CN203266015U - Direct connection three-shaft workbench - Google Patents

Abstract

The utility model discloses a direct connection three-shaft workbench. The direct connection three-shaft workbench comprises a fixing base, a transmission box, a first servo motor, a second servo motor and a third servo motor; a supporting frame is arranged at one end of the fixing base, the transmission box is arranged at the other end of the fixing base, the transmission box comprises a box body, a first transmission mechanism, a second transmission mechanism and a third transmission mechanism, and the first transmission mechanism, the second transmission mechanism and the third transmission mechanism are arranged inside the box body; a first turning jig, a second turning jig and a third turning jig are arranged between the box body of the transmission box and the supporting frame; the first servo motor is connected with the first turning jig through the first transmission mechanism, the second servo motor is connected with the second turning jig through the second transmission mechanism, and the third servo motor is connected with the third turning jig through the third transmission mechanism. The direct connection three-shaft workbench has the advantages that the three-shaft structure is adopted, the three jigs capable of rotating are arranged, a plurality of workpieces can be machined during each time of circulation, each jig is driven by one servo motor in a direct connection mode, accuracy of the turning angle of each jig is guaranteed, and accuracy of workpiece machining is improved.

Description

Direct-connected three axle workbench

Technical field

The utility model relates to workbench, relates in particular to a kind of direct-connected three-shaft linkage workbench that is applied on laser marking machine.

Background technology

Laser marking machine is a kind of equipment of permanent marks of stamping at various material surface with laser beam, the effect of mark is to expose the deep layer material by the evaporation of entry material, or by luminous energy cause the Chemical Physics of entry material to change and " quarter " go out vestige, or burn the part material by luminous energy, show pattern, word of required etching etc.yet, laser marking machine generally needs configuration effort platform and corresponding fixture to use, to treat that the mark workpiece is fixed on fixture, carry out above it again laser marking, existing workbench, it is all generally single shaft list jig structure, in process, can only process a workpiece at every turn, again place after machining and fix next and treat the mark workpiece, the workbench of this structure, repeatedly place fixation workpiece, its holding time is long, the mark inefficiency, can not be satisfied with the requirement of batch production, in addition, existing minority multiaxis workbench, its connected mode is by many axle synchronization actions of a driven by servomotor, the workbench of this structure, because there are error in transmission mechanism internal part and connection, therefore certainly exist error in transmission process, affected machining accuracy etc., simultaneously, can only synchronously rotate, can not carry out single control, use dumb.

The utility model content

The purpose of this utility model is to overcome deficiency of the prior art and a kind of control accuracy of providing is high, simple in structure, the direct-connected three axle workbench of easy to use and flexible.

The technical scheme that the prior art problem that solves the utility model adopts is: a kind of direct-connected three axle workbench, it comprises

Holder, an end of described holder is provided with a bracing frame;

Transmission case is arranged at the other end of described holder, and described transmission case comprises casing and is arranged at the first transmission mechanism, the second transmission mechanism and the 3rd transmission mechanism in casing; Be provided with rotatable the first overturning jig, the second overturning jig and the 3rd overturning jig between the casing of described transmission case and support frame as described above;

The first servomotor, the second servomotor and the 3rd servomotor, described the first servomotor is connected with described the first overturning jig by the first transmission mechanism, described the second servomotor is connected with described the second overturning jig by the second transmission mechanism, and described the 3rd servomotor is connected with described the 3rd overturning jig by the 3rd transmission mechanism.

The below is further elaborated technique scheme:

Further, described the first overturning jig comprises the first carrier and detachable the first connector A and the first connector B that is connected in the first carrier two ends, the first connector A is rotationally connected by the first coupling assembling A and support frame as described above, and the first connector B is rotationally connected by the casing of the first coupling assembling B and described transmission case;

Described the second overturning jig comprises the second carrier and detachable the second connector A and the second connector B that is connected in the second carrier two ends, the second connector A is rotationally connected by the second coupling assembling A and support frame as described above, and the second connector B is rotationally connected by the casing of the second coupling assembling B and described transmission case;

Described the 3rd overturning jig comprises the 3rd carrier and detachable joint among three members A and the joint among three members B that is connected in the 3rd carrier two ends, joint among three members A is rotationally connected by the 3rd coupling assembling A and support frame as described above, and joint among three members B is rotationally connected by the casing of the 3rd coupling assembling B and described transmission case.

Further, described the first servomotor, the second servomotor and the 3rd servomotor are installed on the casing outside of described transmission case.

Further, described the first carrier, the second carrier and the 3rd carrier are arranged side by side.

The beneficial effects of the utility model are: the utility model adopts three-axis structure, have three rotatable tools on workbench, all can place fixing one or more workpieces to be processed on each tool, therefore, can realize a plurality of workpiece of each cyclic process, the time waste of having avoided each placement fixation workpiece to cause, save the plenty of time, can improve the operating efficiency of mark processing, in addition, each tool guarantees the accuracy of each tool flip angle by the direct-connected driving of servomotor, has improved the precision of workpiece processing.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment;

In figure: holder 1; Bracing frame 2; Transmission case 3; The first servomotor 4; The second servomotor 5; The 3rd servomotor 6; The second carrier 7; The second connector A8; The second connector B9; The first coupling assembling A10; The second coupling assembling A11; The 3rd coupling assembling A12.

The realization of the utility model purpose, functional characteristics and advantage are described further with reference to accompanying drawing in connection with embodiment.

The specific embodiment

Describe the technical solution of the utility model in detail below with reference to drawings and the specific embodiments, so as clearer, understand invention essence of the present utility model intuitively.

With reference to shown in Figure 1, the utility model provides a kind of direct-connected three axle workbench, and it comprises holder 1, transmission case 3 and the first servomotor 4, the second servomotor 5 and the 3rd servomotor 6, and wherein, an end of described holder 1 is provided with a bracing frame 2; Transmission case 3 is arranged at the other end of described holder 1, and forms a machining area between bracing frame 2, and described transmission case 3 comprises casing and is arranged at casing interior the first transmission mechanism, the second transmission mechanism and the 3rd transmission mechanism; Be provided with rotatable the first overturning jig, the second overturning jig and the 3rd overturning jig between the casing of described transmission case 3 and support frame as described above 2, described the first overturning jig, the second overturning jig and the 3rd overturning jig are used for placing the workpiece of fixedly treating mark.described the first servomotor 4 is connected with described the first overturning jig by the first transmission mechanism, but the first overturning jig 360 deg under the driving of the one the first servomotors 4 rotates, described the second servomotor 5 is connected with described the second overturning jig by the second transmission mechanism, but the second overturning jig 360 deg under the driving of the second servomotor 5 rotates, described the 3rd servomotor 6 is connected with described the 3rd overturning jig by the 3rd transmission mechanism, but the 3rd overturning jig 360 deg under the driving of the 3rd servomotor 6 rotates, so, realization is processed the arbitrary face of workpiece on tool.

concrete, described the first overturning jig comprises the first carrier and detachable the first connector A and the first connector B that is connected in the first carrier two ends, the first connector A is rotationally connected by the first coupling assembling A10 and support frame as described above 2, the first connector B is rotationally connected by the casing of the first coupling assembling B and described transmission case 3, so, can realize that the first carrier rotates freely with respect to bracing frame 2, in addition, described the first coupling assembling A10 and the first coupling assembling B all can adopt bearing and axle cooperation etc., bearing is installed on bracing frame 2, axle sleeve be connected in bearing and with first connector A/ the first connector B.described the second overturning jig comprises the second carrier 7 and detachable the second connector A8 and the second connector B9 that is connected in the second carrier 7 two ends, the second connector A8 is rotationally connected by the second coupling assembling A11 and support frame as described above 2, the second connector B9 is rotationally connected by the casing of the second coupling assembling B and described transmission case 3, so, can realize that the second carrier 7 rotates freely with respect to bracing frame 2, equally, described the second coupling assembling A11 and the second coupling assembling B can adopt bearing and axle cooperation etc., bearing is installed on bracing frame 2, axle sleeve be connected in bearing and with second connector A8/ the second connector B9.described the 3rd overturning jig comprises the 3rd carrier and detachable joint among three members A and the joint among three members B that is connected in the 3rd carrier two ends, joint among three members A is rotationally connected by the 3rd coupling assembling A12 and support frame as described above 2, joint among three members B is rotationally connected by the casing of the 3rd coupling assembling B and described transmission case 3, so, can realize that the 3rd carrier rotates freely with respect to bracing frame 2, equally, described the 3rd coupling assembling A12 and the 3rd coupling assembling B can adopt bearing and axle cooperation etc., bearing is installed on bracing frame 2, axle sleeve be connected in bearing and with joint among three members A/ joint among three members B.

In the present embodiment, described the first servomotor 4, the second servomotor 5 and the 3rd servomotor 6 are installed on the casing outside of described transmission case 3, and described the first carrier, the second carrier 7 and the 3rd carrier are arranged side by side.

To sum up, the utility model adopts three-axis structure, has three rotatable tools on workbench, all can place fixing one or more workpieces to be processed on each tool, therefore, can realize a plurality of workpiece of each cyclic process, the time waste of having avoided each placement fixation workpiece to cause, save the plenty of time, can improve the operating efficiency of mark processing, in addition, each tool is by the direct-connected driving of servomotor, guarantee the accuracy of each tool flip angle, improved the precision of workpiece processing.

The above is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in scope of patent protection of the present utility model.

Claims (4)

1. direct-connected three axle workbench, it is characterized in that: it comprises

Holder, an end of described holder is provided with a bracing frame;

Transmission case is arranged at the other end of described holder, and described transmission case comprises casing and is arranged at the first transmission mechanism, the second transmission mechanism and the 3rd transmission mechanism in casing; Be provided with rotatable the first overturning jig, the second overturning jig and the 3rd overturning jig between the casing of described transmission case and support frame as described above;

The first servomotor, the second servomotor and the 3rd servomotor, described the first servomotor is connected with described the first overturning jig by the first transmission mechanism, described the second servomotor is connected with described the second overturning jig by the second transmission mechanism, and described the 3rd servomotor is connected with described the 3rd overturning jig by the 3rd transmission mechanism.

2. direct-connected three axle workbench according to claim 1, it is characterized in that: described the first overturning jig comprises the first carrier and detachable the first connector A and the first connector B that is connected in the first carrier two ends, the first connector A is rotationally connected by the first coupling assembling A and support frame as described above, and the first connector B is rotationally connected by the casing of the first coupling assembling B and described transmission case;

Described the second overturning jig comprises the second carrier and detachable the second connector A and the second connector B that is connected in the second carrier two ends, the second connector A is rotationally connected by the second coupling assembling A and support frame as described above, and the second connector B is rotationally connected by the casing of the second coupling assembling B and described transmission case;

Described the 3rd overturning jig comprises the 3rd carrier and detachable joint among three members A and the joint among three members B that is connected in the 3rd carrier two ends, joint among three members A is rotationally connected by the 3rd coupling assembling A and support frame as described above, and joint among three members B is rotationally connected by the casing of the 3rd coupling assembling B and described transmission case.

3. direct-connected three axle workbench according to claim 2 is characterized in that: described the first servomotor, the second servomotor and the 3rd servomotor are installed on the casing outside of described transmission case.

4. direct-connected three axle workbench according to claim 2, it is characterized in that: described the first carrier, the second carrier and the 3rd carrier are arranged side by side.