CN204135816U - The process equipment of twin-lock tieholen on a kind of tooth embryo - Google Patents

Abstract

The utility model discloses the process equipment of twin-lock tieholen on a kind of tooth embryo, feature comprises the fixing body suitable with lathe, fixing body is provided with tooth embryo retaining mechanism, tooth embryo retaining mechanism comprises the chuck for clamping tooth embryo to be processed, is provided with the rotating drive mechanism for driving chuck to rotate in fixing body; Advantage is the automation processing being achieved twin-lock tieholen on tooth embryo by this equipment, and working (machining) efficiency is high, and only need clamped one time can complete the processing of two locking holes, machining accuracy is higher, has both improve product quality and has again reduced production cost.

Description

The process equipment of twin-lock tieholen on a kind of tooth embryo

Technical field

The utility model relates to a kind of process equipment of tooth embryo, especially relates to the process equipment of twin-lock tieholen on a kind of tooth embryo.

Background technology

Processing tooth embryo 1 as shown in Figure 1, needs first process what a installing hole 11 vertically on tooth embryo 1, on the periphery of tooth embryo 1, then radially processes two be positioned at same plane and the locking hole 12 be connected with installing hole 11.At present, the locking hole processing such tooth embryo adopts manual operation mostly, need tooth embryo to be assembled on fixture to clamp, first process what a locking hole, then disassemble a turn angle and be again assembled to processing fixture carrying out second locking hole after clamping, this processing mode efficiency is low, secondary is needed to load and unload very bothersome, and machining accuracy is not high yet, product quality is not high, and processing cost is high.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of and need once loads and unloads and the process equipment of twin-lock tieholen on the high tooth embryo of machining accuracy, thus improves working (machining) efficiency, reduces processing cost.

The utility model solves the problems of the technologies described above adopted technical scheme: the process equipment of twin-lock tieholen on a kind of tooth embryo, comprise the fixing body suitable with lathe, described fixing body is provided with tooth embryo retaining mechanism, described tooth embryo retaining mechanism comprises the chuck for clamping tooth embryo to be processed, is provided with the rotating drive mechanism for driving described chuck to rotate in described fixing body.

Described rotating drive mechanism comprises the first hydraulic cylinder, second hydraulic cylinder, dividing gear axle and gear shaft, described dividing gear axle sleeve to be located on described chuck and with its tight fit, described gear shaft is meshed with described dividing gear axle, described gear shaft is provided with the first spigot surface and the second spigot surface, the piston rod of the first described hydraulic cylinder withstands the first described spigot surface, the piston rod of the second described hydraulic cylinder withstands the second described spigot surface, described dividing gear axle is provided with limited block, the first limited post and second limited post of the limited block rotation described in restriction is provided with in described fixing body, angle between the angle that described limited block rotates and two locking holes to be processed on tooth embryo is identical, first hydraulic cylinder and the second hydraulic cylinder control the rotation of gear shaft, thus control the rotation of dividing gear axle, limited block, first limited post and the second limited post are for controlling the angle of rotating, finally realize the rotation of tooth embryo, during processing first locking hole, limited block and the first limited post are close to, during processing second locking hole, limited block after rotation and the second limited post are close to, thus twice processing realized locking hole.

Described tooth embryo retaining mechanism also comprises connecting rod, 3rd hydraulic cylinder and the assembly head suitable with described chuck, described collet sleeve be located at described assembly head peripheral and with its tight fit, the top of described assembly head is provided with the clamping slot suitable with tooth embryo, described clamping slot is provided with breach, the periphery of described clamping slot is that the conical surface is arranged, described chuck is provided with the guiding conical surface suitable with described assembly head, the bottom of assembly head is connected with connecting rod mounting head, described connecting rod mounting head and one end of connecting rod are coupling, the other end of described connecting rod and the piston rod of the 3rd described hydraulic cylinder are coupling, when 3rd hydraulic cylinder shrinks, connecting rod drives assembly head to move in chuck, due to clamping slot being provided with breach, when assembly head moves in the guiding conical surface elder generation of chuck, the gap smaller of breach, thus the clamping realized tooth embryo, be convenient to follow-up processing.

Described fixing body comprises suitable cylinder body, cylinder cap and gland, the two ends of described gear shaft and the two ends of described dividing gear axle are arranged with bearing respectively and are arranged in space that described cylinder body and described cylinder cap surround, the top of described chuck is arranged on the end face of described cylinder body, described connecting rod mounting head is successively through described cylinder body, described cylinder cap and described gland and described connecting rod are coupling, the first described hydraulic cylinder, the second described hydraulic cylinder and the 3rd described hydraulic cylinder are arranged in described cylinder body, be provided with in described cylinder cap and the first described limited post and the suitable limited post installing hole of the second described limited post, described cylinder body is provided with the pilot hole suitable with lathe, together be assembled on lathe with this process equipment after tooth embryo assembles, carry out the processing of locking hole.

Compared with prior art, the utility model has the advantage of the automation processing being achieved twin-lock tieholen on tooth embryo by this equipment, working (machining) efficiency is high, only needs clamped one time can complete the processing of two locking holes, machining accuracy is higher, has both improve product quality and has again reduced production cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of workpiece tooth embryo;

Fig. 2 is overall structure schematic diagram of the present utility model;

Fig. 3 is the explosive view of Fig. 2;

Fig. 4 is the internal structure schematic diagram of Fig. 2;

Fig. 5 is the partial sectional view () of Fig. 2;

Fig. 6 is the partial sectional view (two) of Fig. 2.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

As shown in the figure, the process equipment of twin-lock tieholen on a kind of tooth embryo, comprise the fixing body suitable with lathe, fixing body is provided with tooth embryo retaining mechanism, tooth embryo retaining mechanism comprises the chuck 2 for clamping tooth embryo 1 to be processed, the rotating drive mechanism for driving chuck 2 to rotate is provided with in fixing body, rotating drive mechanism comprises the first hydraulic cylinder 31, second hydraulic cylinder 32, dividing gear axle 33 and gear shaft 34, dividing gear axle 33 to be set on chuck 2 and with its tight fit, gear shaft 34 is meshed with dividing gear axle 33, gear shaft 34 is provided with the first spigot surface 341 and the second spigot surface 342, the piston rod of the first hydraulic cylinder 31 withstands the first spigot surface 341, the piston rod of the second hydraulic cylinder 32 withstands the second spigot surface 342, dividing gear axle 33 is provided with limited block 331, the first limited post 41 and the second limited post 42 that restriction limited block 331 rotates is provided with in fixing body, angle between the angle that limited block 331 rotates and two locking holes 12 to be processed on tooth embryo 1 is identical, tooth embryo retaining mechanism also comprises connecting rod 51, 3rd hydraulic cylinder 52 and the assembly head 53 suitable with chuck 2, chuck 2 be set in assembly head 53 peripheral and with its tight fit, the top of assembly head 53 is provided with the clamping slot 531 suitable with tooth embryo 1, clamping slot 531 is provided with breach 5311, the periphery of clamping slot 531 is that the conical surface is arranged, chuck 2 is provided with the guiding conical surface 21 suitable with clamping slot 531, the bottom of assembly head 53 is connected with connecting rod mounting head 532, connecting rod mounting head 532 is coupling with one end of connecting rod 51, the other end of connecting rod 51 and the piston rod of the 3rd hydraulic cylinder 52 are coupling, fixing body comprises suitable cylinder body 61, cylinder cap 62 and gland 63, the two ends of gear shaft 34 and the two ends of dividing gear axle 33 are arranged with bearing 7 respectively and are arranged in space that cylinder body 61 and cylinder cap 62 surround, the top of chuck 2 is arranged on the end face of cylinder body 61, connecting rod mounting head 532 is successively through cylinder body 61, cylinder cap 62 and gland 63 are coupling with connecting rod 51, first hydraulic cylinder 31, second hydraulic cylinder 32 and the 3rd hydraulic cylinder 52 are arranged in cylinder body 61, be provided with in cylinder cap 62 and the first limited post 41 and the suitable limited post installing hole 621 of the second limited post 42, cylinder body 61 is provided with the pilot hole 611 suitable with lathe.

Claims (4)

1. the process equipment of twin-lock tieholen on a tooth embryo, it is characterized in that: comprise the fixing body suitable with lathe, described fixing body is provided with tooth embryo retaining mechanism, tooth embryo retaining mechanism comprises the chuck for clamping tooth embryo to be processed, is provided with the rotating drive mechanism for driving described chuck to rotate in described fixing body.

2. the process equipment of twin-lock tieholen on a kind of tooth embryo according to claim 1, it is characterized in that: described rotating drive mechanism comprises the first hydraulic cylinder, second hydraulic cylinder, dividing gear axle and gear shaft, described dividing gear axle sleeve to be located on described chuck and with its tight fit, described gear shaft is meshed with described dividing gear axle, described gear shaft is provided with the first spigot surface and the second spigot surface, the piston rod of the first described hydraulic cylinder withstands the first described spigot surface, the piston rod of the second described hydraulic cylinder withstands the second described spigot surface, described dividing gear axle is provided with limited block, the first limited post and second limited post of the limited block rotation described in restriction is provided with in described fixing body, angle between the angle that described limited block rotates and two locking holes to be processed on tooth embryo is identical.

3. the process equipment of twin-lock tieholen on a kind of tooth embryo according to claim 2, it is characterized in that: described tooth embryo retaining mechanism also comprises connecting rod, 3rd hydraulic cylinder and the assembly head suitable with chuck, described collet sleeve be located at described assembly head peripheral and with its tight fit, the top of described assembly head is provided with the clamping slot suitable with tooth embryo, described clamping slot is provided with breach, the periphery of described clamping slot is that the conical surface is arranged, described chuck is provided with the guiding conical surface suitable with described assembly head, the bottom of described assembly head is connected with connecting rod mounting head, described connecting rod mounting head and one end of described connecting rod are coupling, the other end of described connecting rod and the piston rod of the 3rd described hydraulic cylinder are coupling.

4. the process equipment of twin-lock tieholen on a kind of tooth embryo according to claim 3, it is characterized in that: described fixing body comprises suitable cylinder body, cylinder cap and gland, the two ends of described gear shaft and the two ends of described dividing gear axle are arranged with bearing respectively and are arranged in space that described cylinder body and described cylinder cap surround, the top of described chuck is arranged on the end face of described cylinder body, described connecting rod mounting head is successively through described cylinder body, described cylinder cap and described gland and described connecting rod are coupling, the first described hydraulic cylinder, the second described hydraulic cylinder and the 3rd described hydraulic cylinder are arranged in described cylinder body, be provided with in described cylinder cap and the first described limited post and the suitable limited post installing hole of the second described limited post, described cylinder body is provided with the pilot hole suitable with lathe.