CN211867685U - Hammer body with nail placing effect - Google Patents

Abstract

The utility model relates to a hammer block with put nail effect, be equipped with a body, a piece and a mounting beat, this body one end is equipped with a joint head, be equipped with a set department of establishing in this joint head department, this body is equipped with a holding rod at the other end, should beat the piece and combine together with this body and be equipped with a set and establish the post and one beat the piece, this set is established the post and is combined together with this joint head and be located this set department of establishing, should beat the piece and establish the post with this set and combine together and be located this joint head below, should beat the piece and be equipped with a nail ditch in the outer peripheral face recess, and be equipped with an at least magnetism in inside and inhale the piece, this at least magnetism is inhaled the piece and is exposed in this nail ditch department of putting, this mounting combines together with the cover of this piece of beating, through the nail ditch of putting of this piece, let the user can grip the body with the one hand and fix a position the nail body, provide the hammer block that has the nail effect.

Description

Hammer body with nail placing effect

Technical Field

The present invention relates to a hammer with nail-placing effect, and more particularly to a hammer with nail-placing effect which is convenient to use.

Background

The hammer or hammer used for fixing the nail body on the wood board, the cement wall or the metal plate in the existing industry needs to be fixed on the wood board, the cement wall or the metal plate in a mode of holding the nail body by one hand and holding the hammer by the other hand in a mode of striking the nail body by the hammer, however, in the process of striking the nail body by the hammer, the hand holding the nail body is easy to strike, and when the position of the nail body to be fixed is at a corner or a position with higher height, a user cannot position the nail body by hand, so that the subsequent operation of striking the nail body by the hammer cannot be smoothly carried out.

In addition, the conventional hammer is limited in structure and geometry, and cannot smoothly fix the nail body to a specific position (such as a corner or a higher position).

Furthermore, the hammer often bounces due to the counterforce during knocking, which not only shortens the contact time between the hammer and the nail body and easily causes the nail body to bend or deflect, but also converts the counterforce of the immediate rebound into the form loss of heat energy, noise and the like, so as to relatively reduce the force application efficiency of a user, i.e. the applied force is not fully applied to the nail body, so that the user needs to apply multiple knocking on the nail body to knock and fix the nail body into a wood board or a metal board, and the knocking times and the required time are relatively increased. In addition, when a user holds the handle of the hammer or the hammer, the user feels uncomfortable due to bouncing vibration generated during knocking.

In view of this, the existing hammer is limited to the structure and geometry, and cannot smoothly fix the nail body to a specific position (such as a corner or a higher position), which causes inconvenience in use; furthermore, the existing hammer generates a reaction force of instant rebounding when in use, which not only generates a certain degree of noise and uncomfortable feeling, but also affects the smoothness and controllability of the operation, and thus, the improvement is provided.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the defects and shortcomings of the existing hammer and other structures and uses, the inventor of the present invention develops a new hammer that can improve the defects through continuous research and test.

The utility model aims to provide a hammer block with put nail effect, it can not only place and fix a position the nail body through the structure configuration mode that retrencies, and can further avoid producing the reaction force of kick-backing immediately when strikeing, makes its reaction force produce the effect of postponing resilience (Delayed Rebound) to increase its face of strikeing and receive the time of contacting between the article of strikeing, and then provide the hammer block that has put nail effect of convenient to use and utensil shock attenuation effect.

To achieve the above object, the present invention provides a hammer with nail-placing effect, which comprises:

the body is provided with a connecting head at one end, a sleeving part is arranged at the connecting head of the body and is a through hole which penetrates through the body longitudinally, and a holding rod is arranged at one end of the body far away from the connecting head;

the knocking piece is combined with the body and is provided with a sleeved column and a knocking block, the sleeved column is combined with the combining head of the body and is positioned at the sleeved part, one end of the sleeved column extends out of the combining head through the through hole, the knocking block is combined with the sleeved column and is positioned below the combining head, the outer peripheral surface of the knocking block is concavely provided with a nail placing groove, the knocking block is internally provided with at least one magnetic suction piece, and one end surface of the at least one magnetic suction piece is exposed out of the nail placing groove; and

and the fixing piece is combined with the sleeving column of the knocking piece so as to combine the knocking piece with the body.

The hammer body with nail setting effect as described above, wherein the set of columns is provided with a locking structure combined with the fixing member.

The hammer body with the nail placing effect as described above, wherein the locking structure is an external thread disposed on the outer surface of the sleeve column, and the fixing member is provided with a locking hole through which an internal thread is disposed for screwing with the external thread of the locking structure.

The hammer body with nail placing effect as described above, wherein the nail placing groove is provided with a placing part at the top end, the placing part is used for placing the head of a nail body, and a step surface is formed between the placing part and the nail placing groove.

In the hammer body with the nail setting effect, the sheathing part is a through hole which penetrates through the position adjacent to the combining head, so that the sheathing column of the knocking piece extends out of the top surface of the body through the through hole.

The hammer body with nail setting effect as described above, wherein the locking structure of the sleeved column is a screw hole recessed in the top of the sleeved column, and the fixing member is a bolt combined with the screw hole.

The hammer body with nail setting effect as described above, wherein the locking structure of the sleeved column is a bolt recessed at the top of the sleeved column, and the fixing member is a nut combined with the bolt.

The hammer body with the nail placing effect as described above, wherein the body is convexly curved upwards at the top surface of the combining head to form a nail pulling part.

The hammer body with the nail setting effect as described above, wherein the sleeving portion is a receiving hole penetrating through the bottom of the coupling head, so that the sleeving column of the knocking member extends into the coupling head from the bottom of the coupling head through the receiving hole, and the fixing member is disposed in the receiving hole and combined with the sleeving column.

The hammer body with nail placing effect as described above, wherein the hammer body with nail placing effect is provided with an elastic member which is sleeved on the sleeved column and abuts against the top surfaces of the fixing member and the combining head.

The hammer body with the nail placing effect is provided with the elastic piece which is sleeved between the combining head and the knocking block.

The hammer body with the nail placing effect as described above, wherein the elastic element is a spring, rubber, silica gel, a metal gasket, an elastic metal block, or a block made of an elastic material with a fixed shape.

The hammer body with nail setting effect as described above, wherein the hammer body with nail setting effect is provided with a limiting structure between the body and the striking member, the limiting structure includes a receiving groove, a limiting groove and a limiting member, the receiving groove is a square groove axially recessed on the outer surface of the sleeve column and located above the elastic member, so that the receiving groove is communicated with the sleeve portion, the limiting groove is a long groove recessed inside the sleeve head from the bottom of the sleeve head, the limiting groove is communicated with the receiving groove from the sleeve portion, and the limiting member is disposed between the receiving groove and the limiting groove and is a cylindrical slider.

The hammer body with nail setting effect as described above, wherein the hammer body with nail setting effect has a limiting structure between the body and the striking member, the limiting structure includes an accommodating groove, a limiting groove and a limiting member, the accommodating groove is a semicircular groove body radially penetrating through the outer surface of the sleeve post, so that the accommodating groove is communicated with the sleeve portion, the limiting groove is a long groove concavely disposed inside the joint head through the bottom of the joint head, the limiting groove is communicated with the accommodating groove through the sleeve portion, and the limiting member is a spherical ball disposed between the semicircular groove body and the limiting groove.

The hammer body with nail placing effect as described above, wherein the hammer body with nail placing effect is provided with an elastic member which is sleeved on the sleeved column and abuts against the top surfaces of the fixing member and the combining head.

The hammer body with the nail placing effect is provided with the elastic element sleeved between the combining head and the fixing element.

As mentioned above, the hammer body with nail placing effect is provided with an elastic member sleeved between the combining head and the knocking block.

The hammer body with the nail placing effect as described above, wherein the elastic element is a spring, rubber, silica gel, a metal gasket, an elastic metal block, or a block made of an elastic material with a fixed shape.

The hammer body with nail setting effect as described above, wherein the fixing member is a fixing piece welded and combined with the set of columns and abutted against the combining head.

The hammer body with nail-placing effect as described above, wherein the body is transversely provided with a side hole through which the body is communicated with the sleeve portion, and the top surface of the joint head is convexly provided with a nail-pulling portion in an upward bending manner.

The hammer body with nail placing effect as described above, wherein the placing portion is a groove structure or a rib structure.

The hammer body with nail setting effect as described above, wherein the hammer body with nail setting effect is provided with an elastic member disposed in the set portion and abutting against the combination head and the top surface of the set post, and a limiting structure is disposed between the body and the striking member, the limiting structure is provided with a limiting groove and a limiting member, wherein the limiting groove is formed on the outer surface of the set post and located in the set portion, and the limiting member is a bolt transversely penetrating through the combination head and extending to the limiting groove through the set portion.

The hammer body with nail placing effect as described above, wherein the hammer body with nail placing effect is provided with a buffer member, the buffer member is sleeved on the sleeve column and located in the limiting groove, so that the buffer member abuts against the limiting member.

The hammer body with nail setting effect as described above, wherein the hammer body with nail setting effect is provided with a limiting structure, the limiting structure is provided with an accommodating groove, a limiting groove and a limiting part, wherein the accommodating groove penetrates through the combining head from outside to inside, is concavely arranged on the inner surface of the combining head and is communicated with the set portion, the limiting groove is concavely arranged on the outer surface of the set column in the set portion, and the limiting part is arranged between the accommodating groove and the limiting groove and is a long-strip-shaped bolt body which penetrates into the accommodating groove from outside to inside.

The hammer body with nail placing effect as described above, wherein the hammer body with nail placing effect is provided with an auxiliary elastic member, and the auxiliary elastic member is sleeved on the set column and abuts against the combining head and the knocking block.

The hammer body with nail setting effect as described above, wherein the hammer body with nail setting effect is provided with a limiting structure, the limiting structure is provided with a containing groove, two limiting grooves and two limiting members, wherein the containing groove is recessed in the outer surface of the sleeve-installed column in the sleeve-installed portion, the two limiting grooves are disposed between the sleeve-installed column and the coupling head, one limiting groove is recessed in the outer surface of the sleeve-installed column in the sleeve-installed portion and is away from the containing groove, the other limiting groove is disposed in the coupling head and is communicated with the sleeve-installed portion and the containing groove, the two limiting members are respectively disposed in the two limiting grooves and are located between the sleeve-installed column and the coupling head, one limiting member penetrates through the coupling head and is extended into the limiting groove away from the containing groove, and the other limiting member is disposed in the containing groove and can move along the limiting groove communicated with the containing groove.

The hammer body with the nail placing effect as described above, wherein the limiting member is a sphere or a cylinder.

The hammer body with nail placing effect as described above, wherein the hammer body with nail placing effect is provided with an elastic element and a buffer element, the elastic element is sleeved on the sleeved column and abuts against the combining head and the knocking block, and the buffer element is located between the sleeved portion and a fixing element combined with the sleeved column.

In the hammer body with the nail placing effect, the combination head is provided with a positioning groove in a concave manner on the bottom surface of the nail placing groove facing the knocking piece, and a magnetic piece is arranged in the positioning groove.

The hammer body with the nail placing effect is characterized in that the nail placing groove of the knocking piece is provided with the placing part, the placing part is concavely arranged on the outer surface of the knocking block, and the placing part is positioned below the top end of the nail placing groove, so that a step surface is formed between the placing part and the knocking block.

The hammer body with nail placing effect as described above, wherein the placing portion is an annular groove concavely disposed on the outer surface of the knocking block, and the annular groove is provided with an elastic body capable of being used for fixing the nail body.

The hammer body with the nail placing effect is characterized in that the knocking block is provided with a plurality of placing parts which are arranged at intervals up and down, and each placing part is an annular groove which is concavely arranged on the outer surface of the knocking block.

In the hammer body with nail-placing effect, the upper edge of each ring groove is a horizontal plane, and the lower edge is an inclined plane.

The hammer body with the nail placing effect is characterized in that an elastic body capable of being used for fixing the nail body is arranged in each annular groove.

The fixing member and the sleeve in all embodiments of the present invention are provided with a post, which can be a structure of a bolt or a nut, or a washer, which can be fixed by welding, and the use mode is not limited herein.

In summary, the hammer body with nail placing effect of the utility model can enable the user to conveniently position the nail body at the corner, the narrow part or the higher position in the way of holding the body with one hand by the way of arranging the nail placing groove through the knocking block when in use, and the nail body is not required to be positioned with two hands, thereby effectively avoiding the condition of mistaken knocking on the hand in the knocking process; furthermore, the utility model can lead the user to adjust the position of the nail placing groove relative to the combining head according to the position of the nail body to be positioned, and lead the nail body to be conveniently positioned along with the adjusted position of the nail placing groove; furthermore, the hammer body with the nail placing effect of the utility model is provided with the elastic piece, so that the user can be reminded of the knocking force by identifying whether the elastic piece is compressed, and the effects of force limitation, shock absorption and high stability are achieved; additionally, the utility model discloses have the hammer block of putting the nail effect, be equipped with this limit structure between this body and this piece of knocking, this limit structure can avoid should knocking the piece and rotate at the joint head of this body relatively of in-process that uses, provide and set up in this and put a spacing effect of the nail body in the nail ditch, make this nail body can not rotate at this body relatively of in-process that uses, can stabilize and accurately be positioned on fixings such as plank, use and provide one can facilitate the use, have the limit of force, shock attenuation and stability height and spacing effect's hammer block.

Drawings

Fig. 1 is a perspective view of a first preferred embodiment of the present invention.

Fig. 2 is a side sectional view of the first preferred embodiment of the present invention.

Fig. 3 is a bottom sectional view of the first preferred embodiment of the present invention, taken along line a-a in fig. 2.

Fig. 4 is an operation side sectional view of the first preferred embodiment of the present invention.

Fig. 5 is an operation diagram of the first preferred embodiment of the present invention.

Fig. 6 is a bottom sectional view of the first preferred embodiment of the present invention.

Fig. 7 is an operational side view of the first preferred embodiment of the present invention.

Fig. 8 is a partially enlarged sectional side view of a second preferred embodiment of the present invention.

Fig. 9 is a partially enlarged sectional side view of a third preferred embodiment of the present invention.

Fig. 10 is a partially enlarged sectional side view of a fourth preferred embodiment of the present invention.

Fig. 11 is a partially enlarged sectional side view of a fifth preferred embodiment of the present invention.

Fig. 12 is a partially enlarged sectional side view of a sixth preferred embodiment of the present invention.

Fig. 13 is a bottom sectional view of the sixth preferred embodiment of the present invention, as seen along section line B-B in fig. 12.

Fig. 14 is a partially enlarged sectional side view of a seventh preferred embodiment of the present invention.

Fig. 15 is a partially enlarged sectional side view of an eighth preferred embodiment of the present invention.

Fig. 16 is a partially enlarged sectional side view of a ninth preferred embodiment of the present invention.

Fig. 17 is a partially enlarged sectional side view of a tenth preferred embodiment of the present invention.

Fig. 18 is a partially enlarged sectional side view of an eleventh preferred embodiment of the present invention.

Fig. 19 is a partially enlarged sectional side view of a twelfth preferred embodiment of the present invention.

Fig. 20 is an enlarged, partially cross-sectional top view of the twelfth preferred embodiment of the present invention taken along the line C-C in fig. 19.

Fig. 21 is a partially enlarged sectional side view of a thirteenth preferred embodiment of the present invention.

Fig. 22 is a partially enlarged sectional side view of a fourteenth preferred embodiment of the present invention.

Fig. 23 is an enlarged, partially cross-sectional top view of the fourteenth preferred embodiment of the present invention taken along the line D-D in fig. 22.

Fig. 24 is a partially enlarged sectional side view of a fifteenth preferred embodiment of the present invention.

Fig. 25 is a partially enlarged sectional side view of a sixteenth preferred embodiment of the present invention.

Fig. 26 is a partially enlarged cross-sectional side view of a seventeenth preferred embodiment of the present invention.

Fig. 27 is a partially enlarged operation diagram of the seventeenth preferred embodiment of the present invention.

Fig. 28 is a side view of an eighteenth preferred embodiment of the present invention.

Fig. 29 is a side sectional view of an eighteenth preferred embodiment of the present invention.

Fig. 30 is an enlarged, partially cross-sectional top view of the eighteenth preferred embodiment of the present invention taken along section line E-E in fig. 29.

Fig. 31 is a side view of a plexor member of a nineteenth preferred embodiment of the present invention.

FIG. 32 is another side view of a plexor member of the nineteenth preferred embodiment of the present invention.

Fig. 33 is a top view of a plexor member of a nineteenth preferred embodiment of the present invention.

Detailed Description

For a detailed understanding of the technical features and the practical effects of the present invention, and to be realized in accordance with the teachings of the present invention, reference is made to the following detailed description of the preferred embodiments illustrated in the accompanying drawings, which are illustrated in the accompanying drawings:

the utility model relates to a hammer block with put nail effect please cooperate and refer to as shown in fig. 1 to 3a first preferred embodiment, should have and put hammer block with nail effect and be equipped with a body 10, one and strike a 20 and a mounting 30, wherein:

the body 10 is a bar-shaped body, a connection head 11 is disposed at one end of the body 10, wherein the body 10 is disposed with a sleeve portion 12 at the connection head 11, preferably, the sleeve portion 12 is a longitudinally penetrating circular through hole, and a holding rod 13 is disposed at one end of the body 10 away from the connection head 11, so that a user can hold the body 10 via the holding rod 13.

The knocking member 20 is detachably connected to the body 10 and has a circular sleeve post 21 and a knocking block 22, the sleeve post 21 is rotatably connected to the joint head 11 of the body 10, one end of the sleeve post 21 extends out of the joint head 11 through the through hole, the sleeve post 21 has a locking structure 23, preferably, the locking structure 23 is an external thread arranged on the outer surface of the sleeve post 21, the knocking block 22 is connected to the sleeve post 21 and located below the joint head 11 and can abut against the joint head 11, the knocking block 22 is axially recessed on the outer peripheral surface thereof with a nail groove 24 in an arc shape, a V shape or a square shape, preferably, the nail groove 24 is provided with a placing portion 241 at the top end thereof, the placing portion 241 is a groove structure, so that a step surface is formed between the placing portion 241 and the nail groove 24, the placing portion 241 is used for placing a head 61 of a nail body 60, preferably, the placing portion 241 can be formed by the nail placing groove 24, and a step surface formed by combining the size difference between the head 11 and the striking block 22 can be used as the placing portion 241; furthermore, the knocking block 22 is provided with at least one magnetic member 25 inside, and an end surface of the at least one magnetic member 25 is exposed out of the nail placing groove 24, so as to provide an absorbing effect for the nail body 60 disposed at the nail placing groove 24, so that the nail body 60 can be stably disposed at the nail placing groove 24; further, the utility model discloses do not set up this portion 241 of placeeing, let this nail body 60 through this nail ditch 24 of placeeing, make this head 61 can directly support and lean on the below department that combines head 11.

The fixing member 30 is coupled to the engaging post 21 of the striking member 20 and abuts against the coupling head 11 of the body 10, so as to couple the striking member 20 to the body 10, wherein the fixing member 30 is provided with a locking hole 31 through the fixing member, the locking hole 31 is coupled to the locking structure 23 of the engaging post 21, and preferably, the locking hole 31 is provided with an internal thread screwed with the external thread of the locking structure 23.

With the above technical features, please refer to fig. 4, when a nail body 60 is to be driven into a wood board 70 located at a corner or a higher position by the first preferred embodiment, a user sets the nail body 60 in the nail placing groove 24 of the driving piece 22, so that the head 61 of the nail body 60 is located at the placing portion 241 and abuts against the step surface, the nail body 60 located in the nail placing groove 24 is attracted to the at least one magnetic attraction member 25, and the nail body 60 can be stably combined with the driving piece 22 and set in the nail placing groove 24, so that the user can position the nail body 60 on the wood board 70 by pushing the head 61 of the nail body 60 through the combining head 11 of the main body 10 after swinging the holding rod 13 of the main body 10 without holding the nail body 60 with hands, and further separate the driving piece 22 from the nail body 60, and drive the driving piece 22 of the driving piece 20 to drive the head 61 of the nail body 60, the nail body 60 can be conveniently and smoothly knocked into the wood board 70, the situation that the hand is mistakenly knocked due to the fact that the nail body 60 needs to be positioned by the hand can be effectively avoided, the position of the nail body 60 to be arranged is not limited, and the use is relatively convenient.

Further, as shown in fig. 5 and 6, since the sleeve post 21 of the striking member 20 can rotate relative to the joint 11 of the body 10, the user can adjust the direction of the nail placing groove 24 relative to the body 10 by rotating the striking block 22 relative to the body 10 according to the position of the nail body 60 to be set, so that the nail body 60 can be set in different directions of the body 10 along with the position of the nail placing groove 24 relative to the body 10, thereby adjusting the position of the nail body 60 relative to the body 10 according to the position of the nail body 60 to be set, and further positioning the nail body 60 at a specific position such as a corner or a slit shown in fig. 7, so as to facilitate use and avoid the occurrence of a phenomenon of mistaken hand striking.

Through the technical characteristics, when the hammer body with the nail placing effect is used, the nail body 60 can be firmly combined with the knocking block 22 through the nail placing groove 24 and the at least one magnetic suction piece 25 arranged on the knocking block 22, and then the nail body 60 can be positioned on the fixed objects such as the wood board 70 and the like by one hand; furthermore, the user can adjust the position of the nail placing groove 24 relative to the joint head 11 by rotating the knocking block 22 relative to the body 10 according to the position of the nail body 60 to be positioned, so that the nail body 60 can be arranged at different positions of the body 10 according to the requirement, the use is convenient, the position can be adjusted according to the requirement, and the hammer body with the nail placing effect can be conveniently adjusted.

Referring now to the second preferred embodiment shown in fig. 8, the difference from the first preferred embodiment shown in fig. 1 to 3 is that: in the second preferred embodiment, the placing portion 241 'of the nail placing groove 24' is a rib structure to form a step surface for placing the head 61 of a nail body 60, and the nail body 60 used in this case is a nail body with a shorter length; further, when the short nail body 60 is used, the user can position the position of the nail body 60 to be set by pushing the nail body 60 through the step surface, and then perform further knocking operation, thereby avoiding the mistaken knocking on the hand of the user.

Please refer to the third preferred embodiment shown in fig. 9, which is different from the first preferred embodiment shown in fig. 1 to 3 in that: in the third preferred embodiment, the body 10A is provided with a nail pulling portion 14A at the top surface of the joint 11A, wherein the nail pulling portion 14A is a claw structure having a notch, so that the body 10A has an effect or function of pulling out the nail body 60, the engaging portion 12A is a through hole passing through the joint 11A, so that the engaging post 21A of the striking member 20A extends out of the top surface of the body 10A through the through hole, the locking structure 23A of the engaging post 21A is a screw hole recessed in the top of the engaging post 21A, the fixing member 30A is a bolt engaged with the screw hole, the bolt is provided with an external thread 33A engaged with the locking structure 23A, and preferably, the fixing member 30A is provided with at least one washer 32A between the bolt and the engaging post 21A.

Please refer to the fourth preferred embodiment shown in fig. 10, which is different from the third preferred embodiment shown in fig. 9 in that: in the fourth preferred embodiment, the engaging portion 12B is a receiving hole penetrating through the bottom of the coupling head 11B, so that the engaging post 21B of the striking element 20B extends into the coupling head 11B from the bottom of the coupling head 11B through the receiving hole, and the fixing element 30B is disposed in the receiving hole and has an external thread 33B engaging with the locking structure 23B.

Please refer to the fifth preferred embodiment shown in fig. 11, which is different from the first preferred embodiment shown in fig. 1 to 3 in that: in the fifth preferred embodiment, the top end of the set of post 21C extends out of the joint head 11C, the locking structure 23C is a screw hole recessed in the top of the set of post 21C, the fixing member 30C is a bolt engaged with the screw hole, the bolt is provided with an external thread 33C engaged with the locking structure 23C, further, the hammer body with nail setting effect is provided with an elastic member 40C engaged with the bolt and the top surface of the joint head 11C, and the elastic member 40C can generate friction force between the striking member and the joint head 11C to facilitate adjustment of the direction of the nail groove.

Please refer to the sixth preferred embodiment shown in fig. 12 and fig. 13, which is different from the fifth preferred embodiment shown in fig. 11 in that: in the sixth preferred embodiment, the elastic element 40D is disposed between the coupling head 11D and the striking block 22D, and the fixing element 30D is a bolt engaged with the screw hole of the sleeve post 21D, and the bolt abuts against the top surface of the coupling head 11D; further, the hammer body with nail placing effect is provided with a limiting structure 50D between the body 10D and the striking member 20D, the limiting structure 50D includes a containing groove 51D, a limiting groove 52D and a limiting member 53D, the containing groove 51D is a square groove (or an arc groove) axially recessed in the outer surface of the set of post 21D and located above the elastic member 40D, so that the containing groove 51D is communicated with the set portion 12D, the limiting groove 52D is a long groove recessed in the interior of the combining head 11D through the bottom of the combining head 11D, the limiting groove 52D is communicated with the containing groove 51D through the set portion 12D, the limiting member 53D is arranged between the containing groove 51D and the limiting groove 52D and is a cylindrical slider, and the locking member 30D has an external thread 33D combined with the locking structure 23D.

In the process of knocking the nail body 60, the knocking block 22D compresses the elastic member 40D to be relatively close to or far from the joint 11D of the body 10D, so that the limiting member 53D slides relative to the limiting groove 52D along with the accommodating groove 51D of the set of posts 21D, and the limiting member 53D slides in the limiting groove 52D, thereby preventing the knocking block 22D from rotating relative to the joint 11D of the body 10D during the use process, i.e., generating a limiting effect on the nail body 60 disposed in the nail groove 24D relative to the body 10D, preventing the nail body 60 from rotating relative to the body 10D during the use process, and stably and accurately positioning the nail body on a fixed object such as a wood board 70.

Please refer to the seventh preferred embodiment shown in fig. 14, which is different from the sixth preferred embodiment shown in fig. 12 in that: in the seventh preferred embodiment, the fixing member 30E is fixedly combined with the sleeved column 21E extending out of the top of the combining head 11E, and preferably, the fixing member 30E is a fixing piece fixedly combined with the sleeved column 21E by welding and abutted against the combining head 11E; please refer to the eighth preferred embodiment shown in fig. 15, which is different from the seventh preferred embodiment shown in fig. 14 in that: in the eighth preferred embodiment, the receiving groove 51F is a semicircular groove radially recessed on the outer surface of the set post 21F, and the limiting member 53F is a spherical ball located between the semicircular groove and the limiting groove 52F; please refer to the ninth preferred embodiment shown in fig. 16, which is different from the eighth preferred embodiment shown in fig. 15 in that: in the ninth preferred embodiment, the main body 10G is transversely provided with a side hole 15G communicating with the engaging portion 12G, and a nail pulling portion 14G is upwardly bent and protruded at the top surface of the connecting head 11G. In the eighth preferred embodiment and the ninth preferred embodiment, the gap between the receiving groove 51F and the spacing member 53F and the spacing groove 52F can be changed to determine the rotatable range and degree of the set of posts 21F,21G, i.e. under the condition of setting the spacing structures 50F,50G, the user can rotate the set of posts 21F,21G relative to the main body 10F,10G through the gap to adjust the rotation position of the nail placing grooves 24F,24G relative to the main body 10F, 10G.

Please refer to the tenth preferred embodiment shown in fig. 17, which is different from the fourth preferred embodiment shown in fig. 10 in that: in the tenth preferred embodiment, the hammer body with nail setting effect is provided with an elastic member 40H disposed in the set portion 12H and abutting against the top surfaces of the joint head 11H and the set post 21H, and a position-limiting structure 50H is disposed between the body 10H and the striking member 20H, the position-limiting structure 50H is provided with a position-limiting groove 52H and a position-limiting member 53H, wherein the position-limiting groove 52H is formed on the outer surface of the set post 21H and is located in the set portion 12H, preferably, the position-limiting groove 52H is an annular groove structure, the position-limiting member 53H is a bolt transversely penetrating through the joint head 11H and extending through the set portion 12H to the position-limiting groove 52H, so that the striking member 20H is in a position-limiting relationship with the position-limiting groove 52H through the position-limiting member 53H and is not separated from the joint head 11H of the body 10H, and the elastic element 40H is disposed between the coupling head 11H and the mounting post 21H. The knocking member 20H can be rotated to change the rotation direction of the nail placing groove 24H.

Please refer to the eleventh preferred embodiment shown in fig. 18, which is different from the tenth preferred embodiment shown in fig. 17 in that: in the eleventh preferred embodiment, the hammer body with nail setting effect is provided with a buffer 80I, the buffer 80I is an annular structure, and is sleeved on the set of pillars 21I and located in the limiting groove 52I, so that the buffer 80I abuts against the limiting part 53I, thereby reducing the damage caused by the collision between the set of pillars 21I and the limiting part 53I when the striking member 20I moves relative to the body 10I, and further prolonging the service life of the hammer body with nail setting effect.

Please refer to the twelfth preferred embodiment shown in fig. 19, which is different from the eleventh preferred embodiment shown in fig. 18 in that: in the twelfth preferred embodiment, the limiting structure 50J of the hammer body with nail placing effect is provided with an accommodating groove 51J, a limiting groove 52J and a limiting piece 53J, wherein the accommodating groove 51J penetrates through the combining head 11J from outside to inside, is concavely arranged on the inner surface of the combining head 11J and is communicated with the sheathing part 12J, the limiting groove 52J is a long annular groove concavely arranged on the outer surface of the sheathing post 21J and is located in the sheathing part 12J, the limiting piece 53J is arranged between the accommodating groove 51J and the limiting groove 52J, and is a strip-shaped bolt body as shown in fig. 20, and penetrates through the accommodating groove 51J from outside to inside, so that the knocking piece 20J is limited by the limiting structure 50J and cannot be separated from the main body 10J, and the knocking piece 20J can rotate relative to the combining head 11J.

Please refer to the thirteenth preferred embodiment shown in fig. 21, which is different from the twelfth preferred embodiment shown in fig. 19 in that: in the thirteenth preferred embodiment, the hammer body with nail placing effect is provided with an auxiliary elastic member 90K, and the auxiliary elastic member 90K is sleeved on the set of columns 21K and abuts against the combining head 11K and the knocking block 22K, so as to provide a shock absorbing and absorbing effect to the hammer body with nail placing effect during the knocking process.

Please refer to the fourteenth preferred embodiment shown in fig. 22, which is different from the tenth preferred embodiment shown in fig. 17 in that: in the fourteenth preferred embodiment, the position-limiting structure 50L is provided with a receiving slot 51L, two position-limiting slots 52L,52L 'and two position-limiting elements 53L, 53L', wherein the receiving slot 51L is concavely disposed on the outer surface of the sleeve-installed column 21L located in the sleeve-installed portion 12L, the two position-limiting slots 52L,52L 'are disposed between the sleeve-installed column 21L and the coupling head 11L, one position-limiting slot 52L is concavely disposed on the outer surface of the sleeve-installed column 21L located in the sleeve-installed portion 12L and is far away from the receiving slot 51L, the other position-limiting slot 52L' is a long slot disposed inside the coupling head 11L and is communicated with the sleeve-installed portion 12L and the receiving slot 51L, the two position-limiting elements 53L,53L 'are respectively disposed in the two position-limiting slots 52L, 52L' and are located between the sleeve-installed column 21L and the coupling head 11L, wherein one position-limiting element 53L is a position-limiting element 52L that is disposed in the coupling head and is far away from the receiving slot 51L, the other limiting piece 53L 'is disposed in the accommodating slot 51L and can move along the limiting slot 52L' communicated with the accommodating slot 51L; further, please refer to fig. 23, in which the position-limiting member 53L' of the position-limiting structure 50L located in the accommodating slot 51L is a sphere.

Please refer to the fifteenth preferred embodiment shown in fig. 24, the elastic element 40M is sleeved on the sleeved column 21M and abuts against the coupling head 11M and the striking block 22M, and the buffer element 80M is located between the sleeved portion 12M and a fixing element 30M coupled to the sleeved column 21M, so as to provide a buffering effect to the fixing element 30M when the striking element 20M moves relative to the coupling head 11M.

Please refer to the sixteenth preferred embodiment shown in fig. 25, a positioning groove 111N is concavely formed on the bottom surface of the coupling head 11N facing the nail placing groove 24N of the knocking member 20N, and a magnetic member 112N is disposed in the positioning groove 111N, so that the head 61 of the nail body 60 can be attracted to the magnetic member 112N through the positioning groove 111N, and the nail body 60 can be firmly clamped between the coupling head 11N and the knocking block 22N.

Referring to the seventeenth preferred embodiment shown in FIG. 26, the difference from the sixteenth preferred embodiment shown in FIG. 25 is: in the seventeenth preferred embodiment, the placing portion 241P of the nail placing groove 24P of the striking element 20P is concavely disposed on the outer surface of the striking block 22P, and the placing portion 241P is located below the top end of the nail placing groove 24P, so that a step surface is formed between the placing portion 241P and the striking block 22P, when in use, the nail body 60 (long nail body) can be disposed in the positioning groove 111P of the coupling head 11P to attract the magnetic element 112P as shown in fig. 26, or the head portion 61 of the nail body 60 (short nail body) can be clamped in the placing portion 241P as shown in fig. 27 for use; further, when using the short nail body 60, the user can position the position to be knocked by the nail body 60 in a manner that the nail body 60 is pushed against the nail body 60 by the knocking block 22P after the nail body 60 is disposed on the placing portion 241P, and then further knocking operation is performed.

Please refer to the eighteenth preferred embodiment shown in fig. 28 and 30, which is different from the seventeenth preferred embodiment shown in fig. 26 in that: in the eighteenth preferred embodiment, the placing portion 241Q is an annular groove recessed on the outer surface of the striking block 22Q, and an elastic body such as a rubber band 26Q is tied on the annular groove, which can be used to fix the nail body 60 on the striking block 22Q, providing an effect of assisting in fixing the nail body 60. Wherein the shank 60 can be slid out of the elastic band 26Q after it is secured in the pre-set position as shown in fig. 29. When the nail body 60 is used next time, the nail body 60 can be fixed on the knocking block 22Q only by sleeving the nail body 60 into the rubber band 26Q.

Please refer to the nineteenth preferred embodiment shown in fig. 31 to 33, which is different from the eighteenth preferred embodiment shown in fig. 28 in that: in the nineteenth preferred embodiment, the placement groove 24R of the knocking block 22R of the knocking member 20R has a placement portion 241R in the form of a plurality of ring grooves, which are disposed on the knocking block 22R at intervals from top to bottom, wherein the ring grooves at different positions from top to bottom can be used with long or short nail bodies having different lengths; further, the annular groove can be designed to have a horizontal upper edge and an inclined lower edge, so as to prevent the head 61 of the nail body 60 from being clamped in the placing portion 241R during the knocking and positioning process, and facilitate the nail body 60 to slide out of the rubber band.

To sum up, the hammer body with nail placing effect of the utility model can be used in a way that the knocking block 22,22C and 22D are provided with the nail placing groove 24 and 24D, so that a user can hold the body 10,10A,10D and 10G with one hand, conveniently position the nail body 60 at a corner, a narrow place or a higher place, and the nail body 60 is not required to be positioned by two hands, thereby effectively avoiding the situation of mistaken knocking on the hand in the knocking process; furthermore, the structural configuration of the first to fourth preferred embodiments of the present invention allows the user to adjust the position of the nail placing groove 24,24 ', 24D relative to the joint head 11,11A,11B,11C according to the position to be positioned of the nail body 60, so that the nail body 60 can be conveniently positioned along with the adjusted position of the nail placing groove 24, 24', 24D; furthermore, the hammer body with nail placing effect of the utility model is provided with the elastic part 40D in the fifth to eighth preferred embodiments, so that the user can be reminded of the knocking force by identifying whether the elastic part 40D is compressed, and the effects of force limitation, shock absorption and high stability are achieved; in addition, the utility model discloses hammer block with put nail effect is equipped with this limit structure 50D between this body 10D,10G and this strike and be equipped with between 20D, this limit structure 50D can avoid should strike piece 22D this body 10D relatively in the in-process that uses, 10G's joint head 11D,11E,11G rotates, provide and set up this nail body 60 a spacing effect of putting in nail ditch 24D, make this nail body 60 can not be in the in-process that uses this body 10D relatively, 10G rotates, can stabilize and accurately be positioned on fixings such as plank 70, use and provide one can facilitate the use, have the limit force, shock attenuation and stability are high and the hammer block of spacing effect.

The utility model discloses a fixed part 30,30A,30C,30E and cover in all embodiments establish post 21,21A,21B,21C,21E,21F, can be each other the structure of bolt or nut, or with welded fastening, also can arrange the packing ring, do not limit the use mode here.

The above, it is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, and the ordinary skilled person in any technical field can use the present invention to make the local change or modification equivalent embodiment without departing from the technical solution of the present invention.

Claims (40)

1. The utility model provides a hammer block with put nail effect which characterized in that is equipped with:

the body is provided with a connecting head at one end, a sleeving part is arranged at the connecting head of the body, the sleeving part is a through hole which penetrates through the body longitudinally, and a holding rod is arranged at one end of the body far away from the connecting head;

the knocking piece is combined with the body and is provided with a sleeved column and a knocking block, the sleeved column is combined with the combining head of the body and is positioned at the sleeved part, one end of the sleeved column extends out of the combining head through the through hole, the knocking block is combined with the sleeved column and is positioned below the combining head, the outer peripheral surface of the knocking block is concavely provided with a nail placing groove, the knocking block is internally provided with at least one magnetic suction piece, and one end surface of the at least one magnetic suction piece is exposed out of the nail placing groove; and

and the fixing piece is combined with the sleeving column of the knocking piece so as to combine the knocking piece with the body.

2. The hammer with nailing effect of claim 1 wherein the set of posts is provided with a locking structure which engages with the fastener.

3. The hammer with nailing effect of claim 2, wherein the locking structure is an external thread provided on the outer surface of the sleeve, and the fixing member is provided with a locking hole therethrough, the locking hole being provided with an internal thread for screwing with the external thread of the locking structure.

4. The hammer with nail placing effect of claim 3, wherein the nail placing groove is provided with a placing portion at the top end for placing a head of a nail body, and a step surface is formed between the placing portion and the nail placing groove.

5. The hammer with nailing effect of any one of claims 1 to 4, wherein the locking structure of the set of columns is a screw hole recessed in the top of the set of columns, and the fixing member is a bolt engaged with the screw hole.

6. The hammer with nailing effect of any of claims 1-4, wherein the locking structure of the set of columns is a bolt disposed on the top of the set of columns, and the fastener is a nut combined with the bolt.

7. The hammer with nailing effect of claim 5, wherein the body is curved upwards at the top surface of the joint to form a nail-pulling portion.

8. The hammer with nailing effect of claim 6, wherein the body is curved upwards at the top surface of the joint to form a nail-pulling portion.

9. The hammer with nailing effect of claim 1, wherein the engaging portion is a receiving hole passing through the bottom of the coupling head, so that the engaging post of the striking member extends into the coupling head from the bottom of the coupling head through the receiving hole, and the fixing member is disposed in the receiving hole and engaged with the engaging post.

10. The hammer with nail setting effect of claim 7, wherein the hammer with nail setting effect is provided with an elastic member sleeved on the sleeved column and abutting against the fixing member and the top surface of the combining head.

11. The hammer with nailing effect of claim 8, wherein the hammer with nailing effect is provided with an elastic member sleeved on the sleeved column and abutting against the fixing member and the top surface of the joint head.

12. The hammer with nailing effect of claim 10, wherein the elastic member is a spring, rubber, silicone, metal washer, elastic metal block or a block made of elastic material with fixed shape.

13. The hammer with nailing effect of claim 11, wherein the elastic member is a spring, rubber, silicone, metal washer, elastic metal block or a block made of elastic material with fixed shape.

14. The hammer with nail setting effect of any one of claims 1 to 4, wherein the hammer with nail setting effect is provided with an elastic member sleeved between the combining head and the striking block.

15. The hammer with nail-setting effect of claim 12, wherein the hammer with nail-setting effect has a limiting structure disposed between the body and the striking member, the limiting structure includes a receiving groove, a limiting groove and a limiting member, the receiving groove is a square groove axially recessed on the outer surface of the set of posts and located above the elastic member, such that the receiving groove is communicated with the set of portions, the limiting groove is a long groove recessed inside the coupling head from the bottom of the coupling head, the limiting groove is communicated with the receiving groove from the set of portions, and the limiting member is disposed between the receiving groove and the limiting groove and is a cylindrical slider.

16. The hammer with nail-setting effect of claim 13, wherein the hammer with nail-setting effect has a limiting structure disposed between the body and the striking member, the limiting structure includes a receiving groove, a limiting groove and a limiting member, the receiving groove is a square groove axially recessed on the outer surface of the set of posts and located above the elastic member, such that the receiving groove is communicated with the set of portions, the limiting groove is a long groove recessed inside the coupling head from the bottom of the coupling head, the limiting groove is communicated with the receiving groove from the set of portions, and the limiting member is disposed between the receiving groove and the limiting groove and is a cylindrical slider.

17. The hammer with nail-setting effect as claimed in claim 15, wherein the hammer with nail-setting effect has a limiting structure disposed between the body and the striking member, the limiting structure includes a receiving groove, a limiting groove and a limiting member, the receiving groove is a semicircular groove radially penetrating the outer surface of the sleeve post, such that the receiving groove is communicated with the sleeve portion, the limiting groove is a long groove recessed inside the joint head from the bottom of the joint head, the limiting groove is communicated with the receiving groove from the sleeve portion, and the limiting member is a spherical ball disposed between the semicircular groove and the limiting groove.

18. The hammer with nail-setting effect as claimed in claim 16, wherein the hammer with nail-setting effect has a limiting structure disposed between the body and the striking member, the limiting structure includes a receiving groove, a limiting groove and a limiting member, the receiving groove is a semicircular groove radially penetrating the outer surface of the sleeve post, such that the receiving groove is communicated with the sleeve portion, the limiting groove is a long groove recessed inside the joint head from the bottom of the joint head, the limiting groove is communicated with the receiving groove from the sleeve portion, and the limiting member is a spherical ball disposed between the semicircular groove and the limiting groove.

19. The hammer with nailing effect of claim 17, wherein the hammer with nailing effect is provided with an elastic member sleeved between the combining head and the striking block.

20. The hammer with nailing effect of claim 18, wherein the hammer with nailing effect is provided with an elastic member sleeved between the combining head and the striking block.

21. The hammer with nailing effect of claim 17, wherein the hammer with nailing effect is provided with an elastic member sleeved between the combining head and the fixing member.

22. The hammer with nailing effect of claim 18, wherein the hammer with nailing effect is provided with an elastic member sleeved between the combining head and the fixing member.

23. The hammer with nailing effect of any of claims 1 to 4, wherein the fixing member is a fixing plate welded to the set of columns and abutting against the joint head.

24. The hammer with nailing effect of any of claims 1 to 4, wherein the body is transversely provided with a side hole through which the sleeve is communicated, and a nail pulling part is convexly provided at the top surface of the joint head in an upward bending manner.

25. The hammer with nail placing effect of claim 4, wherein the placing portion is a groove structure.

26. The hammer with nail placing effect of claim 4, wherein the placing portion is a rib structure.

27. The hammer with nail setting effect of claim 1, wherein the hammer with nail setting effect has an elastic member disposed in the set portion and abutting against the coupling head and the top surface of the set of posts, and a position-limiting structure is disposed between the body and the striking member, the position-limiting structure has a position-limiting groove and a position-limiting member, wherein the position-limiting groove is formed on the outer surface of the set of posts and disposed in the set portion, and the position-limiting member is a bolt transversely passing through the coupling head and extending to the position-limiting groove through the set portion.

28. The hammer with nailing effect of claim 27, wherein the hammer with nailing effect is provided with a buffer member, the buffer member is sleeved on the sleeve column and located in the limiting groove, so that the buffer member abuts against the limiting member.

29. The hammer with nail setting effect of claim 1, wherein the hammer with nail setting effect is provided with a limiting structure, the limiting structure is provided with a receiving slot, a limiting slot and a limiting member, wherein the receiving slot penetrates through the coupling head from outside to inside, is recessed in the inner surface of the coupling head and is communicated with the sleeve portion, the limiting slot is recessed in the outer surface of the sleeve portion, and the limiting member is disposed between the receiving slot and the limiting slot and is an elongated bolt which penetrates into the receiving slot from outside to inside.

30. The hammer with nailing effect of claim 29, wherein the hammer with nailing effect is provided with an auxiliary elastic member, the auxiliary elastic member is sleeved on the sleeve column and abuts against the combining head and the knocking block.

31. The hammer with nail placing effect of claim 1, wherein the hammer with nail placing effect is provided with a limiting structure, the limiting structure is provided with a containing groove, two limiting grooves and two limiting pieces, wherein the accommodating groove is concavely arranged on the outer surface of the sleeving part of the sleeving column, the two limit grooves are arranged between the sleeving column and the combining head, one of the limiting grooves is concavely arranged on the outer surface of the sleeving part of the sleeving column and is far away from the accommodating groove, the other limiting groove is arranged in the combining head and is communicated with the sleeving part and the accommodating groove, the two limiting pieces are respectively arranged at the two limiting grooves and are positioned between the sleeving column and the combining head, one of the limiting members penetrates through the combining head and extends into the limiting groove far away from the accommodating groove, and the other limiting member is arranged in the accommodating groove and can move along the limiting groove communicated with the accommodating groove.

32. The hammer with nailing effect of claim 31, wherein the retaining member is a sphere.

33. The hammer with nailing effect of claim 31, wherein the retaining member is a cylinder.

34. The hammer with nailing effect of claim 1, wherein the hammer with nailing effect is provided with an elastic member and a buffer member, the elastic member is sleeved on the set of posts and abuts against the coupling head and the knocking block, and the buffer member is located between the sleeved portion and a fixing member coupled with the set of posts.

35. The hammer with nailing effect of claim 1, wherein the coupling head is recessed with a positioning groove at the bottom surface of the nailing channel facing the knocking member, and a magnetic member is disposed in the positioning groove.

36. The hammer with nail placing effect of claim 1, wherein the nail placing groove of the striking member is provided with a placing portion, the placing portion is concavely arranged on the outer surface of the striking block, and the placing portion is positioned below the top end of the nail placing groove, so that a step surface is formed between the placing portion and the striking block.

37. The hammer with nail placing effect of claim 36, wherein the placing portion is an annular groove recessed in the outer surface of the striking block, and an elastic body capable of fixing the nail body is disposed in the annular groove.

38. The hammer with nailing effect of claim 36 wherein the strike block has a plurality of spaced apart seats, each seat being an annular groove recessed into the outer surface of the strike block.

39. The hammer with nailing effect of claim 38 wherein the upper edge of each ring groove is a horizontal plane and the lower edge is a bevel configuration.

40. The hammer with nailing effect of claim 38 or 39, wherein each annular groove is provided with an elastic body capable of fixing the nail body.

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