阅读说明：本技术 一种板材刨选加工生产装置 (Panel is dug and is selected processing apparatus for producing ) 是由 祝先堂 于 2020-11-19 设计创作，主要内容包括：本发明提供了一种板材刨选加工生产装置,包括主体、操作台和刨木轴,主体同将板材放置到顶端固定连接的操作台上进行推动,操作台上推动板材移动时其底端会与安装槽中的刨木轴凸出的底端部分接触,刨木轴一端与电机连接使得刨木轴能够产生旋转对接触到表面的板材进行刨木；偏移块,偏移块为通过两侧圆轴凸起插合嵌合设置于在安装槽中部偏移槽中的弧形弯曲长方形状方块。该种板材刨选加工生产装置设置有偏移槽,通过安装槽中部的偏移槽能够让刨木轴在旋转的时候带动其偏移块在偏移槽中进行移动,从而接触贴合到贯穿凸出在贴合槽中的位移轴带动其旋转,通过位移轴旋转让活塞块在吸附块中反复的进行移动产生其抽吸原理对木屑进行一定的吸附收集,使得在进行刨木的过程中木屑不会堆积在板材的底端影响其板材的刨选。(The invention provides a plate planing, selecting and processing production device which comprises a main body, an operating platform and a planing shaft, wherein the main body and the operating platform fixedly connected with the top end of a plate are placed on for pushing, the bottom end of the plate is contacted with the protruded bottom end part of the planing shaft in a mounting groove when the plate is pushed to move on the operating platform, and one end of the planing shaft is connected with a motor so that the planing shaft can rotate to plane the plate contacted with the surface; the offset block is an arc-shaped bent rectangular square block which is arranged in the offset groove in the middle of the mounting groove in an inserting and embedding manner through circular shaft bulges on two sides. This panel is dug and is selected processing apparatus for producing is provided with the skew groove, can let plane wooden axle drive its skew piece in the rotation and remove in the skew groove through the skew groove at mounting groove middle part to the contact is laminated and is driven its rotation to the displacement axle that runs through the protrusion in laminating groove, moves through displacement axle rotation transfer piston piece relapse in adsorbing the piece and produces its suction principle and carry out certain absorption collection to the saw-dust, makes the in-process saw-dust of digging can not pile up the plane of influencing its panel in the bottom of panel and selects.)

1. A plate planing, selecting and processing production device comprises a main body (1), an operating table (2) and a planing shaft (3), wherein the main body (1) and the operating table (2) fixedly connected with the top end of a plate are placed to push the plate, the bottom end of the plate pushed to move on the operating table (2) is contacted with the protruding bottom end part of the planing shaft (3) in a mounting groove (201), one end of the planing shaft (3) is connected with a motor, so that the planing shaft (3) can rotate to plane the plate contacted with the surface, and the plate planing device is characterized in that the planing shaft (3) is connected with a motor;

the offset block (204) is an arc-shaped bent rectangular square block which is arranged in an offset groove (2011) in the middle of the mounting groove (201) in an inserting and embedding manner through circular shaft protrusions on two sides.

2. The board planing process production unit according to claim 1, wherein: the operating platform (2) comprises;

the mounting groove (201) is a groove formed in the middle of the top end of the operating platform (2) in an arc-shaped bending mode, the groove of the mounting groove (201) is embedded with the wood planing shaft (3), and the top end portion of the wood planing shaft (3) is arranged at the top end of the groove of the mounting groove (201) in a protruding mode;

the collecting groove (202) is a rectangular groove formed in the top end of the operating platform (2) and close to two sides of the mounting groove (201);

the adsorption block (203) is an arc-shaped bent lug fixedly connected to one side of the groove fitting installation groove (201) of the collecting groove (202);

the offset blocks (204) are a plurality of rectangular square blocks which are embedded in the arc bending arrangement in the middle of the installation groove (201), the positions of the square blocks of the offset blocks (204) are arranged in a staggered manner, the lengths of the offset blocks (204) are arranged in sequence from long to short, and then the surfaces of two sides of the offset blocks (204) are provided with thread-shaped groove marks.

3. The board planing process production unit according to claim 2, wherein: the mounting groove (201) comprises;

the offset groove (2011) is a groove with a semicircular inner wall in the middle of the mounting groove (201), and the offset blocks (204) are sequentially arranged in the semicircular groove of the offset groove (2011) in a staggered mode;

the communicating groove (2012) is a hollow arrangement at one side of the semicircular groove of the offset groove (2011), and the communicating groove (2012) and the offset block (204) are arranged in a consistent and staggered manner;

the inclined rail (2013) is a semicircular annular groove which is formed in the mode that two sides of the middle of the semicircular annular groove of the inclined groove (2011) are integrally obliquely arranged, and threaded groove marks are fixedly connected to the surfaces of two sides of the middle of the semicircular annular groove of the inclined rail (2013).

4. The board planing process production unit according to claim 2, wherein: the middle part of the top end of the adsorption block (203) extends inwards to form a rectangular groove which is arranged in a circular arc bending way, and the adsorption block (203) also comprises a groove;

the piston block (2031) is an arc-bent rectangular square block which is embedded in a groove in the middle of the top end of the adsorption block (203), and one side of the piston block (2031) is elastically connected with one end of the groove in the middle of the top end of the adsorption block (203) through an elastic telescopic guide rod;

the displacement shaft (2032), the said displacement shaft (2032) is the round shaft that is set up in the middle part of the piston block (2031) through the jogging, and the both sides of the round shaft of the displacement shaft (2032) are set up in the surface of both sides of the piston block (2031) protrudingly, there are groove marks jogged with both sides surface of the offset block (204) at the same time on the peripheral surface of the round shaft of the displacement shaft (2032);

the displacement groove (2033) is an arc-shaped groove at the middle side of the groove at the top end of the adsorption block (203), the groove and the displacement shaft (2032) are partially embedded on the surface of one side of the piston block (2031) in a protruding way, and the surface of the groove of the displacement groove (2033) is provided with a groove mark embedded with the surface of the displacement shaft (2032);

the piston block (2031) is provided with an attaching groove (2034), the attaching groove (2034) is a rectangular groove in the middle of the surface of the arc-shaped bent groove of the adsorbing block (203), the displacement shaft (2032) is convexly arranged on the groove which is formed by partially penetrating through the attaching groove (2034) on the other side surface of the piston block (2031), and the attaching groove (2034) is communicated with the communicating groove (2012) at the same time.

5. The board planing process production unit according to claim 2, wherein: the offset block (204) comprises;

the sleeve joint ring (2041), the sleeve joint ring (2041) is a hollow circular ring fixedly connected with one end surface of the offset block (204);

the friction shaft (2042) is a circular shaft sleeved at one end of the offset block (204), two ends of the friction shaft (2042) are fixedly connected with circular shaft protrusions with diameters being embedded with grooves of the inclined rails (2013), and meanwhile thread grooves embedded with thread groove marks on the surfaces of two sides of the middle of the grooves of the inclined rails (2013) are formed in the peripheral surface of the friction shaft (2042);

the sleeve joint groove (2043) is a circular groove, the peripheral surface of the friction shaft (2042) is embedded with the sleeve joint ring (2041), and the sleeve joint groove (2043) is a circular groove.

Technical Field

The invention relates to the technical field of plate processing, in particular to a plate planing and selecting processing device.

Background

The panel is dug and is selected the device and indicate to carry out certain cutting and polishing to ligneous surface, make the surface of its panel can be more level and smooth, can carry out more accurate control adjustment to the thickness of panel simultaneously, but the current panel is dug and is selected processingequipment's plane and select all to dig the wood to the bottom of timber through digging the rotation of selecting the roller on selecting the roller through removing panel, and can lead to having a large amount of saw-dusts to produce the bottom department of piling up panel like this, make the stationarity that influences panel promotion easily when promoting panel to dig the selection make and dig the problem that the selection in-process leads to panel surface unevenness.

Disclosure of Invention

The invention aims to solve the technical problem that a large amount of sawdust generated by a panel planing and selecting processing device in the process of pushing the panel planing and selecting is accumulated at the bottom end of the panel to influence the stability of the panel when the panel is pushed.

The purpose and the effect of the plate planing and selecting processing production device are achieved by the following specific technical means:

a plate planing, selecting and processing production device comprises a main body, an operating platform and a planing shaft, wherein the main body and the operating platform fixedly connected with the top end of a plate are placed on the operating platform to be pushed, the bottom end of the plate is contacted with the protruded bottom end part of the planing shaft in a mounting groove when the plate is pushed to move on the operating platform, and one end of the planing shaft is connected with a motor so that the planing shaft can rotate to plane the plate contacted with the surface;

the offset block is an arc-shaped bent rectangular square block which is arranged in the offset groove in the middle of the mounting groove in an inserting and embedding manner through circular shaft bulges on two sides.

Further preferred embodiments: the operation table comprises;

the mounting groove is a groove which is formed in the middle of the top end of the operating platform in an arc-shaped bending mode, the mounting groove is embedded with the wood planing shaft, and the top end part of the wood planing shaft is arranged at the top end of the mounting groove in a protruding mode;

the collecting tank is a rectangular groove at the top end of the operating platform close to the two sides of the mounting groove;

the adsorption block is a circular arc bending arrangement lug which is fixedly connected to one side of the joint installation groove of the collecting groove;

the skew piece, the skew piece sets up in a plurality of rectangle form squares that the circular arc in mounting groove middle part is crooked to be set up for the gomphosis, and skew piece square position sets up for staggered arrangement, and the length of skew piece is arranged the setting in proper order from long to short simultaneously, then the both sides surface of skew piece is provided with the groove mark of screw thread form.

Further preferred embodiments: the mounting groove comprises;

the offset groove is a groove with a semicircular inner wall in the middle of the mounting groove, and the offset blocks are sequentially arranged in the semicircular groove of the offset groove in a staggered manner;

the communicating groove is a hollow arrangement at one side of the semicircular groove of the offset groove, and the communicating groove and the offset block are arranged consistently and in a staggered manner;

the inclined rail is a semicircular annular groove which is formed in a manner that two sides of the middle of the semicircular annular groove of the inclined rail are integrally inclined, and the surfaces of two sides of the middle of the semicircular annular groove of the inclined rail are fixedly connected with thread-shaped groove marks.

Further preferred embodiments: the middle part of the top end of the adsorption block extends inwards to form a rectangular groove which is arranged in a circular arc bending manner, and the adsorption block also comprises a groove body;

the piston block is an arc-bent rectangular square block which is embedded in a groove in the middle of the top end of the adsorption block, and one side of the piston block is elastically connected with one end of the groove in the middle of the top end of the adsorption block through an elastic telescopic guide rod;

the displacement shaft is a circular shaft which is arranged in the middle of the piston block in a penetrating and embedded mode, two sides of the circular shaft of the displacement shaft are arranged on the surfaces of two sides of the piston block in a protruding mode, and groove marks which are embedded with the surfaces of two sides of the offset block are arranged on the peripheral surface of the circular shaft of the displacement shaft;

the displacement groove is a groove with an arc-shaped middle side of a groove at the top end of the adsorption block, the groove and the displacement shaft are partially embedded on the surface of one side of the piston block in a protruding mode, and groove marks embedded with the surface of the displacement shaft are arranged on the surface of the groove of the displacement groove;

the sticking groove is a slot which is rectangular in the middle of the surface of the arc-shaped bent groove of the adsorption block, the displacement shaft is convexly arranged on the slot which partially penetrates through the sticking groove on the other side surface of the piston block, and the sticking groove is communicated with the communication groove.

Further preferred embodiments: the offset block comprises;

the sleeving ring is a hollow circular ring fixedly connected with the surface of one end of the offset block;

the friction shaft is a round shaft sleeved at one end of the offset block, two ends of the friction shaft are fixedly connected with round shaft bulges with the diameters being embedded with the inclined rail groove, and the peripheral surface of the friction shaft is provided with thread grooves embedded with thread groove marks on the surfaces of two sides of the middle part of the inclined rail groove;

the sleeve joint groove is a circular groove which is formed by embedding the peripheral surface of the friction shaft and the sleeve joint ring.

Has the advantages that:

(1) this panel is dug and is selected processing apparatus for producing is provided with the skew groove, can let plane wooden axle drive its skew piece in the rotation and remove in the skew groove through the skew groove at mounting groove middle part to the contact is laminated and is driven its rotation to the displacement axle that runs through the protrusion in laminating groove, moves through displacement axle rotation transfer piston piece relapse in adsorbing the piece and produces its suction principle and carry out certain absorption collection to the saw-dust, makes the in-process saw-dust of digging can not pile up the plane of influencing its panel in the bottom of panel and selects.

(2) The device is provided with the inclined rail that inclines, can gradually wholly carry out the skew removal to inside when moving to certain distance when the skew piece carries out the displacement along the skew groove through the inclined rail for the friction axis on the skew piece can be separated with the wood planing axle and make it can not continue to be driven rotatory removal.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the overall structure of the mounting groove of the present invention.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 4 is a partial overall structure diagram of the adsorption block of the present invention.

FIG. 5 is a schematic view of the overall structure of the offset slot of the present invention.

Fig. 6 is a schematic diagram of the overall structure of the offset block of the present invention.

In FIGS. 1-6: the wood planing machine comprises a main body 1, an operation table 2, a mounting groove 201, a deviation groove 2011, a communication groove 2012, a deviation rail 2013, a collecting groove 202, an adsorption block 203, a piston block 2031, a displacement shaft 2032, a displacement groove 2033, an attaching groove 2034, a deviation block 204, a socket ring 2041, a friction shaft 2042, a socket groove 2043 and a wood planing shaft 3.

Detailed Description

As shown in figures 1 to 6:

the invention provides a plate planing, selecting and processing production device which comprises a main body 1, an operating platform 2 and a planing shaft 3, wherein the main body 1 and the operating platform 2 are used for placing a plate on the top end to be fixedly connected to push, when the plate is pushed to move on the operating platform 2, the bottom end of the plate can be contacted with the protruding bottom end part of the planing shaft 3 in a mounting groove 201, one end of the planing shaft 3 is connected with a motor, so that the planing shaft 3 can rotate to plane the plate contacted with the surface;

the offset block 204 is an arc-shaped bent rectangular square block which is arranged in an offset groove 2011 in the middle of the mounting groove 201 in an inserting and embedding manner through circular shaft protrusions on two sides of the offset block 204.

Wherein, the operation table 2 comprises;

the mounting groove 201 is a groove formed by bending the middle part of the top end of the operating platform 2 in an arc shape, the groove of the mounting groove 201 is embedded with the wood planing shaft 3, and the top end part of the wood planing shaft 3 is convexly arranged at the top end of the groove of the mounting groove 201;

a collecting groove 202, wherein the collecting groove 202 is a rectangular groove at the top end of the operating platform 2 close to the two sides of the mounting groove 201;

the adsorption block 203 is an arc-shaped bent lug fixedly connected to one side of the groove fitting installation groove 201 of the collecting groove 202;

the offset blocks 204 are a plurality of rectangular blocks which are embedded in the arc bending arrangement in the middle of the installation groove 201, the blocks of the offset blocks 204 are arranged in a staggered arrangement, the length of the offset blocks 204 is arranged from long to short in sequence, and then the surfaces of two sides of the offset blocks 204 are provided with thread-shaped groove marks.

Wherein, the mounting groove 201 comprises;

the offset groove 2011 is a groove with a semicircular inner wall in the middle of the installation groove 201, and the offset blocks 204 are sequentially arranged in the semicircular groove of the offset groove 2011 in a staggered manner; the convex surfaces of the round shafts at the two ends of the friction shaft 2042 are embedded with the groove marks at the two sides of the middle of the groove of the inclined rail 2013, so that when the friction shaft 2042 rotates, one end of the friction shaft can be inclined along the inclined rail 2013, and the whole offset block 204 is driven to move along the offset groove 2011.

The connecting groove 2012 is a hollow groove on one side of the offset groove 2011 semicircular groove, and the connecting groove 2012 is staggered with the offset block 204; when one side surface of the offset block 204 moves on the grooved surface of the communication groove 2012, the offset block 204 side moves while being attached to one side surface of the suction block 203.

The offset rail 2013 is a semicircular groove which is formed in a manner that two sides of the middle of the semicircular groove of the offset groove 2011 are integrally inclined, and the surfaces of two sides of the middle of the semicircular groove of the offset rail 2013 are fixedly connected with thread-shaped groove marks, so that when the offset block 204 moves along the offset rail 2013, the offset block 204 can be integrally inclined towards the inside of the offset groove 2011 due to the integral inclination of the offset rail 2013, one side surface of the offset block 204 can be parallel to the communication groove 2012 on one side of the middle of the offset groove 2011, and then when the offset block 204 moves to the end, the friction shaft 2042 cannot be continuously contacted with the log planing shaft 3 due to the fact that the offset block 204 is obliquely moved towards the inside of the offset groove 2011, and the offset block 204 cannot be continuously moved.

Wherein, the middle part of the top end of the adsorption block 203 extends inwards to form a rectangular groove which is arranged in a circular arc bending way, and the adsorption block 203 also comprises;

the piston block 2031 is an arc-bent rectangular square block embedded in a groove in the middle of the top of the adsorption block 203, and one side of the piston block 2031 is elastically connected with one end of the groove in the middle of the top of the adsorption block 203 through an elastic telescopic guide rod; when the piston 2031 is displaced along the groove of the adsorption block 203, the air inside the groove is discharged to the open groove at one end of the adsorption block 203, and then the other side of the piston 2031 moving can supplement the air for adsorption, so that the open groove at the top end of the adsorption block 203 has a certain adsorption force to adsorb and collect the wood chips to the collection groove 202 for collection when the wood is planed by the planing shaft 3.

A displacement shaft 2032, wherein the displacement shaft 2032 is a circular shaft which is arranged in the middle of the piston block 2031 in a penetrating and embedding manner, two sides of the circular shaft of the displacement shaft 2032 are convexly arranged on the surfaces of two sides of the piston block 2031, and the peripheral surface of the circular shaft of the displacement shaft 2032 is provided with groove marks which are embedded with the surfaces of two sides of the offset block 204; because the middle part of the piston block 2031, which is located at one side of the displacement axis 2032, is recessed and protruded through the attachment groove 2034 on one side of the adsorption block 203, the part of the displacement axis 2032 protruding out of the attachment groove 2034 contacts with one side of the offset block 204, and the offset block 204 and the two sides of the displacement axis 2032 are engaged with each other by the groove trace, so that the displacement axis 2032 is driven to rotate when the offset block 204 continuously performs an oblique movement.

The displacement groove 2033 is a groove with an arc shape at one side of the middle part of the groove at the top end of the adsorption block 203, the groove and the displacement shaft 2032 are partially embedded on the surface of one side of the piston block 2031 in a protruding way, and the surface of the groove of the displacement groove 2033 is provided with groove marks embedded with the surface of the displacement shaft 2032; the displacement shaft 2032 protrudes from the displacement groove 2033 formed on the other side of the piston block 2031 and partially engaged with the groove inside the suction block 203, and the engagement of the displacement shaft 2032 and the groove makes the entire piston block 2031 displace along the groove of the suction block 203 when the displacement shaft 2032 is partially engaged with the displacement groove 2033 and rotates.

The attachment groove 2034 is a rectangular groove in the middle of the surface of the arc-shaped curved groove of the adsorption block 203, the attachment groove 2034 is a protrusion of the displacement shaft 2032, the protrusion of the displacement shaft 2032 is arranged in the groove of the piston block 2031 penetrating through the attachment groove 2034, and the attachment groove 2034 is communicated with the communication groove 2012.

Wherein, the offset block 204 comprises;

the socket ring 2041 is a hollow circular ring fixedly connected with the surface of one end of the offset block 204;

the friction shaft 2042 is a circular shaft sleeved at one end of the offset block 204, two ends of the friction shaft 2042 are fixedly connected with circular shaft protrusions with diameters matched with grooves of the offset rail 2013, and meanwhile thread grooves matched with thread groove marks on the surfaces of two sides of the middle of the groove of the offset rail 2013 are formed in the peripheral surface of the friction shaft 2042; when the wood planing shaft 3 rotates in the installation groove 201 in the middle of the operating platform 2, the surface of the wood planing shaft 3 contacts the friction shaft 2042 at one end of the offset block 204 in the offset groove 2011 in the middle of the installation groove 201 to rotate, so that the friction shaft 2042 can be driven to rotate in the offset rail 2013 through the embedding of the circular shaft protrusions at the two ends, and the circular shaft protrusion surfaces at the two ends of the friction shaft 2042 are embedded with the groove marks on the two sides of the middle of the groove of the offset rail 2013, so that when the friction shaft 2042 rotates, one end of the offset block 204 can be deflected along the offset rail 2013, and the whole offset block 204 is driven to move along the offset groove 2011.

The engaging groove 2043 is a circular groove formed around the friction shaft 2042 and engaged with the engaging ring 2041.

The working principle is as follows:

the specific use mode and function of this embodiment are that, firstly, a plate is placed on the operating platform 2 at the top end of the main body 1, then the motor is turned on to drive the wood planing shaft 3 in the middle of the top end of the operating platform 2 to start rotating, and then the plate is pushed to move to one side on the operating platform 2 to make the bottom end of the plate contact with the wood planing shaft 3 to carry out wood planing on the bottom end of the plate through the wood planing blades on the peripheral surface of the wood planing shaft 3, and when the wood planing shaft 3 rotates in the mounting groove 201 in the middle of the operating platform 2, the surface of the wood planing shaft 3 contacts the friction shaft 2042 at one end of the offset block 204 in the offset groove 2011 in the mounting groove 201 to rotate, so as to drive the friction shaft 2042 to rotate in the offset rail 3 through the circular shaft protrusions at the two ends, and because the circular shaft protrusion surfaces at the two ends of the friction shaft 2042 are embedded with the groove marks at the two sides of the groove in the middle of the offset rail 2013, when the friction shaft 2042 rotates, one end of the Moving along the offset groove 2011, then when the offset block 204 moves along the offset rail 2013, because the offset block 204 is deflected to the inside of the offset groove 2011 as a whole due to the deflection of the whole offset rail 2013, one side surface of the offset block 204 is kept parallel to the communication groove 2012 on the side of the middle part of the offset groove 2011, then when the offset block 204 moves to the end, because the offset block 204 moves to the inside of the offset groove 2011 in a deflected way, the friction shaft 2042 is not contacted with the wood planing shaft 3 continuously and cannot move continuously, when one side surface of the offset block 204 moves on the grooved surface of the communication groove 2012, one side of the offset block 204 is attached to one side surface of the adsorption block 203 to move, the piston block 2031 is embedded in the middle part of the adsorption block 203, and one side part of the displacement shaft 2032 in the middle part of the piston block 2031 protrudes through the attachment groove 2034 on one side surface of the adsorption block 203, the part of the displacement axis 2032 protruding out of the fitting groove 2034 contacts with one side surface of the offset block 204, the displacement axis 2032 is driven to rotate when the offset block 204 continuously deflects and moves by the groove marks of the offset block 204 and the two sides of the displacement axis 2032, the displacement axis 2032 protrudes out of the displacement groove 2033 of the adsorption block 203, the displacement axis 2031 is embedded in the groove of the adsorption block 203 when the surface of the other side of the piston block 2031 is partially embedded in the displacement groove 2033, the displacement axis 2031 is driven to displace along the groove of the adsorption block 203 by the groove marks of the two parts, finally, when the piston block 2031 displaces along the groove of the adsorption block 203, the air in the groove is discharged to the groove of one end of the adsorption block 203, then the other side of the piston block 2031 moving can adsorb the air, so that the groove at the top end of the adsorption block 203 has a certain adsorption force to make the plate absorb and collect wood chips when the wood chips through the wood axis 3 The collection drops into the collection groove 202 for collection, and because the offset block 204 is gradually arranged in the offset groove 2011 from long to short, the offset block 204 can be contacted with the surface of the displacement shaft 2032 of the piston block 2031 which moves in sequence when the offset block 204 is moved, and then the piston block 2031 is reset through the elastic guide rod on one side after moving to one end, and the surface which is contacted with the adsorption block 203 at the time of resetting drives the adsorption block 203 to move to one side together for resetting.