CN211306634U - Batten slot milling machine - Google Patents

Abstract

The utility model relates to a stuff groove cutting machine, including the mount, remove frame, milling machine constructs and positioning mechanism, the slide rail of trend about the mount top level is provided with, remove frame bottom sliding fit on the slide rail and set up the straight line sliding opening that is on a parallel with the slide rail extending direction and arranges in its middle part, positioning mechanism sets up on removing the frame and is used for fixed stuff level to be in straight line sliding opening top, and the milling machine constructs to be installed and upwards stretches out at mount middle part and its tool bit through straight line sliding opening. The utility model discloses milling flutes mechanism adorns admittedly on the mount and keep the position motionless and only rotation when the milling flutes operation, remove the frame and bear and treat the processing stuff and can follow the slide rail translation on the mount, can guarantee through positioning mechanism that the stuff is difficult for the position and keep the level in the milling flutes course of working, the tool bit of milling flutes mechanism is acted on the stuff and is accomplished the milling flutes through the straight line sliding port that leaves on removing the frame, and same stuff is through twice milling flutes processing, thereby improve fluting quality and fluting efficiency.

Description

Batten slot milling machine

Technical Field

The utility model belongs to the technical field of wood working equipment, concretely relates to stuff groove cutting machine.

Background

The stuff processing operation has a lot, has operations such as cutting, nail to connect, to the fluting of stuff, if lead to groove or blind groove etc. present processing mode all is the manual work and operates, will cut the wheel and fix, then the operator with the stuff toward cut the wheel and promote, the stuff cuts the fluting through cutting the wheel, because manual control stuff, can't guarantee the accurate positioning of stuff, produce easily and rock, the fluting quality is poor.

SUMMERY OF THE UTILITY MODEL

In view of the defects of the prior art, the technical problem to be solved by the utility model is to provide a stuff slot milling machine.

In order to solve the technical problem, the utility model discloses a technical scheme is:

the utility model provides a stuff groove cutting machine, includes the mount, removes frame, milling flutes mechanism and positioning mechanism, the slide rail of trend about the mount top level is provided with, remove frame bottom sliding fit on the slide rail and set up the smooth mouth of straight line that is on a parallel with slide rail extending direction and arranges in its middle part, positioning mechanism sets up on removing the frame and is used for fixed stuff level to be in the smooth mouth top of straight line, milling flutes mechanism installs and upwards stretches out at the mount middle part and its tool bit through the smooth mouth of straight line.

Preferably, positioning mechanism erects including fixed crosspiece subassembly, activity crosspiece subassembly and activity and presses the subassembly, wherein, fixed crosspiece subassembly is fixed to be set up on the removal frame of one side around the smooth mouth of straight line, activity crosspiece subassembly activity sets up on the removal frame of opposite side around the smooth mouth of straight line and sets up with fixed crosspiece subassembly relatively, the activity is erected and is pressed the subassembly activity and set up in the smooth mouth of straight line top and be connected with the removal frame through the mounting bracket.

Preferably, the fixed rail assembly comprises a fixed reference plate and an adjusting baffle plate, the fixed reference plate is fixedly arranged on one side of the movable frame through a C-shaped clamp, one end face of the adjusting baffle plate is close to the fixed reference plate, and the other end face of the adjusting baffle plate is adjacent to the linear sliding opening and opposite to the movable rail assembly.

Preferably, the movable crosspiece assembly comprises a movable baffle plate and a plurality of crosspiece cylinders which are fixedly connected with the movable baffle plate, the crosspiece cylinders are fixedly arranged on the movable frame and act on the linear sliding openings perpendicular to the direction, and the movable baffle plate is arranged on one side, close to the linear sliding openings, of the crosspiece cylinders and opposite to the fixed crosspiece assembly.

Preferably, the mounting bracket is the portal frame structure of erectting in sharp sliding port top, the mounting bracket is including establishing respectively in the smooth mouth left and right sides of straight line and respectively install stand and the horizontally connect mounting panel on two stands perpendicularly on removing the frame, the activity is erect and is pressed the subassembly and include a plurality of fixed mounting perpendicular pressure cylinder and level on the mounting panel below, the smooth mouth top of straight line and with a plurality of perpendicular pressure cylinder are connected erect the clamp plate.

Preferably, the top of the moving frame at two sides of the linear sliding opening is horizontally and fixedly provided with a base plate, and the fixed transverse baffle component and the movable transverse baffle component are both arranged on the base plate.

Preferably, the milling flutes mechanism still includes milling flutes motor, lift seat, mount pad and lift lead screw, the mount pad is adorned admittedly in mount middle part below, lift lead screw axial fixity sets up on the mount pad and its bottom is connected with adjusting hand wheel, lift seat fixed mounting is on the lifting nut of lift lead screw in threaded sleeve dress, the milling flutes motor is installed on the lift seat and its output shaft transmission is connected with the transmission shaft, the transmission shaft passes through the vertical arrangement of bearing frame on the lift seat and its upper end upwards stretches out through the straight line sliding port, tool bit coaxial arrangement is in the transmission shaft upper end.

Preferably, the groove milling mechanism is sleeved with a protective cover.

Preferably, the batten slot milling machine further comprises a blowing mechanism, the blowing mechanism comprises an air pump, a left blowing port and a right blowing port, the left blowing port and the right blowing port are communicated with the air pump through pipelines and are located on two sides of the linear sliding port of the movable frame, the left blowing port is located at the left end of the linear sliding port, the right blowing port is arranged in the rest position of the linear sliding port, and the obliquely upward right blowing port and the obliquely downward right blowing port are arranged in a crossed mode in the left-right direction of the linear sliding port.

Preferably, a feeding screw rod arranged in parallel to the extending direction of the slide rail is installed on one side of the fixed frame through a bearing seat, a feeding nut is matched on the feeding screw rod in a threaded mode, the feeding nut is fixedly connected with the movable frame, and one end of the feeding screw rod is connected with a feeding motor in a transmission mode.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses stuff groove cutting machine includes the mount, remove the frame, milling flutes mechanism and positioning mechanism, milling flutes mechanism adorns admittedly on the mount and keep the position motionless and only rotation when the milling flutes operation, remove the frame and carry and treat the processing stuff and can follow the slide rail translation on the mount, can guarantee through positioning mechanism that the stuff is difficult for the position and keep the level in the milling flutes course of working, milling flutes mechanism's tool bit acts on the stuff and accomplishes the milling flutes through the straight line sliding port that leaves on removing the frame, and same stuff is through twice milling flutes processing, thereby improve fluting quality and fluting efficiency. Further the milling groove depth is adjustable.

The positioning mechanism of the utility model comprises a fixed transverse baffle component, a movable transverse baffle component and a movable vertical pressing component, wherein the fixed transverse baffle component comprises a fixed reference plate and an adjusting baffle plate, and the fixed reference plate can be kept still and only the adjusting baffle plate is changed to match different requirements when different battens or milling groove positions with different width specifications are processed; before placing and treating the processing stuff, activity crosspiece subassembly is kept away from fixed crosspiece subassembly and is let out the space and be convenient for put into the stuff, and the activity is erected and is pressed lifting on the subassembly and let out the space and be convenient for put into the stuff, and after putting into and treat processing stuff, before the milling flutes operation, activity crosspiece subassembly is close to fixed crosspiece subassembly and will treat that the processing stuff presss from both sides tightly between fixed crosspiece subassembly and activity crosspiece subassembly, and the activity is erected and is pressed the subassembly and push down and will treat that the processing stuff compresses tightly. Namely, through the utility model discloses a positioning mechanism can strengthen the position stability of stuff in the milling flutes course of working greatly and keep the level.

The utility model discloses still further including the mechanism of blowing, blow down the piece on protection casing, mount and the removal frame outside stuff machined surface, sharp sliding jaw lateral wall, flexible sheath and the milling flutes mechanism through the mechanism of blowing, can improve the clearance degree of completion like this.

Drawings

Fig. 1 is a schematic structural view of a batten slot milling machine in an initial position according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a batten slot milling machine at the end of the stroke according to the embodiment of the present invention.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a top view of the batten slot milling machine of the electric driven moving frame of the utility model at the initial position.

Fig. 5 is a stroke end plan view of the batten slot milling machine of the electric driving moving frame of the utility model.

Fig. 6 is a top view of a second batten slot milling machine in an initial position according to an embodiment of the present invention.

Fig. 7 is a schematic diagram of the arrangement of the left air blowing port and the right air blowing port at the straight sliding port of the utility model.

Fig. 8 is a schematic structural view of a third and a fourth batten groove milling machine in the initial position according to the embodiment of the present invention.

Fig. 9 is a top view of fig. 8.

Fig. 10 is a schematic structural diagram of a third and a fourth batten groove milling machines at the end of the stroke according to the embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a third and a fourth batten groove milling machines at the end of the stroke according to the present invention.

Fig. 12 is a schematic structural view of a third and a fourth batten groove milling machines in the middle section of the return stroke of the present invention.

Fig. 13 is a partial enlarged view of P shown in fig. 12.

The labels in the figure are: 100. a fixed mount; 101. a slide rail; 102. a feed screw; 103. a feed nut; 104. a feed motor; 200. a movable frame; 201. a linear sliding port; 202. a base plate; 300. a groove milling mechanism; 31. a cutter head; 32. a slot milling motor; 33. a lifting seat; 34. a mounting seat; 35. a lifting screw rod; 36. adjusting a hand wheel; 37. a drive shaft; 41. fixing a reference plate; 42. adjusting the baffle; 43. a movable baffle; 44. a rail cylinder; 45. a vertical compression cylinder; 46. a vertical pressing plate; 47. mounting a plate; 48. a column; 500. a first wood chip collecting mechanism; 51. a first collection tank; 52. a first collection frame; 600. a second wood chip collecting mechanism; 61. a second collection tank; 62. a second collection frame; 70. a drive motor; 71. a slide bar; 72. a T-shaped movable block; 73. an active cannula; 74. cleaning the plate; 75. a lifting cylinder; 76. a telescopic sheath; 77. a synchronization board A; 78. a synchronization board B; 81. a left air blowing port; 82. a right blowing port.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

As shown in fig. 1 to 5, the present embodiment provides a batten slot milling machine, which includes a fixed frame 100, a movable frame 200, a slot milling mechanism 300 and a positioning mechanism.

In this embodiment, the fixing frame 100 is preferably a rectangular frame structure formed by connecting four transverse supporting rods and six vertical rods, wherein: two sets of and two pole settings of each group of six pole settings are arranged relatively from beginning to end, divide three groups altogether, three group's pole settings are arranged in proper order along controlling the horizontal direction and are left side pole setting group, middle part pole setting group and right side pole setting group, four horizontal braces are respectively about to move towards the pole setting of horizontal connection corresponding department and form the rectangle frame with six pole settings, move towards horizontal connection around still being between two pole settings of every group in addition and indulge the vaulting pole, so can guarantee that mount 100 bears the weight of and removes frame 200, slotter mechanism 300 and positioning mechanism's intensity and stability. The top of the fixing frame 100 is horizontally provided with a sliding rail 101 which runs left and right, specifically, the sliding rail 101 is arranged on two upper transverse supporting rods and is horizontal.

In this embodiment, the movable frame 200 is a flat plate structure, and the front and rear sides of the bottom of the movable frame 200 are respectively in sliding fit with the slide rail 101 through the slide blocks fixedly mounted on the movable frame 200, so that the movable frame 200 can be driven to horizontally and stably move along the slide rail 101 and cannot jump up and down after the translation acting force is applied to the movable frame 200. Since the cutter head 31 of the groove milling mechanism 300 can directly act on the processed surface of the batten for the groove milling processing of the batten, and the wood strips are positioned on the movable frame 200 and move horizontally along the direction parallel to the extending direction of the sliding rail 101 along with the movable frame 200, so that the middle part of the movable frame 200 is provided with a linear sliding opening 201 parallel to the extending direction of the sliding rail 101, the top surfaces of the movable frame 200 at two sides of the linear sliding opening 201 are in the same horizontal plane, the cutter head 31 of the groove milling mechanism 300 passes through the linear sliding opening 201 and extends upwards for a preset amount, when the position of the tool bit 31 of the slot milling mechanism 300 is unchanged and the slot milling is completed by rotation in the translation process of the movable frame 200, the length of the linear sliding port 201 is enough for the tool bit 31 to complete the slot milling on the wood strip processing surface, the tool bit 31 is at the left end of the linear slide port 201 at the machining initial position and the tool bit 31 is at the right end of the linear slide port 201 at the machining to the maximum stroke position, and the left end of the movable frame 200 is still kept on the sliding rail 101 of the fixed frame 100 when the tool bit 31 is positioned at the right end of the linear sliding opening 201.

The driving of the movable frame 200 can be completed by manual pushing, and can also be electric, specifically: the utility model discloses a slide rail 101, including mount 100, slide rail 101, feed screw 102, feed nut 103 and removal frame 200 fixed connection, just the one end transmission of feed screw 102 is connected with feed motor 104, and feed motor 104 adopts positive and negative rotation control circuit, and this is prior art, and the retrench is not repeated, can drive when starting feed motor 104 and remove frame 200 and follow slide rail 101 and control the translation. In this case, an expansion plate is further provided to the lateral stay on the top side of the fixing frame 100 to be mounted on the screw 102, the feeding motor 104, and the like. In addition, in the electric driving mode, in order to conveniently control the movable frame 200 to move within the preset stroke range, the fixed frame 100 is provided with a forward stroke switch and a return stroke switch (not shown in the figure) which respectively interact with the feeding nut 103 or the movable frame 200, when the feeding nut 103 or the movable frame 200 interacts with the forward stroke switch, the feeding motor 104 is stopped, which indicates that the movable frame 200 advances to the set stroke position, and when the feeding nut 103 or the movable frame 200 interacts with the return stroke switch, the feeding motor 104 is stopped, which indicates that the movable frame 200 returns to the proper position and waits for the next slot milling period. As for the forward stroke switch and the return stroke switch, a mechanical type, a photoelectric type, a magnetic induction type, or the like can be used.

In this embodiment, the milling groove mechanism 300 includes a tool bit 31, a milling groove motor 32, a lifting seat 33, a mounting seat 34 and a lifting screw 35, the mounting seat 34 is fixedly installed on a longitudinal support rod below the middle portion of the fixing frame 100, the lifting screw 35 is axially and fixedly arranged on the mounting seat 34, the bottom end of the lifting screw is connected with an adjusting hand wheel 36, the lifting seat 33 is fixedly installed on a lifting nut of the lifting screw 35 in a threaded sleeve manner, the milling groove motor 32 is installed on the lifting seat 33, an output shaft of the milling groove motor 32 is in transmission connection with a transmission shaft 37, the transmission shaft 37 is vertically arranged on the lifting seat 33 through a bearing seat, the upper end of the transmission shaft 37 extends upwards through the linear sliding opening 201, the tool bit 31 is coaxially installed at the upper end of the transmission shaft 37, the center of the tool bit is located on the center. Before actual groove milling operation, the extending amount of the cutter head 31 extending upwards through the linear sliding opening 201 needs to be adjusted according to the groove milling depth, and the extending amount of the cutter head 31 is completed by adjusting the heights of the lifting seat 33, the groove milling motor 32 arranged on the lifting seat and the transmission shaft 37 through the adjusting hand wheel 36.

In order to protect the slot milling mechanism 300 and prevent the operating performance of the slot milling mechanism 300 from being affected by the chips generated by slot milling, a protective cover is sleeved outside the slot milling mechanism 300.

In the present embodiment, the positioning mechanism is disposed on the movable frame 200 for fixing the batten horizontally above the linear sliding opening 201, and during the actual slot milling operation, the batten is supported on the movable frame 200 at the linear sliding opening 201 and is fixed by the positioning mechanism. The positioning mechanism comprises a fixed transverse baffle component, a movable transverse baffle component and a movable vertical pressing component, the top surfaces of the movable frames 200 on the two sides of the linear sliding opening 201 are working positions of batten milling operation, and battens are fixed at the working positions and kept horizontal through the fixed transverse baffle component, the movable transverse baffle component and the movable vertical pressing component during the batten milling operation.

The fixed crosspiece component is fixedly arranged on the moving frame 200 at the rear side of the linear sliding opening 201 through a C-shaped clamp, the position of the fixed crosspiece component is kept motionless when the same batch of battens with the same width specification are processed, a distance X needs to be reserved between the fixed crosspiece component and the linear sliding opening 201, the distance X plus the half of the width of the linear sliding opening 201 is equivalent to the distance between the central line of the groove of the batten and the end face, which is abutted against the fixed crosspiece component, of the batten, and the distance X also gives up a space so that the batten is horizontally supported on the moving frame 200.

As an embodiment of the fixed rail assembly of the present embodiment: the fixed crosspiece assembly comprises a fixed reference plate 41 and an adjusting baffle 42, wherein the fixed reference plate 41 is fixedly arranged on one side of the movable frame 200 through a C-shaped clamp, and when wood bars with different width specifications or milling groove positions are different, the fixed reference plate 41 can be kept still and only the adjusting baffle 42 is changed to match and meet the required distance X value. One end face of the adjusting baffle 42 is close to the fixed reference plate 41, the other end face of the adjusting baffle 42 is adjacent to the linear sliding opening 201 and opposite to the movable transverse baffle assembly, the distance X is reserved between the other end face of the adjusting baffle 42 and the linear sliding opening 201, battens with different width specifications or grooves can be machined at different positions of the battens through the adjusting baffle 42 which is more slippery, when in actual groove milling operation, the battens are placed above the linear sliding opening 201, supported by the moving frame 200 and attached to the adjusting baffle 42, then the movable transverse baffle assembly is tightly abutted to the battens through action, and the adjusting baffle 42 is attached to the fixed reference plate 41, so that the position of the adjusting baffle 42 is kept unchanged after the movable transverse baffle assembly acts, and the battens are fixed above the linear sliding opening 201 by being matched with the movable transverse baffle assembly. The facing surfaces of the adjusting baffle 42 and the fixed reference plate 41 are matched with each other, and may be a plane, a curved surface, or the like; the end surface of the adjusting baffle 42 close to the linear sliding opening 201 can also be matched with the shape of the side surface of the batten, and is generally a plane. In addition, a pushing block protruding towards the working position may be further disposed at the right end of the adjusting baffle 42, and the reliability of the left translation of the wood strips when the moving frame 200 translates left may be enhanced by the pushing block.

Wherein, activity crosspiece subassembly activity sets up on the removal frame 200 of sharp sliding port 201 front side and sets up with fixed crosspiece subassembly relatively, and before placing the batten to be processed, activity crosspiece subassembly is kept away from fixed crosspiece subassembly and is let out the space and be convenient for put into the batten, then after putting into the batten to be processed, before the milling flutes operation, activity crosspiece subassembly is close to fixed crosspiece subassembly and will wait to process the batten and press from both sides tightly between fixed crosspiece subassembly and activity crosspiece subassembly.

As an embodiment of the movable rail assembly of the present embodiment: the activity crosspiece subassembly includes adjustable fender 43 and a plurality of equal fixed connection adjustable fender 43's crosspiece cylinder 44, a plurality of crosspiece cylinders 44 are fixed to be set up on removing frame 200 and act on the smooth mouth 201 of direction perpendicular to straight line, adjustable fender 43 is in one side that is close to the smooth mouth 201 of straight line of a plurality of crosspiece cylinders 44 is relative with fixed crosspiece subassembly, a plurality of crosspiece cylinders 44 can adopt parallelly connected, reach synchronous flexible effect, extend when crosspiece cylinder 44 and can drive adjustable fender 43 towards the smooth mouth 201 motion of straight line, keep away from the smooth mouth 201 of straight line otherwise and be convenient for put into or get from the stuff.

The movable vertical pressing component is movably arranged above the linear sliding port 201 and connected with the moving frame 200 through the mounting frame, the movable vertical pressing component is lifted to make a space for placing battens conveniently before the battens to be processed are placed, and then the movable vertical pressing component is pressed downwards to compress the battens to be processed after the battens to be processed are placed and before groove milling operation.

As an embodiment of the movable vertical pressing component of the present embodiment: the mounting bracket is the portal frame structure of erectting in sharp smooth mouthful 201 top, the mounting bracket is including establishing respectively in the smooth mouthful 201 left and right sides of straight line and respectively install stand 48 and the mounting panel 47 of horizontally connect on two stands 48 on removing frame 200 perpendicularly, and each stand 48 is the screw rod, the both ends of mounting panel 47 are equipped with the through-hole respectively, the screw rod passes the through-hole and is screwed respectively and be provided with set nut in the upper and lower side of the through-hole position department of mounting panel 47. The movable vertical pressing assembly comprises a plurality of vertical pressing air cylinders 45 fixedly mounted on the mounting plate 47 and vertical pressing plates 46 horizontally positioned below the mounting plate 47 and above the linear sliding port 201 and connected with the vertical pressing air cylinders 45, and the vertical pressing plates 46 are driven to ascend and descend by the vertical pressing air cylinders 45 and are pressed in a pressure maintaining mode.

The working process of the batten slot milling machine in the embodiment is as follows:

1. the movable frame 200 is in an initial position, the movable transverse baffle component is far away from the fixed transverse baffle component, and the movable vertical pressing component is lifted up;

2. the batten to be processed is placed in a working position, the movable transverse baffle component and the movable vertical pressing component act in sequence, and the batten is fixed in the working position through the fixed transverse baffle component, the movable transverse baffle component and the movable vertical pressing component and is kept horizontal;

3. starting the slot milling motor 32 to enable the cutter head 31 to rotate;

4. manually or electrically driving the moving frame 200 to translate leftwards along the sliding rail 101, and driving the battens to move forwards and form the grooves by the tool bit 31 while the moving frame 200 translates;

5. when the movable frame 200 advances to the set stroke end point, the movable frame 200 is reversely driven to return, and the cutter head 31 performs groove milling again in the return process;

6. and after the movable frame 200 returns to the initial position, stopping moving the movable frame 200, resetting the movable transverse baffle assembly and the movable vertical pressing assembly, taking the processed battens, and preparing for the next cycle.

Example 2

As shown in fig. 6, the present embodiment provides a batten slot milling machine, which includes a fixed frame 100, a movable frame 200, a slot milling mechanism 300, and a positioning mechanism. This embodiment 2 differs from the above embodiment 1 only in that: the backing plate 202 is fixedly installed at the top of the moving frame 200 on two sides of the linear sliding opening 201, and the fixed transverse baffle assembly and the movable transverse baffle assembly are both arranged on the backing plate 202, so that the fixed transverse baffle assembly and the movable transverse baffle assembly are convenient to install, and the levelness of the working position is guaranteed.

Example 3

As shown in fig. 8 to 13, the present embodiment provides a batten slot milling machine, and the present embodiment 3 is different from the above embodiments 1 and 2 only in that: the batten slot milling machine further comprises a wood chip collecting device, and the wood chip collecting device is arranged below the fixing frame 100.

Specifically, the method comprises the following steps: the sawdust collecting device comprises a first sawdust collecting mechanism 500 arranged on the left of the milling groove mechanism 300 and below the fixing frame 100 and a second sawdust collecting mechanism 600 arranged on the right of the milling groove mechanism 300 and below the fixing frame 100.

The first wood chip collecting mechanism 500 comprises a first collecting box 51, a first collecting frame 52 and a first cleaning rod group, the first collecting frame 52 is arranged on the fixing frame 100 which is arranged on the left of the milling groove mechanism 300 and below the sliding rail 101 in a surrounding mode, debris can be prevented from running out of the area outside the fixing frame 100, a bottom plate of the first collecting frame 52 gradually inclines downwards from left to right, a first opening is formed in the lowest end of the bottom plate, the first collecting box 51 is located on the left of the milling groove mechanism 300 and is connected with the first opening, and the first cleaning rod group is located at the left end of the moving frame 200.

The second wood chip collecting mechanism 600 comprises a second collecting box 61, a second collecting frame 62 and a second cleaning rod group, wherein the second collecting frame 62 is arranged on the fixing frame 100 below the left side of the milling groove mechanism 300 and the sliding rail 101 in a surrounding mode, chips can be prevented from running out of the area outside the fixing frame 100, a bottom plate of the second collecting frame 62 gradually inclines downwards from left to right and is provided with a second opening at the lowest end, the second collecting box 61 is located on the left side of the milling groove mechanism 300 and is connected with the second opening, and the first cleaning rod group is located at the right end of the moving frame 200.

The first cleaning rod group and the second cleaning rod group are identical in structure and respectively comprise a sliding rod 71 vertically penetrating through the movable frame, a T-shaped movable block 72 fixedly connected to the bottom of the corresponding sliding rod 71, a movable sleeve 73 movably sleeved outside the bottom of the corresponding sliding rod 71 and the T-shaped movable block 72, a cleaning plate 74 fixedly connected to the bottom of the movable sleeve 73, and a lifting cylinder 75 installed on the movable frame 200 and used for driving the sliding rod 71 to move up and down, the T-shaped movable block 72 is circular in any cross section, a large-diameter column hole matched with the head of the T-shaped movable block 72 and a small-diameter column hole matched with the rod part of the T-shaped movable block 72 and communicated with the large-diameter column hole are formed in the movable sleeve 73, and the T-shaped movable block 72 moves up and down in the large-diameter column hole. Preferably, the first cleaning rod group and the second cleaning rod group respectively include two sliding rods 71, two T-shaped movable blocks 72 and two movable sleeves 73, the two sliding rods 71 of the first cleaning rod group are respectively located at the front and rear ends of the left side of the movable frame 200 and are connected with the same lifting cylinder 75 through a synchronization plate a77, the two sliding rods 71 of the second cleaning rod group are respectively located at the front and rear ends of the right side of the movable frame 200 and are connected with the same lifting cylinder 75 through a synchronization plate B78, and the two sliding rods 71 drive the same cleaning plate 74 to be more portable and stable. The material of the cleaning plate 74 is light material, such as plastic plate, the bottom surface of the cleaning plate 74 is in accordance with the inclination of the bottom plate of the collecting frame, and further, the bottom of the cleaning plate 74 can be connected with a whole row of brush hairs.

In order to prevent debris from entering the movable sleeve 73 and affecting normal activities, the embodiment may further connect a telescopic sheath 76 between the top of the movable sleeve 73 and the bottom of the movable frame 200, and the telescopic sheath 76 is sleeved outside the sliding rod 71.

The working process of cleaning the chips of the first chip collecting mechanism 500 and the second chip collecting mechanism 600 of the present embodiment is: in the initial position, the cleaning plate 74 and the movable sleeve 73 are suspended by the self-weight and the T-shaped movable block 72; before the groove milling operation, the driving motor 70 works to drive each sliding rod 71 to synchronously ascend by M height, and the cleaning plates 74 on the first cleaning rod group and the second cleaning rod group also ascend synchronously; after the cleaning device ascends to the right position, the movable frame 200 is driven to translate leftwards along the slide rail 101 manually or electrically to perform groove milling operation, the cleaning plate 74 on the first cleaning rod group translates leftwards to the upper part of the high position of the bottom plate of the first collection frame 52, and the cleaning plate 74 on the second cleaning rod group translates leftwards to the upper part of the high position of the bottom plate of the second collection frame 62; after the horizontal movement is completed, the driving motor 70 reversely runs to drive each sliding rod 71 to move downwards by M height, so that the cleaning plate 74 on the first cleaning rod group is placed at the high position of the bottom plate of the first collecting frame 52, the T-shaped movable block 72 is at the lowest position, the cleaning plate 74 on the second cleaning rod group is placed at the high position of the bottom plate of the second collecting frame 62, and the T-shaped movable block 72 is at the lowest position; then, the movable frame 200 is driven to return manually or electrically, the cleaning plates 74 always move to a low position along the bottom plate under the dead weight in the return process to finish the debris cleaning work, the T-shaped movable block 72 is always positioned in the movable sleeve 73 in the return process until the return process is in place, and the debris is conveyed into the first collection box 51 through the first opening and conveyed into the second collection box 61 through the second opening; and circulating the next period.

Example 4

As shown in fig. 7 to 13, the present embodiment provides a batten slot milling machine, and the present embodiment 4 is different from the above embodiment 3 only in that: the sawdust collecting device further comprises an air blowing mechanism, the air blowing mechanism comprises an air pump, a left air blowing port 81 and a right air blowing port 82, the left air blowing port 81 is communicated with the air pump through a pipeline and is positioned on two sides of the linear sliding port 201 of the movable frame 200, the right air blowing port 82 is arranged at the left end of the linear sliding port 201 and in the rest position of the linear sliding port 201, the obliquely upward right air blowing port 82 and the obliquely downward right air blowing port 82 are arranged in a left-right direction of the linear sliding port 201 in a crossed mode, and scraps on the processing surface of the wood strips, the side wall of the linear sliding port 201 and the telescopic sheath 76 can be cleaned in the leftward groove milling process through the left air blowing port 81, the obliquely upward right air blowing port 82 and the obliquely downward right air blowing port 82, so that the cleaning completion degree can be improved.

In addition, because a small amount of chips generated by milling the grooves fall onto the movable frame 200 and the fixed frame 100 through the linear sliding port 201, the air blowing mechanism of the embodiment is further provided with an air blowing pipe, so that the chips on the protective covers outside the movable frame 200, the fixed frame 100 and the milling groove mechanism 300 can be blown off conveniently, and the air blowing pipe 83 is controlled to be switched through a valve and operated manually.

It is to be noted that the air blowing mechanism described above can also be applied to the above embodiments 1 and 2.

Having shown and described the fundamental principles and the principal features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a stuff groove cutting machine which characterized in that: including the mount, remove frame, milling flutes mechanism and positioning mechanism, the slide rail of trend about the mount top level is provided with, remove frame bottom sliding fit on the slide rail and set up the sharp sliding opening that is on a parallel with slide rail extending direction and arranges at its middle part, positioning mechanism sets up on removing the frame and is used for fixed stuff level to be in sharp sliding opening top, milling flutes mechanism installs at the mount middle part and its tool bit upwards stretches out through sharp sliding opening.

2. The stuff slotter of claim 1, wherein: positioning mechanism erects including fixed crosspiece subassembly, activity crosspiece subassembly and activity and presses the subassembly, wherein, fixed crosspiece subassembly is fixed to be set up on the removal frame of one side around the smooth mouth of straight line, activity crosspiece subassembly activity sets up on the removal frame of opposite side around the smooth mouth of straight line and sets up with fixed crosspiece subassembly relatively, the activity is erected and is pressed the subassembly activity and set up in the smooth mouth top of straight line and be connected with the removal frame through the mounting bracket.

3. The stuff slotter of claim 2, wherein: the fixed transverse baffle assembly comprises a fixed reference plate and an adjusting baffle plate, the fixed reference plate is fixedly arranged on one side of the movable frame through a C-shaped clamp, one end face of the adjusting baffle plate is close to the fixed reference plate, and the other end face of the adjusting baffle plate is adjacent to the linear sliding opening and opposite to the movable transverse baffle assembly.

4. The stuff slotter of claim 2, wherein: the movable transverse baffle assembly comprises a movable baffle plate and a plurality of transverse baffle cylinders fixedly connected with the movable baffle plate, the transverse baffle cylinders are fixedly arranged on the movable frame and act on the linear sliding port perpendicular to the linear direction, and the movable baffle plate is arranged on one side, close to the linear sliding port, of the transverse baffle cylinders and opposite to the fixed transverse baffle assembly.

5. The stuff slotter of claim 2, wherein: the mounting bracket is the portal frame structure of erectting in sharp sliding port top, the mounting bracket is including setting up at the smooth mouth left and right sides of straight line and respectively install stand and the horizontally connect mounting panel on two stands perpendicularly on the carriage, the activity is erect and is pressed the subassembly and include a plurality of fixed mounting perpendicular air cylinder and level on the mounting panel below, the smooth mouth top of straight line and with a plurality of perpendicular clamp plates that perpendicular air cylinder is connected.

6. The stuff slotter of claim 2, wherein: the top of the moving frame on two sides of the linear sliding opening is horizontally and fixedly provided with a base plate, and the fixed transverse baffle assembly and the movable transverse baffle assembly are both arranged on the base plate.

7. The stuff slotter of claim 1, wherein: the milling groove mechanism further comprises a milling groove motor, a lifting seat, a mounting seat and a lifting screw rod, the mounting seat is fixedly mounted below the middle of the fixing frame, the lifting screw rod is axially and fixedly arranged on the mounting seat, the bottom end of the lifting screw rod is connected with an adjusting hand wheel, the lifting seat is fixedly mounted on a lifting nut of the lifting screw rod in a threaded sleeved mode, the milling groove motor is mounted on the lifting seat, an output shaft of the milling groove motor is in transmission connection with a transmission shaft, the transmission shaft is vertically arranged on the lifting seat through a bearing seat, the upper end of the transmission shaft extends out upwards through a linear sliding port, and the tool bit is coaxially.

8. The stuff slotter of claim 1, wherein: and a protective cover is sleeved outside the slot milling mechanism.

9. The stuff slotter of claim 1, wherein: the batten slot milling machine further comprises a blowing mechanism, the blowing mechanism comprises an air pump, a leftward blowing port and a rightward blowing port, the leftward blowing port and the rightward blowing port are communicated with the air pump through pipelines and are located on two sides of the linear sliding port of the moving frame, the leftward blowing port is located at the left end of the linear sliding port, the rightward blowing port is arranged in the rest position of the linear sliding port, and the obliquely upward rightward blowing port and the obliquely downward rightward blowing port are arranged in a mode of being crossed in the left and right directions of the linear sliding port.

10. The stuff slotter of any one of claims 1 to 9, wherein: the automatic feeding device is characterized in that a feeding screw rod arranged in parallel to the extending direction of the sliding rail is installed on one side of the fixing frame through a bearing seat, a feeding nut is matched with the feeding screw rod in a threaded mode, the feeding nut is fixedly connected with the moving frame, and one end of the feeding screw rod is connected with a feeding motor in a transmission mode.

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