CN210756373U - Automatic production equipment for turnbuckle adjusting rod - Google Patents

Abstract

The utility model relates to an automatic production equipment of turnbuckle adjusting rod, workstation including the cuboid form, the both sides of workstation all are provided with the balladeur train that can be close to each other along workstation length direction, all set gradually three driving motor on the balladeur train, both sides driving motor's output shaft all sets up and the rigid coupling has the drill bit in proper order towards the direction of being close to each other, screw tap and chamfer sword, both sides correspond driving motor's output shaft and are in same straight line, the one end of workstation still is provided with the material platform of putting that can deposit length direction and the same regulation pole of workstation width direction, the middle part of workstation slides along its length direction and is connected with the slip table, the rigid coupling has a plurality of lift jars on the slip table, the equal rigid coupling of telescopic link tip of lift jar has can press from both sides and put work piece on the work or material. The utility model discloses have and to adopt an equipment to accomplish multiple processing to the regulating lever, easy operation, effect that work efficiency is high.

Description

Automatic production equipment for turnbuckle adjusting rod

Technical Field

The utility model belongs to the technical field of the technique of turnbuckle bolt and specifically relates to an automatic production equipment of turnbuckle bolt adjusting rod is related to.

Background

The turnbuckle bolt is stretched by the lead screw, and the tightness of the steel wire rope can be adjusted. The components may be tied up in component transport and loosened in installation correction. The turnbuckle bolt is including adjusting pole and two pull rods that one end was kept away from each other and all set firmly the coupler body, and the screw has been seted up respectively at the both ends of adjusting the pole, and the soon of two screws is to opposite, and the one end that is close to each other of two regulation poles is screw rod portion, and the soon of two screw rod portions is to opposite, and two pull rods are respectively through the both ends of two screw rod portion threaded connection in regulation pole. The structure is simple, the processing is easy, the cost is low, and the practicability is strong.

The adjusting rod of the turnbuckle bolt is manufactured by machining two ends after casting is completed, the adjusting rod is firstly clamped on a drilling machine twice, then two ends of the adjusting rod are drilled respectively twice through a drill bit, after the two ends of the adjusting rod are drilled, the adjusting rod is clamped on a tapping machine twice, holes at two ends of the adjusting rod are tapped respectively twice through a screw tap, two ends of the adjusting rod are made to form screw holes respectively, finally, the adjusting rod is clamped on the drilling machine or a milling machine twice, chamfering is respectively performed on positions, far away from one end of the adjusting rod corresponding to the screw holes, of the adjusting rod, chamfering is performed twice through a chamfering tool, two ends of the turnbuckle bolt are finished, during use, the screw holes can be connected with screw portions of pull rods, and the chamfering can facilitate screwing of the screw portions of the pull rods into the screw holes.

The above prior art solutions have the following drawbacks: the existing machining of the two ends of the turnbuckle adjusting rod needs various devices, and because the two ends of the adjusting rod need to be machined, the adjusting rod needs to be clamped on different devices repeatedly during machining, so that the operation is troublesome, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic production equipment of turnbuckle adjusting rod has and can adopt an equipment to accomplish multiple processing to turnbuckle adjusting rod, easy operation, and work efficiency is high.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides an automatic production equipment of turnbuckle adjusting rod, includes the workstation of cuboid form, the both sides of workstation all are provided with the balladeur train that can be close to each other along workstation length direction, all set gradually three driving motor on the balladeur train, both sides driving motor's output shaft all sets up and the rigid coupling has drill bit, screw tap and chamfer sword in proper order towards the direction of being close to each other, and both sides correspond driving motor's output shaft and are in same straight line, the one end of workstation still is provided with the material platform of putting that can deposit length direction and the same regulation pole of workstation width direction, the middle part of workstation slides along its length direction and is connected with the slip table, the rigid coupling has a plurality of lift jars on the slip table, the equal rigid coupling of telescopic link tip of lift jar has can press from both sides and put work piece on the work or material rest and.

By adopting the technical scheme: when the device is used, the adjusting rod of the turnbuckle bolt is placed in the material placing groove of the material placing table, then the lifting cylinder is driven by the sliding table to move to the position of the material placing table, the telescopic rod of the lifting cylinder extends and clamps the adjusting rod on the material placing table by the pneumatic chuck, then the telescopic rod is driven by the lifting cylinder to retract to drive the adjusting rod clamped on the pneumatic chuck to ascend, then the workpiece clamped on the adjusting rod is driven by the sliding table to sequentially send to the space between the driving motors on the two sides by sliding, the workpiece is driven by the lifting cylinder to descend to be placed between the driving motors on the two sides, then the driving motors on the two sides are driven by the sliding frame to move towards the direction close to each other, namely, the output shaft of the driving motor provided with the drill bit is firstly rotated, the two ends of the adjusting rod are synchronously drilled, after the drilling is finished, the driving motors on the two sides of the, the driving motor who installs the screw tap is close to the regulation pole through the balladeur train drive once more, and drive the screw tap through driving motor and rotate, accomplish the tapping at regulation pole both ends, the balladeur train resets once more, the slip table drives the regulation pole once more and removes to between two driving motor of chamfer position, the balladeur train drives the driving motor who installs the chamfer sword and is close to the regulation pole, and rotate through driving motor and can accomplish the chamfer of adjusting the pole, then, the balladeur train resets, the slip table drives the driving cylinder and resets and loosen the regulation pole through pneumatic chuck, can accomplish the automatic processing at back regulation pole both ends, then repeat above-mentioned step and can accomplish the continuous processing of adjusting the pole, high work efficiency, high durability and convenient use, an equipment can.

The utility model discloses further set up to: the position that corresponds between the both sides driving motor in the middle part of the workstation all is provided with the two-way telescoping cylinder that telescopic link axis direction and driving motor output shaft axis direction are the same, the equal rigid coupling of telescopic link tip of two-way telescoping cylinder has the locating plate, all set up on the locating plate with the through-hole that corresponds driving motor drive shaft coaxial line.

Through adopting above-mentioned technical scheme, the during operation drives the lift cylinder through the slip table and removes the back between the driving motor of both sides, and the lift cylinder descends, can drive the work piece and be located between two locating plates of same two-way telescoping cylinder, then two-way telescoping cylinder can drive the direction motion that the locating plate trend is close to each other to press from both sides tight work piece, accomplish firmly fixed of work piece, and can process the both ends of work piece through the through-hole of locating plate.

The utility model discloses further set up to: four lifting cylinders are sequentially arranged on the sliding frame, pneumatic chucks are fixedly connected to telescopic rods of the lifting cylinders, and the distance between every two adjacent lifting cylinders is the same as that between every two adjacent positioning plates.

By adopting the technical scheme, through four lifting cylinders that set up, drive the position of each lifting cylinder reciprocating motion station at the during operation slip table, the pneumatic chuck of first lifting cylinder can press from both sides the regulation pole clamp on the material platform and press from both sides through the locating plate between the two locating plates of drilling station tightly, the pneumatic chuck of second lifting cylinder can press from both sides the regulation pole clamp of drilling station and press from both sides through the locating plate tightly between the two locating plates of tapping station, the pneumatic chuck of third lifting cylinder can press from both sides the regulation pole clamp of tapping station and press from both sides tightly between the two locating plates of chamfer station, the pneumatic chuck of fourth lifting cylinder can take out the regulation pole of chamfer station and accomplish and unload, reciprocating motion through the slip table cooperates four lifting cylinders and four pneumatic chucks, can make the continuous regulation pole of three station process, and improve work efficiency.

The utility model discloses further set up to: and one side of the workbench, which corresponds to the sliding frame, is fixedly connected with a driving cylinder with the length direction being the same as the sliding direction of the sliding frame, and a telescopic rod of the driving cylinder is fixedly connected with the sliding frame.

Through adopting above-mentioned technical scheme, the during operation, the telescopic link through the thrust cylinder is flexible can drive two balladeur trains and be close to each other or keep away from to accomplish the processing of work piece.

The utility model discloses further set up to: the middle part of workstation has a supporting bench along its length direction rigid coupling, the slip table slides and connects in a supporting bench, there is the propelling movement jar along its axis direction rigid coupling on the slip table, the telescopic link rigid coupling of propelling movement jar is in a supporting bench one end.

Through adopting above-mentioned technical scheme, the telescopic link through the propelling movement jar that adopts is reciprocal flexible can drive the slip table and slide along a supporting bench is reciprocal, and then can drive each lift jar and come and go between adjacent station.

The utility model discloses further set up to: the output shaft of the driving motor is fixedly connected with a jacket, and the drill bit or the screw tap or the chamfer cutter is detachably connected with the jacket.

By adopting the technical scheme, when the drill bit or the screw tap or the chamfer cutter is damaged, the cutter can be detached from the jacket, so that the replacement or the maintenance is convenient.

The utility model discloses further set up to: the middle part of the jacket is provided with a jack which is coaxial with the output shaft of the driving motor, and one side of the jacket is in threaded connection with a tightening bolt, the end part of which can extend into the jack.

By adopting the technical scheme, when the clamping device is used, the puller bolt is unscrewed, the cutter can be pulled out from the jack of the clamping sleeve, and after the cutter is inserted into the jack of the clamping sleeve, the puller bolt is screwed down to complete the fixation of the workpiece in the clamping sleeve.

The utility model discloses further set up to: and waste material tanks are arranged at the positions of the two sides of the workbench corresponding to the two-way telescopic cylinder.

Through adopting above-mentioned technical scheme, can accept the waste material that falls down when adjusting pole both ends processing through the dirty tank that adopts, the collection of the waste material of being convenient for.

The utility model discloses further set up to: and a material receiving box is arranged at one end of the middle part of the workbench, which is far away from the material placing table.

Through adopting above-mentioned technical scheme, can accept the work piece that processing was accomplished through the workbin that connects that sets up.

The utility model discloses further set up to: the equal rigid coupling in position that the workstation corresponds the waste material groove upside has the gas-supply pipe, the equal rigid coupling in position that the gas-supply pipe corresponds each locating plate outside has jet-propelled pipe, the downside of workstation still rigid coupling has the hair-dryer of mouth of blowing and gas-supply pipe intercommunication.

Through adopting above-mentioned technical scheme, the during operation, the hair-dryer passes through the gas-supply pipe then from each jet-propelled pipe blowout wind-force to can blow the waste material that produces when adjusting the pole both ends with processing to the dirty tank in, and then avoid adhesion waste material on drill bit or screw tap or the chamfer sword, the processing of the work piece of being convenient for.

To sum up, the utility model discloses a beneficial technological effect does:

1. when the device is used, the adjusting rod of the turnbuckle bolt is placed in the material placing groove of the material placing table, then the lifting cylinder is driven by the sliding table to move to the position of the material placing table, the telescopic rod of the lifting cylinder extends and clamps the adjusting rod on the material placing table by the pneumatic chuck, then the telescopic rod is driven by the lifting cylinder to retract to drive the adjusting rod clamped on the pneumatic chuck to ascend, then the workpiece clamped on the adjusting rod is driven by the sliding table to sequentially send to the space between the driving motors on the two sides by sliding, the workpiece is driven by the lifting cylinder to descend to be placed between the driving motors on the two sides, then the driving motors on the two sides are driven by the sliding frame to move towards the direction close to each other, namely, the output shaft of the driving motor provided with the drill bit is firstly rotated, the two ends of the adjusting rod are synchronously drilled, after the drilling is finished, the driving motors on the two sides of the, the sliding frame drives the driving motor provided with the screw tap to be close to the adjusting rod again, the driving motor drives the screw tap to rotate, tapping at two ends of the adjusting rod is completed, the sliding frame resets again, the sliding table drives the adjusting rod to move between the two driving motors at the chamfering position again, the sliding frame drives the driving motor provided with the chamfering tool to be close to the adjusting rod, chamfering of the adjusting rod can be completed through rotation of the driving motor, then, the sliding frame resets, the sliding table drives the driving cylinder to reset, the adjusting rod is loosened through the pneumatic chuck, automatic machining of two ends of the rear adjusting rod can be completed, then, the steps are repeated, and continuous machining of the adjusting rod can be completed, the working efficiency is high, the use is convenient, and one device can complete machining;

2. when the bidirectional telescopic cylinder is in work, after the lifting cylinder is driven by the sliding table to move to a position between the driving motors at two sides, the lifting cylinder descends to drive a workpiece to be positioned between two positioning plates of the same bidirectional telescopic cylinder, then the bidirectional telescopic cylinder can drive the positioning plates to move towards directions close to each other, so that the workpiece is clamped, the workpiece is firmly fixed, and two ends of the workpiece can be machined through holes of the positioning plates;

3. through four lifting cylinders that set up, the position of each lifting cylinder reciprocating motion station is driven at the during operation slip table, the pneumatic chuck of first lifting cylinder can press from both sides the regulation pole clamp of putting the material bench and get between two locating plates at the drilling station and press from both sides tightly through the locating plate, the pneumatic chuck of second lifting cylinder can press from both sides the regulation pole clamp of drilling station and get between two locating plates at the tapping station and press from both sides tightly through the locating plate, the pneumatic chuck of third lifting cylinder can press from both sides the regulation pole clamp of tapping station and get between two locating plates at the chamfer station and press from both sides tightly, the pneumatic chuck of fourth lifting cylinder can take out the regulation pole of chamfer station and accomplish the unloading, reciprocating motion through the slip table cooperates four lifting cylinders and four pneumatic chucks, can make the continuous regulation pole of three station process, and improve work.

Drawings

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

Fig. 2 is a schematic view of the jacket structure of the present invention.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 4 is a schematic view of the material placing rack of the present invention.

In the figure, 1, a workbench; 11. a support table; 12. a sliding table; 121. a push cylinder; 122. a lift cylinder; 123. a pneumatic chuck; 13. a material receiving box; 14. a waste chute; 15. a gas delivery pipe; 151. a gas ejector tube; 152. a blower; 2. a carriage; 21. a drive cylinder; 22. a drive motor; 221. a jacket; 222. a jack; 223. screwing down the bolt; 3. a bidirectional telescopic cylinder; 31. positioning a plate; 32. a through hole; 4. a material placing frame; 41. a column; 411. dropping the groove; 42. a material placing table; 421. a transverse plate; 422. a vertical plate; 423. a material placing groove; 43. a material pushing cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the automatic production equipment of a turnbuckle adjusting rod disclosed by the present invention, comprising a workbench 1 in a rectangular shape, wherein both sides of the workbench 1 are respectively provided with a sliding frame 2 having a length direction the same as the length direction of the workbench 1, one side of the workbench 1 corresponding to two sliding frames 2 is respectively fixedly connected with a driving cylinder 21, the length direction of the driving cylinder 21 is perpendicular to the length direction of the workbench, and telescopic rods of the driving cylinders 21 are respectively fixedly connected to one side corresponding to the sliding frame 2, the sliding frames 2 at both sides are respectively fixedly connected with a plurality of driving motors 22, in the present embodiment, the sliding frames 2 at both sides are respectively fixedly connected with three driving motors 22, the three driving motors 22 of the same sliding frame 2 are uniformly arranged along the length direction of the sliding frame 2, output shafts of the driving motors 22 of the two sliding frames 2 are respectively perpendicular to the length direction of the workbench 1 and symmetrically arranged, and output shafts of the two driving motors 22 correspondingly arranged at both sides of the, the output shaft of driving motor 22 still all is the rigid coupling has the clamp cover 221, the jack 222 with the coaxial line of driving motor 22 output shaft is seted up at the middle part of clamp cover 221, one side threaded connection of clamp cover 221 has the tip to extend to in the jack 222 screw bolt 223, in using, can insert the cutter and locate in the jack 222 of each clamp cover 221, and screw bolt, the tip top of messenger's top bolt is tight the cutter in the jack 222, thereby accomplish the fixed of cutter, in this embodiment, the drill bit, screw tap and chamfer sword have been clamped in proper order in the clamp cover 221 of the three driving motor 22 of homonymy. During the use, the regulation pole that will treat processing is arranged in between the middle part both sides driving motor 22 of workstation 1, and make the length direction perpendicular to workstation 1 length direction of regulation pole, the both ends of adjusting the pole correspond the driving motor 22 output shaft of workstation 1 both sides respectively promptly, then, through the flexible balladeur train 2 trend direction motion that drives both sides each other that drives of driving cylinder 21 telescopic link, drive simultaneously through driving motor 22 and respectively adorn the cutter synchronous rotation of pressing from both sides in the output shaft tip, can be simultaneously to the both ends of adjusting the pole drilling or tapping or chamfer processing.

Referring to fig. 1 and 3, two-way telescopic cylinders 3 are fixedly connected to positions, corresponding to positions between two driving motors 22 on two sides, in the middle of a workbench 1, the axis direction of a telescopic rod of each two-way driving cylinder 21 is the same as the axis direction of an output shaft of the driving motor 22, positioning plates 31 are fixedly connected to the end portions of telescopic rods of the two-way telescopic cylinders 3, through holes 32 are formed in the positioning plates 31 on two sides, and the through holes 32 and the axes of the output shafts of the corresponding driving motors 22 are located on the same straight line. During operation, the adjusting rod can be arranged at the position of the two-way telescopic cylinder 3 between the driving motors 22 at the two sides, the telescopic rod of the two-way telescopic cylinder 3 contracts to drive the two corresponding positioning plates 31 to be close to each other, so that the two ends of the adjusting rod are clamped, the two ends of the adjusting rod are located at the positions of the through holes 32 of the positioning plates 31, and the driving motors 22 can drive the cutters to rotate to process the two ends of the adjusting rod.

Referring to fig. 1 and 4, a material placing frame 4 is vertically arranged at one end of a workbench 1, the material placing frame 4 comprises two upright posts 41 which are vertically arranged, a blanking slot 411 is respectively arranged at one side of the two upright posts 41 which are close to each other along the vertical direction to form a blanking slot penetrating through the material placing frame 4, the length direction of the blanking slot is the same as the width direction of the workbench 1, the width of the blanking slot is the width of an adjusting rod, the length of the blanking slot is the length of the adjusting rod, a material placing table 42 is arranged at the position of the lower side of the limiting slot of the workbench 1 along the length direction of the workbench 1, the material placing table 42 comprises a transverse plate 421 which is connected to the upper side of the workbench 1 in a sliding manner along the length direction of the workbench 1, two vertical plates 422 which are the same as the length direction of the transverse plate are fixedly connected to the upper side of the transverse plate 421, the two upright plates 422 are arranged between the two upright posts 41, the upper side of the vertical plates 422 is flush with the lower end of the material, one end of a telescopic rod of the material pushing cylinder 43 is fixedly connected to one end, close to the workbench 1, of the transverse plate 421, a material placing groove 423 is vertically formed in the upside of one end, far away from the material pushing cylinder 43, of the upside of the two vertical plates 422, the width of the material placing groove 423 is the same as that of the adjusting rod, in a normal state, the material placing groove 423 of the two vertical plates 422 is located below the material dropping groove, and the adjusting rod at the lowest end in the material placing frame 4 can slide downwards to the material placing groove 423 by means of self gravity. The during operation, the telescopic link of charging cylinder 43 extends and can drive two risers 422 through diaphragm 421 and remove, thereby can put riser 422 the regulation pole propelling movement in the material groove 423 and put the lower extreme of work or material rest 4, and because riser 422's upside and the lower extreme parallel and level of putting material rest 4, therefore riser 422's upside can be located the lower extreme of putting material rest 4 this moment, prevent to put the regulation pole in the work or material rest 4 and drop, when riser 422 resets, the material groove 423 of putting of riser 422 upside can be located the lower extreme of putting the work or material rest 4 once more, and put the regulation pole of work or material rest 4 bottom and fall once more in putting the material groove 423, so relapse, can realize the automatic feeding who adjusts the pole.

The middle part of workstation 1 is followed its length direction rigid coupling and is had a supporting bench 11, and the upside of supporting bench 11 slides along the length direction of supporting bench 11 and is connected with slip table 12, and the rigid coupling has propelling movement jar 121 along its axis direction on the slip table 12, and the telescopic link rigid coupling of propelling movement jar 121 is in supporting bench 11 one end. The middle part of the workbench 1 is far away from one end of the material placing frame 4 and is also fixedly connected with a material receiving box 13 with an open upper end. When the lifting device works, the pushing cylinder 121 stretches to drive the sliding table 12 to reciprocate, four lifting cylinders 122 are sequentially and vertically fixedly connected to the sliding table 2 along the length direction of the sliding table 2, the distance between every two adjacent lifting cylinders 122 is the same as the distance between every two adjacent two-way telescopic cylinders 3, the telescopic rods of the lifting cylinders 122 are all arranged downwards and are fixedly connected with pneumatic chucks 123, when the lifting device works, the sliding table 12 drives each lifting cylinder 122 to reciprocate at the position of one station, after the lifting cylinder 122 is pushed out of the lower end of the material placing frame 4 along with the adjusting rod in the material placing groove 423 of the vertical plate 422, the sliding table 12 moves to drive the first lifting cylinder 122 close to the material placing frame 4 to be positioned at the upper side of the adjusting rod on the vertical plate 422, then the lifting cylinder 122 descends, the adjusting rod on the material placing table 42 can be clamped through the pneumatic chucks 123, then, the lifting cylinders 122 reset, the sliding table 12 moves to one station, the first lifting cylinder 122, then, the lifting cylinder 122 drives the telescopic rod to descend, so that the adjusting rod can be arranged at the corresponding position of the two-way telescopic cylinder 3, the two-way telescopic cylinder 3 drives the two positioning plates 31 to retract, so that the adjusting rod can be clamped tightly, then, the lifting cylinder 122 resets, a workpiece at the position is drilled through the driving motor 22, meanwhile, the sliding table 12 resets, the first telescopic cylinder is driven to return to the upper side of the vertical plate 422 again, so that the adjusting rod is clamped newly, the adjustment and clamping between the first two-way telescopic cylinder 3 can be completed, the rest lifting cylinders 122 have the same principle as the first lifting cylinder 122, the second lifting cylinder 122 can move back and forth along with the sliding table 12, the workpiece can be continuously clamped between the two-way telescopic cylinders 3 at the drilling station, then, the workpiece is loosened along with the positioning plates 31 of the two-way telescopic cylinders 3, and can be sent between the two-way, the positioning plate 31 is driven by the two-way telescopic cylinder 3 of the tapping station to clamp a workpiece for tapping, the third lifting cylinder 122 can continuously clamp the workpiece from the two-way telescopic cylinder 3 of the tapping station along with the reciprocating motion of the sliding table 12, then the third lifting cylinder 122 is loosened along with the positioning plate 31 of the two-way telescopic cylinder 3, the workpiece can be conveyed to the position between the two-way telescopic cylinders 3 of the chamfering station, the positioning plate 31 is driven by the two-way telescopic cylinder 3 of the chamfering station to clamp the workpiece for chamfering, the fourth lifting cylinder 122 can continuously clamp the workpiece from the two-way telescopic cylinder 3 of the chamfering station along with the reciprocating motion of the sliding table 12, then the third lifting cylinder 122 is loosened along with the positioning plate 31 of the two-way telescopic cylinder 3, the workpiece can be conveyed into the material receiving box 13, the machining of the adjusting rod can be completed at the moment.

The position that workstation 1 corresponds the both sides of two-way telescoping cylinder 3 has all seted up waste material groove 14 along the length direction of workstation 1, the upside that the both sides of workstation 1 correspond waste material groove 14 all has air supply pipe 15 along the length direction rigid coupling of workstation 1, the equal rigid coupling in position that air supply pipe 15 corresponds each locating plate 31 outside has jet-propelled pipe 151, the downside of brace table 11 still rigid coupling has hair-dryer 152, the end and the air supply pipe 15 intercommunication of giving vent to anger of hair-dryer 152. During operation, the air blower 152 passes through the air pipe 15 and then blows out wind power from each air jet pipe 151, thereby blowing waste materials generated when the two ends of the adjusting rod are machined into the waste material groove 14, further avoiding adhesion waste materials on a drill bit or a screw tap or a chamfering tool, and facilitating machining of workpieces.

The implementation principle of the embodiment is as follows: during operation, arrange a plurality of regulation poles in and put on work or material rest 4, put the regulation pole of work or material rest 4 bottommost and will fall on putting material groove 423, the telescopic link of charging cylinder 43 extends and can drive two risers 422 through diaphragm 421 and remove, thereby can put riser 422 the regulation pole propelling movement in the material groove 423 and put the lower extreme of work or material rest 4, and because the upside of riser 422 and the lower extreme parallel and level of putting work or material rest 4, therefore the upside of riser 422 can be located the lower extreme of putting work or material rest 4 this moment, prevent to put the regulation pole in the work or material rest 4 and drop, when riser 422 resets, the work or material groove 423 of putting of riser 422 upside can be located the lower extreme of putting work or material rest 4 once more, and put the regulation pole of work or material rest 4 bottommost and fall on putting work or material groove 423 once more.

Meanwhile, the sliding table 12 drives each lifting cylinder 122 to move back and forth to a position of one station, after the adjusting rod in the material placing groove 423 along with the vertical plate 422 is pushed out of the lower end of the material placing rack 4, the sliding table 12 moves to drive the first lifting cylinder 122 close to the material placing rack 4 to be positioned on the upper side of the adjusting rod on the vertical plate 422, then the lifting cylinder 122 can descend, meanwhile, the adjusting rod on the material placing rack 42 can be clamped through the pneumatic chuck 123, then the lifting cylinder 122 resets, the sliding table 12 moves to a position, the first lifting cylinder 122 is positioned at a position close to the bidirectional telescopic cylinder 3 of the material placing rack 4, then the lifting cylinder 122 drives the telescopic rod to descend, the adjusting rod can be positioned at a corresponding position of the bidirectional telescopic cylinder 3, the bidirectional telescopic cylinder 3 drives the two positioning plates 31 to retract, the adjusting rod can be clamped, then the lifting cylinder 122 resets, and then the telescopic rod of the driving cylinder 21 drives the sliding carriages 2 at, meanwhile, the driving motor 22 drives the cutters clamped at the end part of the output shaft to synchronously rotate, so that the two ends of the adjusting rod can be drilled simultaneously, and then the sliding frame 2 drives the driving motor 22 to reset. Meanwhile, the sliding table 12 is reset, the first telescopic cylinder is driven to return to the upper side of the vertical plate 422 again, so that the adjusting rod is clamped again, the steps are repeated, the adjustment and clamping between the first two-way telescopic cylinder 3 can be completed, the principle of the other lifting cylinders 122 is the same as that of the first lifting cylinder 122, the second lifting cylinder 122 can continuously clamp the workpiece from the two-way telescopic cylinder 3 at the drilling station along with the reciprocating motion of the sliding table 12, then the positioning plate 31 along with the bidirectional telescopic cylinder 3 is loosened, the workpiece can be sent between the bidirectional telescopic cylinders 3 of the tapping station, the two-way telescopic cylinder 3 of the tapping station drives the positioning plate 31 to clamp the workpiece, the sliding table 12 drives the driving motor 22 to move towards the direction close to each other again, the workpiece at the tapping station can be tapped by the tap at the end of the drive motor 22, and then the carriage 2 drives the drive motor 22 to reset. The third lifting cylinder 122 can continuously clamp the workpiece from the two-way telescopic cylinder 3 at the tapping station along with the reciprocating motion of the sliding table 12, then the workpiece is loosened along with the positioning plate 31 of the two-way telescopic cylinder 3, the workpiece can be conveyed between the two-way telescopic cylinders 3 at the chamfering station, the positioning plate 31 is driven by the two-way telescopic cylinder 3 at the chamfering station, the sliding table 12 drives the driving motor 22 again to tend to move in the direction close to each other, the chamfering processing can be performed on the workpiece at the chamfering station through the chamfering knife at the end part of the driving motor 22, and then the sliding frame 2 drives the driving motor 22 to reset. The fourth lifting cylinder 122 can continuously clamp the workpiece from the two-way telescopic cylinder 3 at the chamfering station along with the reciprocating motion of the sliding table 12, then the workpiece is loosened along with the positioning plate 31 of the two-way telescopic cylinder 3, the workpiece can be conveyed into the material receiving box 13, the processing of the adjusting rod can be completed at the moment, and the steps are continuously repeated in a reciprocating mode, so that the continuous processing of the adjusting rod can be realized.

When the pneumatic cutting machine works, the blower 152 blows wind power out of each air injection pipe 151 through the air delivery pipe 15, so that waste materials generated when two ends of the adjusting rod are machined can be blown into the waste material groove 14, the waste materials are prevented from being adhered to the drill bit or the screw tap or the chamfering tool, and the processing of workpieces is facilitated.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides an automatic production equipment of turnbuckle adjusting rod, its characterized in that, workstation (1) including the cuboid form, the both sides of workstation (1) all are provided with carriage (2) that can be close to each other along workstation (1) length direction, all set gradually three driving motor (22) on carriage (2), the output shaft of both sides driving motor (22) all sets up and the rigid coupling has drill bit, screw tap and chamfer sword in proper order towards being close to the direction each other, and the output shaft that both sides correspond driving motor (22) is in same straight line, the one end of workstation (1) still is provided with and puts material platform (42) that can deposit length direction and workstation (1) width direction the same regulation pole, the middle part of workstation (1) slides along its length direction and is connected with slip table (12), the rigid coupling has a plurality of lift jar (122) on slip table (12), the end parts of the telescopic rods of the lifting cylinders (122) are fixedly connected with pneumatic chucks (123) which can clamp and take workpieces on the material placing rack (4) and sequentially send the workpieces to the positions between the driving motors (22) on the two sides.

2. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: the position that workstation (1) middle part corresponds between both sides driving motor (22) all is provided with two-way telescoping cylinder (3) that telescopic link axis direction and driving motor (22) output shaft axis direction are the same, the equal rigid coupling of the telescopic link tip of two-way telescoping cylinder (3) has locating plate (31), all set up on locating plate (31) with correspond through-hole (32) of driving motor (22) drive shaft coaxial line.

3. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: four lifting cylinders (122) are sequentially arranged on the sliding frame (2), the telescopic rods of the lifting cylinders (122) are fixedly connected with pneumatic chucks (123), and the distance between every two adjacent lifting cylinders (122) is the same as that between every two adjacent positioning plates (31).

4. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: the equal rigid coupling in one side that workstation (1) corresponds balladeur train (2) has length direction and balladeur train (2) the same driving cylinder (21) of direction of sliding, the telescopic link rigid coupling of driving cylinder (21) is in balladeur train (2).

5. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: the middle part of workstation (1) has brace table (11) along its length direction rigid coupling, slip table (12) slide and connect in brace table (11), there is propelling movement jar (121) along its axis direction rigid coupling on slip table (12), the telescopic link rigid coupling of propelling movement jar (121) is in brace table (11) one end.

6. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: the output shaft of the driving motor (22) is fixedly connected with a jacket (221), and the drill bit or the screw tap or the chamfer cutter is detachably connected with the jacket (221).

7. The automatic production equipment of a turnbuckle adjusting rod according to claim 6, characterized in that: the middle part of the jacket (221) is provided with a jack (222) coaxial with the output shaft of the driving motor (22), and one side of the jacket (221) is in threaded connection with a tightening bolt (223) of which the end part can extend into the jack (222).

8. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: and waste material troughs (14) are formed in the positions, corresponding to the two sides of the two-way telescopic cylinder (3), of the workbench (1).

9. The automatic production equipment of a turnbuckle adjusting rod according to claim 1, characterized in that: and a material receiving box (13) is arranged at one end of the middle part of the workbench (1) far away from the material placing table (42).

10. The automatic production equipment of a turnbuckle adjusting rod according to claim 8, wherein: the equal rigid coupling in position that workstation (1) corresponds waste material groove (14) upside has air-supply pipe (15), the equal rigid coupling in position that air-supply pipe (15) correspond each locating plate (31) outside has jet-propelled pipe (151), hair-dryer (152) of mouth of blowing and air-supply pipe (15) intercommunication are still fixed to the downside of workstation (1).

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