JP7056291B2 - Vacuum cleaner - Google Patents

Description

The present invention relates to a vacuum cleaner.

Patent Document 1 describes an example of a vacuum cleaner. The electric vacuum cleaner includes an electric blower, a dust collecting unit, an air passage forming unit, and a battery unit. The battery unit supplies electric power to the electric blower. The electric blower generates an air flow. The air passage forming portion guides the air flow to the dust collecting portion. The dust collecting unit collects dust sucked together with the air flow. The air passage forming part projects in front of the vacuum cleaner. The battery part overhangs behind the vacuum cleaner.

JP-A-2017-169892

However, in the vacuum cleaner of Patent Document 1, the air passage forming portion and the battery portion project in different directions. Therefore, the width of the vacuum cleaner becomes large.

The present invention has been made to solve such a problem. An object of the present invention is to provide a compact vacuum cleaner.

The electric vacuum cleaner according to the present invention includes an electric blower that generates an air flow by the supplied electric power, a case part that houses the electric blower, and a dust collector that collects dust sucked from the outside by the air flow. It has a suction air passage that extends linearly from the upstream side to the downstream side with the first axis as the central axis. It is provided on the extension line on the side, is adjacent to the electric blower from the direction of the second axis perpendicular to the first axis, has a storage battery that supplies power to the electric blower, and has a shape extending in the direction of the first axis. A battery unit is provided, and the battery unit is provided at an end portion on the side far from the suction air passage in the direction of the first axis, and protrudes in the direction from the battery unit toward the electric blower unit along the second axis. A connection part connected to a recess at the end far from the suction air passage in the direction of the first axis of the electric blower, and a connection part provided in a plane perpendicular to the direction of the first axis in the connection part for charging a storage battery and charging a storage battery. A protective substrate for controlling discharge is provided, the electric blower portion has a first connection terminal for receiving supplied power in a recess, and the battery portion is electrically connected to a storage battery and directly in contact with the first connection terminal. The connection portion has a second connection terminal to be used.

According to the present invention, the electric vacuum cleaner includes an electric blower unit, a case unit, a dust collector unit, an air passage forming unit, and a battery unit. The electric blower generates an air flow by the supplied electric power. The case section houses the electric blower section. The dust collecting unit collects dust sucked from the outside by the air flow. The air passage forming portion has a suction air passage that extends linearly from the upstream side to the downstream side with the first axis as the central axis. The air passage forming portion guides the air flow from the suction air passage to the dust collecting portion. The battery unit is provided on an extension line on the downstream side of the first axis of the suction air passage. The battery unit is adjacent to the electric blower unit from the direction of the second axis perpendicular to the first axis. The battery unit has a storage battery that supplies electric power to the electric blower unit. This makes the vacuum cleaner compact.

It is a side view of the vacuum cleaner system which concerns on Embodiment 1. FIG. It is a perspective view of the vacuum cleaner system which concerns on Embodiment 1. FIG. It is a front view of the vacuum cleaner which concerns on Embodiment 1. FIG. It is a rear view of the vacuum cleaner which concerns on Embodiment 1. FIG. It is a side view of the vacuum cleaner which concerns on Embodiment 1. FIG. It is a perspective view of the electric vacuum cleaner which concerns on Embodiment 1. FIG. It is a side view of the vacuum cleaner which concerns on Embodiment 1. FIG. It is a side view of the main body which concerns on Embodiment 1. FIG. It is a side view of the main body which concerns on Embodiment 1. FIG. It is sectional drawing of the main body which concerns on Embodiment 1. FIG. It is sectional drawing of the main body which concerns on Embodiment 1. FIG. It is a top view of the main body which concerns on Embodiment 1. FIG. It is a perspective view of the electric blower part which concerns on Embodiment 1. FIG. It is a perspective view of the electric blower part which concerns on Embodiment 1. FIG. It is a perspective view of the battery part which concerns on Embodiment 1. FIG. It is a perspective view of the battery part which concerns on Embodiment 1. FIG.

The embodiment for carrying out the present invention will be described with reference to the accompanying drawings. In each figure, the same or corresponding parts are designated by the same reference numerals, and duplicate description will be appropriately simplified or omitted.

Embodiment 1.
FIG. 1 is a side view of the vacuum cleaner system according to the first embodiment. FIG. 2 is a perspective view of the vacuum cleaner system according to the first embodiment.

In FIG. 1, the direction indicated by the arrow is the front-back direction of the vacuum cleaner system 1.

The vacuum cleaner system 1 includes an electric vacuum cleaner 2 and a support device 3.

The vacuum cleaner 2 is detachably provided on the support device 3. The vacuum cleaner 2 includes a main body 4, a tube body 5, and a suction tool 6.

The main body 4 includes an electric air blowing unit 7, a dust collecting unit 8, a battery unit 9, a case unit 10, a battery accommodating unit 11, an air passage forming unit 12, and a gripping unit 13. The electric blower unit 7 is configured to be able to generate an air flow by the supplied electric power. The dust collecting unit 8 is configured to be able to collect dust sucked from the outside of the main body 4 by the air flow generated by the electric blower unit 7. The dust collecting unit 8 is provided below the electric blower unit 7. The battery unit 9 is electrically connected to the electric blower unit 7 so that the charged electric power can be supplied to the electric blower unit 7. The case portion 10 has a cylindrical shape. The case portion 10 houses the electric blower portion 7. The battery storage unit 11 stores the battery unit 9. The air passage forming portion 12 has a shape extending in the vertical direction. The air passage forming portion 12 is provided adjacent to the rear of the dust collecting portion 8. The air passage forming portion 12 is provided below the battery portion 9. The grip portion 13 is provided at the upper end of the main body 4. The grip portion 13 extends in a semicircular shape in the front-rear direction.

The tubular body 5 extends in the vertical direction of the vacuum cleaner 2. The upper end of the pipe body 5 is connected to the lower end of the air passage forming portion 12. The pipe body 5 is detachably connected to the air passage forming portion 12. The suction tool 6 includes a connecting tube 14 and a nozzle body 15. The connecting tube 14 is provided on the upper part of the nozzle body 15. The connecting pipe 14 is connected to the lower end of the pipe body 5. The connecting pipe 14 is detachably connected to the pipe body 5.

The support device 3 supports the vacuum cleaner 2 from the front. The support device 3 is connected to an external power source by a power cord (not shown).

In FIG. 2, the direction indicated by the arrow is the front-back direction of the vacuum cleaner system. FIG. 2 shows the vacuum cleaner 2 in a state of being disconnected from the support device 3.

The main body 4 includes a charging terminal 16. The charging terminal 16 is provided in front of the air passage forming portion 12. The charging terminal 16 is provided below the dust collecting unit 8. The charging terminal 16 is electrically connected to the battery unit 9.

The support device 3 includes a holding body 3a, a support body 3b, and a substrate 3c.

The holding body 3a includes a main body mounting portion 3d and a pipe holding portion 3e. The main body installation portion 3d has a shape extending in the vertical direction. The upper end of the main body installation portion 3d is connected to the main body 4. The tube holding portion 3e has a columnar shape in which a part of the side surface is opened. The pipe holding portion 3e is provided at the lower part of the main body installation portion 3d. The pipe holding portion 3e is connected to the lower portion of the air passage forming portion 12 and the upper portion of the pipe body 5. The tube holding portion 3e includes a feeding terminal 3f. When the vacuum cleaner 2 is connected to the support device 3, the power supply terminal 3f is electrically connected by coming into contact with the charging terminal 16. The support device 3 is configured to be able to charge the battery unit 9 with electric power supplied from an external power source through the power supply terminal 3f and the charging terminal 16.

The support 3b has a shape extending in the vertical direction. The upper end of the support 3b is provided at the lower end of the main body mounting portion 3d.

The substrate 3c has a circular shape when viewed from above. The substrate 3c has a suction tool accommodating portion 3g at the rear. The suction tool storage portion 3g is connected to the nozzle body 15.

Subsequently, the configuration of the vacuum cleaner 2 will be described with reference to FIGS. 3 to 7.
FIG. 3 is a front view of the vacuum cleaner according to the first embodiment. FIG. 4 is a rear view of the vacuum cleaner according to the first embodiment. FIG. 5 is a side view of the vacuum cleaner according to the first embodiment. FIG. 6 is a perspective view of the vacuum cleaner according to the first embodiment. FIG. 7 is a side view of the vacuum cleaner according to the first embodiment.

As shown in FIG. 3, the main body 4 includes an operation unit 17. The operation unit 17 is provided in front of and below the grip unit 13. The operation unit 17 is configured to be able to accept the operation of the user. The operation unit 17 has, for example, a plurality of operation buttons. The user's operation includes starting and stopping the vacuum cleaner 2. The operation unit 17 is connected to the electric blower unit 7 so that a signal representing the operation of the user can be transmitted.

The tube body 5 includes a first attachment / detachment button 18a. The first detachable button 18a is provided on the upper part. The connection between the tube body 5 and the main body 4 is released by the first attachment / detachment button 18a.

The suction tool 6 includes a second attachment / detachment button 18b. The second attachment / detachment button 18b is provided on the upper part of the connection tube 14. The connection between the connecting pipe 14 and the pipe body 5 is released by the second attachment / detachment button 18b.

As shown in FIG. 4, the outer surfaces of the grip portion 13, the battery accommodating portion 11, the air passage forming portion 12, the tube body 5, and the connecting tube 14 are smoothly connected to each other. The grip portion 13, the battery portion 9, the air passage forming portion 12, the pipe body 5, and the connecting pipe 14 are arranged in the same linear shape at the rear portion of the vacuum cleaner 2.

In FIG. 5, the right direction of the paper surface is the front direction of the vacuum cleaner 2.

The battery storage unit 11 has an exhaust port 19. The exhaust port 19 is a plurality of elongated holes extending in the vertical direction. The exhaust port 19 is provided on the side surface of the battery housing portion 11. The exhaust port 19 leads to the space inside the main body 4.

The air passage forming portion 12 has a suction air passage 20 inside. The suction air passage 20 extends linearly in the vertical direction. The central axis of the suction air passage 20 extends in the vertical direction. The central axis of the suction air passage 20 is the first axis. The suction air passage 20 leads to the outside from the lower end of the air passage forming portion 12. The suction air passage 20 leads to the inside of the dust collecting portion 8.

When the pipe body 5 is connected to the air passage forming portion 12, the inside of the pipe body 5 leads to the suction air passage 20.

When the connecting pipe 14 is connected to the pipe body 5, the inside of the connecting pipe 14 leads to the inside of the pipe body 5. The inside of the connecting pipe 14 leads to the inside of the nozzle body 15. The nozzle body 15 has a suction port 21. The suction port 21 is provided on the lower surface. The suction port 21 leads to the inside of the nozzle body 15.

As shown in FIG. 6, when the electric blower portion 7 is used to clean a surface to be cleaned such as a floor surface, the main body 4, the pipe body 5, and the suction tool 6 are connected. The user removes the vacuum cleaner 2 in a state where the battery unit 9 is charged from the support device 3. The user holds the grip portion 13 and directs the suction port 21 of the nozzle body 15 toward the surface to be cleaned. The operation unit 17 accepts the user's operation for activating the vacuum cleaner 2. The operation unit 17 transmits a signal representing the operation to the electric blower unit 7. The electric blower unit 7 receives electric power from the battery unit 9. The electric blower unit 7 generates an air flow. The airflow flows into the nozzle body 15 from the suction port 21 together with the dust on the surface to be cleaned. The airflow flows from the nozzle body 15 through the connecting pipe 14 into the pipe body 5. The airflow flows from the pipe body 5 into the air passage forming portion 12. The airflow flows from the air passage forming portion 12 to the dust collecting portion 8. The dust collecting unit 8 collects dust that flows in with the air flow. The airflow passing through the dust collecting unit 8 goes to the inside of the battery housing unit 11. The airflow passes inside the battery compartment 11 and outside the battery compartment 9. The airflow is sent out through the exhaust port 19.

As shown in FIG. 7, the main body 4 and the pipe body 5 are connected when the upper part of the user is cleaned by using the electric blower unit 7. The suction tool 6 is removed from the tube body 5. The air flow flows into the inside of the tube 5 together with the dust.

Subsequently, the configuration of the main body 4 will be described with reference to FIGS. 8 to 12.
8 and 9 are side views of the main body according to the first embodiment. FIG. 10 is a cross-sectional view of the main body according to the first embodiment. FIG. 11 is a cross-sectional view of the main body according to the first embodiment. FIG. 12 is a top view of the main body according to the first embodiment.

In FIG. 8, the right direction of the paper surface is the front direction of the main body 4. In FIG. 8, the upward direction on the paper surface is the upward direction of the main body 4.

The dust collecting portion 8 is detachably provided on the case portion 10. The dust collecting unit 8 includes a detachable lever 22. The attachment / detachment lever 22 is provided at the upper part and at the front part.

In FIG. 9, the dust collecting portion 8 in a state of being removed from the case portion 10 is shown. The connection between the dust collecting portion 8 and the case portion 10 is released by the detachable lever 22. When discarding the dust collected in the dust collecting unit 8, the user removes the dust collecting unit 8.

In FIG. 10, the right direction of the paper surface is the front direction of the main body 4. In FIG. 10, the upward direction on the paper surface is the upward direction of the main body 4. FIG. 10 is a cross-sectional view taken along the plane parallel to the front-rear direction including the central axis of the suction air passage 20.

The electric blower unit 7 includes a motor 23, a fan 24, and a control board 25. The motor 23 is configured so that the output shaft can be rotated by the supplied electric power. The output shaft of the motor 23 is directed downwards. The fan 24 is connected to the output shaft of the motor 23. The fan 24 is provided below the motor 23. The fan 24 is configured to be able to generate an air flow by rotation. The control board 25 mounts an element that controls the operation of the motor 23. The control board 25 is connected to the operation unit 17 so as to be able to receive a signal representing the operation of the user.

The dust collecting unit 8 includes a separating unit 26, a dust collecting container 27, and a filter unit 28. The separation unit 26 is provided at the inlet where the airflow flows into the dust collection unit 8. The separating portion 26 has a swirling air passage along the outer periphery of the dust collecting portion 8. The swirling air passage is configured so that a swirling flow can be formed from the airflow flowing into the dust collecting portion 8. The separating portion 26 has an inner cylinder that opens upward. The dust collecting container 27 has a cylindrical shape. The dust collecting container 27 is provided below the separating portion 26. The dust collecting container 27 is configured to be able to collect dust separated by centrifugal force from the swirling flow formed by the separating portion 26. The filter unit 28 is provided above the separation unit 26. The filter unit 28 is configured to be able to collect fine dust contained in the airflow that passes upward from the dust collection container 27 to the inner cylinder.

The suction air passage 20 extends linearly from the lower side to the upper side. The lower part is the upstream side. The upper side is the downstream side. The air passage forming portion 12 has a connecting air passage 29. The connecting air passage 29 is provided on the downstream side of the air passage forming portion 12. The connecting air passage 29 connects the suction air passage 20 and the inlet of the dust collecting portion 8.

The battery unit 9 is provided on an extension line above the central axis of the suction air passage 20. The battery unit 9 extends in the vertical direction. The battery unit 9 is adjacent to the electric blower unit 7 from the rear. The front-back direction is the direction of the second axis and is the direction perpendicular to the first axis. The battery unit 9 has a plurality of storage batteries 30, a protective substrate 31, and a battery case 32. Each of the plurality of storage batteries 30 is, for example, a lithium ion battery. The plurality of storage batteries 30 are electrically connected to the motor 23 so that the motor 23 can be supplied with electric power. The protective substrate 31 is equipped with an element that controls charging and discharging of a plurality of storage batteries 30. The battery case 32 houses a plurality of storage batteries 30 and a protective substrate 31.

The battery case 32 has a first connection portion 33. The first connection portion 33 is provided at the upper end of the battery case 32. The first connection portion 33 projects forward. The first connection portion 33 is connected to the upper part of the electric blower portion 7.

The first plane P1 is a plane perpendicular to the vertical direction. The first plane P1 passes through the upper end of the case portion 10. The entire battery unit 9 is provided on the side of the case unit 10 with respect to the first plane P1. The entire dust collecting portion 8 is provided on the side of the case portion 10 with respect to the first plane P1. The entire air passage forming portion 12 is provided on the side of the case portion 10 with respect to the first plane P1.

The second plane P2 is a plane perpendicular to the front-rear direction. The second plane P2 is in contact with the outer surface of the rear portion of the air passage forming portion 12. The battery unit 9 is entirely provided on the side of the air passage forming unit 12 with respect to the second plane P2. The entire grip portion 13 is provided on the side of the air passage forming portion 12 with respect to the second plane P2. The case portion 10 is entirely provided on the side of the air passage forming portion 12 with respect to the second plane P2. The entire dust collecting portion 8 is provided on the side of the air passage forming portion 12 with respect to the second plane P2.

The battery unit 9, the motor 23, and the operation unit 17 are arranged on the same straight line in the front-rear direction.

In FIG. 11, the right direction of the paper surface is the right direction of the main body 4. In FIG. 11, the direction on the paper surface is the front direction of the main body 4. FIG. 11 is a cross-sectional view taken along a plane perpendicular to the vertical direction passing through the fan 24.

The battery unit 9 is provided behind the fan 24. The maximum width of the battery unit 9 in the left-right direction is equal to or less than the maximum width of the case unit 10 in the left-right direction. The left-right direction is the direction of the third axis.

In FIG. 12, the right direction of the paper surface is the right direction of the main body 4. In FIG. 12, the direction on the paper surface is the front direction of the main body 4.

The elliptical column surface E extends in the vertical direction. The elliptical column surface E has a major axis in the front-rear direction. The elliptical column surface E has a short axis in the left-right direction. The elliptical column surface E is in contact with the outer surfaces of the case portion 10 and the air passage forming portion 12. The elliptical pillar surface E is in contact with the front surface of the main body 4. The entire body 4 fits inside the elliptical column surface E. The battery unit 9 is provided inside the elliptical column surface E.

Subsequently, the configuration of the electric blower unit 7 will be described with reference to FIGS. 13 and 14.
13 and 14 are perspective views of the electric blower unit according to the first embodiment.

In FIG. 13, the upward direction on the paper surface is the front direction of the electric blower unit 7.

The electric blower portion 7 has a cylindrical shape. The electric blower portion 7 has a plurality of ribs 34 on the rear surface. Each of the plurality of ribs 34 is in contact with the front surface of the battery case 32. Each of the plurality of ribs 34 forms a space between the rear surface of the electric blower portion 7 and the front surface of the battery case 32.

In FIG. 14, the upward direction on the paper surface is the rear direction of the electric blower portion 7. In FIG. 14, the direction indicated by the arrow is the vertical direction of the electric blower unit 7. In FIG. 14, the direction indicated by the arrow is the left-right direction of the electric blower unit 7.

The electric blower portion 7 has a second connection portion 35. The second connection portion 35 is provided behind the upper end. The second connection portion 35 is a recess connected to the first connection portion 33 of the battery portion 9. The electric blower portion 7 has a first connection terminal 36. The first connection terminal 36 is formed of, for example, sheet metal. The first connection terminal 36 is electrically connected to the motor 23.

Subsequently, the configuration of the battery unit 9 will be described with reference to FIGS. 15 and 16.
15 and 16 are perspective views of the battery unit according to the first embodiment.

In FIG. 15, the direction indicated by the arrow is the front-back direction of the battery unit 9. In FIG. 15, the direction indicated by the arrow is the vertical direction of the battery unit 9.

The battery case 32 has a front case 37 and a rear case 38. The front case 37 forms an outer shell in front of the battery unit 9. The rear case 38 forms a rear outer shell of the battery unit 9.

The battery unit 9 has a second connection terminal 39. The second connection terminal 39 is provided in the first connection portion 33. The second connection terminal 39 is electrically connected to the plurality of storage batteries 30. The second connection terminal 39 is electrically connected by directly contacting the first connection terminal 36.

In FIG. 16, the direction indicated by the arrow is the front-back direction of the battery unit 9. In FIG. 16, the direction indicated by the arrow is the vertical direction of the battery unit 9.

The battery unit 9 has six storage batteries 30. Each of the six storage batteries 30 has a columnar shape. Each of the six storage batteries 30 extends in the vertical direction. Three of the six storage batteries 30 are provided in the upper part of the battery unit 9. The other three of the six storage batteries 30 are provided at the lower part of the battery unit 9. The three storage batteries 30 provided in the upper part of the battery unit 9 are arranged in a triangular shape with the vertices facing rearward. Each of the side surfaces of the three storage batteries 30 faces each other. The three storage batteries 30 provided at the bottom of the battery unit 9 are arranged in a triangular shape with the vertices facing rearward. Each of the side surfaces of the three storage batteries 30 faces each other. The battery unit 9 has a holder 40. The holder 40 holds six storage batteries 30.

The protective substrate 31 is provided on the upper part of the battery unit 9. The protective substrate 31 is provided above each of the six storage batteries 30. The protective substrate 31 is connected to each of the six storage batteries 30. The protective substrate 31 is provided in a plane perpendicular to the vertical direction. The protective substrate 31 is provided on the first connection portion 33.

Subsequently, the operation of the vacuum cleaner 2 will be described.

The control board 25 starts the operation of generating the air flow of the electric blower unit 7 based on the operation of the user. The battery unit 9 takes out the electric power charged in the plurality of storage batteries 30 under the control of the protective substrate 31. The protective substrate 31 protects the storage battery 30 by controlling the discharge of the plurality of storage batteries 30. The battery unit 9 supplies electric power to the motor 23 through the second connection terminal 39 and the first connection terminal 36.

The motor 23 rotates the output shaft by the electric power supplied. The fan 24 rotates with the output shaft of the motor 23. The fan 24 generates an air flow. The airflow flows into the dust collecting portion 8 together with the dust on the surface to be cleaned. The separating portion 26 forms a swirling flow from the air flow by the swirling air passage. Dust is separated by centrifugal force. The separated dust is collected in the dust collection container 27. The airflow from which the dust has been separated passes upward through the inner cylinder of the separation portion 26. The airflow passes through the filter unit 28. The filter unit 28 collects fine dust contained in the air flow. The airflow from which fine dust is separated is sent out from the exhaust port 19.

When the cleaning using the vacuum cleaner 2 is completed, the operation unit 17 accepts the user's operation for stopping the vacuum cleaner 2. The operation unit 17 transmits a signal representing the operation to the electric blower unit 7. The electric blower unit 7 stops the operation of generating an air flow. The user attaches the vacuum cleaner 2 to the support device 3. The support device 3 supplies the electric power supplied from the external power source to the vacuum cleaner 2 through the charging terminal 16 and the feeding terminal 3f. The battery unit 9 charges a plurality of storage batteries 30 under the control of the protective substrate 31 by the electric power supplied from the support device 3. The protective substrate 31 protects the storage battery 30 by controlling the charging of the plurality of storage batteries 30.

As described above, the vacuum cleaner 2 according to the first embodiment includes an electric blower unit 7, a case unit 10, a dust collection unit 8, an air passage forming unit 12, and a battery unit 9. .. The electric blower unit 7 generates an air flow by the supplied electric power. The case portion 10 houses the electric blower portion 7. The dust collecting unit 8 collects dust sucked from the outside by the air flow. The air passage forming portion 12 has a suction air passage 20. The suction air passage 20 extends linearly from the lower side to the upper side with the vertical direction as the central axis. The air passage forming portion 12 guides the air flow from the suction air passage 20 to the dust collecting portion 8. The battery unit 9 is provided on an extension line above the suction air passage 20 in the vertical direction. The battery unit 9 is adjacent to the electric blower unit 7 from the front-rear direction perpendicular to the vertical direction. The battery unit 9 has a storage battery 30. The storage battery 30 supplies electric power to the electric blower unit 7.

The battery unit 9 and the air passage forming unit 12 are arranged in the vertical direction, which is the direction of the central axis of the suction air passage 20. That is, in the direction perpendicular to the vertical direction, the battery portion 9 and the air passage forming portion 12 project in the same direction as the main body 4. As a result, the vacuum cleaner 2 becomes compact in the direction perpendicular to the vertical direction. The appearance of the vacuum cleaner 2 is not impaired. The battery unit 9 and the electric blower unit 7 are not separated from each other in the vertical direction. This makes the vacuum cleaner 2 compact in the vertical direction.

The battery unit 9 and the electric blower unit 7 are adjacent to each other. Therefore, the heavy parts of the vacuum cleaner 2 are concentrated. This makes it easier to handle the vacuum cleaner 2.

Further, the battery unit 9 has a shape extending in the vertical direction. Therefore, the cross-sectional area of the battery unit 9 in the direction perpendicular to the vertical direction becomes small. This makes the vacuum cleaner 2 more compact in the direction perpendicular to the central axis of the suction air passage 20.

Further, the maximum width of the battery portion 9 in the left-right direction is equal to or less than the maximum width of the case portion 10 in the left-right direction. Therefore, the battery unit 9 does not project in the left-right direction. This makes the vacuum cleaner 2 more compact.

Further, the entire battery portion 9 is provided on the side of the case portion 10 with respect to the first plane P1. Therefore, the battery unit 9 does not protrude above the vacuum cleaner 2. This makes the vacuum cleaner 2 more compact.

Further, the entire battery portion 9 is provided on the side of the air passage forming portion 12 with respect to the second plane P2. Therefore, the battery unit 9 does not protrude to the rear of the vacuum cleaner 2. This makes the vacuum cleaner 2 more compact.

Further, the battery unit 9 is provided inside the elliptical column surface E. Therefore, the battery unit 9 does not project in the direction perpendicular to the vertical direction. This makes the vacuum cleaner 2 more compact.

Further, the battery unit 9 has a protective substrate 31 at an end portion in the vertical direction. The protective substrate 31 controls charging and discharging of the storage battery 30. Therefore, the cross-sectional area of the battery unit 9 can be reduced in the plane including the storage battery 30 and perpendicular to the vertical direction. This makes the vacuum cleaner 2 more compact.

Further, the battery unit 9 has a first connection unit 33. The first connection portion 33 is provided at the upper end. The first connection portion 33 projects forward. The first connection portion 33 is connected to the second connection portion 35 of the electric blower unit 7. The protective substrate 31 is provided on the first connection portion 33. Therefore, even when the area of the protective substrate 31 is larger than the cross-sectional area of the battery portion 9 in the plane including the storage battery 30 and perpendicular to the vertical direction, the protective substrate 31 does not project to the outside of the main body 4. This makes the vacuum cleaner 2 more compact.

Further, the electric blower portion 7 has a first connection terminal 36. The first connection terminal 36 receives the electric power supplied to the electric blower unit 7. The battery unit 9 has a second connection terminal 39. The second connection terminal 39 is electrically connected to the storage battery 30. The second connection terminal 39 comes into direct contact with the first connection terminal 36.

The battery unit 9 and the electric blower unit 7 are directly electrically connected to each other. Therefore, a lead wire for connecting the battery unit 9 and the electric blower unit 7 is not required. This simplifies the handling of the electrical connection inside the main body 4. Therefore, the manufacturability of the vacuum cleaner 2 is improved.

Further, the vacuum cleaner 2 includes a grip portion 13 and an operation portion 17. The operation unit 17 is provided below the grip unit 13. The operation unit 17, the motor 23, and the battery unit 9 are arranged on the same straight line in the front-rear direction. The user has the grip portion 13 so that the operation portion 17 is located in front of the user. At this time, the heavy part of the vacuum cleaner 2 is concentrated in front of the user's hand. Therefore, the place far from the user's hand becomes lighter. This makes it easier to handle the vacuum cleaner 2.

1 Vacuum cleaner system, 2 Electric vacuum cleaner, 3 Support device, 3a holder, 3b support, 3c base, 3d main body installation part, 3e pipe holder, 3f power supply terminal, 3g suction tool storage, 4 main body, 5 pipes Body, 6 Vacuum cleaner, 7 Electric blower, 8 Dust collector, 9 Battery, 10 Case, 11 Battery storage, 12 Air passage formation, 13 Grip, 14 Connection tube, 15 Nozzle body, 16 Charging terminal , 17 operation unit, 18a 1st detachable button, 18b 2nd detachable button, 19 exhaust port, 20 suction air passage, 21 suction port, 22 detachable lever, 23 motor, 24 fan, 25 control board, 26 separation part, 27 collection Dust container, 28 filter part, 29 connection air passage, 30 storage battery, 31 protection board, 32 battery case, 33 first connection part, 34 ribs, 35 second connection part, 36 first connection terminal, 37 front case, 38 rear Case, 39 2nd connection terminal, 40 holder

Claims (5)

An electric blower that generates airflow by the supplied electric power,
A case unit for accommodating the electric blower unit and
A dust collecting unit that collects dust sucked from the outside by the air flow,
A suction air passage that linearly extends from the upstream side to the downstream side with the first axis as the central axis, and an air passage forming portion that guides the airflow from the suction air passage to the dust collecting portion.
It is provided on the extension line on the downstream side of the first axis of the suction air passage, is adjacent to the electric blower portion from the direction of the second axis perpendicular to the first axis, and supplies electric power to the electric blower portion. A battery unit having a storage battery and having a shape extending in the direction of the first axis,
Equipped with
The battery part is
It is provided at the end portion on the side far from the suction air passage in the direction of the first axis, and protrudes in the direction from the battery portion toward the electric blower portion along the second axis. A connection portion connected to a recess at the end on the side far from the suction air passage in the direction of the first axis, and a connection portion.
A protective substrate provided in the plane perpendicular to the direction of the first axis in the connection portion and controlling charging and discharging of the storage battery, and a protective substrate.
Equipped with
The electric blower has a first connection terminal in the recess for receiving the supplied electric power.
The battery unit is a vacuum cleaner having a second connection terminal electrically connected to the storage battery and in direct contact with the first connection terminal. The electricity according to claim 1, wherein the battery unit has a maximum width in the direction of the first axis and the third axis perpendicular to the second axis, which is equal to or less than the maximum width in the direction of the third axis of the case unit. Vacuum cleaner. The electric cleaning according to claim 1 or 2, wherein the entire battery portion passes through the downstream end portion of the case portion and is provided on the side of the case portion with respect to a plane perpendicular to the first axis. Machine. At the end of the electric blower unit toward the battery unit along the second axis, the battery unit is in contact with the outer surface of the air passage forming portion and is perpendicular to the second axis. The vacuum cleaner according to any one of claims 1 to 3, which is provided on the side of the air passage forming portion as a whole. The battery portion extends in the direction of the first axis, the direction of the second axis is the major axis, the direction perpendicular to the first axis and the second axis is the short axis, and the case portion and the air passage forming portion. The electric vacuum cleaner according to any one of claims 1 to 4, which is provided inside an elliptical column surface in contact with an outer surface.

Images