气结构还包括包覆各电芯体部的第三防水体。
在其中一种实施例中,所述第一防水体、所述第二防水体以及所述第三防水体一体构造成独立的整体结构,该独立的整体结构完全包覆于所述电芯组的外围。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源的入水口以及向外输送水流的出水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述功能部件还包括由所述电机驱动以向外输送水流的泵,所述功能部件设置于所述壳体内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~42V。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电动工具及与所述电动工具电性连接的电池包,所述电动工具包括:
壳体,包括相互接合的第一半壳和第二半壳及限定于所述壳体内的收纳腔;
工具电器件,设置在所述壳体内,所述工具电器件包括为所述电动工具提供驱动力的电机、主体控制板以及设置于所述壳体内的开关,所述开关控制电机进行工作,所述主体控制板内置有控制程序,可用于控制电池包供电状态;
泵,由所述电机驱动,所述泵包括泵体、设置在所述泵体内的柱塞、设置在所述泵体上的水流进口和水流出口以及能够供所述柱塞往复运动的中央腔室;
出水管,收容于所述壳体内,具有与所述泵的水流出口连通的出水口;
工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
所述电池包可拆卸地与所述壳体相配接,所述电池包包括:
包盖;包底,与所述包盖相接合构成电池包壳体;
电芯组,用于进行充放电,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部一侧的第一电极端和位于电芯体部另一侧的第二电极端;
电池接线排,电连接于所述电芯组,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;
安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排,所述安装腔形成有供所述壳体端子插入以与所述电池包端子电性连接的插接口;
连接脱扣装置,能够带动所述电池包和所述电动工具锁定连接或释放脱离;
所述壳体设有阻断从所述第一半壳和所述第二半壳的接合间隙到所述壳体的收纳腔之间的通路的主机壳体密封件、隔离所述出水口和所述工具电器件之间的通路的出水口密封件以及阻断所述工具接线排和所述壳体的装配间隙到所述收纳腔之间的通路的工具接线排密封件;
当所述电池包和所述电动工具配接,所述电动工具和所述电池包之间具有配合间隙,所述电动工具和所述电池包中的至少一个配置有阻断从所述配合间隙到所述插接口之间的通路的插接口密封件;
所述电池包还包括阻断外界和所述安装腔连通的电池包壳体密封件,所述电池包壳体密封件设置在所述包盖和包底的接合处;
所述连接脱扣装置安装在所述电池包壳体上,所述连接脱扣装置隔离在所述安装腔之外。
在其中一种实施例中,所述工具接线排设有对接面,所述壳体端子至少部分向外凸伸出所述对接面,所述电池包包括能够与所述对接面进行对接配合的配合面,所述插接口形成在所述配合面上。
在其中一种实施例中,所述插接口密封件设置在所述对接面与所述配合面之间。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源并与所述出水口连通的入水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述电机和所述泵设置于所述主体部内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~60V。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电动工具及与所述电动工具电性连接的电池包,所述电动工具包括:
壳体,包括相互接合的第一半壳和第二半壳以及限定在所述壳体内的收纳腔;
工具电器件,设置在所述壳体内,所述工具电器件包括为所述电动工具提供驱动力的电机、主体控制板以及设置于所述壳体内的开关,所述开关控制电机进行工作,所述主体控制板内置有控制程序,可用于控制电池包供电状态;
泵,由所述电机驱动,所述泵包括泵体、设置在所述泵体内的柱塞、设置在所述泵体上的水流进口和水流出口以及能够供所述柱塞往复运动的中央腔室;
出水管,收容于所述壳体内,具有与所述泵的水流出口连通的出水口;
工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
所述电池包可拆卸地与所述壳体相配接,所述电池包包括:
包盖;包底,与所述包盖相接合构成电池包壳体;
带电体,包括用于进行充放电的电芯组及电性连接所述电芯组的电池接线排,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部一侧的第一电极端和位于电芯体部另一侧的第二电极端,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;
安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排,所述安装腔形成有供所述壳体端子插入以与所述电池包端子电性连接的插接口;
连接脱扣装置,能够带动所述电池包和所述电动工具锁定连接或释放脱离;
所述壳体设有阻断从所述第一半壳和所述第二半壳的接合间隙到所述壳体的收纳腔之间的通路的主机壳体密封件、隔离所述出水口和所述工具电器件之间的通路的出水口密封件以及阻断所述工具接线排和所述壳体的装配间隙到所述收纳腔之间的通路的工具接线排密封件;
当所述电池包和所述电动工具配接,所述电动工具和所述电池包之间具有配合间隙,所述电动工具和所述电池包中的至少一个配置有阻断从所述配合间隙到插接口之间的通路的插接口密封件;
所述电池包还包括完全包覆于所述带电体外围的防水透气结构。
在其中一种实施例中,所述防水透气结构为灌胶方式形成的防水层、或包裹于所述电芯组外围的防水胶布、或收容在所述安装腔内的密封盒体。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源并与所述出水口连通的入水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述电机和所述泵设置于所述主体部内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~60V。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电动工具及与所述电动工具电性连接的电池包,所述电动工具包括:
壳体,包括相互接合的第一半壳和第二半壳以及限定在所述壳体内的收纳腔;
工具电器件,设置在所述收纳腔内,所述工具电器件包括为所述电动工具提供驱动力的电机、主体控制板以及设置于所述壳体内的开关,所述开关控制电机进行工作,所述主体控制板内置有控制程序,可用于控制电池包供电状态;
泵,由所述电机驱动,所述泵包括泵体、设置在所述泵体内的柱塞、设置在所述泵体上的水流进口和水流出口以及能够供所述柱塞往复运动的中央腔室;
出水管,收容于所述壳体内,具有与所述泵的水流出口连通的出水口;
工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
所述电池包配置为容置于所述收纳腔内的内置电池;
所述壳体设有阻断从所述第一半壳和所述第二半壳的接合间隙到所述收纳腔之间的通路的主机壳体密封件以及隔离所述出水口和所述工具电器件之间的通路的出水口密封件。
在其中一种实施例中,所述壳体还包括与所述内置电池电性连接的防水充电接口。
在其中一种实施例中,所述电动工具组件进一步包括无线充电器,所述无线充电器能够与所述内置电池发生感应配合,以为所述内置电池进行充电。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源并与所述出水口连通的入水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述电机和所述泵设置于所述主体部内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~60V。
有鉴于此,本发明所要解决的技术问题在于供一种结构简单且能够保证直流式电动工具能满足一定的防水标准的电动工具组件。
为实现上述目的,本发明所采用的技术方案是:
一种电动工具组件,其包括电动工具及与所述电动工具电性连接的电池包,所述电动工具包括:
壳体,包括相互接合的第一半壳和第二半壳以及限定在所述壳体内的收纳腔;
工具电器件,包括为所述电动工具提供驱动力的电机、主体控制板、以及设置于所述壳体内的开关,所述开关控制电机进行工作,所述主体控制板内置有控制程序,可用于控制电池包供电状态;
泵,由所述电机驱动,所述泵包括泵体、设置在所述泵体内的柱塞、设置在所述泵体上的水流进口和水流出口以及能够供所述柱塞往复运动的中央腔室;
出水管,收容于所述壳体内,具有与所述泵的水流出口连通的出水口;
工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;
其特征在于,所述电池包配置为容置于所述收纳腔内的内置电池,所述电动工具组件还包括设置在所述壳体内的防水密封箱体,所述工具电器件和所述内置电池均收容于所述防水密封箱体内。
在其中一种实施例中,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源并与所述出水口连通的入水口。
在其中一种实施例中,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
在其中一种实施例中,所述电机和所述泵设置于所述主体部内。
在其中一种实施例中,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
在其中一种实施例中,所述电池包的数量配置为一个或多个,各电池包的电压为18~60V。
以上所述的本发明的目的、技术方案以及有益效果可以通过下面的能够实现本发明的具体实施例的详细描述,同时结合附图描述而清楚地获得。
附图以及说明书中的相同的标号和符号用于代表相同的或者等同的元件。
图1是相应条件下,本发明提供的电池包防水的第一种实施方式中电池包部分结构拆分图。
图2是相应条件下,本发明提供的电池包防水的第二种实施方式中电池包的剖示图。
图3是相应条件下,本发明提供的电池包防水的第三种实施方式中电池包的剖示图。
图4是相应条件下,本发明提供的电池包防水的第四种实施方式一种可行方式的电池包的剖示图。
图5是相应条件下,本发明提供的电池包防水的第四种实施方式中另一种可行方式的电池包的剖示图。
图6是相应条件下,本发明提供的电池包防水的第四种实施方式中另一种可行方式的电池包的剖示图。
图7是本发明手持式高压清洗机组件中电器件均需要做防水的条件下,提供的电池包防水的第二种实施方式中的电池包的一种方案的剖视图。
图8是本发明手持式高压清洗机组件中电器件均需要做防水的条件下,提供的电池包防水的第二种实施方式中的电池包的另一种方案的剖视图。
图9是本发明手持式高压清洗机的立体图。
图10是本发明手持式高压清洗机和电池包的拆分图。
图11是图10所示的手持式高压清洗机和电池包配接后去掉一半壳体的示意图。
图12是本发明的电池包的部分分解图。
图13是本发明的手持式高压清洗机的壳体内工具电器件防水的第一种实施方式示意图。
图14是本发明的手持式高压清洗机的壳体内的工具电器件防水的第二种实施方式示意图。
图15是电池包内置于壳体中的充电方式的局部示意图。
图16是本发明的手持式高压清洗机的壳体内工具电器件防水的第三种实施方式示意图。
图17是本发明手持式高压清洗机组件中电器件均需要做防水的条件下,提供的电池包防水的第三种实施方式的示意图。
图18是图14所示的手持式高压清洗机沿A-A方向剖示图,其为手持式高压清洗机壳体散热的第一种实施方式的示意图。
图19是手持式高压清洗机壳体散热的第二种实施方式的示意图。
图20是手持式高压清洗机壳体散热的第三种实施方式的示意图。
图21是手持式高压清洗机壳体散热的第四种实施方式的示意图。
下面结合附图对本发明的较佳实施例进行详细阐述,以使本发明的优点和特征能更易于被本领域技术人员理解,从而对本发明的保护范围做出更为清楚明确的界定。其中相同的元件,不同的实施例中采用同样的标号。
如图10~11、图13~14所示,揭示一种高压清洗机组件100,其包括高压清洗机1及与高压清洗机1电性连接的能量单元。所述能量单元为直流电源。具体的,该直流电源可以为电池包2。
如图9、图11所示,高压清洗机1包括壳体10、设置于壳体10内的工具电器件11以及扳机13。工具电器件11包括为高压清洗机1提供驱动力的电机111、主体控制板12、设置于壳体10内的开关105以及连接在上述电器件之间的复数根导线。其中电机111与电池包2均电连接于主体控制板12。主体控制板12设置在壳体10与电池包2连接处的上方位置。扳机13可操作的和开关105相配合,以控制电机111行工作。主体控制板12内置有控制程序,可用于控制电池包2的供电状态、电机111是否旋转及电 机111旋转速度的变化。
高压清洗机1还包括连接电机111的传动机构112、受传动机构112带动的泵113。该传动机构112用于将电机111的旋转运动转换成泵113的往复运动。电机111、传动机构112以及泵113构成高压清洗机1的功能部件。具体的,传动机构112为齿轮减速机构。
如图9、图10和图11所示,壳体10大致呈手枪状,该壳体10采用左右哈弗结构,由第一半壳101和第二半壳102连接而成。壳体10包括用于握持的手柄103、与手柄103呈角度设置的主体部104、接受外部水源的入水口1041及向外输出水流的出水口1042。所述电机111、传动机构112及泵113位于主体部104内。出于便携性的要求,本发明提供的高压清洗机1为手持式高压清洗机,手持式高压清洗机1本身不具有存储水源的水箱,而是通过入水口1041与水管(未图示)连接,水管(未图示)再连接至外部水源,外部水源可以是池塘、水龙头等。
如图9、图10所示,手持式高压清洗机1还包括与电池包2电性连接的工具接线排14。工具接线排14包括设有对接面140的基座141及固持在基座141内的若干壳体端子142。工具接线排14设置在手柄103背离主体部104的一端,并构造成与壳体10的底部固定连接。在其中一种实施方式中,所述固定连接可以理解为,工具接线排14和壳体10的底部之间通过黏合剂彼此成为一体。当然,在其他实施方式中,工具接线排14和壳体10的底部之间也可以通过机械结构实现可拆卸连接。例如,工具接线排14设置有锁定件(未图示),壳体10的底部设置有与锁定件锁扣配合的锁孔(未图示),工具接线排14通过锁定件插入到锁孔中,以此实现工具接线排14被可靠地定位。
电池包2设置在手柄103的远离主体部104的一端。参照图1至图8以及图10和图12所示,电池包2包括包盖21、与包盖21连接的包底22、用于进行充放电的电芯组23、与电芯组23电性连接的电池包控制板24及与电池包控制板24电性连接的电池接线排25。
继续参照图1至图8,包盖21和包底22分别具有容纳腔,包盖21和包底22相互对合构成电池包壳体。电池包壳体设有能够和所述对接面140对接配合配合面211、并限定有收容电芯组23和电池接线排25的安装腔20。在本实施方式中,配合面211形成于包盖21上。更具体的,包盖21包括上表面212、自上表面212向上凸伸出的凸台213。该凸台213包括顶表面2131、连接上表面212和顶表面2131之间的一对侧表面2132以及一前端面2133。其中配合面211由包盖21的一个面或多个面组合形成。在本实施方式中,电池接线排25收纳在凸台213和电芯组23围设的腔室内。
电芯组23包括以行或行列堆叠方式设置于安装腔20内的若干电芯231。各电芯231均包括电芯体部2311、位于电芯体部2311一侧的第一电极端2312及位于电芯体部2311另一侧的第二电极端2313。第一电极端2312与第二电极端2313相对设置且电极的极性相反。为保证各电芯231之间能够形成电性连接,位于电芯体部2311一侧的相邻的第一电极端2312的极性相反。电池接线排25包括与壳体端子142电连接的若干电池包端子251。在其中一种可行实施方式中,如图4所示,电池接线排25还包括承载该等电池包端子251的端子座252,电池接线排25通过导电件253和电池包控制板24电性连接。具体的,导电件253可以是导电极片或者导线;在另一种可行方式中,如图2所示,电池包端子251直接支撑在电池包控制板24上,并与电池包控制板24电性连接,即电池包控制板24可作为端子座。
如图10和图12所示,电池包2还包括安装在电池包壳体上的连接脱扣装置26。连接脱扣装置26能够相对于电池包壳体运动,以实现电池包2与手持式高压清洗机1相连接或脱离。具体的,连接脱扣 装置26包括操作部261和卡接部262。操作部261具体为按钮。按钮能够带动卡接部262相对于电池包壳体上下活动,以实现电池包2可操作地从壳体10上退出。进一步的,连接脱扣装置26的底面和包盖21的外表面之间设置有弹性装置263。优选的,该弹性装置263为弹簧。包盖21的外表面设有安装槽210,上述弹簧至少部分限位在安装槽210内。在需要将电池包2从手持式高压清洗机1上拆卸下来时,按压按钮,按钮带动卡接部262向下运动与手持式高压清洗机1脱离。此时,弹簧因为受到按钮的压力给按钮一个向上的复位力,用于使连接脱扣装置26被按压后又恢复至原来的高度。
进一步的,在本实施方式中手持式高压清洗机1与电池包2插接配合形成有供壳体端子142与电池包端子251进行电性连接的插接口27。该插接口27可选择的配置在手持式高压清洗机1或电池包2上。根据插接口27设置的位置不同,本发明提供两种形态结构的电池包2。
具体的,如图1~图8所示,当所述插接口27配置在电池包2上,电池包2具有第一种形态结构。即壳体端子142配置为向外凸伸的接片型端子,电池包2的配合面211上形成有供壳体端子142插入以与电池包端子251电性连接的所述插接口27。
当上述插接口27配置在手持式高压清洗机1上,电池包具有第二种形态结构(未图示)。此时,电池包端子配置为向外凸伸的接片型端子(未图示)。电池包端子通过所述插接口插入壳体10内以与壳体端子142进行电性连接。
由于本公开实施例中,电池包2是以第一种结构呈现,因此如下仅对第一种结构进行详细说明。
手持式高压清洗机1可以根据清洗场景和清洗对象差异定位有不同的工作水压和工作水流量范围。具体的,在本公开实施例中,手持式高压清洗机1向外输出的工作水压可以在0.2Mpa~10Mpa范围内选取定位为具体值或者范围值,向外输出的工作水流量可以在1.5L/Min~8L/Min范围内选取定位为具体值或者范围值。如手持式高压清洗机1的工作水压可以定位为0.3~2.49Mpa,工作水流量可以定位为1.5L/Min~3.4L/Min;或者手持式高压清洗机1的工作水压定位为0.3Mpa~5Mpa,工作水流量可以定位为1.5L/Min~6L/Min。
此外,在本实施方式中,电池包2的数量设有一个或多个,在其中一个实施方式中,电池包2的数量为一个,电池包2的电压为18V~60V,即电池包2的电压可以为18V、20V、28V、36V、38V、40V、42V、56V、60V。电池包2的容量可以为1.5Ah、2Ah、2.5Ah、3Ah、4Ah。当然,在其它可实施方式中,电池包2的数量也可为两个。
需要注意的是,电池包2供电的手持式高压清洗机1势必能够满足用户对于便携性的需求。但相关的测试标准中,对于直流式手持式高压清洗机1具有相应的防水要求。只有满足相应的防水要求,直流手持式高压清洗机1才能保证用户使用机器的安全性。这里的防水要求应该理解为针对手持式高压清洗机1具有的相应工作水压和电池包2具有的相应电压下,将配接有电池包2的手持式高压清洗机1置于相应的极端环境下,并能保证机器能够满足防水标准。需要继续强调的是,相对于其它电动工具,直流手持式高压清洗机1限制于用户握持机器方式的多样性(根据使用场景或者清洁工况的不同,用户可以径向转动机身,选择合适的角度握持机器),其对于防水要求更为严格。因此,这里的极端环境应该理解为,配接有电池包2的手持式高压清洗机1需进行多向测试。即,竖向握持机器或者横向握持机器或者将机器翻转180度形成的倒置机器等均能满足相应工作水压和电池包2电压下对应的防水要求。
目前,市面上有很多单一的电池包防水方案,然而,这些方案中要么仅能做到电池包的局部区域可 以杜绝水流进入至电池包的安装腔,要么仅能做到单一测试方向上(机器竖向放置),局部区域可以杜绝水流进入电池包的安装腔。而这些对于防水要求较高的手持式高压清洗机组件(手持式高压清洗机和电池包配接形成手持式高压清洗机组件)根本无济于事,不能完全解决防水问题。
在本公开实施例中,首先,手持式高压清洗机1和电池包2插接配合,通常情况下,配合处存在配合余量。即电池包2与手持式高压清洗机1相互接触的面不可能是完全紧密的贴合,且电池接线排25和电池包安装腔20的内壁之间会存在装配间隙。外界水流能够顺着手持式高压清洗机1和电池包2之间的配合余量流进入电池包的插接口27内,并自电池接线排25和电池包安装腔20的内壁之间的间隙流入至电芯组23。进而,电芯组23的两电极端(第一、第二电极端2312、2313)和电芯体部2311之间均有可能接触水流。如此,易于带来电池包2内电路短路,造成漏电、触电、甚至电芯爆炸等安全风险。为此,本公开实施例提供了以下几种电池包防水实施方式,如下进行详细介绍:
具体的,电池包2包括包覆各电芯231至少部分结构的防水透气结构3。
作为本公开实施例中电池包2防水的第一种实施方式,如图1所示,该防水透气结构3包括包裹各电芯231第一电极端2312的第一防水体31及包裹各电芯231第二电极端2313的第二防水体32。换句话说,即各电芯231未完全被防水透气结构3包裹,仅各电芯231的两个电极端包覆有防水透气结构3。这样的话,将配接有电池包2的手持式高压清洗机1置于相应的测试环境下,能保证各电芯231的两电极端没有水。进一步的,上述电池包控制板24和/或电池接线排25可设置在第一防水体31和第二防水体32之间。一方面,降低防水材料的成本及电池包2的重量;另一方面,可以预留出安装区域供电池包控制板24和/或电池接线排25安装。其中,在一种可实施方式中,,第一防水体31和第二防水体32可以为通过灌胶形式形成的灌胶体。当然,第一防水体31和第二防水体32也可以设计为防水胶布。在另一种可实施方式中,第一防水体31和第二防水体32均为防水材料制成的密封盒体(未图示),密封盒体和电芯组23的搭接处可通过附着黏合体(具体可以为防水黏合剂)密封。
更进一步的,在本实施方式中,包底22还设有排水孔220,水流能够沿着电芯组23和包底22之间的空间到达排水孔220,并通过排水孔将渗入电池包安装腔20内的水流向外排出。其中,排水孔220的数量可以为一个或若干个,例如可以配置有六个排水孔或者八个排水孔等等。对于排水孔为若干个的情况,相邻的排水孔相对于彼此偏移。优选的,电池包2还包括设置在电芯组23和排水孔220之间的排水路径,用于引导水流沿着一定的路径向外快速向外排出。优选的,排水孔220设置在包底22的最低处。如此设计,可以确保相邻的电芯231之间不会有积水。
在本实施方式中,仅改变电池包2的电芯组23的结构设计,并结合包底22设有的排水孔220,即可实现电池包2配接于手持式高压清洗机1形成的整机能够满足一定条件下的测试标准。现有的电池包2平台改动小,成本低,电池包2的体积增加量也小。
作为本公开实施例中电池包2防水的第二种实施方式,其与第一种实施方式的差异主要在于,第一种实施方式,电芯组23被部分包裹,而在本实施方式中,电芯组23整体被密封包裹。具体的,该防水透气结构3还包括包覆各电芯体部2311外围的第三防水体(未图示)。如图2所示,第一防水体31、第二防水体32、第三防水体一体形成为独立的整体结构,该独立的整体结构完全包覆于所述电芯组23的外围,以阻止外界水流流入至电芯的两电极端和/或附接在各电芯231之间。
该防水透气结构3为通过灌胶形式形成的灌胶体34,该灌胶体34完全包裹于电芯组23。如前所述, 电池包2还包括电性连接在电芯组23与电池包控制板24之间的导电件253。为避免导电件253与灌胶体34之间形成空隙,因此,导电件253和灌胶体34的连接处还涂敷有防水黏合剂,以避免水流透过该等空隙流入至电芯组23上。当然,该防水透气结构3也可设计为防水胶布。防水胶布能够直接缠绕于电芯组整体的外围。
作为本公开实施例中电池包2防水的第三种实施方式,其与第一种实施方式的差异主要在于,第一种实施方式,电芯组23被部分包裹,而在本实施方式中,电芯组23整体被密封包裹。具体的,如图3所示,该防水透气结构3为收容在安装腔20内的密封盒体35。该密封盒体35为防水材料制成。密封盒体35包括相互接合的第一密封盒体351和第二密封盒体352。第一密封盒体351和第二密封盒体352接合后形成一收容空间。电芯组23全部收容在该收容空间内。其中,第一密封盒体351和第二密封盒体352可通过螺钉紧固或者卡扣的方式紧固接合。为了避免第一密封盒体351和第二密封盒体352机械接合后,两个密封盒体之间存在合缝。在本实施方式中,电池包2还包括设置在第一密封盒体351和第二密封盒体352之间的接合密封件353。当第一密封盒体装配至第二密封盒体,接合密封件353阻断外部水流通过接合缝隙流入至收容空间内。具体的,该接合密封件353可以为密封圈,第一密封盒体351和第二密封盒体352相接触,并对密封圈形成挤压,以密封装配间隙。当然,接合密封件353也可以为防水黏合剂。
同样的,电池包2还包括电性连接在电芯组23和电池包控制板24之间的导电件253。为避免导电件253与密封盒体之间形成有影响密封性的空隙。因此,导电件253和密封盒体的连接处还涂敷有防水黏合剂354,以避免水流透过该等空隙流入至电芯组23上。
作为本公开实施例中电池包防水的第四种实施方式,首先,由于电池接线排25和电池包2的安装腔20之间具有装配间隙,因此,插接口27和安装腔20内部相连通。从插接口27进入的水流可以通过该装配间隙流入至安装腔20内。如图4所示,本实施方式中,电池包2配置有阻断从所述装配间隙到电芯组23之间的通路的密封构件4。且密封构件4设置在电池包2的安装腔20内。
其中,在一种可行方式中,密封构件(未图示)被压紧在插接口270和端子座251之间。具体的,密封构件4处于自由状态下的厚度大于端子座251到插接口27之间的间隙,以填充端子座251和电池包内壁之间的间隙,阻止从插接口27进入的水流进一步流入到安装腔20内。
在另一种可行方式中,当电池接线排25配置为由电池包壳体支撑,如图4所示,密封构件4为压紧在所述电池接线排25和电池包壳体之间的环形防水结构41。使得电池接线排25与电池包内壁之间的空隙被填充密封。当电池接线排25配置为支撑在电芯组23上(如图2中电池接线排25的位置),在包盖21和包底22的接合方向上,密封构件4被挤压在电池接线排25和电芯组23之间,在自第一电极端2312到第二电极端2313的方向上,密封构件4被挤压在电池包壳体和电池接线排25之间。具体的,密封构件4连接在电池包2的端子座252上。端子座252的外周边上形成有环形状的凹槽(未图示)。密封构件4装配在该凹槽中。进一步的,电池包2还包括将密封构件4和凹槽黏合成一体的黏合剂。需要说明的是,密封构件4即可以理解为封堵在电池接线排25和安装腔20之间的隔墙,所以即使水流能沿着电池包2上的插接口27流入,也无法进入安装腔20内。
在又一种可行方式中,如图5所示,端子座252构造为一防水箱体,电池包端子251与防水箱体252一体成型。该防水箱体252面向插接口27的方向设有供壳体端子142穿插的开口。其中开口可以设计为 独立整体式。也可以设计为复数个相对彼此偏移,且复数个开口和所述电池包端子251一一对应。密封构件4密封在电池包2的内壁和防水箱体252之间,以封堵所述防水箱体252和电池包内壁之间的装配间隙。进一步的,防水箱体252在包盖21和包底22接合方向上的最大横截面积不小于插接口27在所述接合方向上的横截面积。通过改变传统的电池包接线排25结构,利用端子座252结构的变形,一方面,保证了电池包端子251无障碍的与壳体端子142电性插接;另一方面,使得水流仅能流入至防水箱体内,而无法接触电芯组23。
进一步的,还提供一种可行方式,密封构件(未图示)附着在插接口27上,且附着在插接口上的密封构件设置在电池包2的内壁上,与所述电池包2的配合面211背靠背设置。密封构件设有供壳体端子142穿插的贯通孔,为了保证密封性,贯通孔和壳体端子干涉配合,且贯通孔配备为不妨碍密封构件隔离插接口27和电芯组23的构造供壳体端子142穿插。
其中第四种实施方式中所列举的上述诸多可行方式中,密封构件4为块状软性密封垫、灌胶形式形成的灌胶体、防水黏合剂、焊接形成的熔合体中的一种或者多种组合体。
此外,如图6所示,在该可行方式中,密封构件4为设置在电池接线排25和电芯组23之间的分隔板42,电芯组23位于分隔板42和电池包内壁围设的密封空间内。分隔板42的四周缘和电池包的内壁相抵。密封构件4还包括黏附在分隔板42的四周缘和电池包内壁之间的防水黏合剂或者防水垫圈43。具体的,安装腔20内设有前后(即电池包的插接方向)平行的两个支架,分隔板42位于两个平行架202之间。在前后方向上,防水黏合剂黏附在分隔板42和两个平行架之间。当然,安装腔20内可以在左右方向(即第一电极端2312至第二电极端2313的方向上)上也设有平行的两个支架,即分隔板支撑在上述四个支架上,装配稳定性更高。
其次,本公开实施例提供的电池包2的包盖21、包底22为分体结构。包盖21与包底22通过螺钉(未图示)紧固连接。而通过螺钉紧固连接,包盖21与包底22的连接处势必存在装配间隙。外界水流能够通过该装配间隙流入至电池包2的安装腔20内,导致各电芯231的两电极端上有水和/或电芯组23之间有积水,从而引起电池包2内电路短路,造成漏电、触电、甚至电芯爆炸等安全风险。因此,在本实施方式中,如图4所示,电池包2还配置有阻断从包盖21和包底22之间的装配间隙到电芯组23之间的通路的电池包壳体密封件28。电池包壳体密封件28设置在包盖21和包底22的连接处,当包盖21和包底22对合完成,电池包壳体密封件28阻断外部水流流入至安装腔20内。需要说明的是,这里的连接处不仅仅是螺钉紧固的区域或者卡扣结构卡合的区域,而是包盖21的整个外周边缘和包底22的整个外周边缘相接触的区域。在一种可行实施方式中,电池包壳体密封件28为软性密封垫。当包底22和包盖21相接触,对软性密封垫产生挤压,以对包盖21和包底22之间的装配间隙密封。当然,在其他实施方式中包盖21和包底22可以通过焊接的方式进行密封,例如超声波焊接或者激光焊接。
优选的,如图4、图8和图10所示,电池包2还包括表征电池包工作特性的显示装置29及收容显示装置的显示装置收容腔201。显示装置收容腔201位于安装腔20内。显示装置29包括显示装置控制板291、与显示装置控制板291电性连接的电量显示灯292及电量显示按钮293,电量显示按钮293可操作地被触发以点亮电量显示灯292。在本实施方式中,显示装置收容腔201被上述电池包壳体密封件28限定为封闭的空间,以阻止外部水流通过显示装置收容腔201流入至电池包2内。
此外,发明人发现,现有的连接脱扣装置是装配在电池包壳体上,且连接脱扣装置至少部分位于安 装腔20内。连接脱扣装置能够相对于电池包壳体活动,以实现与壳体10的连接或脱离。换句话说,即连接脱扣装置与安装腔20之间具有供连接脱扣装置运动的活动间隙,外界水流很容易通过该活动间隙进入至电池包的安装腔内,导致电芯231的两电极端上有水和/或各电芯231之间有积水。
因此,在本实施方式中,连接脱扣装置26与安装腔20配置为彼此独立且不连通。具体的,连接脱扣装置26安装在电池包壳体上,且连接脱扣装置26隔离在电池包2的安装腔20之外。电池包壳体形成有供连接脱扣装置26运动的活动空间,该活动空间独立隔离在安装腔20之外,避免外部水流进入到活动空间时,进一步流入到安装腔20内。
在一种可行实施方式中,连接脱扣装置26可拆卸地安装在包盖21的外表面上。具体的,如图12所示,包盖21为一体成型,所述包盖21于其外表面下沉有至少部分包围连接脱扣装置26的锁扣腔214。锁扣腔214形成上述供连接脱扣装置26上下运动的活动空间,锁扣腔214和安装腔20彼此不连通,以防止外界水流进入到锁扣腔214时,进一步进入到安装腔20内。
在另一种可行实施方式中,电池包2还包括隔离件(未图示)。隔离件可拆卸地安装到电池包壳体上且隔离件向内凹陷有容纳连接脱扣装置26的锁扣腔。即通过隔离件将锁扣腔和安装腔进行隔离。在本实施方式中,电池包2还包括设置在隔离件和电池包壳体之间的隔离密封结构(未图示),以阻断隔离件和电池包壳体之间的装配间隙到安装腔内的通路。具体的,该隔离密封结构为挤压在隔离件和电池包壳体之间的软性密封垫。当然,在其他实施方式中,隔离件和电池包壳体之间也可以通过焊接的方式进行密封。
电池包防水的第四种实施方式中,在不对电芯组23结构作任何改变的情况下,仅通过封堵电池包2上的所有进水路径,即可实现电池包2配接于手持式高压清洗机1形成的整机能够满足一定条件下的测试标准。如此设计,在全方位保证电池包2防水可靠性的同时,结构简单,成本低,且电池包平台不需要作太大的改变,使得为手持式高压清洗机1供电的电池包2同样也可以为其他工具供电。
业界针对直流式高压清洗机1有不同的防水要求。该不同的防水要求是根据手持式高压清洗机1喷出工作水压及电池包的电压两方面一起考量。上述三种实施方式可确保喷出的工作水压小于2.5Mpa,电池包的电压小于42.4V的直流手持式高压清洗机组件满足安规标准中防水的要求。
并进一步能够保证当手持式高压清洗机1喷出的工作水压大于2.5Mpa,且与手持式高压清洗机1配接的电池包2的电压大于42.4V时,电池包2的防水能够满足安规标准中的要求。
需要继续强调的是,由于当手持式高压清洗机1喷出的工作水压大于2.5Mpa,且与手持式高压清洗机1配接的电池包2的电压大于42.4V时,业界针对直流手持式高压清洗机1防水要求更为严格,需要满足整机(手持式高压清洗机1和电池包2)上带电体表面不能有水,且需要满足一定的爬电距离。即可理解为不仅需要对电池包2上的带电体实施防水措施,还需要对收容在手持式高压清洗机1壳体10内的工具电器件实施防水,以保证手持式高压清洗机1满足防水标准的要求。为此,本公开实施例提供了以下几种防水实施方式,如下进行详细介绍:
首先,先介绍本公开实施例中是如何对收纳在壳体10内的工具电器件进行防水的。
作为本公开实施例中对壳体10内的工具电器件进行防水的第一种实施方式,如图9~11所示,壳体10的第一半壳101和第二半壳102均为实体结构,该第一半壳101和第二半壳102可通过螺钉或卡扣等常规的机械紧固方式连接并形成有收纳腔106。而通过螺钉或卡扣连接,第一半壳101和第二半壳102 的连接处势必存在接合间隙。外界水流能够通过该接合间隙流入壳体10的收纳腔106内,导致收容在壳体10内的工具电器件表面上有水。因此,在本实施方式中,如图13所示,壳体10还配置有阻断从第一半壳101和第二半壳102的接合间隙到收纳腔106之间的通路的主机壳体密封件5。主机壳体密封件5设置在第一半壳101和第二半壳102的连接处。当第一半壳101和第二半壳102装配完成,主机壳体密封件5阻断水流流入至壳体10的收纳腔106中。
在一种可行实施方式中,主机壳体密封件5为软性密封条。当然,在其他实施方式中,第一半壳101和第二半壳102也可以通过焊接的方式进行密封。即主机壳体密封件5也可以理解为防水黏合剂或者一种焊接密封方式,如超声波焊接。
进一步的,泵113包括泵体1131、收容在泵体1131内的柱塞(未示出)、设置在泵体1131上的水流进口(未示出)和水流出口(未示出)、以及中央腔室(未示出)。泵体1131上的水流进口和入水口1041连通设置。柱塞运动带动清洗液体通过入水口1041流至中央腔室内,并自泵体1131的水流出口向出水管110的方向流动。手持式高压清洗机1还包括与泵体1131的水流出口连通连接的出水管110,该出水管110收容于壳体10内。在本实施方式中,当出水管110收纳于壳体10内,出水管110和壳体10之间具有装配间隙,手持式高压清洗机1配置有阻断从所述装配间隙到壳体10的收纳腔106之间的通路的出水管密封件6,以将出水口1042和收容在壳体10内的工具电器件进行隔离。在一种可行实施方式中,出水管密封件6为挤压在出水管110和壳体10之间的密封圈。在另一种可行实施方式中,出水管密封件6也可以为通过灌胶形式形成的灌胶体。当然,在其他实施方式中,壳体10和出水管110之间的装配间隙还可以通过焊接形式填充。
此外,在本实施方式中,工具接线排14固定连接至壳体10的底部,工具接线排14和壳体10之间具有装配间隙,工具接线排14和壳体10之间设有工具接线排密封件(未图示),以阻止外部水流通过所述装配间隙流入至壳体10的收纳腔106内。在一种可行实施方式中,工具接线排密封件(未图示)为挤压在工具接线排14和壳体10之间的密封圈。在另一种可行实施方式中,工具接线排密封件也可以为通过灌胶的形式形成的灌胶体。当然,在其他实施方式中,壳体10和工具接线排14之间的间隙还可以通过焊接形式填充。
在本实施方式中,通过将半壳间的接合间隙密封、出水管110和壳体10之间的配合间隙密封以及壳体10和工具接线排14之间的装配间隙密封,以全方位封堵壳体10上存在的漏水口,防止水流进入壳体收纳腔106,导致收纳在壳体10内的工具电器件表面有水。
作为本公开实施例中对手持式高压清洗机1内工具电器件进行防水的第二种实施方式,如图14所示,本实施方式与上述实施例的区别在于:本实施例中的第一半壳101与第二半壳102的连接仅通过简单的机械连接方式进行紧固连接,例如卡扣、螺钉等,且第一半壳101与第二半壳102的连接处可以不设置防水密封结构。本实施例中的防水密封结构布置在壳体10的内腔内。具体的,手持式高压清洗机1还包括一防水密封箱体7,该防水密封箱体7收容在壳体10内。将壳体10内的工具电器件均置纳于该防水密封箱体7内。具体的,上述电机111、主体控制板12及电连接这些器件的导电件均容置于该防水密封箱体7内,以阻止水流与壳体10内的工具电器件相接触。
进一步的,上述收容于壳体10内的开关105可用于控制电机111进行工作,在一种可实施方式中,该开关105为按压开关,其包括供按压的按钮1051,当需要启动手持式高压清洗机1时,该按钮1051 可操作的被按压至启动状态,此时电机111旋转提供动力;当需要关闭手持式高压清洗机1时,该按钮1051可操作的被按压至释放状态,此时电机111能够在预设的时间内停止旋转。在此种实施方式下,为了便于开关105上的按钮1051可操作的被按压或释放,开关105不设置在上述防水密封箱体7内。为了避免水流通过第一半壳101与第二半壳102的结合的缝隙处进入壳体10内部,影响开关105的使用。此种实施方式下,开关105可以为防水开关。
当然,开关105也可与电机111、主体控制板12及电连接在上述电器件之间的导电件均位于防水密封箱体7内部。此种实施方式下,开关105为感应开关。当操作者需要启动手持式高压清洗机1时,操作者按压扳机13,此时感应开关能够感应到操作者的按压力,从而控制感应开关处于开启状态。
在本实施方式中,通过将收纳于壳体10内的工具电器件直接置于防水密封箱体7内,以防止水流进入壳体10的收纳腔106收纳腔106,导致壳体10内的工具电器件表面有水。
作为本公开实施例中对壳体10内工具电器件进行防水的第三种实施方式,如图16所示,在该实施方式中,壳体10的第一半壳101与第二半壳102的接合处不设有防水密封结构。收纳于壳体10内的主体控制板12的外周面均设有包裹层。该包裹层可通过灌胶的形式实现。进一步的,在本实施方式中,开关105为防水开关。电机111为高散热防水电机。此外,在本实施方式中,手持式高压清洗机1还包括电连接在上述电器件之间的导电件,具体的,导电件为若干线缆组件15。该等线缆组件15包括将工具接线排14电连接于主体控制板12的第一线缆组件151、将防水开关105电连接于主体控制板12的第二线缆组件152及将高散热电机111电连接于防水开关105的第三线缆组件153。各线缆组件15均包括防水接插件154、电性连接于防水接插件154一端的第一线缆155及电性连接于防水接插件154另一端的第二线缆156。两根线缆分别与相应的工具电器件电性连接。在本实施方式中,通过线缆组件15的设置即可在不拆卸的电器件的情况下将两个电器件进行电性连接。进一步的保证不破坏相应电器件本身的防水效果。
对于上述壳体内的工具电器件的三种防水实施例中,电池包2的位置有两种不同的设置方式。
电池包的第一种设置方式:如图13~16所示,电池包2完全容纳至壳体10内。换句话说,即电池包2不可拆卸的连接于壳体10。
此时,一种情况下,仅通过上述壳体10防水的第一种实施方式中提供方式,即将两半壳间的接合间隙密封以及出水管110和壳体10之间的配合间隙密封,即可实现电池包2和壳体10的防水。
另一种情况下,仅通过壳体10防水第二种实施方式中提供的方式,即将收容于壳体内的工具电器件及电池包2一起收容于防水密封箱体7内。具体的,电机111、主体控制板12、电池包2、电连接在上述电器件之间的导电件均收容于上述防水密封箱体7内。需要说明的是:同壳体10防水的第二种实施方式一样,可根据开关105的类型来选择是否将开关105设置在防水密封箱体7内。通过改变电池包2的位置,使得电池包2与壳体10的防水密封仅通过一步即可实现,不需要额外的对电池包2进行防水结构设置,防水结构更简单。需要说明的是,电池包2内置于壳体10内的实施方式,电池包可以理解为内置电池。
此外,由于电池包2收容于壳体10内,因此需要进一步考虑如何对电池包2进行充电。本发明提供了两种方案,一种方案是:如图15所示,在壳体10上设置与电池包2电信连接的防水充电接口16。通过该充电接口16为电池包进行充电。另一种方案是:如图14所示,电池包2进一步包括容置于安装腔 20内的无线充电组件(未图示)。手持式高压清洗机1进一步包括无线充电器17。需要说明的是,该无线充电器17可作为手持式高压清洗机1的一部分,也可作为一个附件。当将手持式高压清洗机1放置在无线充电器17上,该无线充电器17可与电池包2内的无线充电组件发生感应配合,以对电池包2进行无线充电。
电池包2的第二种设置方式,如图10~11和图17所示,电池包2可拆卸的连接于壳体10。即可理解为电池包2外置。此时还需要对电池包2上的带电体进行防水密封,以满足壳体10上的工具电器件和电池包2上的带电体均不接触水。
如下介绍当手持式高压清洗机1喷出的工作水压大于2.5Mpa,且与手持式高压清洗机1可拆卸连接的电池包2的电压大于42.4V时,本实施例中是如何对电池包2上的带电体进行防水的。
作为本公开实施例中对电池包2上带电体进行防水的第一种实施方式,首先,本公开实施例提供的电池包2的包盖21、包底22为分体结构。包盖21与包底22通过螺钉(未图示)紧固连接。而通过螺钉紧固连接,包盖21与包底22的连接处势必存在装配间隙。外界水流能够通过该装配间隙流入至电池包2的安装腔20内,导致各电芯231的两电极端上有水和/或电芯组23之间有积水,从而引起电池包2内电路短路,造成漏电、触电、甚至电芯爆炸等安全风险。因此,在本实施方式中,包盖21和包底22连接处需要做防水密封。具体的可参手持式高压清洗机1喷出的工作水压小于2.5Mpa,且与手持式高压清洗机1配接的电池包2的电压小于42.4V,以及手持式高压清洗机1喷出的工作水压大于2.5Mpa,且与手持式高压清洗机1配接的电池包2的电压小于42.4V时,电池包2防水的第四种实施方式中关于包盖21和包底22防水密封的方案(如图4所示),此处不一一獒述。
进一步的,电池包2上的连接脱扣装置26的防水密封方案也可参上述电池包2防水的第四种实施方式中关于连接脱扣装置26防水密封的方案(如图12所示),此次不一一獒述。
此外,当电池包2和手持式高压清洗机1配接,手持式高压清洗机1和电池包2之间具有配合间隙,为了避免收容于安装腔20内的电池包端子251、壳体端子142与外界水流接触。在本实施例中,如图9、10所示,手持式高压清洗机1和电池包2中至少一个配置有阻断从所述配合间隙到插接口27之间的通路的插接口密封件270。插接口密封件270能够将电池包端子251、壳体端子142与外界进行隔离,抑制外部水流通过配合间隙流入到电池包端子251和壳体端子142上。具体的,插接口密封件270连接在工具接线排14和电池包2的配合面211之间。关于插接口密封件270的连接,在一种可实施方式中,插接口密封件270连接在工具接线排上。具体的,如图9所示,插接口密封件270通过黏合剂与对接面140的至少部分相固定贴合。当电池包2安装至手持式高压清洗机1上,插接口密封件270构造成抵靠电池包2的配合面211并将电池包端子251、壳体端子142与外界进行隔离,以抑制外部水流通过插接口27进入至电池包2的安装腔20中。插接口密封件270可以通过黏合剂连接在对接面140上,也可以通过紧固件(未图示)或者其他任何可行方式连接在对接面140上。其中插接口密封件270可以为防水绝缘材料制成的可弹性变形的块状软垫。该块状软垫包括复数个贯通的开孔(未标示),这些开孔配备为以不妨碍块状软垫隔离插接口的构造供壳体端子142对应穿插。当然,插接口密封件270也可选择一体形成的条状密封圈(未图示)。密封圈圈设对接面140上,电池包2配接至手持式高压清洗机1后,插接口27位于条状密封圈围设的密封空间内。
当然,插接口密封件270也可以活动的设置在工具接线排14上,电池包2与手持式高压清洗机1 配接的过程中,能够带动插接口密封件270与工具接线排14的对接面140之间的距离发生变化,且至少有一种距离能够防止外部水流通过插接口27进入至安装腔20内。这里活动的设置可以理解为插接口密封件270与工具接线排14非固定式,插接口密封件270是可拆卸的。
关于插接口密封件270的连接,在另一种可行实施方式中,插接口密封件270与电池包2的配合面211相连接。当电池包2安装至手持式高压清洗机1上,插接口密封件270抑制外部水流通过插接口27进入至电池包2的安装腔20中。
作为本公开实施例中对电池包2上带电体进行防水的第二种实施方式,电池包2包括完全包覆电池包2的安装腔20内的带电体(除了电池接线排25)的防水透气结构8。具体的,电芯组23、电池包控制板24、电连接电芯组23和电池包控制板24的导电件均被防水透气结构8包裹。更具体的,防水透气结构8为独立的整体结构。即各带电体被防水透气结构8整体包裹。当然,独立透气结构也可为分体式结构,位于电池包2内的带电体也可以被分体包裹。
在一种可行实施方式中,如图7所示,所述的防水透气结构8为灌胶形式形成的灌胶体。在另一种可行实施方式中,如图8所示,该防水透气结构8为收容在安装腔20内的密封盒体。该密封盒体为防水材料制成。具体的,各带电体分别配置一个密封盒体,例如,电芯组23收容于电芯盒体81内,电池包控制板24收容于控制板盒体82内,显示装置29收容于显示装置盒体83内。当然,密封盒体也可以为独立的盒体。
此外,当电池包2和手持式高压清洗机1配接,手持式高压清洗机1和电池包2之间具有配合间隙,为了避免电池接线排25与外界水流接触。在本实施例中,手持式高压清洗机1和电池包2中至少一个配置有阻断从所述配合间隙到插接口27之间的通路的插接口密封件270。插接口密封件270能够将电池包端子251与外界进行隔离,抑制外部水流通过配合间隙流入到电池包端子251上。插接口密封件270的具体实施方案可参当手持式高压清洗机1喷出的工作水压大于2.5Mpa,且与手持式高压清洗机1可拆卸连接的电池包2的电压大于42.4V时,对电池包2上带电体进行防水的第一种实施方式中的介绍,此处不再重复说明。
作为本公开实施例中对电池包2上带电体进行防水的第三种实施方式,为了实现在不改变电池包2组成结构的情况下,使得电池包2既可通用于其它多种电动工具,又满足手持式高压清洗机1的防水要求。因此,如图17所示,本实施方式中,手持式高压清洗机1或电池包2可择一的连接有中空的防水套18,该防水套18包括套设于电池包2外围的袋体部181及供电池包2穿过的袋口部182。袋口部182的周边抵压于壳体10以与壳体10形成密封。当电池包2与手持式高压清洗机1插接配合,防水套18连接于壳体10,且与所述壳体10形成一个密封空间,上述电池包2收容于该密封空间内。这里防水套18的设置,即可理解为为电池包2穿上一防水套鞋。此时,一方面,仅需要对高压清洗机1的壳体10进行防水密封,不需要额外的对电池包2进行防水结构设置,高压清洗机1的防水密封也仅通过一步实现,防水结构更简单;另一方面,电池包2结构未作任何改变,电池包2可通用于其它电动工具。
进一步的,上述对于收容在高压清洗机1壳体10内的相应电器件实施防水的第一种和第二种实施方式,均是将相应的电器件放置于密封的空间内。为了保证电机111的散热需求得到满足,本发明对于电机111的散热提出了三种实施方式。
作为电机111散热的第一种可实施方式为,如图18所示,手持式高压清洗机1进一步包括包覆在电 机111外围的散热垫19。该散热垫19抵持在电机111与壳体10之间,以助于将电机111的热量通过散热垫19传递至壳体10。优选的,整个壳体10或者至少与电机111相对应区域的壳体10为高散热材料制成。具体的,高散热材料可以为铝。如此设计的好处在于,可实现电机111快速冷却,使得电机111不会被烧坏,延长电机111的使用寿命。
作为电机111散热的第二种可实施方式,如图19所示,高压清洗机1包括配置在电机111周围的第一散热系统114。该第一散热系统114包括能够旋转产生气流的风扇1141、散热管1142以及将散热管1142支撑于电机111外围的支撑架1143。其中所述风扇1141也可为电机111自带结构。优选的,散热管1142为螺旋状,其在周向上环设于电机111的外围。在此实施方式中,散热管1142通过支撑架1143与电机111间隙设置。散热管1142包括与手持式高压清洗机1的入水口1041相连通的第一管口1144及与泵113的水流进口相互连通的第二管口1145。外界水流自入水口1041流至散热管1142内,并自散热管1142的第二管口1145流出至泵113体内。当手持式高压清洗机1处于工作状态时,电机111带动风扇1141转动,并通过风扇1141转动产生的气流将电机111的热量传递至散热管1142。通过水流在散热管1142的第一管口1144与第二管口1145之间连续流动,以保证手持式高压清洗机在工作状态下,能够持续的为电机111进行散热。当然,散热管1142也可不设置为螺旋状,可配置为周向圈设于电机的外围的若干个散热管1142。各散热管1142之间可相互连通也可不相互连通。只要保证各散热管1142一端的管口与手持式高压清洗机1的入水口1041连通,各散热管1142另一端的管口与高压清洗机1的泵113的水流进口连通即可。换句话说,即保证散热管1142内的水为连续不断流通的冷却水。进一步的,与手持式高压清洗机1的入水口1041相连通的管口也可不止一个。进一步的,为了确保散热管1142内的冷却水能够带走电机111的热量,实现快速散热。散热管1142与电机111之间的直线距离不大于20厘米。
作为电机111散热的第三种可实施方式,如图20所示,手持式高压清洗机1包括配置在电机111周围的第二散热系统115。第二散热系统115包括与泵113相连接的散热片1151、与散热片1151相连接的冷凝管1152。冷凝管1152包括缠绕于电机111外表面的第一冷凝管1153及连接在第一冷凝管1153与散热片1151之间的第二冷凝管1154。在此实施方式中,为了保证导热散热达到最佳效果,第一冷凝管1153与电机111外表面直接接触,散热片1151也与泵113的外表面直接接触,即可理解为第一冷凝管1153贴覆于电机111的外周,散热片1151贴覆于泵113的外周。优选的,第一冷凝管1153为螺旋状。为了增大第一冷凝管1153与电机111的接触面,以更好的导出电机111的热量,在本实施方式中,冷凝管1152的剖面为方形。如下详细介绍冷凝管1152的导热散热原理。进一步的,冷凝管1152包括中空的内腔(未图示)、紧贴内腔壁的多孔毛细芯层(未图示)以及位于内腔内能够充满多孔毛细芯层的工作液体。所述内腔可操作的设置为负压。冷凝管1152靠近散热片1151的一端配置为冷却端1155,靠近电机111的一端配置为蒸发端1156。当电机111处于启动状态,蒸发端1156受热,多孔毛细芯层中的工作液体蒸发汽化,蒸汽在微小的压差下流向冷却端1155,并在冷却端1155放出热量凝结成冷却液体。该冷却液体再沿多孔毛细芯层流回蒸发端1156。如此循环,将电机111的热量不断地从蒸发端1156传递至冷却端1155,以对持续的对电机111进行散热。
作为电机111散热的第四种可实施方式,如图21所示,高压清洗机1包括配置在电机111周围的第三散热系统116。该第三散热系统116包括能够旋转产生气流的风扇1161、散热片组件1162以及与连接于散热片组件的水管支路1160。其中所述风扇1161也可为电机111自带结构。散热片组件1162包括支 撑件1163及连接于支撑件1163的若干散热片1164。在本实施方式中,水管支路设有两支,两支水管支路可呈180度对称设置。两支水管支路与支撑件穿插设置。每支管路的一端与入水口1041连通连接,每支管路的另一端与泵的内腔连通连接。通过冷却水流在每支管路内连续流动,以保证散热片组件温度降低。当高压清洗机1处于工作状态时,电机111带动风扇1161转动,并通过风扇1161转动产生的气流将电机111的热量传递至散热片组件1162,以实现对电机111进行散热。
以上所述实施例仅表达了本发明的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。
Claims (18)
- 一种电池包,其可拆卸地附接到设有壳体端子的电动工具,所述电池包包括:包盖;包底,与所述包盖相接合构成电池包壳体;电芯组,用于进行充放电,所述电芯组包括若干电芯,各电芯均设有电芯体部及位于所述电芯体部一侧的第一电极端和位于电芯体部另一侧的第二电极端;电池接线排,电连接于所述电芯组,所述电池接线排包括与所述壳体端子电性连接的电池包端子及承载所述电池包端子的端子座;安装腔,限定在所述电池包壳体内,并收容所述电芯组和电池接线排,所述安装腔形成有供所述壳体端子插入以与所述电池包端子电性连接的插接口;连接脱扣装置,能够带动所述电池包和所述电动工具锁定连接或释放脱离;其特征在于,所述安装腔内设有阻断从所述插接口到所述电芯组之间的通路的密封构件;所述电池包还包括阻断外界和所述安装腔连通的电池包壳体密封件,所述电池包壳体密封件设置在所述包盖和包底的接合处;所述连接脱扣装置安装在所述电池包壳体上,所述连接脱扣装置隔离在所述安装腔之外。
- 根据权利要求1所述的电池包,其特征在于,所述密封构件被压紧在所述插接口和所述端子座之间。
- 根据权利要求2所述的电池包,其特征在于,所述密封构件处于自由状态下的厚度大于所述端子座到所述插接口之间的间隙。
- 根据权利要求1所述的电池包,其特征在于,所述插接口附着有所述密封构件,且附着在所述插接口上的所述密封构件设置在所述电池包的内壁上,所述密封构件设有贯通孔,所述贯通孔配备为不妨碍所述密封构件隔离所述插接口与所述电芯组的构造供所述壳体端子穿插。
- 根据权利要求4所述的电池包,其特征在于,位于所述安装腔内的所述密封构件与所述电池接线排相对设置。
- 根据权利要求1所述的电池包,其特征在于,所述端子座构造为一防水箱体,所述防水箱体面向所述插接口的方向开设有供所述壳体端子穿插的开口,所述密封构件密封在所述电池包的内壁和所述防水箱体之间,以封堵所述防水箱体和所述电池包的内壁之间的装配间隙。
- 根据权利要求6所述的电池包,其特征在于,所述防水箱体在所述包盖和包底接合方向上的最大横截面积大于所述插接口在所述接合方向上的横截面积。
- 根据权利要求6所述的电池包,其特征在于,所述密封构件为被挤压在所述防水箱体和所述电池包的内壁之间的软性密封垫、灌胶体、防水黏合剂、焊接形成的熔合体中的一种或者多种组合体。
- 根据权利要求1所述的电池包,其特征在于,所述密封构件为设置在所述电池接线排和所述电芯组之间的分隔件,所述电芯组位于所述分隔件和所述电池包壳体内壁围设的空间内。
- 根据权利要求1所述的电池包,其特征在于,所述连接脱扣装置可拆卸的安装在所述包盖上,并能够相对于所述包盖运动,以实现所述电池包和所述电动工具锁定连接或释放脱离。
- 根据权利要求10所述的电池包,其特征在于,所述电池包壳体于其外表面下沉有至少部分包围所述连接脱扣装置的锁扣腔,所述锁扣腔形成供所述连接脱扣装置运动的活动空间,所述锁扣腔与所述安装腔彼此不连通。
- 根据权利要求1所述的电池包,其特征在于,所述电池包包括与所述电池包壳体可拆卸连接的隔离件以及位于所述隔离件和所述电池包壳体之间的隔离密封结构,所述隔离件向内凹陷有收容所述连接脱扣装置的锁扣腔。
- 一种电动工具组件,其包括如权利要求1~12所述的电池包及与所述电池包可拆卸连接的电动工具,所述电动工具包括:壳体;工具接线排,连接于所述壳体,所述工具接线排包括壳体端子及承载所述壳体端子的基座;功能部件,具有为所述电动工具提供驱动力的电机。
- 根据权利要求13所述的电动工具组件,其特征在于,所述电动工具为高压清洗机,所述壳体包括用于握持的手柄、与所述手柄呈角度设置的主体部、接受外部水源的入水口以及向外输送水流的出水口。
- 根据权利要求14所述的电动工具组件,其特征在于,所述主体部设置在所述手柄的一端,所述电池包设置在所述手柄的另一端。
- 根据权利要求13所述的电动工具组件,其特征在于,所述功能部件包括由所述电机驱动以向外输送水流的泵,所述功能部件设置于所述壳体内。
- 根据权利要求14所述的电动工具组件,其特征在于,所述高压清洗机向外输出的工作水压为0.3Mpa~5Mpa。
- 根据权利要求13所述的电动工具组件,其特征在于,所述电池包的数量配置为一个或多个,各电池包的电压为18~42V。
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US16/649,390 US11679487B2 (en) | 2017-09-22 | 2018-09-25 | Battery pack and electric tool assembly |
JP2020507987A JP2020530648A (ja) | 2017-09-22 | 2018-09-25 | 電池パック及び電動工具ユニット |
EP18859407.1A EP3686950A4 (en) | 2017-09-22 | 2018-09-25 | BATTERY PACK AND POWER TOOL KIT |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710866416.5 | 2017-09-22 | ||
CN201710866416 | 2017-09-22 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2019057187A1 true WO2019057187A1 (zh) | 2019-03-28 |
Family
ID=65811076
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/CN2018/107226 WO2019057187A1 (zh) | 2017-09-22 | 2018-09-25 | 电池包及电动工具组件 |
Country Status (5)
Country | Link |
---|---|
US (1) | US11679487B2 (zh) |
EP (1) | EP3686950A4 (zh) |
JP (1) | JP2020530648A (zh) |
CN (2) | CN109546027A (zh) |
WO (1) | WO2019057187A1 (zh) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2022547995A (ja) * | 2019-09-11 | 2022-11-16 | ルーカス ヒュードラウリク ゲーエムベーハー | 携帯用可搬工具 |
Families Citing this family (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019057187A1 (zh) * | 2017-09-22 | 2019-03-28 | 苏州宝时得电动工具有限公司 | 电池包及电动工具组件 |
CN112117402A (zh) * | 2019-06-20 | 2020-12-22 | 南京德朔实业有限公司 | 电池包及其制造方法 |
JP7253462B2 (ja) * | 2019-06-28 | 2023-04-06 | 株式会社やまびこ | 電動式手持ち作業機 |
TWI691262B (zh) * | 2019-10-08 | 2020-04-21 | 何炳梓 | 電動園藝機 |
CN210837856U (zh) * | 2019-10-29 | 2020-06-23 | 苏州宝时得电动工具有限公司 | 电池包及电动工具系统 |
CN110826227B (zh) * | 2019-11-07 | 2023-07-07 | 常州普莱德新能源电池科技有限公司 | 电池包箱体截面设计方法 |
CN111113338A (zh) * | 2019-12-04 | 2020-05-08 | 浙江动一新能源动力科技股份有限公司 | 一种电动工具外壳及具有该电动工具外壳的电动工具 |
CN211556021U (zh) * | 2019-12-06 | 2020-09-22 | 苏州宝时得电动工具有限公司 | 一种电动工具及其能量存储装置 |
US11421864B2 (en) * | 2020-05-18 | 2022-08-23 | SimpliSafe, Inc. | Optical devices and mounting for optical devices |
TWI761927B (zh) * | 2020-06-30 | 2022-04-21 | 盔甲奈米科技股份有限公司 | 具有奈米複合塗層的電池芯模組 |
CN114448008A (zh) * | 2020-11-06 | 2022-05-06 | 格力博(江苏)股份有限公司 | 一种多槽充电器及充电系统 |
CN115224428B (zh) * | 2021-04-15 | 2024-09-10 | 南京泉峰科技有限公司 | 电池包及电动工具 |
AT525756B1 (de) * | 2022-02-14 | 2023-07-15 | Weber Hydraulik Gmbh | Tragbares Arbeitsgerät für den Unterwassereinsatz |
US20240108188A1 (en) * | 2022-10-03 | 2024-04-04 | Bissell Inc. | Battery-powered surface cleaning apparatus |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120114998A1 (en) * | 2010-11-08 | 2012-05-10 | Steve Han Shi Hwang | Waterproof battery case |
CN102637838A (zh) * | 2011-02-14 | 2012-08-15 | 株式会社牧田 | 电动工具用电池 |
CN204424329U (zh) * | 2011-12-30 | 2015-06-24 | 株式会社牧田 | 适于与手持式电动工具一起使用的电池组 |
KR20160019698A (ko) * | 2014-08-12 | 2016-02-22 | 현대자동차주식회사 | 전기자동차용 고전압배터리의 케이스 구조 |
CN105405994A (zh) * | 2015-12-04 | 2016-03-16 | 重庆长安汽车股份有限公司 | 一种动力电池接插件密封结构 |
CN206148487U (zh) * | 2016-08-31 | 2017-05-03 | 苏州宝时得电动工具有限公司 | 防水电池包 |
Family Cites Families (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8765280B2 (en) * | 2007-04-23 | 2014-07-01 | Hitachi Koki Co., Ltd. | Battery pack and battery-driven power tool using the same |
JP5465619B2 (ja) * | 2010-06-24 | 2014-04-09 | 三洋電機株式会社 | バッテリパック |
JP2012043692A (ja) * | 2010-08-20 | 2012-03-01 | Makita Corp | 工具用バッテリ |
WO2014027439A2 (en) * | 2012-08-14 | 2014-02-20 | Hitachi Koki Co., Ltd. | Electric device, battery pack, and electric apparatus |
JP2014072006A (ja) * | 2012-09-28 | 2014-04-21 | Hitachi Koki Co Ltd | 電池パック及び電気機器 |
KR101688487B1 (ko) * | 2013-08-30 | 2016-12-21 | 삼성에스디아이 주식회사 | 배터리 팩 |
DE102013218532A1 (de) * | 2013-09-16 | 2015-03-19 | Robert Bosch Gmbh | Akku |
US10099235B2 (en) * | 2014-12-02 | 2018-10-16 | Louis Reale | Handheld pressure washer |
CN106549122B (zh) * | 2015-09-18 | 2020-01-03 | 光宝电子(广州)有限公司 | 防水电池收容结构 |
US10968899B2 (en) * | 2015-11-20 | 2021-04-06 | Positec Power Tools (Suzhou) Co., Ltd. | Pump unit and handheld high pressure washer |
JP6737332B2 (ja) * | 2016-04-05 | 2020-08-05 | 株式会社村田製作所 | 電池パック、及びこれを有する電子機器 |
WO2018068820A1 (de) * | 2016-10-10 | 2018-04-19 | Alfred Kärcher Gmbh & Co. Kg | Elektrische energiespeichervorrichtung und elektrogerät |
WO2019057187A1 (zh) * | 2017-09-22 | 2019-03-28 | 苏州宝时得电动工具有限公司 | 电池包及电动工具组件 |
-
2018
- 2018-09-25 WO PCT/CN2018/107226 patent/WO2019057187A1/zh unknown
- 2018-09-25 EP EP18859407.1A patent/EP3686950A4/en active Pending
- 2018-09-25 CN CN201811114581.6A patent/CN109546027A/zh active Pending
- 2018-09-25 US US16/649,390 patent/US11679487B2/en active Active
- 2018-09-25 CN CN201821566940.7U patent/CN209418567U/zh active Active
- 2018-09-25 JP JP2020507987A patent/JP2020530648A/ja active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120114998A1 (en) * | 2010-11-08 | 2012-05-10 | Steve Han Shi Hwang | Waterproof battery case |
CN102637838A (zh) * | 2011-02-14 | 2012-08-15 | 株式会社牧田 | 电动工具用电池 |
CN204424329U (zh) * | 2011-12-30 | 2015-06-24 | 株式会社牧田 | 适于与手持式电动工具一起使用的电池组 |
KR20160019698A (ko) * | 2014-08-12 | 2016-02-22 | 현대자동차주식회사 | 전기자동차용 고전압배터리의 케이스 구조 |
CN105405994A (zh) * | 2015-12-04 | 2016-03-16 | 重庆长安汽车股份有限公司 | 一种动力电池接插件密封结构 |
CN206148487U (zh) * | 2016-08-31 | 2017-05-03 | 苏州宝时得电动工具有限公司 | 防水电池包 |
Non-Patent Citations (1)
Title |
---|
See also references of EP3686950A4 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2022547995A (ja) * | 2019-09-11 | 2022-11-16 | ルーカス ヒュードラウリク ゲーエムベーハー | 携帯用可搬工具 |
JP7529768B2 (ja) | 2019-09-11 | 2024-08-06 | ルーカス ヒュードラウリク ゲーエムベーハー | 携帯用可搬工具 |
Also Published As
Publication number | Publication date |
---|---|
CN109546027A (zh) | 2019-03-29 |
JP2020530648A (ja) | 2020-10-22 |
US20200251696A1 (en) | 2020-08-06 |
EP3686950A1 (en) | 2020-07-29 |
US11679487B2 (en) | 2023-06-20 |
EP3686950A4 (en) | 2021-06-02 |
CN209418567U (zh) | 2019-09-20 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
WO2019057187A1 (zh) | 电池包及电动工具组件 | |
US10103558B2 (en) | Charger, charging system and power tool with battery pack | |
US10786128B2 (en) | Vacuum cleaner, battery assembly and charging stand | |
CN110459707B (zh) | 电池包及电动工具组件 | |
JP6750008B2 (ja) | バッテリーモジュール、該バッテリーモジュールを含むバッテリーパック及び該バッテリーパックを含む自動車 | |
CN104467069B (zh) | 蓄电池充电装置和包括蓄电池充电装置的系统 | |
TWI600401B (zh) | 真空吸塵器及電池總成 | |
CN214153101U (zh) | 电池包 | |
TWM575626U (zh) | 電池充電器 | |
CN107387428B (zh) | 潜水泵 | |
CN206003873U (zh) | 用于手持式工具机的蓄电池组和手持式工具机 | |
JP6837731B2 (ja) | 集塵機 | |
US20160296091A1 (en) | Vacuum cleaner | |
CN116979634A (zh) | 充电柜、储能电源以及配套充电产品 | |
US20070077153A1 (en) | Rechargeable AC/DC pump | |
CN211726678U (zh) | 清洗机 | |
JP6820522B2 (ja) | コネクタ保護ケース、防水中継コネクタ装置及びそれを備える電動工具 | |
CN112977706A (zh) | 电动车 | |
WO2019110013A1 (zh) | 自移动设备的充电站及其自动工作系统 | |
CN211355200U (zh) | 吸尘器 | |
CN211249918U (zh) | 手持电动工具 | |
US11949264B1 (en) | Portable charger having vacuuming function | |
CN221220914U (zh) | 便携风扇壳体和便携风扇 | |
CN220753617U (zh) | 电池包以及背负式电源装置 | |
JP2024506620A (ja) | 充電器 |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 18859407 Country of ref document: EP Kind code of ref document: A1 |
|
ENP | Entry into the national phase |
Ref document number: 2020507987 Country of ref document: JP Kind code of ref document: A |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
ENP | Entry into the national phase |
Ref document number: 2018859407 Country of ref document: EP Effective date: 20200422 |