EP2767367B1 - Transmission switching device of electric hammer - Google Patents
Transmission switching device of electric hammer Download PDFInfo
- Publication number
- EP2767367B1 EP2767367B1 EP13840136.9A EP13840136A EP2767367B1 EP 2767367 B1 EP2767367 B1 EP 2767367B1 EP 13840136 A EP13840136 A EP 13840136A EP 2767367 B1 EP2767367 B1 EP 2767367B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- intermediate shaft
- toggle member
- toggle
- gear
- peripheral surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Not-in-force
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25D—PERCUSSIVE TOOLS
- B25D11/00—Portable percussive tools with electromotor or other motor drive
- B25D11/06—Means for driving the impulse member
- B25D11/062—Means for driving the impulse member comprising a wobbling mechanism, swash plate
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25D—PERCUSSIVE TOOLS
- B25D16/00—Portable percussive machines with superimposed rotation, the rotational movement of the output shaft of a motor being modified to generate axial impacts on the tool bit
- B25D16/006—Mode changers; Mechanisms connected thereto
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25D—PERCUSSIVE TOOLS
- B25D2216/00—Details of portable percussive machines with superimposed rotation, the rotational movement of the output shaft of a motor being modified to generate axial impacts on the tool bit
- B25D2216/0007—Details of percussion or rotation modes
- B25D2216/0015—Tools having a percussion-only mode
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25D—PERCUSSIVE TOOLS
- B25D2216/00—Details of portable percussive machines with superimposed rotation, the rotational movement of the output shaft of a motor being modified to generate axial impacts on the tool bit
- B25D2216/0007—Details of percussion or rotation modes
- B25D2216/0023—Tools having a percussion-and-rotation mode
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25D—PERCUSSIVE TOOLS
- B25D2216/00—Details of portable percussive machines with superimposed rotation, the rotational movement of the output shaft of a motor being modified to generate axial impacts on the tool bit
- B25D2216/0007—Details of percussion or rotation modes
- B25D2216/0038—Tools having a rotation-only mode
Definitions
- the present invention relates to a transmission switching device according to the preamble of claim 1.
- a transmission switching device is known from Chinese Utility Model Patent No. 201120173533.1 .
- Cida Utility Model Patent No. 201120173533.1 disclosed a transmission mechanism for electric tools, comprising: a shaft driven by a driving mechanism of the electric tools, the shaft comprising a first shaft portion, a second shaft portion and a driving portion disposed between the first shaft portion and the second shaft portion; a gear disposed on the first shaft portion, the gear sliding along the extension direction of the shaft with respect to the first shaft portion, driving members fitted with each other being provided between the gear and the driving portion of the shaft; and a pendulum bar bearing disposed on the second shaft portion, the pendulum bar bearing comprising an inner ring and an outer ring, a raceway between the inner ring and the outer ring being incline disposed with respect to the second shaft portion, driving members fitted with each other being provided between the inner ring and the driving portion, a pendulum bar extending in the inclined plane of the slideway being provided on the outer ring.
- the intermediate shaft is of a split structure. That is, the intermediate shaft is formed by arranging the first shaft portion and the second shaft portion coaxially.
- a concave-convex fitting structure is provided between two close end parts of the two shaft portions so that the two shaft portions are fitted with each other by the concave-convex fitting structure to achieve power transmission between the first shaft portion and the second shaft portion.
- the first shaft portion is circumferentially and fixedly sleeved with a gear and a gear toggle mechanism in the transmission mechanism is directly contact-coupled to the gear, so that the gear toggle mechanism toggles the gear to slide axially on the first shaft portion.
- a technical problem to be solved in the present invention is to provide a transmission switching device for electric hammer according to claim 1, the use of which may effectively improve the operating reliability of the electric hammers.
- a transmission switching device for electric hammers comprising a transmission mechanism, a gearshift and a knob connected with the gearshift, the transmission mechanism comprising an intermediate shaft provided thereon with an intermediate shaft gear, the intermediate shaft being provided with a transmission gear at one end and a pendulum bar bearing between the transmission gear and the intermediate shaft gear; the intermediate shaft is sleeved with a clearance therebetween with an intermediate shaft sleeve between the transmission gear and the intermediate shaft gear; a side face of the transmission gear, close to the intermediate shaft gear, extends outward to form connection portion sleeved with a clearance therebetween on the outer peripheral side of one end of the intermediate shaft sleeve far away from the intermediate shaft gear; an end of the pendulum bar gear, close to the transmission gear, is sleeved with a clearance therebetween on the outer peripheral side of the connection portion, while the other end of the pendulum bar bearing is sleeved with a clearance there
- the large gear in the electric hammers is connected with the intermediate shaft gear and the drill bit shaft, respectively, and the large gear may drive the drill bit shaft to rotate so that the electric hammers achieve drilling.
- the pendulum bar on the pendulum bar bearing is axially and obliquely disposed with respect to the pendulum bar bearing and connected to a cylinder rod that is connected with the drill bit shaft of the electric hammers. The rotation of the pendulum bar bearing drives the cylinder to act so as to realize impacting of the electric hammers.
- the displacement action resulted from the rotation of the knob causes the intermediate shaft sleeve to move back and forth along the intermediate shaft via the gearshift to change the connection way in the transmission mechanism, so that the electrical hammers are allowed to switch among three operating modes, i.e., impacting, drilling and synchronization of impacting and drilling.
- the gearshift is contact-coupled to the displacement bearing, regardless of whether the intermediate shaft sleeve rotates, the gearshift and the outer ring of the shifting bearing are always relatively still, so there is no friction or wear and thus no heat.
- the outer ring of the displacement bearing axially extends outward along the intermediate shaft; the clearance between the inner peripheral surface of the extended portion on the outer ring and the outer peripheral surface of the intermediate shaft sleeve is far less than the diameter of a roll ball; and the groove is located on the outer peripheral surface of the extended portion.
- the outer ring of the displacement bearing is relatively large, facilitating the disposition of a structure for coupling to the gear toggle mechanism on the outer ring.
- the displacement bearing has good stability on the intermediate shaft sleeve, so that the outer ring in the displacement bearing may maintain good position stability during the rotation of the intermediate shaft sleeve.
- the inner diameter of the other end of the intermediate shaft sleeve is less than the outer diameter of the intermediate shaft gear and the outer diameter of the displacement bearings is greater than the inner diameter of the other end of the pendulum bar bearing. This facilitates the limit of the intermediate shaft sleeve when it axially moves back and forth on the intermediate shaft.
- the keyway fitting structure may be a single-keyway fitting structure, a double-keyway fitting structure or a cotterway fitting structure, preferably, a spline fitting structure.
- the spline fitting structure facilitates the switch of connection ways between the key and the slot and it is also advantageous to the stationarity of transmission.
- the distance from the end face of an inner end of a spline structure on the inner peripheral surface of the connection portion to the outer end face of a spline structure on the inner peripheral surface of the other end of the pendulum bar bearing is less than the maximum distance from the end face of inner end of the spline structure on the inner peripheral surface of the connection portion to the end face close to one end of the connection portion of a spline structure by which the intermediate shaft sleeve is fitted with the pendulum bar bearing, and the space between two opposite end faces of two spline structures on the outer peripheral surface of the intermediate shift sleeve is greater than the length of a spline structure on the pendulum bar bearing.
- the minimum distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion to the end face of the other end of the intermediate shaft sleeve is less than the distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion to the end face of one end of the spline structure on the intermediate shaft close to the connection portion.
- the pendulum bar bearing is provided with a positioning bearing on one side close to the transmission gear, the inner ring of the pendulum bar bearing being integrated with the inner ring of the positioning bearing, the outer ring of the positioning bearing extending outward to form a positioning plate that is in fixed connection with a positioning seat of an electric hammer.
- the outside of the pendulum bar bearing is provided with a positioning bearing sharing the inner ring with the pendulum bar bearing, so that the pendulum bar bearing may rotate circumferentially and meanwhile be effectively positioned axially.
- the gearshift comprises a first toggle member, a second toggle member, a clamping member, a pin shaft and a spring;
- the pin shaft is arranged to be parallel to the intermediate shaft; two ends of both the first toggle member and the second toggle member extend along one side respectively to form side walls, so that both the first toggle member and the second toggle member are U-shaped as a whole;
- the pin shaft passes through the two side walls of the first toggle member and the second toggle member, respectively, with a clearance therebetween, one side wall of the first toggle member being located between the two side walls of the second toggle member while the other side wall of the first toggle member being located on the outside of one side wall of the second toggle member;
- the spring is sleeved on the pin shaft with a clearance therebetween, one end of the spring being resisted against one side wall of the first toggle member while the other end of the spring being resisted against one side wall of the second toggle member;
- one end of the clamping member is sleeved on the pin shaft with a clearance therebetween
- the offset toggle rod generates a displacement due to the rotation of the knob.
- the displacement of the toggle rod is transferred to the clamping member via the spring to push the intermediate shaft sleeve to axially move back and forth along the intermediate shaft and thus to change the connection relation between the spline structure on the intermediate shaft sleeve and the spline structures on the intermediate shaft, the pendulum bar bearing and the connection portion, further to realize functions of drilling, hammering, and synchronization of drilling and hammering.
- the spring has good elasticity controllability and fast response speed so that it may push the intermediate shaft sleeve to act instantaneously, there is no tooth breakage when the spline fitting structures restore to be engaged with each other. Consequently, the service life of various fitting members can be prolonged and no manual adjustment of the operating personnel is required during the gear shifting, so that the working efficiency is improved and the personal safety of the operating personnel is ensured.
- the pin shaft is also provided with a positioning member, one end of which is sleeved on the pin shaft with a clearance therebetween while the other end of which is provided with a tooth groove fitted with the profile of teeth of the intermediate shaft gear.
- the tooth groove of the positioning member is engaged with the intermediate shaft gear so as to ensure that the intermediate shaft gear will not rotate and thus to improve the quality of work.
- the present invention has the following advantages.
- the temperature of lubricant will not increase a lot during the operating of the electric hammer, the sealing performance of the liquid sealing structure inside the electric hammer will not be greatly influenced and the electric hammer is no likely to surrfer oil leakage.
- the gear toggle mechanism will not have friction with the intermediate gear during the operating of the electric hammer, thus the gear toggle mechanism has low wear and the operating sensibility of the gear toggle mechanism can be effectively ensured.
- the present invention has simple structure, rational design and convenient manufacturing, and may complete gear shifting even the electric hammer does not shut down. This may not only avoid tooth breakage, but also ensure the personal safety of the operating personnel. Thus both the productivity and the quality of work are improved.
- the transmission switching device for electric hammers of the present invention is disposed in an electric hammer, comprising a transmission mechanism 1, gearshift 2 and a knob connected with the gearshift 2 (not shown).
- the transmission mechanism 1 includes an intermediate shaft 4 on which an intermediate shaft gear 5 integrated with the intermediate shaft 4 is provided.
- the intermediate shaft 4 is provided with a transmission gear 10 at one end and a pendulum bar bearing 8 between the transmission gear 10 and the intermediate shaft gear 5.
- the intermediate shaft 4 is sleeved with a clearance therebetween with an intermediate shaft sleeve 7 between the transmission gear 10 and the intermediate shaft gear 5; one side face of the transmission gear 10, close to the intermediate shaft gear 5, extends outward to form connection portion 22 sleeved with a clearance therebetween on the outer peripheral side of one end of the intermediate shaft sleeve 7 far away from the intermediate shaft gear 5; an end of the pendulum bar gear 8, close to the transmission gear 10, is sleeved with a clearance therebetween on the outer peripheral side of the connection portion 22, while the other end of the pendulum bar bearing 8 is sleeved with a clearance therebetween on the intermediate shaft sleeve 7; keyway fitting structures that fit each other are provided between the inner peripheral surface of the other end of the intermediate shaft sleeve 7 and the intermediate shaft 4, between the outer peripheral surface of one end of the intermediate shaft sleeve 7 and the inner peripheral surface of the connection portion 22, and between the inner peripheral surface of the other end of the pendulum
- the distance from the end face of an inner end of a spline structure on the inner peripheral surface of the connection portion 22 to the outer end face of a spline structure on the inner peripheral surface of the other end of the pendulum bar bearing 8 is less than the maximum distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion 22 to the end face close to one end of the connection portion 22 of a spline structure by which the intermediate shaft sleeve 7 is fitted with the pendulum bar bearing 8, and the space between two opposite end faces of two spline structures on the outer peripheral surface of the intermediate shift sleeve 7 is greater than the length of a spline structure on the pendulum bar bearing 8; and the minimum distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion 22 and the end face of the other end of the intermediate shaft sleeve 7 is less than the distance from the end face of the inner end of the spline structure on the inner peripheral
- the inner diameter of the other end of the intermediate shaft sleeve 7 is less than the outer diameter of the intermediate shaft gear 5.
- a displacement bearing 6 On the peripheral side of the other end of the intermediate shaft sleeve 7, provided is a displacement bearing 6, the inner ring of which is the intermediate shaft sleeve 7.
- the outer ring of the displacement bearing 6 axially extends outward towards one side of the pendulum bar bearing 8 along the intermediate shaft 4; the clearance between the inner peripheral surface of the extended portion 24 on the outer ring and the outer peripheral surface of the intermediate shaft sleeve 7 is far less than the diameter of a roll ball; the outer diameter of the displacement bearing 6 is greater than the inner diameter of the other end of the pendulum bar bearing 8; and the groove 21 is located on the outer peripheral surface of the extended portion 24.
- the gearshift comprises a first toggle member 16, a second toggle member 18, a clamping member 15, a pin shaft 11 and a spring 17;
- the pin shaft 11 is arranged to be parallel to the intermediate shaft 4; two ends of both the first toggle member 16 and the second toggle member 18 extend along one side respectively to form side walls, so that both the first toggle member 16 and the second toggle member 18 are U-shaped as a whole;
- the pin shaft 11 passes through the two side walls of the first toggle member 16 and the second toggle member 18, respectively, with a clearance therebetween, one side wall of the first toggle member 16 being located between the two side walls of the second toggle member 18, while the other side wall of the first toggle member 16 being located on the outside of one side wall of the second toggle member18;
- the spring 17 is sleeved on the pin shaft 11 with a clearance therebetween, one end of the spring 17 being resisted against one side wall of the first toggle member 16 while the other end of the spring 17 being resisted against one side wall of the second toggle member 18;
- the pin shaft 11 is also provided with a positioning member 19, one end of which is sleeved on the pin shaft 11 with a clearance therebetween while the other end of which is provided with a tooth groove 20 fitted with the profile of teeth of the intermediate shaft gear 5.
- one side of the pendulum bar bearing 8, close to the transmission gear 10, is provided with a positioning bearing 9, and the inner ring of the pendulum bar bearing 8 is integrated with the inner ring of the positioning bearing 9 while the outer ring of the positioning bearing 9 extends outward to form a positioning plate 23 that is in fixed connection with a positioning seat 3 for the electric hammer.
- the intermediate shaft gear 5 is engaged with a large gear that is in fixed connection with the drill bit shaft of the electric hammer, and the pendulum bar on the pendulum bar bearing 8 is connected with a cylinder connected to the drill bit shaft of the electric hammer.
- the offset toggle rod generates a displacement due to the rotation of the knob; the displacement of the toggle rod is transferred to the first toggle member 16 via the first toggle foot 12, then transferred from the first toggle member 16 to the second toggle member 18 via the spring 17, and then transferred from the second toggle member 18 to a forked foot 13 via the clamping member 15; and, as the forked foot 13 is clamped into the groove 21 of the displacement bearing 6, the intermediate shaft sleeve 7 is pushed to move towards one side of the pendulum bar bearing 8, and simultaneously, the positioning member 19 moves in a the same direction as the intermediate shaft sleeve 7 under the driving of the second toggle member 18.
- the displacement of the toggle rod is transferred to the second toggle member 18 via the second toggle foot 14, then transferred from the second toggle member 18 to the first toggle member 16 via the spring 17, and then transferred from the first toggle member 16 to the forked foot 13 via the clamping member 15; and, as the forked foot 13 is clamped into the groove 21 of the displacement bearing 6, the intermediate shaft sleeve 7 is pushed to move towards one side of the intermediate shaft gear 5, and simultaneously the positioning member 19 moves in the same direction as the intermediate shaft sleeve 7 under the driving of the first toggle member 16.
- the intermediate shaft sleeve 7 When the intermediate shaft sleeve 7 is in the intermediate state, the intermediate shaft sleeve 7 is engaged with the intermediate shaft 4, the pendulum bar bearing 8 and the transmission gear 10, respectively, and the tooth groove 20 on the positioning member 19 is disengaged from the intermediate shaft gear 5. In this way, the drill bit shaft of the electric hammer may realize both the hammering mode and the drilling mode. In addition, during the rotation of the intermediate shaft sleeve 7, the outer ring of the displacement bearing 6 and the forked foot 13 are relatively still.
Description
- The present invention relates to a transmission switching device according to the preamble of
claim 1. Such a transmission switching device is known from Chinese Utility Model Patent No.201120173533.1 - Chinese Utility Model Patent No.
201120173533.1 - In the structure of such transmission mechanism for electric tools, the intermediate shaft is of a split structure. That is, the intermediate shaft is formed by arranging the first shaft portion and the second shaft portion coaxially. A concave-convex fitting structure is provided between two close end parts of the two shaft portions so that the two shaft portions are fitted with each other by the concave-convex fitting structure to achieve power transmission between the first shaft portion and the second shaft portion. The first shaft portion is circumferentially and fixedly sleeved with a gear and a gear toggle mechanism in the transmission mechanism is directly contact-coupled to the gear, so that the gear toggle mechanism toggles the gear to slide axially on the first shaft portion. During the drilling operation of electric tools with such a transmission mechanism, the gear, as the main transmission part, is always rotating, while the gear toggle mechanism contact-coupled to the gear is relatively still. A large amount of heat will be produced because of friction between the gear toggle mechanism and the gear to lead to the increase of the temperature of the lubricant inside the electric tools, while the flowing of the lubricant will lead to the increase of the overall temperature of the electric tools. On one hand, this may deform the plastic shell; on the other hand, this may also affect the overall sealing effect of the electric tools so that the leakage of lubricant is likely to occur, and as a result, the electric hammers may get dirty after used for a period of time. In addition, due to the direct contact between the gearshift and the gear, they will be severely worn over long time operation, thus wearing parts need to be frequently replaced and this will influence the operating sensibility of the gear toggle mechanism.
- To overcome the above drawbacks, a technical problem to be solved in the present invention is to provide a transmission switching device for electric hammer according to
claim 1, the use of which may effectively improve the operating reliability of the electric hammers. - To solve the technical problem, the present invention provides the following technical solutions: a transmission switching device for electric hammers is provided, comprising a transmission mechanism, a gearshift and a knob connected with the gearshift, the transmission mechanism comprising an intermediate shaft provided thereon with an intermediate shaft gear, the intermediate shaft being provided with a transmission gear at one end and a pendulum bar bearing between the transmission gear and the intermediate shaft gear; the intermediate shaft is sleeved with a clearance therebetween with an intermediate shaft sleeve between the transmission gear and the intermediate shaft gear; a side face of the transmission gear, close to the intermediate shaft gear, extends outward to form connection portion sleeved with a clearance therebetween on the outer peripheral side of one end of the intermediate shaft sleeve far away from the intermediate shaft gear; an end of the pendulum bar gear, close to the transmission gear, is sleeved with a clearance therebetween on the outer peripheral side of the connection portion, while the other end of the pendulum bar bearing is sleeved with a clearance therebetween on the intermediate shaft sleeve; keyway fitting structures that fit each other are provided between the inner peripheral surface of the other end of the intermediate shaft sleeve and the intermediate shaft, between the outer peripheral surface of one end of the intermediate shaft sleeve and the inner peripheral surface of the connection portion, and between the inner peripheral surface of the other end of the pendulum bar bearing and the intermediate shaft sleeve; on the peripheral side of the other end of the intermediate shaft sleeve, provided is a displacement bearing, the inner ring of which is the intermediate shaft sleeve while the outer ring of which is provided with a groove inside which the gearshift is connected. The large gear in the electric hammers is connected with the intermediate shaft gear and the drill bit shaft, respectively, and the large gear may drive the drill bit shaft to rotate so that the electric hammers achieve drilling. The pendulum bar on the pendulum bar bearing is axially and obliquely disposed with respect to the pendulum bar bearing and connected to a cylinder rod that is connected with the drill bit shaft of the electric hammers. The rotation of the pendulum bar bearing drives the cylinder to act so as to realize impacting of the electric hammers. The displacement action resulted from the rotation of the knob causes the intermediate shaft sleeve to move back and forth along the intermediate shaft via the gearshift to change the connection way in the transmission mechanism, so that the electrical hammers are allowed to switch among three operating modes, i.e., impacting, drilling and synchronization of impacting and drilling. The gearshift is contact-coupled to the displacement bearing, regardless of whether the intermediate shaft sleeve rotates, the gearshift and the outer ring of the shifting bearing are always relatively still, so there is no friction or wear and thus no heat. The problems in the prior art are fundamentally overcome.
- Preferably, the outer ring of the displacement bearing axially extends outward along the intermediate shaft; the clearance between the inner peripheral surface of the extended portion on the outer ring and the outer peripheral surface of the intermediate shaft sleeve is far less than the diameter of a roll ball; and the groove is located on the outer peripheral surface of the extended portion. As a result, the outer ring of the displacement bearing is relatively large, facilitating the disposition of a structure for coupling to the gear toggle mechanism on the outer ring. The displacement bearing has good stability on the intermediate shaft sleeve, so that the outer ring in the displacement bearing may maintain good position stability during the rotation of the intermediate shaft sleeve.
- Preferably, the inner diameter of the other end of the intermediate shaft sleeve is less than the outer diameter of the intermediate shaft gear and the outer diameter of the displacement bearings is greater than the inner diameter of the other end of the pendulum bar bearing. This facilitates the limit of the intermediate shaft sleeve when it axially moves back and forth on the intermediate shaft.
- The keyway fitting structure may be a single-keyway fitting structure, a double-keyway fitting structure or a cotterway fitting structure, preferably, a spline fitting structure. The spline fitting structure facilitates the switch of connection ways between the key and the slot and it is also advantageous to the stationarity of transmission.
- Preferably, the distance from the end face of an inner end of a spline structure on the inner peripheral surface of the connection portion to the outer end face of a spline structure on the inner peripheral surface of the other end of the pendulum bar bearing is less than the maximum distance from the end face of inner end of the spline structure on the inner peripheral surface of the connection portion to the end face close to one end of the connection portion of a spline structure by which the intermediate shaft sleeve is fitted with the pendulum bar bearing, and the space between two opposite end faces of two spline structures on the outer peripheral surface of the intermediate shift sleeve is greater than the length of a spline structure on the pendulum bar bearing. In this way, when the intermediate shaft sleeve moves to be resisted against the intermediate shaft gear, the spline connection between the pendulum bar bearing and the intermediate shaft sleeve may be released to realize simply the drilling mode of the electric hammer.
- Preferably, the minimum distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion to the end face of the other end of the intermediate shaft sleeve is less than the distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion to the end face of one end of the spline structure on the intermediate shaft close to the connection portion. In this way, when the intermediate shaft sleeve moves to be resisted against the pendulum bar bearing, the spline connection between the intermediate shaft sleeve and the intermediate shaft may be released to realize simply the impacting mode of the electric hammer.
- Preferably, the pendulum bar bearing is provided with a positioning bearing on one side close to the transmission gear, the inner ring of the pendulum bar bearing being integrated with the inner ring of the positioning bearing, the outer ring of the positioning bearing extending outward to form a positioning plate that is in fixed connection with a positioning seat of an electric hammer. Then, the outside of the pendulum bar bearing is provided with a positioning bearing sharing the inner ring with the pendulum bar bearing, so that the pendulum bar bearing may rotate circumferentially and meanwhile be effectively positioned axially.
- Preferably, the gearshift comprises a first toggle member, a second toggle member, a clamping member, a pin shaft and a spring; the pin shaft is arranged to be parallel to the intermediate shaft; two ends of both the first toggle member and the second toggle member extend along one side respectively to form side walls, so that both the first toggle member and the second toggle member are U-shaped as a whole; the pin shaft passes through the two side walls of the first toggle member and the second toggle member, respectively, with a clearance therebetween, one side wall of the first toggle member being located between the two side walls of the second toggle member while the other side wall of the first toggle member being located on the outside of one side wall of the second toggle member; the spring is sleeved on the pin shaft with a clearance therebetween, one end of the spring being resisted against one side wall of the first toggle member while the other end of the spring being resisted against one side wall of the second toggle member; one end of the clamping member is sleeved on the pin shaft with a clearance therebetween while the other end of the clamping member is provided with a forked foot fitted with the groove, the forked foot being clamped into the groove, the clamping member being located between the other side wall of the first toggle member and one side wall of the second toggle member; and, the first toggle member extends towards the outside of the other side wall to form a first L-shaped toggle foot and the second toggle member extends towards the outside of one side wall to form a second N-shaped toggle foot, a toggle rod offset by the knob being connected between the first toggle foot and the second toggle foot. The offset toggle rod generates a displacement due to the rotation of the knob. The displacement of the toggle rod is transferred to the clamping member via the spring to push the intermediate shaft sleeve to axially move back and forth along the intermediate shaft and thus to change the connection relation between the spline structure on the intermediate shaft sleeve and the spline structures on the intermediate shaft, the pendulum bar bearing and the connection portion, further to realize functions of drilling, hammering, and synchronization of drilling and hammering. As the spring has good elasticity controllability and fast response speed so that it may push the intermediate shaft sleeve to act instantaneously, there is no tooth breakage when the spline fitting structures restore to be engaged with each other. Consequently, the service life of various fitting members can be prolonged and no manual adjustment of the operating personnel is required during the gear shifting, so that the working efficiency is improved and the personal safety of the operating personnel is ensured.
- Preferably, between one side wall of the first toggle member and the other side wall of the second toggle member, the pin shaft is also provided with a positioning member, one end of which is sleeved on the pin shaft with a clearance therebetween while the other end of which is provided with a tooth groove fitted with the profile of teeth of the intermediate shaft gear. In the hammering state of the electric hammer, the tooth groove of the positioning member is engaged with the intermediate shaft gear so as to ensure that the intermediate shaft gear will not rotate and thus to improve the quality of work.
- Therefore, the present invention has the following advantages. First, as the intermediate gear has no friction with the gear toggle mechanism during the transmission, the first bearing generates a small amount of friction heat during the rotation so that a large amount of heat will not be generated inside the electric hammer when the electric hammer operates in the drilling mode. This will help maintain the shape of the plastic shell of the electric hammer and the whole electric hammer is not likely to get hot. As the temperature of lubricant will not increase a lot during the operating of the electric hammer, the sealing performance of the liquid sealing structure inside the electric hammer will not be greatly influenced and the electric hammer is no likely to surrfer oil leakage. Therefore, the service life of the electric hammer can be prolonged effectively and thus frequent maintenance to the electric hammer is not required. The gear toggle mechanism will not have friction with the intermediate gear during the operating of the electric hammer, thus the gear toggle mechanism has low wear and the operating sensibility of the gear toggle mechanism can be effectively ensured.
- Second, the present invention has simple structure, rational design and convenient manufacturing, and may complete gear shifting even the electric hammer does not shut down. This may not only avoid tooth breakage, but also ensure the personal safety of the operating personnel. Thus both the productivity and the quality of work are improved.
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Fig. 1 is a sectional view of an electric hammer with the transmission switching device according to the present invention; -
Fig. 2 is a three-dimensional view of the transmission switching device according to the present invention; and, -
Fig. 3 is a sectional view of the transmission mechanism according to the present invention. - In the drawings: 1-Transmission mechanism; 2-Gearshift; 3-Positioning seat; 4-Intermediate shaft; 5-Intermediate shaft gear; 6-Displacement bearing; 7-Intermediate shaft sleeve; 8-Pendulm bearing; 9-Positioning bearing; 10-Transmission gear; 11-Pin shaft; 12-First toggle foot; 13-Forked foot; 14-Seceond toggle foot; 15-Clamping member; 16-First toggle member; 17-Spring; 18-Second toggle member; 19-Positioning member; 20-Tooth groove; 21-Groove; 22-Connection portion; 23-Positioning plate; 24-Extended portion.
- The technical solutions of the present invention will be further described in details as below by preferred embodiments with reference to the accompanying drawings.
- As shown in
Fig.1 , the transmission switching device for electric hammers of the present invention is disposed in an electric hammer, comprising atransmission mechanism 1,gearshift 2 and a knob connected with the gearshift 2 (not shown). - As shown in
Fig. 2 andFig. 3 , thetransmission mechanism 1 includes an intermediate shaft 4 on which an intermediate shaft gear 5 integrated with the intermediate shaft 4 is provided. The intermediate shaft 4 is provided with atransmission gear 10 at one end and a pendulum bar bearing 8 between thetransmission gear 10 and the intermediate shaft gear 5. The intermediate shaft 4 is sleeved with a clearance therebetween with anintermediate shaft sleeve 7 between thetransmission gear 10 and the intermediate shaft gear 5; one side face of thetransmission gear 10, close to the intermediate shaft gear 5, extends outward to formconnection portion 22 sleeved with a clearance therebetween on the outer peripheral side of one end of the intermediate shaft sleeve 7 far away from the intermediate shaft gear 5; an end of thependulum bar gear 8, close to thetransmission gear 10, is sleeved with a clearance therebetween on the outer peripheral side of theconnection portion 22, while the other end of the pendulum bar bearing 8 is sleeved with a clearance therebetween on theintermediate shaft sleeve 7; keyway fitting structures that fit each other are provided between the inner peripheral surface of the other end of theintermediate shaft sleeve 7 and the intermediate shaft 4, between the outer peripheral surface of one end of theintermediate shaft sleeve 7 and the inner peripheral surface of theconnection portion 22, and between the inner peripheral surface of the other end of the pendulum bar bearing 8 and theintermediate shaft sleeve 7. The distance from the end face of an inner end of a spline structure on the inner peripheral surface of theconnection portion 22 to the outer end face of a spline structure on the inner peripheral surface of the other end of the pendulum bar bearing 8 is less than the maximum distance from the end face of the inner end of the spline structure on the inner peripheral surface of theconnection portion 22 to the end face close to one end of theconnection portion 22 of a spline structure by which theintermediate shaft sleeve 7 is fitted with the pendulum bar bearing 8, and the space between two opposite end faces of two spline structures on the outer peripheral surface of theintermediate shift sleeve 7 is greater than the length of a spline structure on the pendulum bar bearing 8; and the minimum distance from the end face of the inner end of the spline structure on the inner peripheral surface of theconnection portion 22 and the end face of the other end of theintermediate shaft sleeve 7 is less than the distance from the end face of the inner end of the spline structure on the inner peripheral surface of theconnection portion 22 to the end face of one end of the spline structure on the intermediate shaft 4 close to theconnection portion 22. The inner diameter of the other end of theintermediate shaft sleeve 7 is less than the outer diameter of the intermediate shaft gear 5. On the peripheral side of the other end of theintermediate shaft sleeve 7, provided is a displacement bearing 6, the inner ring of which is theintermediate shaft sleeve 7. The outer ring of the displacement bearing 6 axially extends outward towards one side of the pendulum bar bearing 8 along the intermediate shaft 4; the clearance between the inner peripheral surface of the extendedportion 24 on the outer ring and the outer peripheral surface of theintermediate shaft sleeve 7 is far less than the diameter of a roll ball; the outer diameter of the displacement bearing 6 is greater than the inner diameter of the other end of the pendulum bar bearing 8; and thegroove 21 is located on the outer peripheral surface of the extendedportion 24. - As shown in
Fig.2 , the gearshift comprises a first toggle member 16, a second toggle member 18, a clamping member 15, a pin shaft 11 and a spring 17; the pin shaft 11 is arranged to be parallel to the intermediate shaft 4; two ends of both the first toggle member 16 and the second toggle member 18 extend along one side respectively to form side walls, so that both the first toggle member 16 and the second toggle member 18 are U-shaped as a whole; the pin shaft 11 passes through the two side walls of the first toggle member 16 and the second toggle member 18, respectively, with a clearance therebetween, one side wall of the first toggle member 16 being located between the two side walls of the second toggle member 18, while the other side wall of the first toggle member 16 being located on the outside of one side wall of the second toggle member18; the spring 17 is sleeved on the pin shaft 11 with a clearance therebetween, one end of the spring 17 being resisted against one side wall of the first toggle member 16 while the other end of the spring 17 being resisted against one side wall of the second toggle member 18; one end of the clamping member 15 is sleeved on the pin shaft 11 with a clearance therebetween while the other end of the clamping member 15 is provided with a forked foot 13 fitted with the groove 21, the forked foot 13 being clamped into the groove 21; the clamping member 15 is located between the other side wall of the first toggle member 16 and one side wall of the second toggle member 18; and, the first toggle member 16 extends towards the outside of the other side wall to form a first L-shaped toggle foot 12 and the second toggle member 18 extends towards the outside of one side wall to form a second N-shaped toggle foot 14, a toggle rod offset by the knob being connected between the first toggle foot 12 and the second toggle foot 14. Between one side wall of thefirst toggle member 16 and the other side wall of thesecond toggle member 18, thepin shaft 11 is also provided with a positioningmember 19, one end of which is sleeved on thepin shaft 11 with a clearance therebetween while the other end of which is provided with atooth groove 20 fitted with the profile of teeth of the intermediate shaft gear 5. - As shown in
Fig. 1, Fig. 2 orFig. 3 , one side of the pendulum bar bearing 8, close to thetransmission gear 10, is provided with a positioning bearing 9, and the inner ring of the pendulum bar bearing 8 is integrated with the inner ring of the positioning bearing 9 while the outer ring of the positioning bearing 9 extends outward to form apositioning plate 23 that is in fixed connection with a positioning seat 3 for the electric hammer. - In the electric hammer, the intermediate shaft gear 5 is engaged with a large gear that is in fixed connection with the drill bit shaft of the electric hammer, and the pendulum bar on the pendulum bar bearing 8 is connected with a cylinder connected to the drill bit shaft of the electric hammer.
- The operating principles of the transmission switching device for electric hammers are as follows: the offset toggle rod generates a displacement due to the rotation of the knob; the displacement of the toggle rod is transferred to the
first toggle member 16 via thefirst toggle foot 12, then transferred from thefirst toggle member 16 to thesecond toggle member 18 via thespring 17, and then transferred from thesecond toggle member 18 to a forkedfoot 13 via the clampingmember 15; and, as the forkedfoot 13 is clamped into thegroove 21 of the displacement bearing 6, theintermediate shaft sleeve 7 is pushed to move towards one side of the pendulum bar bearing 8, and simultaneously, the positioningmember 19 moves in a the same direction as theintermediate shaft sleeve 7 under the driving of thesecond toggle member 18. Alternatively, the displacement of the toggle rod is transferred to thesecond toggle member 18 via thesecond toggle foot 14, then transferred from thesecond toggle member 18 to thefirst toggle member 16 via thespring 17, and then transferred from thefirst toggle member 16 to the forkedfoot 13 via the clampingmember 15; and, as the forkedfoot 13 is clamped into thegroove 21 of the displacement bearing 6, theintermediate shaft sleeve 7 is pushed to move towards one side of the intermediate shaft gear 5, and simultaneously the positioningmember 19 moves in the same direction as theintermediate shaft sleeve 7 under the driving of thefirst toggle member 16. When theintermediate shaft sleeve 7 moves to be resisted against the pendulum bar bearing 8, the spline connection between theintermediate shaft sleeve 7 and the intermediate shaft 4 is released, thetooth groove 20 on the positioningmember 19 is engaged with the intermediate shaft gear 5, and theintermediate shaft sleeve 7 is engaged with the pendulum bar bearing 8 and thetransmission gear 10 only. In this way, the power of thetransmission gear 10 is transferred to thependulum bar 8 only, and the pendulum bar on the pendulum bar bearing 8 thus pushes the drill bit shaft of the electric hammer to realize simply the impacting mode. When theintermediate shaft sleeve 7 moves to be resisted against the intermediate shaft gear 5, the spline connection between the pendulum bar bearing 8 and theintermediate shaft sleeve 7 is released, thetooth groove 20 on the positioningmember 19 is disengaged from the intermediate shaft gear 5, and theintermediate shaft sleeve 7 is engaged with the intermediated shaft 4 and thetransmission gear 10 only. In this way, the power of thetransmission gear 10 is transferred to the intermediate shaft 4 only, and then transferred from the intermediate shaft 4 to the large gear engaged with the intermediate shaft gear 5 via the intermediate shaft gear 5. The rotation of the large gear pushes the drill bit shaft of the electric hammer to realize simply the drilling mode. When theintermediate shaft sleeve 7 is in the intermediate state, theintermediate shaft sleeve 7 is engaged with the intermediate shaft 4, the pendulum bar bearing 8 and thetransmission gear 10, respectively, and thetooth groove 20 on the positioningmember 19 is disengaged from the intermediate shaft gear 5. In this way, the drill bit shaft of the electric hammer may realize both the hammering mode and the drilling mode. In addition, during the rotation of theintermediate shaft sleeve 7, the outer ring of the displacement bearing 6 and the forkedfoot 13 are relatively still. - The embodiments described above are just preferred solutions of the present invention, and shall not be understood to form any limit in any form to the present invention.
Claims (9)
- A transmission switching device for electric hammers, comprising a transmission mechanism (1), a gearshift (2) and a knob connected with the gearshift (2), the transmission mechanism comprising an intermediate shaft (4) provided thereon with an intermediate shaft gear (5), the intermediate shaft (4) being provided with a transmission gear (10) at one end and a pendulum bar bearing (8) between the transmission gear (10) and the intermediate shaft gear (5), characterized in that the intermediate shaft (4) is sleeved with an intermediate shaft sleeve (7) between the transmission gear (10) and the intermediate shaft gear (5) with a clearance therebetween; a side face of the transmission gear (10), close to the intermediate shaft gear (5), extends outward to form a connection portion (22) sleeved with a clearance therebetween on the outer peripheral side of one end of the intermediate shaft sleeve (7) far away from the intermediate shaft gear (5); an end of the pendulum bar bearing (8), close to the transmission gear, is sleeved with a clearance therebetween on the outer peripheral side of the connection portion (22), while the other end of the pendulum bar bearing (8) is sleeved with a clearance therebetween on the intermediate shaft sleeve (7); keyway fitting structures that fit each other are provided between the inner peripheral surface of the other end of the intermediate shaft sleeve (7) and the intermediate shaft (4), between the outer peripheral surface of one end of the intermediate shaft sleeve (7) and the inner peripheral surface of the connection portion (22), and between the inner peripheral surface of the other end of the pendulum bar bearing (8) and the intermediate shaft sleeve (7); on the peripheral side of the other end of the intermediate shaft sleeve (7), provided is a displacement bearing (6), the inner ring of which is the intermediate shaft sleeve (7) while the outer ring of which is provided with a groove inside which the gearshift (2) is connected.
- The transmission switching device for electric hammers according to claim 1, is characterized in that the outer ring of the displacement bearing (6) axially extends outward along the intermediate shaft (4); the clearance between the inner peripheral surface of the extended portion (24) on the outer ring and the outer peripheral surface of the intermediate shaft sleeve (7) is far less than the diameter of a roll ball; and the groove (21) is positioned on the outer peripheral surface of the extended portion (24).
- The transmission switching device for electric hammers according to claim 2, is characterized in that the inner diameter of the other end of the intermediate shaft sleeve (7) is less than the outer diameter of the intermediate shaft gear (5) and the outer diameter of the displacement bearing (6) is greater than the inner diameter of the other end of the pendulum bar bearing (8).
- The transmission switching device for electric hammers according to claims 1 or 2 or 3, is characterized in that the keyway fitting structures are spline fitting structures.
- The transmission switching device for electric hammers according to claim 4, is characterized in that the distance from the end face of an inner end of a spline structure on the inner peripheral surface of the connection portion (22) to the outer end face of a spline structure on the inner peripheral surface of the other end of the pendulum bar bearing (8) is less than the maximum distance from the end face of inner end of the spline structure on the inner peripheral surface of the connection portion (22) to the end face close to one end of the connection portion of a spline structure by which the intermediate shaft sleeve (7) is fitted with the pendulum bar bearing (8), and the space between two opposite end faces of two spline structures on the outer peripheral surface of the intermediate shaft sleeve (7) is greater than the length of a spline structure on the pendulum bar bearing (8).
- The transmission switching device for electric hammers according to claim 4, is characterized in that the minimum distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion (22) to the end face of the other end of the intermediate shaft sleeve (7) is less than the distance from the end face of the inner end of the spline structure on the inner peripheral surface of the connection portion (22) to the end face of one end of the spline structure on the intermediate shaft (4) close to the connection portion (22).
- The transmission switching device for electric hammers according to claim 1, is characterized in that the pendulum bar bearing (8) is provided with a positioning bearing on one side close to the transmission gear (10), the inner ring of the pendulum bar bearing (8) being integrated with the inner ring of the positioning bearing, the outer ring of the positioning bearing extending outward to form a positioning plate that is in fixed connection with a positioning seat of an electric hammer.
- The transmission switching device for electric hammers according to claims 1, 2, 3, or 7, is characterized in that the gearshift (2) comprises a first toggle member (16), a second toggle member (18), a clamping member (15), a pin shaft (11) and a spring (17); the pin shaft (11) is arranged to be parallel to the intermediate shaft (4); two ends of both the first toggle member (16) and the second toggle member (18) extend along one side respectively to form side walls, so that both the first toggle member (16) and the second toggle member (18) are U-shaped as a whole; the pin shaft (11) passes through the two side walls of the first toggle member (16) and the second toggle member (18), respectively, with a clearance therebetween; one side wall of the first toggle member (16) being located between the two side walls of the second toggle member (18) while the other side wall of the first toggle member (16) being located on the outside of one side wall of the second toggle member (18); the spring (17) is sleeved on the pin shaft (11) with a clearance therebetween, one end of the spring (17) being resisted against one side wall of the first toggle member (16), while the other end of the spring (17) being resisted against one side wall of the second toggle member (18); one end of the clamping member (15) is sleeved on the pin shaft (11) with a clearance therebetween while the other end of the clamping member (15) is provided with a forked foot (13) fitted with the groove (21), the forked foot (13) being clamped into the groove (21), the clamping member (15) being located between the other side wall of the first toggle member (16) and one side wall of the second toggle member (18); and, the first toggle member (16) extends towards the outside of the other side wall to form a first L-shaped toggle foot (12) and the second toggle member (18) extends towards the outside of one side wall to form a second N-shaped toggle foot (14), a toggle rod offset by the knob being connected between the first toggle foot (12) and the second toggle foot (18).
- The transmission switching device for electric hammers according to claim 8, is characterized in that, between one side wall of the first toggle member (16) and the other side wall of the second toggle member (18), the pin shaft (11) is also provided with a positioning member (19), one end of which is sleeved on the pin shaft (11) with a clearance therebetween while the other end of which is provided with a tooth groove (20) fitted with the profile of teeth of the intermediate shaft gear (5).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210531228.4A CN102975174B (en) | 2012-12-11 | 2012-12-11 | Transmission switching device of electric hammer |
PCT/CN2013/085366 WO2014090041A1 (en) | 2012-12-11 | 2013-10-17 | Transmission switching device of electric hammer |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2767367A1 EP2767367A1 (en) | 2014-08-20 |
EP2767367A4 EP2767367A4 (en) | 2015-10-14 |
EP2767367B1 true EP2767367B1 (en) | 2016-12-07 |
Family
ID=47849670
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13840136.9A Not-in-force EP2767367B1 (en) | 2012-12-11 | 2013-10-17 | Transmission switching device of electric hammer |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP2767367B1 (en) |
CN (1) | CN102975174B (en) |
WO (1) | WO2014090041A1 (en) |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102975174B (en) * | 2012-12-11 | 2015-07-08 | 浙江奔宇工具有限公司 | Transmission switching device of electric hammer |
CN104455397B (en) * | 2014-11-17 | 2016-09-14 | 张家港市创基机械设备制造有限公司 | Shifter in three function electric hammer |
CN104455396B (en) * | 2014-11-17 | 2016-08-24 | 张家港市创基机械设备制造有限公司 | Shifter in four function electric hammers |
CN104942762A (en) * | 2015-06-05 | 2015-09-30 | 吴志明 | Electric hammer |
CN107627263B (en) * | 2017-09-30 | 2023-11-10 | 苏州宝时得电动工具有限公司 | Electric hammer |
CN107891402A (en) * | 2018-01-03 | 2018-04-10 | 尚才平 | The gearshift of three function electric hammer |
CN109555792B (en) * | 2018-12-05 | 2023-10-13 | 浙江亚特电器股份有限公司 | Electric hammer clutch device |
CN112296946B (en) * | 2019-07-23 | 2022-03-18 | 南京德朔实业有限公司 | Electric hammer |
CN115199739A (en) * | 2022-05-27 | 2022-10-18 | 浙江东立电器有限公司 | Gear adjusting device |
CN115045995A (en) * | 2022-05-27 | 2022-09-13 | 浙江东立电器有限公司 | Gear adjusting device and adjusting method thereof |
Family Cites Families (17)
Publication number | Priority date | Publication date | Assignee | Title |
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DE2820128A1 (en) * | 1978-05-09 | 1979-11-22 | Bosch Gmbh Robert | CRAFT MACHINE |
DE3039669A1 (en) * | 1980-10-21 | 1982-05-27 | Robert Bosch Gmbh, 7000 Stuttgart | DRILLING HAMMER |
DE3819125A1 (en) * | 1988-06-04 | 1989-12-14 | Bosch Gmbh Robert | DRILLING HAMMER |
JPH07328954A (en) * | 1994-06-09 | 1995-12-19 | Hitachi Koki Co Ltd | Hammer drill |
DE10355812A1 (en) * | 2003-11-28 | 2005-06-09 | Robert Bosch Gmbh | Power tool |
CN2707439Y (en) * | 2004-05-25 | 2005-07-06 | 铁鎯电动工具有限公司 | Three-function light electric hammer |
DE102004026845A1 (en) * | 2004-06-02 | 2005-12-22 | Robert Bosch Gmbh | Hand tool, in particular drill and / or percussion hammer |
DE102004058686A1 (en) * | 2004-09-03 | 2006-03-09 | Robert Bosch Gmbh | Power tool with a drive that can be switched over between the operating modes drilling, impact drilling, and chiseling |
DE102005056205A1 (en) * | 2005-11-25 | 2007-06-06 | Robert Bosch Gmbh | Rotary hammer with three operating modes |
DE102006027116A1 (en) * | 2006-06-12 | 2007-12-13 | Robert Bosch Gmbh | Electric hand tool e.g. boring and/or striking hammer, has intermediate shaft of electrical motor driving work spindle and/or drive of striking mechanism, and gear and coupling device exhibiting angular gear as gear |
CN1899772A (en) * | 2006-07-25 | 2007-01-24 | 常州赛迪电气制造有限公司 | Multifunctional electric hammer |
DE102010002672A1 (en) * | 2010-03-09 | 2011-09-15 | Robert Bosch Gmbh | hammer drill device |
CN202129475U (en) * | 2011-05-19 | 2012-02-01 | 博世电动工具(中国)有限公司 | Electric tool and transmission mechanism thereof |
CN202318260U (en) * | 2011-05-23 | 2012-07-11 | 博世电动工具(中国)有限公司 | Electric tool and transmission switching mechanism thereof |
CN102794751B (en) * | 2011-05-23 | 2017-02-01 | 博世电动工具(中国)有限公司 | Electric tool and transmission switching mechanism thereof |
CN102975174B (en) * | 2012-12-11 | 2015-07-08 | 浙江奔宇工具有限公司 | Transmission switching device of electric hammer |
CN203045678U (en) * | 2012-12-11 | 2013-07-10 | 浙江奔宇工具有限公司 | Transmission switching device of electric hammer |
-
2012
- 2012-12-11 CN CN201210531228.4A patent/CN102975174B/en active Active
-
2013
- 2013-10-17 EP EP13840136.9A patent/EP2767367B1/en not_active Not-in-force
- 2013-10-17 WO PCT/CN2013/085366 patent/WO2014090041A1/en active Application Filing
Also Published As
Publication number | Publication date |
---|---|
EP2767367A1 (en) | 2014-08-20 |
WO2014090041A1 (en) | 2014-06-19 |
CN102975174A (en) | 2013-03-20 |
EP2767367A4 (en) | 2015-10-14 |
CN102975174B (en) | 2015-07-08 |
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