CN219325003U - Rotary station exchange assembly of horizontal machining center - Google Patents

Abstract

The utility model relates to the technical field of horizontal machining centers, in particular to a rotary station exchange assembly of a horizontal machining center, which comprises the following components: the device comprises a horizontal processing machine, wherein a rotating motor is fixedly arranged on one side of the horizontal processing machine, and two exchange tables are fixedly arranged at the output end of the rotating motor; the fixing and reinforcing mechanism is used for fixing and processing the workpieces on the surfaces of the two exchange tables and is arranged on the surface of the exchange table; the workpiece can be placed on the corresponding exchange table firstly, then the two limiting screws are rotated, the two limiting screws are moved out of the movable groove, at the moment, the two clamping plates can be moved to fix the workpiece, the limiting screws are reset, the limiting screws and the movable groove are abutted tightly to fix the clamping plates, the clamping plates can be fixed rapidly, the two clamping plates can be used for fixing the workpiece, and the workpiece can be more stable when the exchange table moves.

Description

Rotary station exchange assembly of horizontal machining center

Technical Field

The utility model relates to the technical field of horizontal machining centers, in particular to a rotary station exchange assembly of a horizontal machining center.

Background

The horizontal machining center is equipment for machining workpieces, and when machining is performed, the workbench is set to be a rotary exchange workbench for improving machining efficiency, but the workpiece on the workbench is easy to deviate while the workbench moves, so that the machining effect of the workpiece is affected.

Therefore, a rotary station exchange assembly of a horizontal machining center is proposed to solve the above problems.

Disclosure of Invention

The present utility model has been made to solve the above problems, and an object of the present utility model is to provide a cutting device which is easy to clean, and to solve the problem that a workpiece on a table is easily shifted while the table is moving, thereby affecting the processing effect of the workpiece.

The utility model realizes the aim through the following technical scheme, and the rotary station exchange assembly of the horizontal machining center comprises: the device comprises a horizontal processing machine, wherein a rotating motor is fixedly arranged on one side of the horizontal processing machine, and two exchange tables are fixedly arranged at the output end of the rotating motor; the fixing and reinforcing mechanism is used for fixing and processing the workpieces on the surfaces of the two exchange tables and is arranged on the surface of the exchange table; the fixed reinforcing mechanism comprises a fixed component arranged on one side of the exchange table, one side of the fixed component is provided with a reinforcing component, the workpiece can be fixed and limited rapidly when the workpiece moves through the fixed component, the exchange table can be prevented from shifting when moving rotationally, the processing effect is affected, and the workpiece can be better fixed after being fixed through the reinforcing component.

Preferably, the fixed subassembly includes two splint of slidable mounting at the exchange surface, movable groove has been seted up to one side of exchange, two spacing screw is all run through to one side of exchange, two spacing screw all with correspond splint threaded connection, two spacing screw all is located one side of movable groove, two one side of spacing screw all extends to the inside of movable groove, can place the work piece on the exchange that corresponds earlier, then rotates two spacing screw, moves out the inside of movable groove with two spacing screw, can remove two splint at this moment and fix the work piece centre gripping, resets spacing screw again, thereby makes spacing screw and movable groove support tightly to splint fixed, can fix splint fast, can let two splint fix the work piece, lets the exchange work piece can be more stable when moving.

Preferably, two one side fixedly connected with rubber block that the spacing screw is close to the movable groove, two the rubber block all offsets tightly with the movable groove, and when spacing screw was getting into the movable inslot, can extrude the rubber block, let the rubber block offset tightly with the movable groove, increase frictional force through the rubber block, can let spacing screw and the fixed effect of movable groove chucking better.

Preferably, the fixing assembly further comprises a bidirectional screw rod penetrating through and installed between the two clamping plates, the bidirectional screw rod is respectively in threaded connection with the two clamping plates, the bidirectional screw rod can be rotated when the two clamping plates are moved, the two clamping plates can be synchronously moved close to each other, therefore, the two clamping plates can be kept in the middle of the exchange table when clamping the workpiece, the workpiece is more conveniently processed, the two clamping plates can be synchronously moved by the bidirectional screw rod, and the two clamping plates can be moved more conveniently.

Preferably, the splint sets up to the U font form, consolidate the subassembly and be located two the top of splint, consolidate the subassembly and be located two splint top, but can not exert an influence to consolidate the subassembly when two splint remove to can not influence the reinforcement effect of consolidate the subassembly.

Preferably, the reinforcing component comprises two reinforcing rods which are slidably mounted at the tops of the clamping plates, the two reinforcing rods are rotatably mounted on two sides of each reinforcing rod, gears are sleeved on the surfaces of the supporting rods, a plurality of evenly distributed tooth grooves are formed in the surfaces of the clamping plates, the gears are meshed with the corresponding tooth grooves, the two reinforcing rods can slide above the two clamping plates when the reinforcing component is required to be used for reinforcing, the gears on two sides of the reinforcing rods are meshed in the corresponding tooth grooves when the reinforcing rods move, the gears can be fixed when the reinforcing rods abut against a workpiece, the reinforcing rods can fix and limit the outer sides of the workpiece, and therefore the workpiece is more stable when moving, and sliding is avoided.

Preferably, the fixed surface cover of branch is equipped with the ratchet, one side fixed mounting of stiffening rod has the pawl, the pawl is connected with the ratchet meshing, pawl and one side of stiffening rod are connected through the torsional spring, when two stiffening rods are close to each other, the gear rotation drives the ratchet in step and rotates, and the ratchet can constantly be in contact with the pawl at this moment, lets corresponding gear rotate, but when the gear moves to the opposite direction, and the pawl can chucking ratchet is spacing at this moment, fixes the gear to carry out spacing processing very fast to the stiffening rod fast.

Preferably, the number of the ratchet wheels is two, the two ratchet wheels are located on the same side, the two ratchet wheels and the pawl are located on the same side, when the contact limiting is needed, the pawl can be moved, the pawl is not contacted with the ratchet wheels, the ratchet wheels can be rotated, and the reinforcing rod is reset.

Preferably, two gears of the reinforcing rod are respectively positioned at two sides of the reinforcing rod, the two gears are respectively contacted with a plurality of tooth grooves on the surface of the clamping plate, and the gears are respectively arranged at two sides of the reinforcing rod, so that the heights of the two sides of the reinforcing rod are consistent when the reinforcing rod moves, and the reinforcing rod moves more stably.

Preferably, two adjacent sides of the exchange platforms are connected with each other, and two adjacent sides of the exchange platforms are connected with the output end of the rotating motor, so that the two exchange platforms can be driven to rotate through the rotating motor, and the workpiece is machined faster.

The beneficial effects of the utility model are as follows:

1. through setting up fixed subassembly, can place the work piece on corresponding exchange platform earlier, then rotate two spacing screw rods, move two spacing screw rods out the inside of movable groove, can remove two splint at this moment and fix the work piece centre gripping, reset spacing screw rod, thereby make spacing screw rod and movable groove support tightly to fix splint, can fix splint fast, can let two splint fix the work piece, and work piece can be more stable when making the exchange platform remove;

2. through setting up the reinforcement subassembly, can be through two slip stiffening rods when need use the reinforcement subassembly to consolidate, let two stiffening rods slide in the top of two splint, when the stiffening rod removes, the gear of stiffening rod both sides all meshes the motion in a plurality of tooth's socket that correspond, can fix the gear when the stiffening rod supports tight work piece, can let the stiffening rod fix the outside of work piece spacing to let the work piece more stable when removing, avoid appearing sliding.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is a schematic diagram of a switching board according to the present utility model;

FIG. 3 is a schematic view of a fixing assembly according to the present utility model;

fig. 4 is a schematic view of the structure of the reinforcing rod and the pawl of the present utility model.

In the figure: 1. a horizontal processor; 101. a rotating electric machine; 102. a switching station; 2. a fixing assembly; 201. a clamping plate; 202. a movable groove; 203. a limit screw; 204. a rubber block; 205. a bidirectional screw; 3. a reinforcement assembly; 301. a reinforcing rod; 302. a support rod; 303. a gear; 304. tooth slots; 305. a ratchet wheel; 306. a pawl; 307. and (3) a torsion spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The specific implementation method comprises the following steps: as shown in fig. 1-4, a rotary station switching assembly for a horizontal machining center, comprising: the horizontal processing machine 1, one side of the horizontal processing machine 1 is fixedly provided with a rotating motor 101, and the output end of the rotating motor 101 is fixedly provided with two exchange tables 102; the fixed reinforcement mechanism is used for fixedly processing the workpieces on the surfaces of the two exchange tables 102 and is arranged on the surfaces of the exchange tables 102; wherein, fixed strengthening mechanism is including setting up in the fixed subassembly 2 of exchange 102 one side, and one side of fixed subassembly 2 is provided with the reinforcement subassembly 3, can fix the spacing to the work piece fast when the work piece removes through fixed subassembly 2, can let the exchange 102 produce the skew when carrying out rotary motion to influence the effect of processing, can carry out several one step to the work piece through the reinforcement of reinforcement subassembly 3 after fixed and let the work piece by fixed effect better.

As shown in fig. 2-4, the fixing assembly 2 comprises two clamping plates 201 slidably mounted on the surface of the exchange table 102, a movable groove 202 is formed on one side of the exchange table 102, a limit screw 203 is installed on one side of the exchange table 102 in a penetrating manner, the two limit screws 203 are in threaded connection with the corresponding clamping plates 201, the two limit screws 203 are located on one side of the movable groove 202, one side of the two limit screws 203 extends to the inside of the movable groove 202, a workpiece can be placed on the corresponding exchange table 102, then the two limit screws 203 are rotated, the two limit screws 203 are moved out of the movable groove 202, at this time, the two clamping plates 201 can be moved to clamp and fix the workpiece, the limit screws 203 are reset, the limit screws 203 abut against the movable groove 202 to fix the clamping plates 201, the clamping plates 201 can be quickly fixed, the two clamping plates 201 can fix the workpiece, the workpiece can be more stable when the exchange table 102 moves, one side of the two limit screws 203, which is close to the movable groove 202, is fixedly connected with the rubber block 204, the two rubber blocks 204 are propped against the movable groove 202, when the limit screws 203 enter the movable groove 202, the rubber block 204 can be extruded, the rubber block 204 is propped against the movable groove 202, the friction force is increased through the rubber block 204, the clamping and fixing effects of the limit screws 203 and the movable groove 202 are better, the fixing assembly 2 further comprises the bidirectional screws 205 which are arranged between the two clamping plates 201 in a penetrating way, the bidirectional screws 205 are respectively connected with the two clamping plates 201 in a threaded way, the bidirectional screws 205 can be rotated when the two clamping plates 201 are moved, the two clamping plates 201 can synchronously move close to each other, therefore, when the two clamping plates 201 clamp the workpiece, the workpiece can be kept in the middle of the exchange table 102, thereby more conveniently processed to two splint 201 can be synchronous movement to bi-directional screw 205, can let two splint 201 more convenient of removal, and splint 201 set up to the U word shape, and reinforcement subassembly 3 is located the top of two splint 201, and reinforcement subassembly 3 is located two splint 201 top, but can not exert an influence to reinforcement subassembly 3 when two splint 201 remove, thereby can not influence the reinforcement effect of reinforcement subassembly 3.

As shown in fig. 2-4, the reinforcing component 3 comprises two reinforcing rods 301 slidably mounted on the tops of two clamping plates 201, two sides of each of the two reinforcing rods 301 are rotatably provided with a supporting rod 302, the surface of each supporting rod 302 is fixedly sleeved with a gear 303, the surfaces of the two clamping plates 201 are provided with a plurality of uniformly distributed tooth grooves 304, the gears 303 are meshed with the corresponding tooth grooves 304, when the reinforcing component 3 is required to be used for reinforcing, the two reinforcing rods 301 can slide above the two clamping plates 201, and when the reinforcing rods 301 move, the gears 303 on the two sides of the reinforcing rods 301 are meshed in the corresponding tooth grooves 304, when the reinforcing rods 301 abut against a workpiece, the gears 303 can be fixed, and the reinforcing rods 301 can fix and limit the outer sides of the workpiece, so that the workpiece is more stable when moving, and sliding is avoided;

the fixed cover in surface of branch 302 is equipped with ratchet 305, one side fixed mounting of stiffening rod 301 has pawl 306, pawl 306 and ratchet 305 meshing connection, one side of pawl 306 and stiffening rod 301 is connected through torsional spring 307, when two stiffening rods 301 are close to each other, gear 303 rotates synchronous drive ratchet 305 and rotates, at this moment ratchet 305 constantly is in contact with pawl 306, let corresponding gear 303 rotate, but when gear 303 moves in the opposite direction, pawl 306 can chucking ratchet 305 carries out spacing, fix gear 303, thereby carry out spacing treatment very fast to stiffening rod 301, the quantity of ratchet 305 is two, two ratchet 305 all are located same one side, two ratchet 305 pawl 306 are located same one side, can let ratchet 305 rotate through stirring pawl 306 when needs contact spacing, two gears of one side stiffening rod 301 are located the both sides of stiffening rod 301 respectively, two gears 303 are in contact with a plurality of 304 on two splint 201 surfaces respectively, the both sides of stiffening rod 301 all are provided with the gear 303 and can be moved at the same height when two adjacent motor, thereby can be connected with two rotation stages 102 through the rotation of two adjacent motor, the two sides of two adjacent motor drive stage 101 can be rotated consistently, thereby the two side of rotation 102 can be exchanged, the work piece 102 is rotated consistently, the one side is processed and two adjacent stage 102 can be rotated and two side alternately can be rotated consistently.

When the utility model is used, a workpiece can be placed on the corresponding exchange table 102, then the two limit screws 203 are rotated, the two limit screws 203 are moved out of the movable groove 202, at the moment, the two clamping plates 201 can be moved to clamp and fix the workpiece, the limit screws 203 are reset, the limit screws 203 are abutted against the movable groove 202 to fix the clamping plates 201, the clamping plates 201 can be quickly fixed, the two clamping plates 201 can be fixed on the workpiece, the workpiece can be more stable when the exchange table 102 moves, the limit screws 203 can squeeze the rubber block 204 when entering the movable groove 202, the rubber block 204 is abutted against the movable groove 202, the friction force is increased through the rubber block 204, the fixing effect of the limit screws 203 and the movable groove 202 is better, the bidirectional screws 205 can be rotated when the two clamping plates 201 are moved, let two splint 201 can be synchronous be close to each other and remove, therefore can let two splint 201 when carrying out the centre gripping to the work piece, can let the work piece keep in the centre of exchange 102, thereby more conveniently be processed, and two splint 201 can be moved to two screw rods 205 can be synchronous, can let to remove two splint 201 more convenient, can slide two stiffening rod 301 when need use stiffening assembly 3 to consolidate, let two stiffening rod 301 slide in the top of two splint 201, at the same time that stiffening rod 301 carries out the motion of meshing in a plurality of tooth grooves 304 that correspond, can fix gear 303 when stiffening rod 301 supports tightly the work piece, can let stiffening rod 301 carry out fixed spacing to the outside of work piece, thereby make the work piece more stable when moving, avoid appearing sliding.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. A rotary station switching assembly for a horizontal machining center, comprising:

a horizontal processing machine (1), wherein a rotating motor (101) is fixedly arranged on one side of the horizontal processing machine (1), and two exchange tables (102) are fixedly arranged at the output end of the rotating motor (101);

the fixing and reinforcing mechanism is used for fixing and processing the workpieces on the surfaces of the two exchange tables (102), and is arranged on the surface of the exchange table (102);

the fixing and reinforcing mechanism comprises a fixing component (2) arranged on one side of the exchange table (102), and a reinforcing component (3) is arranged on one side of the fixing component (2).

2. A rotary station switching assembly for a horizontal machining center according to claim 1, wherein: the fixed subassembly (2) is including two splint (201) of slidable mounting at exchange board (102) surface, movable groove (202) have been seted up to one side of exchange board (102), two spacing screw (203) are all run through to one side of exchange board (102), two spacing screw (203) all with correspond splint (201) threaded connection, two spacing screw (203) all are located one side of movable groove (202), two one side of spacing screw (203) all extends to the inside of movable groove (202).

3. A rotary station switching assembly for a horizontal machining center according to claim 2, wherein: one side of the two limit screws (203) close to the movable groove (202) is fixedly connected with a rubber block (204), and the two rubber blocks (204) are propped against the movable groove (202).

4. A rotary station switching assembly for a horizontal machining center according to claim 2, wherein: the fixing assembly (2) further comprises a bidirectional screw rod (205) penetrating through the two clamping plates (201), and the bidirectional screw rod (205) is in threaded connection with the two clamping plates (201) respectively.

5. A rotary station switching assembly for a horizontal machining center as set forth in claim 4 wherein: the clamping plates (201) are arranged in a U-shaped mode, and the reinforcing component (3) is located above the two clamping plates (201).

6. A rotary station switching assembly for a horizontal machining center as set forth in claim 5 wherein: the reinforcing component (3) comprises two reinforcing rods (301) which are slidably mounted at the tops of the clamping plates (201), supporting rods (302) are rotatably mounted on two sides of each reinforcing rod (301), gears (303) are fixedly sleeved on the surfaces of the supporting rods (302), a plurality of evenly distributed tooth grooves (304) are formed in the surfaces of the clamping plates (201), and the gears (303) are meshed with the corresponding tooth grooves (304).

7. The rotary station switching assembly of a horizontal machining center of claim 6, wherein: the surface fixing sleeve of the supporting rod (302) is provided with a ratchet wheel (305), one side of the reinforcing rod (301) is fixedly provided with a pawl (306), the pawl (306) is meshed with the ratchet wheel (305), and one side of the pawl (306) is connected with one side of the reinforcing rod (301) through a torsion spring (307).

8. A rotary station switching assembly for a horizontal machining center as set forth in claim 7 wherein: the number of the ratchet wheels (305) is two, and the two ratchet wheels (305) are positioned on the same side.

9. The rotary station switching assembly of a horizontal machining center of claim 6, wherein: two gears (303) of the reinforcing rod (301) on one side are respectively positioned on two sides of the reinforcing rod (301), and the two gears (303) are respectively contacted with a plurality of tooth grooves (304) on the surface of the two clamping plates (201).

10. A rotary station switching assembly for a horizontal machining center according to claim 1, wherein: one side of each exchange table (102) is adjacent to the other side of each exchange table, and one side of each exchange table (102) is adjacent to the other side of each exchange table is connected with the output end of the rotating motor (101).

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