CN217832880U - Horizontal multi-shaft milling machine - Google Patents

Abstract

The utility model discloses a horizontal multiaxis bores gong machine of cutting, which comprises a frame, outer safety cover, a control box, the electronic box, the water tank, processing agency, feeding mechanism, cutting mechanism and receiving agencies, outer safety cover, processing agency, feeding mechanism, cutting mechanism and receiving agencies all install in the frame, processing agency, feeding mechanism, cutting mechanism and receiving agencies all are located outer safety cover, outer safety cover is equipped with the push-and-pull door, the push-and-pull door is 10-20 with the contained angle scope of perpendicular, control box and electronic box are all installed on outer safety cover, the electronic box is located the top of outer safety cover, the control box is located one side of push-and-pull door, the water tank inlays the dress in the frame, control box and processing agency, feeding mechanism and cutting agencies electricity are connected mutually. The utility model discloses a to processing agency, feeding mechanism, cutting mechanism and receiving agencies's position setting, for mechanical motion provides sufficient space, avoid the mistake injury of operation, go on simultaneously with a plurality of processing technology integration, improve machining efficiency.

Description

Horizontal multi-shaft milling machine

Technical Field

The utility model relates to the technical field of machining, especially, relate to horizontal multiaxis bores milling machine.

Background

The man-machine operation station of the existing horizontal multi-shaft drilling and milling machine is unreasonable in design, the head of the existing horizontal multi-shaft drilling and milling machine is very easy to hit during operation, the position of a water tank is unreasonable, the occupied space and the mechanical movement space of the existing horizontal multi-shaft drilling and milling machine are limited, the existing horizontal multi-shaft drilling and milling machine is easy to damage during operation, the position of an electric box is unreasonable, the existing horizontal multi-shaft drilling and milling machine is easy to seep water, the safety problem occurs, the existing horizontal multi-shaft drilling and milling machine has the advantages of being single in machining process, low in machining efficiency and incapable of integrating and improving the process and the efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a horizontal multiaxis bores gong machine of cutting.

According to the utility model discloses an aspect provides a horizontal multiaxis bores gong machine of cutting, which comprises a frame, outer safety cover, a control box, the electronic box, the water tank, processing agency, feeding mechanism, cutting mechanism and receiving agencies, outer safety cover, processing agency, feeding mechanism, cutting mechanism and receiving agencies all install in the frame, processing agency, feeding mechanism, cutting mechanism and receiving agencies all are located outer safety cover, outer safety cover is equipped with the push-and-pull door, the push-and-pull door is 10-20 with the contained angle scope of perpendicular, control box and electronic box are all installed on outer safety cover, the electronic box is located the top of outer safety cover, the control box is located one side of push-and-pull door, the water tank inlays the dress in the frame, control box and processing agency, feeding mechanism and cutting agencies electricity are connected mutually.

In some embodiments, the rack comprises a rack body and a fixed plate, the fixed plate is mounted on the rack body, the material receiving mechanism comprises a material guiding and receiving groove and a material receiving box, the material receiving box corresponds to the end position of the material guiding and receiving groove, the processing mechanism comprises a processing assembly and a mute tow chain, the feeding mechanism comprises a feeding assembly and a feeding guide groove, the feeding guide groove and the material receiving box are both mounted on the rack body, the feeding assembly, the cutting mechanism, the processing assembly and the material guiding and receiving groove are both mounted on the fixed plate, the feeding guide groove, the feeding assembly, the material guiding and receiving groove, the processing assembly and the mute tow chain are sequentially distributed on the rack body from left to right, and the cutting mechanism is located behind the feeding assembly.

In some embodiments, the feeding assembly includes a first linear module, a first sliding plate, a second sliding structure, a first clamping structure, a second clamping structure, a first limit structure and a second limit structure, the first linear module is mounted on the fixed plate, the first sliding plate is slidably mounted on the first linear module, the second sliding structure is slidably mounted on the first sliding plate, the first limit structure is mounted on the first sliding plate and is disposed opposite to the second sliding structure, the second limit structure is mounted on the first linear module and is disposed opposite to the second sliding structure, the first clamping structure is mounted on the second sliding structure, the second clamping structure is mounted on the first sliding plate and is disposed on one side of the first clamping structure, and the first clamping structure and the second clamping structure have the same structure.

In some embodiments, the first sliding plate is provided with a first accommodating hole, the ball nut and the ball screw of the first linear module both extend into the first accommodating hole, the ball nut of the first linear module is fixedly connected with the first sliding plate, the second sliding structure comprises a sliding cylinder, a cylinder supporting plate and a second sliding plate, the first limiting structure comprises a limiting micrometer and a limiting supporting plate, the limiting supporting plate and the second sliding plate are both installed above the first sliding plate, the second sliding plate is slidably connected with the first sliding plate, the cylinder supporting plate is installed on the second sliding plate and is opposite to the limiting supporting plate in the left-right direction, the sliding cylinder is installed on the cylinder supporting plate, the output end of the sliding cylinder penetrates through the cylinder supporting plate and is connected with the limiting supporting plate, the limiting micrometer is installed on the limiting supporting plate, and the front end of the sliding cylinder is opposite to the cylinder supporting plate.

In some embodiments, the second limiting structure comprises a limiting cylinder, a first supporting plate and a limiting thimble, the first supporting plate is mounted on the first sliding plate, the limiting cylinder is mounted on the first supporting plate, the limiting supporting plate is located between the first supporting plate and the cylinder supporting plate, the limiting cylinder and the sliding cylinder are respectively located on two sides of the limiting supporting plate, the limiting thimble is inserted into the first supporting plate, and an output end of the limiting cylinder is connected with the limiting thimble.

In some embodiments, the first clamping structure includes a second support plate, a clamping cylinder, a lever assembly, a lifting assembly, a clamping assembly and a protection block, the lifting assembly includes a pressure lever, a spring and a lifting rod, the clamping assembly is provided with a fixing rod, a first clamping block, a second clamping block, a fixing block, a second protection piece, a first protection piece and a separation piece, the clamping cylinder is installed below the second support plate, the lever assembly, the protection block and the spring are all located on the second support plate, an output end of the clamping cylinder passes through the second support plate and is connected with one end of the lever assembly, the other end of the lever assembly is connected with one end of the pressure lever, the protection block is sleeved outside the lifting assembly and the clamping assembly, the lifting rod is located above the spring and is connected with the spring, the other end of the pressure lever passes through the lifting rod and is connected with the protection block through a shaft, the first clamping block, the lifting rod and the second clamping block are sequentially clamped in the protection block, the fixing rod passes through the protection block, the first clamping block, the lifting rod and the second clamping block are located above the protection piece, the first protection piece and the second protection piece are respectively installed on the fixing block, the first clamping block and the second clamping block, and the second clamping block respectively extend out of the protection piece.

In some embodiments, the cutting mechanism includes a second linear module, a cutter motor, a mounting table, a rocker arm, a secondary transmission shaft, a first secondary wheel, a second secondary wheel, a main transmission shaft, a driving wheel, a first transmission belt, a second transmission belt and a cutter, the second linear module is fixedly mounted on the fixing plate and located behind the mounting table, the rocker arm is provided with a connecting end, a middle shaft hole and a top shaft hole, the connecting end is connected with a ball nut of the second linear module and moves up and down along with the second linear module, the secondary transmission shaft penetrates through the mounting table and is inserted into the middle shaft hole, the rocker arm is connected with the mounting table in a shaft-to-shaft manner, the top shaft hole extends out of the mounting table, the main transmission shaft is inserted into the top shaft hole, the cutter and the driving wheel are respectively connected with two ends of the main transmission shaft in a shaft-to-shaft manner, and the first secondary wheel and the secondary wheel are sequentially connected with one end of the secondary transmission shaft from outside to inside and are located below the same side of the main transmission wheel.

In some embodiments, the cutting mechanism further comprises a cutter cover, the cutter cover is arranged on the outer side of the cutter and connected with a top shaft hole, the cutter motor is installed on the top of the mounting table, the first transmission belt is arranged on the output wheel and the first driven wheel of the cutter motor, the second transmission belt is arranged on the second driven wheel and the driving wheel, and the material guide collecting groove is fixedly connected with the mounting table and located below the cutter.

In some embodiments, the processing assembly includes a third linear module, a horizontal displacement structure, a vertical displacement structure, a fourth linear module, a limiting member and a processing structure, the horizontal displacement structure includes a horizontal fixing plate, a vertical fixing plate and a first side plate which are connected in a mutually perpendicular manner, the vertical displacement structure includes a horizontal mounting plate, a vertical sliding plate and a second side plate which are connected in a mutually perpendicular manner, the horizontal fixing plate is connected with a ball nut of the third linear module and slides back and forth along the third linear module, the ball nut of the fourth linear module is fixedly connected with the second side plate, the vertical sliding plate is slidably connected with the vertical fixing plate, the processing structure is installed on the horizontal mounting plate, the second side plate is parallel to the first side plate and is located inside the first side plate, the limiting member is installed on the first side plate, and one end of the limiting member is in contact with the second side plate to limit the up-down movement distance of the second side plate.

In some embodiments, the processing structure includes a processing motor, a motor support, a processing shaft, a third transmission belt, a gun barrel shaft assembly, a fourth transmission belt, a fifth transmission belt, a second rotation shaft and a transition wheel, the processing motor is mounted on the horizontal mounting plate through the motor support, an output end of the processing motor is axially connected with the processing shaft, the processing shaft is provided with a transmission wheel and a first shaft end, the gun barrel shaft assembly, the rotation shaft and the transition wheel are mounted on the horizontal mounting plate, the gun barrel shaft assembly is provided with a first processing spindle, a second processing spindle and a first rotation shaft which are horizontally distributed in parallel, the third transmission belt is wound on the first shaft end, the first processing spindle and the second processing spindle perform triangular transmission, the first rotation shaft is provided with a first wheel groove and a second wheel groove, the fourth transmission belt is wound on the transmission wheel, the first wheel groove, the second rotation shaft is perpendicular to the first rotation shaft, the second rotation shaft is provided with a second shaft end and a first cutter end, the fifth transmission belt is wound on the second wheel groove, the transition wheel groove and the second shaft end, the fifth transmission belt is provided with a right angle, the first cutter end, the second processing spindle and the second processing spindle is detachably mounted on the second processing spindle, and the plurality of cutters.

The utility model has the advantages that: the utility model discloses slope the setting to the push-and-pull door, the installation is all first when being convenient for operate, the water tank sets up to embedded installation in the frame, improves space utilization, the electronic box is put the installation on one's top, avoid the electronic box infiltration, and through the reasonable position setting to between processing agency, feeding mechanism, cutting mechanism and the receiving agencies, provide sufficient space for mechanical motion, the mistake injury when avoiding operating improves the human-machine operation station, go on simultaneously with a plurality of processing technology integration, and the efficiency of processing is improved, the reduction manpower rate of utilization.

Drawings

Fig. 1 is a schematic structural diagram of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the frame of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 3 is the structural schematic diagram of the processing mechanism, the feeding mechanism, the cutting mechanism and the material receiving structure of the horizontal multi-axis milling machine of the embodiment of the present invention.

Fig. 4 is an explosion diagram of the feeding component of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the first clamping structure of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 6 is an exploded view of the first clamping structure of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of the cutting mechanism of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 8 is an exploded view of the cutting mechanism of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Fig. 9 is an explosion diagram of the processing components of the horizontal multi-axis drilling and milling machine according to an embodiment of the present invention.

Fig. 10 is a top view of a processing structure of the horizontal multi-axis milling and drilling machine according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

Referring to fig. 1-10, the utility model provides a horizontal multiaxis bores gong cutting machine, including frame 1, outer safety cover 2, control box 3, electronic box, water tank 5, processing agency 6, feeding mechanism 7, cutting mechanism 8 and receiving agencies 9.

The outer protective cover 2, the processing mechanism 6, the feeding mechanism 7, the cutting mechanism 8 and the material receiving structure 9 are all installed on the rack 1, and the processing mechanism 6, the feeding mechanism 7, the cutting mechanism 8 and the material receiving structure 9 are all located in the outer protective cover 2. The outer protective cover 2 is provided with a sliding door 21, the included angle range of the sliding door 21 and the vertical surface is 10-20 degrees, and the sliding door is convenient to install during operation. Control box 3 and electronic box 4 are all installed on outer safety cover 2, and electronic box 4 is located outer safety cover 2's top, avoids electronic box 4 infiltration, improves the security. The control box 3 is positioned on one side of the sliding door 21 and is provided with a turnover cover to strengthen the protection of the control box 3. The water tank 5 is embedded in the frame 1, so that the space is not occupied, and the space utilization rate is improved. The control box 3 is electrically connected with the processing mechanism 6, the feeding mechanism 7 and the cutting mechanism 8.

The housing 1 includes a housing main body 11 and a fixing plate 12, and the fixing plate 12 is mounted on the housing main body 11. The receiving mechanism 9 includes a material guiding and receiving groove 91 and a material receiving box 92, the material guiding and receiving groove 91 is installed on the fixing plate 12, the material receiving box 92 is installed on the rack main body 11, and the material receiving box 92 corresponds to the end position of the material guiding and receiving groove 91. The material guiding and collecting groove 91 is used for conveying the processed material into the material collecting box 92, and the material collecting box 92 is used for temporarily storing and collecting the processed material. The feeding guide groove 72, the feeding assembly 71, the material guide collecting groove 91, the machining assembly 61 and the mute tow chain 62 are sequentially distributed on the rack main body 11 from left to right, the positions of the mechanical units are reasonably arranged, sufficient space is provided for mechanical movement, mistaken damage during operation is avoided, a man-machine operation station is improved, a plurality of machining processes are integrated and carried out simultaneously, and machining efficiency is improved.

The feeding mechanism 7 comprises a feeding component 71 and a feeding guide groove 72, the feeding guide groove 72 is installed on the frame body 11, and the feeding component 71 is installed on the fixing plate 12. The feeding channel 72 is used for supporting and placing the workpiece to be processed. The feeding assembly 71 is used for clamping and conveying the workpiece to be processed to the processing assembly 61, so that the various cutters 624 can process the workpiece conveniently.

The feeding assembly 71 includes a first linear module 711, a first sliding plate 712, a second sliding structure 713, a first clamping structure 714, a second clamping structure 715, a first limiting structure 716, and a second limiting structure 717. The first linear module 711 is mounted on the fixed plate 12, the first sliding plate 712 has a first receiving hole, the ball nut 7111 and the ball screw 7112 of the first linear module 711 both extend into the first receiving hole, and the ball nut 7111 of the first linear module 711 is fixedly connected to the first sliding plate 712 to drive the first sliding plate 712 to slide back and forth.

The second sliding structure 713 includes a sliding cylinder 7131, a cylinder support plate 7132, and a second sliding plate 7133. The first limit structure 716 comprises a limit micrometer 7161 and a limit support plate 7162. The limit support plate 7162 and the second sliding plate 7133 are both installed above the first sliding plate 712, and the second sliding plate 7133 is slidably connected to the first sliding plate 712. The cylinder supporting plate 7132 is installed on the second sliding plate 7133 to be opposite to the limit supporting plate 7162 in left and right. The sliding cylinder 7131 is mounted on the cylinder support plate 7132, and the output end thereof passes through the cylinder support plate 7132 and is connected with the limit support plate 7162. The limiting micrometer 7161 is installed on the limiting supporting plate 7162, and the front end of the limiting micrometer 7161 is opposite to the cylinder supporting plate 7132. The limiting micrometer 7161 limits the displacement distance of the second sliding plate 7133 and the first clamping structure 714, so that the first clamping framework 714 can clamp and move the workpiece to be processed conveniently.

The second limiting structure 717 comprises a limiting air cylinder 7171, a first supporting plate 7172 and a limiting ejector pin 7173. The first support plate 7172 is mounted on the first sliding plate 712, and the limiting cylinder 7171 is mounted on the first support plate 7172. The limiting supporting plate 7162 is located between the first supporting plate 7172 and the cylinder supporting plate 7132, and the limiting cylinder 7171 and the sliding cylinder 7131 are located on two sides of the limiting supporting plate 7162 respectively. The limiting ejector pin 7173 is inserted into the first supporting plate 7172, and the output end of the limiting cylinder 7171 is connected with the limiting ejector pin 7173. The limiting cylinder 7171 is used for limiting the displacement distance between the second sliding plate 7133 and the first clamping structure 714, so that the first clamping framework 714 can clamp and move the workpiece to be processed conveniently.

The first clamping structure 714 is mounted on the second sliding structure 713, the second clamping structure 715 is mounted on the first sliding plate 712 and is located at one side of the first clamping structure 714, and the first clamping structure 714 and the second clamping structure 715 have the same structure. The first sliding plate 712 can move the second clamping structure 715 horizontally.

The first clamping structure 714 includes a second support plate 7141, a clamping cylinder 7142, a lever assembly 7143, a lifting assembly 7144, a clamping assembly 7145 and a protection block 7146. The lifting assembly 7144 includes a pressing rod 7147, a spring 7148 and a lifting rod 7149, and the clamping assembly 7145 is provided with a fixing rod 7150, a first clamping block 7151, a second clamping block 7152, a fixing block 7153, a second protection part 7154, a first protection part 7155 and a separating part 7156.

The clamping cylinder 7142 is installed below the second supporting plate 7141, and the lever assembly 7143, the protecting block 7146 and the spring 7148 are all located on the second supporting plate 7141. The output end of the clamping cylinder 7142 passes through the second supporting plate 7141 and is connected with one end of a lever assembly 7143, and the other end of the lever assembly 7143 is connected with one end of a pressing rod 7147. The protecting block 7146 is sleeved outside the lifting assembly 7144 and the clamping assembly 7145. The protection block 7146 is provided with a through groove, and the lifting rod 7149 and the spring 7148 are both positioned in the through groove and move up and down in the through groove. The lift rod 7149 is positioned above the spring 7148 and is connected to the spring 7148. The clamping cylinder 7142 drives the first clamping block 7151 and the second clamping block 7152 to clamp the material part through the combined action of the lever assembly 7143 and the lifting assembly 7144.

The other end of the pressure lever 7147 penetrates through the lifting rod 7149 and is in shaft connection with the protection block 7146, and the first clamping block 7151, the lifting rod 7149 and the second clamping block 7152 are sequentially clamped in the through groove of the protection block 7146. The fixing rod 7153 passes through the protection block 7146, the first clamping block 7151, the lifting rod 7149 and the second clamping block 7152. The fixing block 7153 is positioned above the protection block 7146, the first and second shielding members 7155 and 7154 are respectively mounted on the fixing block 7153, and the first and second clamping blocks 7151 and 7152 respectively penetrate through the fixing block 7150 and respectively protrude out of the first and second shielding members 7155 and 7154. The pressing rod 7147 is used for driving the lifting rod 7149 to move up and down, and further driving the clamping assembly 7142 to move up and down. The fixing rod 7153 is used for installing the first clamping block 7151, the lifting rod 7149 and the second clamping block 7152 in the protecting block 7146. The left side of the first clamping block 7151 and the right side of the second clamping block 7152 are both provided with a fixing piece, so that the first clamping block 7151 and the second clamping block 7152 can be clamped in the protection block 7146.

The cutting mechanism 8 is mounted on the fixed plate 12 and located behind the feeding assembly 71, and includes a second linear module 81, a cutter motor 82, a mounting table 83, a rocker arm 84, a driven transmission shaft 85, a first driven wheel 86, a second driven wheel 87, a main transmission shaft 88, a driving wheel 89, a first transmission belt 80, a second transmission belt 801, a cutter 802, and a cutter cover 803.

The second linear module 81 is fixedly mounted on the fixed plate 12 and located behind the mounting table 83. The swing arm 84 is provided with a connection end 841, a middle shaft hole 842 and a top shaft hole 843, the connection end 841 is connected with the ball nut of the second linear module 81 and moves up and down along with it, and penetrates through the mounting table 83 from the transmission shaft 85 to be inserted into the middle shaft hole 842, so that the swing arm 84 is connected with the mounting table 83 through a shaft. The top shaft hole 843 extends out of the mounting table 83, the main transmission shaft 88 is inserted into the top shaft hole 843, and the cutter 802 and the driving wheel 89 are respectively connected with two ends of the main transmission shaft 88 through shafts. The first driven wheel 86 and the second driven wheel 87 are sequentially connected with one end of the driven shaft 85 from outside to inside and are positioned below the same side of the driving wheel 89. The second linear module 81 drives the swing arm 84 to move, and controls the rotation angle of the swing arm 84, thereby controlling the cutting depth of the cutter 802. The secondary transmission shaft 85 is arranged for transition transmission, and the space utilization rate is improved.

The cutter cover 803 is covered outside the cutter 802 and connected with the top shaft hole 843, the cutter motor 82 is installed on the top of the installation table 83, the first transmission belt 80 is wound on the output wheel of the cutter motor 82 and the first driven wheel 86, and the second transmission belt 801 is wound on the second driven wheel 87 and the driving wheel 89. A first driven pulley 86 and a second driven pulley 87 are provided, and a large gear and a small gear are connected by a first transmission belt 80 and a second transmission belt 801 to amplify the torque. The material guiding and collecting groove 91 is fixedly connected with the mounting table 83 and is located below the cutter 802, the cutter 802 cuts the processed material, and the processed material which is cut falls into the material guiding and collecting groove 91 and slides along the material guiding and collecting groove 91 to be temporarily stored in the material collecting box 92.

The processing mechanism 6 comprises a processing component 61 and a silent drag chain 62, wherein the processing component 61 is arranged on the fixed plate 12, and the silent drag chain 62 is arranged on the processing component 61.

The processing assembly 61 includes a third linear module 611, a horizontal displacement structure 612, a vertical displacement structure 613, a fourth linear module 614, a position-limiting member 615, and a processing structure 616. The horizontal displacement structure 612 includes a horizontal fixing plate 6121, a vertical fixing plate 6122 and a first side plate 6123, which are vertically connected to each other. The vertical displacement structure 613 includes a horizontal mounting plate 6131, a vertical sliding plate 6132 and a second side plate 6133 which are vertically connected to each other. The horizontal fixing plate 6121 is connected to the ball nut of the third linear module 611 and slides back and forth along the third linear module 611, the ball nut of the fourth linear module 614 is fixedly connected to the second side plate 6133, and the vertical sliding plate 6132 is slidably connected to the vertical fixing plate 6122. The processing structure 616 is mounted on the horizontal mounting plate 6131, and the second side plate 6133 is parallel to the first side plate 6123 and is located inside the first side plate 6123. The limiting member 615 is installed on the first side plate 6123, and one end of the limiting member contacts with the second side plate 6133 to limit the up-and-down movement distance of the second side plate 6133.

The processing structure 616 includes a processing motor 6161, a motor support seat 6162, a processing shaft 6163, a third transmission belt 6164, a gun barrel shaft assembly 6165, a fourth transmission belt 6166, a fifth transmission belt 6167, a second rotating shaft 6168 and a transition wheel 6169.

The processing motor 6161 is mounted on the horizontal mounting plate 6131 through a motor support seat 6162, and the output end of the processing motor is axially connected with the processing shaft 6163. The processing shaft 6163 is provided with a driving wheel 617 and a first shaft end 618, and the gun barrel shaft assembly 6165, the second rotating shaft 6168 and the transition wheel 6169 are all arranged on the horizontal mounting plate 6131. The gun barrel shaft assembly 6165 is provided with a first processing main shaft 619, a second processing main shaft 620 and a first rotating shaft 621 which are horizontally distributed in parallel, and a third transmission belt 6164 is wound on the first shaft end 618, the first processing main shaft 619 and the second processing main shaft 620 for triangular transmission. The first rotating shaft 621 is provided with a first pulley groove 6211 and a second pulley groove 6212, and the fourth belt 6166 is wound around the transmission wheel 617 and the first pulley groove 6211. The second rotation shaft 6168 is perpendicular to the first rotation shaft 621, the second rotation shaft 6168 is provided with a second shaft end 622 and a first cutter end 623, the fifth transmission belt 6167 is wound on the second wheel groove 6212, the transition wheel 6169 and the second shaft end 622, and the fifth transmission belt 6167 is wound on the transition wheel 6169 to form a right angle. The first tool end 623, the first machining spindle 619, and the second machining spindle 620 all detachably mount a plurality of tools 624, including cutters, drilling tools, and boring tools, for the plurality of tools 624.

The utility model discloses when using, to wait to process the material piece and put on pay-off guide slot 72, first clamping structure 714 presss from both sides tight material piece, under the drive of second sliding structure 713, moves right and transports the material piece to second clamping structure 715 position, and second clamping structure 715 presss from both sides tight material piece, and first clamping structure 714 all presss from both sides tight material piece with second clamping structure 715 this moment. The processing mechanism 616 moves to the processing position by the third linear module 611 and the fourth linear module 614. The front end of the workpiece corresponds to the position of the cutter 624 of the machining mechanism 616, and the various cutters 624 machine the workpiece according to the program setting of the control box 3. After the machining is completed, the cutter 802 is driven by the cutter motor 82 to cut the material between the first clamping structure 714 and the second clamping structure 715. The second clamping structure 715 still clamps the processed material after cutting. The first clamp structure 714 is released and moved to the left by the second slide structure 713. The first limiting structure 716 and the second limiting structure 717 limit the moving distance of the first clamping structure 714, the first clamping structure 714 clamps the unprocessed material after reaching the limiting position, and then the unprocessed material is moved to the right by the second sliding structure 713, so that the material is transported to the position of the second clamping structure 715 again. Meanwhile, the second clamping structure 715 releases the machined material, clamps the unmachined material, and repeats the above-mentioned machining process. The processed material falls into the material guiding and collecting groove 91 and slides into the collecting box 92 for temporary storage.

The above description is only some embodiments of the present invention, and for those skilled in the art, without departing from the inventive concept, a plurality of modifications and improvements can be made, and all of them belong to the protection scope of the present invention.

Claims (10)

1. Horizontal multiaxis bores gong machine of cutting, its characterized in that, including frame, outer safety cover, control box, electronic box, water tank, processing agency, feeding mechanism, cutting mechanism and receiving agencies, outer safety cover, processing agency, feeding mechanism, cutting mechanism and receiving agencies all install in the frame, processing agency, feeding mechanism, cutting mechanism and receiving agencies all are located in the outer safety cover, outer safety cover is equipped with the push-and-pull door, the push-and-pull door is 10-20 with the contained angle scope of perpendicular, the control box with the electronic box all install in on the outer safety cover, the electronic box is located the top of outer safety cover, the control box is located one side of push-and-pull door, the water tank inlay and locate in the frame, the control box with processing agency, feeding mechanism and cutting agencies electricity are connected mutually.

2. The horizontal multi-shaft milling and cutting machine according to claim 1, wherein the frame comprises a frame body and a fixed plate, the fixed plate is mounted on the frame body, the material receiving mechanism comprises a material guiding and receiving groove and a material receiving box, the material receiving box corresponds to the end position of the material guiding and receiving groove, the processing mechanism comprises a processing assembly and a silent drag chain, the feeding mechanism comprises a feeding assembly and a feeding guide groove, the feeding guide groove and the material receiving box are mounted on the frame body, the feeding assembly, the cutting mechanism, the processing assembly and the material guiding and receiving groove are mounted on the fixed plate, the feeding guide groove, the feeding assembly, the material guiding and receiving groove, the processing assembly and the silent drag chain are sequentially distributed on the frame body from left to right, and the cutting mechanism is located behind the feeding assembly.

3. The horizontal multi-axis milling and cutting machine as claimed in claim 2, wherein the feeding assembly comprises a first linear module, a first sliding plate, a second sliding structure, a first clamping structure, a second clamping structure, a first limiting structure and a second limiting structure, the first linear module is mounted on the fixed plate, the first sliding plate is slidably mounted on the first linear module, the second sliding structure is slidably mounted on the first sliding plate, the first limiting structure is mounted on the first sliding plate and is arranged opposite to the second sliding structure, the second limiting structure is mounted on the first linear module and is arranged opposite to the second sliding structure, the first clamping structure is mounted on the second sliding structure, the second clamping structure is mounted on the first sliding plate and is arranged at one side of the first clamping structure, and the first clamping structure and the second clamping structure are identical in structure.

4. The horizontal multi-axis milling and cutting machine according to claim 3, wherein the first sliding plate is provided with a first receiving hole, the ball nut and the ball screw of the first linear module both extend into the first receiving hole, the ball nut of the first linear module is fixedly connected with the first sliding plate, the second sliding structure comprises a sliding cylinder, a cylinder support plate and a second sliding plate, the first limiting structure comprises a limiting micrometer and a limiting support plate, the limiting support plate and the second sliding plate are both installed above the first sliding plate, the second sliding plate is slidably connected with the first sliding plate, the cylinder support plate is installed on the second sliding plate and is opposite to the limiting support plate in the left-right direction, the sliding cylinder is installed on the cylinder support plate, the output end of the sliding cylinder passes through the cylinder support plate and is connected with the limiting support plate, the limiting micrometer is installed on the limiting support plate, and the front end of the limiting micrometer is opposite to the cylinder support plate.

5. The horizontal multi-axis drilling and cutting milling machine according to claim 4, wherein the second limiting structure comprises a limiting cylinder, a first supporting plate and a limiting thimble, the first supporting plate is mounted on the first sliding plate, the limiting cylinder is mounted on the first supporting plate, the limiting supporting plate is located between the first supporting plate and a cylinder supporting plate, the limiting cylinder and the sliding cylinder are respectively located at two sides of the limiting supporting plate, the limiting thimble is inserted into the first supporting plate, and the output end of the limiting cylinder is connected with the limiting thimble.

6. The horizontal multi-axis drilling and milling machine according to claim 5, wherein the first clamping structure comprises a second support plate, a clamping cylinder, a lever assembly, a lifting assembly, a clamping assembly and a protection block, the lifting assembly comprises a pressure rod, a spring and a lifting rod, the clamping assembly is provided with a fixing rod, a first clamping block, a second clamping block, a fixing block, a second protection piece, a first protection piece and a separating piece, the clamping cylinder is installed below the second support plate, the lever assembly, the protection block and the spring are all located on the second support plate, the output end of the clamping cylinder penetrates through the second support plate and is connected with one end of the lever assembly, the other end of the lever assembly is connected with one end of the pressure rod, the protection block is sleeved outside the lifting assembly and the clamping assembly, the lifting rod is located above the spring and is connected with the spring, the other end of the pressure rod penetrates through the lifting rod and is in shaft connection with the protection block, the first clamping block, the lifting rod and the second clamping block are sequentially clamped in the protection block, the fixing rod penetrates through the protection block, the first clamping block and the second protection piece, the first clamping block and the second protection piece respectively extend out of the protection piece.

7. The horizontal multi-axis drilling and milling machine according to claim 2, wherein the cutting mechanism comprises a second linear module, a cutter motor, a mounting platform, a rocker arm, a secondary transmission shaft, a first secondary driving wheel, a second secondary driving wheel, a main transmission shaft, a driving wheel, a first transmission belt, a second transmission belt and a cutter, the second linear module is fixedly mounted on the fixing plate and located behind the mounting platform, the rocker arm is provided with a connecting end, a middle shaft hole and a top shaft hole, the connecting end is connected with a ball nut of the second linear module and moves up and down along with the ball nut, the secondary transmission shaft penetrates through the mounting platform and is inserted into the middle shaft hole, the rocker arm is connected with the mounting platform, the top shaft hole extends out of the mounting platform, the main transmission shaft is inserted into the top shaft hole, the cutter and the driving wheel are respectively connected with two ends of the main transmission shaft, and the first secondary driving wheel and the second secondary driving wheel are sequentially connected with one end of the secondary transmission shaft from outside to inside and are located below the same side of the driving wheel.

8. The horizontal multi-axis drilling and milling machine as claimed in claim 7, wherein the cutting mechanism further comprises a cutter cover, the cutter cover is arranged outside the cutter and connected with the top shaft hole, the cutter motor is mounted on the top of the mounting table, the first transmission belt is wound on an output wheel of the cutter motor and the first driven wheel, the second transmission belt is wound on the second driven wheel and the driving wheel, and the material guiding and collecting trough is fixedly connected with the mounting table and located below the cutter.

9. The horizontal multi-axis milling and cutting machine according to claim 8, wherein the processing assembly comprises a third linear module, a horizontal displacement structure, a vertical displacement structure, a fourth linear module, a limiting member and a processing structure, the horizontal displacement structure comprises a horizontal fixing plate, a vertical fixing plate and a first side plate which are vertically connected, the vertical displacement structure comprises a horizontal mounting plate, a vertical sliding plate and a second side plate which are vertically connected, the horizontal fixing plate is connected with a ball nut of the third linear module and slides back and forth along the third linear module, a ball nut of the fourth linear module is fixedly connected with the second side plate, the vertical sliding plate is slidably connected with the vertical fixing plate, the processing structure is mounted on the horizontal mounting plate, the second side plate is parallel to the first side plate and is located inside the first side plate, the limiting member is mounted on the first side plate, and one end of the limiting member is in contact with the second side plate to limit the vertical movement distance of the second side plate.

10. The horizontal multi-axis milling and drilling machine of claim 9, wherein the processing structure comprises a processing motor, a motor support, a processing shaft, a third belt, a barrel shaft assembly, a fourth belt, a fifth belt, a second rotating shaft and a transition wheel, the processing motor is mounted on the horizontal mounting plate through the motor support, the output end of the processing motor is axially connected with the processing shaft, the processing shaft is provided with a driving wheel and a first shaft end, the barrel shaft assembly, the rotating shaft and the transition wheel are mounted on the horizontal mounting plate, the barrel is provided with a first processing spindle, a second processing spindle and a first rotating shaft which are horizontally distributed in parallel, the third belt is mounted on the first shaft end, the first processing spindle and the second processing spindle for triangular transmission, the first rotating shaft is provided with a first wheel groove and a second wheel groove, the fourth belt is mounted on the driving wheel, the first wheel groove, the second rotating shaft is perpendicular to the first rotating shaft, the second rotating shaft is provided with a second shaft end and a first cutter end, the fifth belt is mounted on the second wheel groove, the transition wheel groove and the transition wheel groove, the second wheel groove and the first rotating shaft assembly is detachably mounted on the second shaft, the second spindle, the second shaft end and the second spindle assembly and the second belt are detachably mounted on the second processing spindle, the second cutting tool, and the second cutting tool end, and the second cutting tool is detachably mounted on the second cutting head, and the second cutting tool end, and the second cutting head.

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