CN218693798U - Receiving mechanism for casting workpiece - Google Patents

Abstract

The utility model relates to a receiving mechanism for casting work piece, but including first H type steelframe and the second H type steelframe that is parallel to each other and synchronous horizontal migration, but be equipped with horizontal migration's skip between first H type steelframe and the second H type steelframe, the skip can be between first H type steelframe and second H type steelframe reciprocating motion, during first H type steelframe and second H type steelframe two-way movement, the length direction synchronous two-way movement of skip along first H type steelframe and second H type steelframe. The utility model has the characteristics of can increase the transportation displacement distance to the work piece in limited transportation space, reduce the occupation of land space of equipment, improve transportation efficiency etc.

Description

Receiving mechanism for casting workpiece

Technical Field

The utility model belongs to a connect the material structure, concretely relates to receiving mechanism for casting work piece.

Background

After the existing low-pressure casting machine finishes casting a workpiece, the cast workpiece is usually required to be demolded first, and then the demolded workpiece is transported through a material receiving mechanism.

Publication No. CN103480827A discloses a material receiving mechanism for cast workpieces, which is composed of a hydraulic cylinder, a fixed support seat, a support rod, a material receiving tray support seat, a buffer spring and a material receiving tray. The hydraulic oil cylinder is connected with the supporting rod; the fixed supporting seat is assembled on the frame bracket of the low-voltage machine; one end of the supporting rod is connected with the fixed supporting seat, and the other end of the supporting rod is connected with the receiving tray supporting seat; the buffer springs are uniformly arranged by taking the center of the take-up reel supporting seat as a circle center.

When connecing the material to the casting work piece, it is longer to transport the required displacement distance of work piece, and receiving mechanism's displacement distance is limited, if will directly transport the work piece to assigned position, the receiving mechanism volume that needs to set up can be bigger, and occupation site space can increase, can't realize longer transport distance to the work piece in limited space.

Disclosure of Invention

An object of the utility model is to provide a receiving mechanism for casting work piece has solved the transport distance scheduling problem that can't realize longer to the work piece in limited space that prior art exists.

The above technical object of the present invention is achieved by the following technical solutions: a receiving mechanism for a cast workpiece comprises a first H-shaped steel frame and a second H-shaped steel frame which are parallel to each other and can synchronously and horizontally move, a receiving vehicle capable of horizontally moving is arranged between the first H-shaped steel frame and the second H-shaped steel frame and can reciprocate between the first H-shaped steel frame and the second H-shaped steel frame, and when the first H-shaped steel frame and the second H-shaped steel frame move bidirectionally, the receiving vehicle synchronously and bidirectionally moves along the length direction of the first H-shaped steel frame and the length direction of the second H-shaped steel frame; the first H-shaped steel frame and the second H-shaped steel frame can move synchronously, the material receiving vehicle can move between the first H-shaped steel frame and the second H-shaped steel frame, if the material receiving vehicle cannot move, the displacement distance of the material receiving vehicle is the displacement distance of the first H-shaped steel frame and the second H-shaped steel frame, and when the first H-shaped steel frame and the second H-shaped steel frame move bidirectionally, the material receiving vehicle can move synchronously and bidirectionally along the length direction of the first H-shaped steel frame and the length direction of the second H-shaped steel frame, so that when the material receiving vehicle moves along the first H-shaped steel frame and the second H-shaped steel frame, the material receiving vehicle can move simultaneously along the length of the first H-shaped steel frame and the length of the second H-shaped steel frame, the displacement distance of the material receiving vehicle is increased in the limited movable space, the longer transfer distance is further realized, the transfer efficiency of redundant workpieces is ensured, and the occupation of the space of the field is avoided.

Preferably, a first roller set which is fixedly arranged is arranged on the outer side of the first H-shaped steel frame, a second roller set which is fixedly arranged and symmetrical to the first roller set is arranged on the outer side of the second H-shaped steel frame, and the first roller set and the second roller set are respectively positioned in the outer side groove of the first H-shaped steel frame and the outer side groove of the second H-shaped steel frame; the arrangement of the first roller group and the second roller group ensures that the first H-shaped steel frame and the second H-shaped steel frame can synchronously and horizontally move under the support of the first roller group and the second roller group, the moving smoothness of the first H-shaped steel frame and the second H-shaped steel frame is improved, and the workpiece is more stably transported.

Preferably, a first chain wheel is arranged at the top of one end of the first H-shaped steel frame, a first transmission chain which bypasses the first chain wheel is arranged above the first H-shaped steel frame, one end of the first transmission chain is connected with the material receiving vehicle, and the other end of the first transmission chain is connected with the first roller set; above-mentioned first sprocket and first drive chain's setting for when first H shaped steel frame removed towards the direction of first sprocket, the interval increase between first sprocket and the fixed first roller train, and first drive chain bypasses first sprocket, make first sprocket change first drive chain's moving direction, the removal of first H shaped steel frame can make the first drive chain between first sprocket and the first roller train lengthen gradually, and the first drive chain between first sprocket and the material receiving vehicle shortens, realized then the synchronous motion of material receiving vehicle and first H shaped steel frame, increased the displacement distance of material receiving vehicle in the length direction of first H shaped steel frame.

Preferably, a second chain wheel is arranged at the top of one end, opposite to the position of the first chain wheel, of the second H-shaped steel frame, a second transmission chain which bypasses the second chain wheel is arranged above the second H-shaped steel frame, one end of the second transmission chain is connected with the material receiving vehicle, and the other end of the second transmission chain is connected with the second roller set; above-mentioned second sprocket and second drive chain's setting for second H shaped steel frame when reverse movement, the interval increase between second sprocket and the second roller train makes the interval between second sprocket and the material receiving vehicle reduce, thereby when second H shaped steel frame reverse movement, through second drive chain pulling material receiving vehicle, makes the material receiving vehicle follow second H shaped steel frame and remove.

Preferably, the first roller group and the second roller group are consistent in structure and are symmetrically arranged, the second roller group is arranged on the side wall of the fixed support, a connecting piece connected with the end part of the second transmission chain is arranged at the top of the fixed support, a displacement sensor is arranged on one side of the fixed support, and a limiting frame matched with the displacement sensor is arranged at one end, opposite to the first chain wheel, of the first H-shaped steel frame; the setting of above-mentioned connecting piece can be fixed first roller train and second roller train respectively on outside fixing device, and displacement sensor and spacing cooperation setting can be injectd the home range of first H type steelframe and second H type steelframe, avoids first H type steelframe and second H type steelframe to remove excessively to lead to first H type steelframe and second H type steelframe to break away from or damage.

Preferably, a first L-shaped steel frame and a second L-shaped steel frame are respectively arranged on the outer side of the first H-shaped steel frame and the outer side of the second H-shaped steel frame, a first translation slide rail and a second translation slide rail which are used for supporting the first L-shaped steel frame and the second L-shaped steel frame to move synchronously and are parallel to each other are respectively arranged at the top ends of the first L-shaped steel frame and the second L-shaped steel frame, and a first pulley block and a second pulley block which are positioned at the tops of the first translation slide rail and the second translation slide rail are respectively arranged at the top ends of the first L-shaped steel frame and the second L-shaped steel frame; above-mentioned setting of first L type steelframe and second L type steelframe, be connected respectively with first H type steelframe and second H type steelframe, and can form the support respectively to first H type steelframe and second H type steelframe, make first H type steelframe and second H type steelframe can follow first translation slide rail and the removal of second translation slide rail respectively, play the guide effect, and the setting of first assembly pulley and second assembly pulley, the smooth and easy nature that multiplicable first H type steelframe and second H type steelframe removed, guarantee the reliable and stable of removal.

Preferably, an oil cylinder is fixedly arranged on the outer side of the first H-shaped steel frame, and an output rod of the oil cylinder is connected with the first L-shaped steel frame; the arrangement of the oil cylinder can drive the first H-shaped steel frame and the second H-shaped steel frame to reciprocate on the first roller train and the second roller train through the first L-shaped steel frame, and a workpiece is transferred.

Preferably, both sides of the receiving trolley are provided with third roller sets which can roll in the grooves on the inner sides of the first H-shaped steel frame and the second H-shaped steel frame respectively, a receiving tray is arranged above the receiving trolley, a plurality of pressure springs are arranged between the receiving tray and the receiving trolley, and the middle of each pressure spring is provided with a limit column positioned at the top of the receiving trolley; the third roller set is arranged, so that the auxiliary receiving vehicle can move between the first H-shaped steel frame and the second H-shaped steel frame, the receiving disc can receive the workpiece, the pressure spring and the limiting column are arranged in a matched mode, so that the buffer is provided when the receiving disc receives the workpiece, the impact force during receiving is reduced, the damage is reduced, the limiting column can limit the upper floating amount and the lower floating amount of the receiving disc, and the workpiece is prevented from falling out of the receiving disc due to excessive floating of the receiving disc.

Therefore, the utility model has the characteristics of can increase the transportation displacement distance to the work piece in limited transportation space, reduce the occupation of land space of equipment, improve transport efficiency etc.

Drawings

FIG. 1 is a perspective view of the present invention;

fig. 2 is a partial schematic view of the structure of fig. 1.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

As shown in fig. 1-2, a receiving mechanism for a casting workpiece includes a first H-shaped steel frame 3 and a second H-shaped steel frame 4 which are parallel to each other and can move horizontally and synchronously, a receiving trolley 5 which can move horizontally is disposed between the first H-shaped steel frame 3 and the second H-shaped steel frame 4, the receiving trolley 5 can move reciprocally between the first H-shaped steel frame 3 and the second H-shaped steel frame 4, when the first H-shaped steel frame 3 and the second H-shaped steel frame 4 move bidirectionally, the receiving trolley 5 moves bidirectionally and synchronously along the length directions of the first H-shaped steel frame 3 and the second H-shaped steel frame 4, third roller sets 51 which can roll in grooves on the inner sides of the first H-shaped steel frame 3 and the second H-shaped steel frame 4 respectively are disposed on both sides of the receiving trolley 5, a receiving tray 52 is disposed above the receiving trolley 5, a plurality of compression springs 53 are disposed between the receiving tray 52 and the receiving trolley 5, and a limit column 54 located on the top of the receiving trolley 5 is disposed in the middle of the compression springs 53.

The first H-shaped steel frame and the second H-shaped steel frame are connected through the cross beam and can move synchronously, the material receiving vehicle is arranged between the first H-shaped steel frame and the second H-shaped steel frame through the third roller group and moves along the first H-shaped steel frame and the second H-shaped steel frame, when the first H-shaped steel frame and the second H-shaped steel frame move towards the first chain wheel, the material receiving vehicle can move towards the first chain wheel along with the first H-shaped steel frame and the second H-shaped steel frame, a workpiece is arranged on the material receiving disk, the material receiving disk is supported by the pressure spring and plays a role in buffering, when the first H-shaped steel frame and the second H-shaped steel frame move towards the second chain wheel, the material receiving vehicle can move towards the second chain wheel along with the first H-shaped steel frame and the second H-shaped steel frame.

As shown in fig. 1, a first roller set 6 is fixedly arranged on the outer side of the first H-shaped steel frame 3, a second roller set 7 is fixedly arranged on the outer side of the second H-shaped steel frame 4 and is symmetrical to the first roller set 6, the first roller set 6 and the second roller set 7 are respectively located in an outer groove of the first H-shaped steel frame 3 and an outer groove of the second H-shaped steel frame 4, a first L-shaped steel frame 34 and a second L-shaped steel frame 44 are respectively arranged on the outer side of the first H-shaped steel frame 3 and the outer side of the second H-shaped steel frame 4, a first translation slide rail 45 and a second translation slide rail 46 which are used for supporting the first L-shaped steel frame 34 and the second L-shaped steel frame 44 to move synchronously and are parallel to each other are respectively arranged at the top ends of the first L-shaped steel frame 34 and the second L-shaped steel frame 44, a first pulley block 341 and a second pulley block 441 which are located at the top of the first translation slide rail 45 and the second translation slide rail 46 are respectively arranged at the top ends of the first L-shaped steel frame 34 and the second L-shaped steel frame 44, an output oil cylinder 81 which is connected with the first L-shaped steel frame 34.

The oil cylinder is an existing product in the existing market, and is the prior art, the description is omitted here, an external part of the oil cylinder is fixed on an external fixing device and keeps fixed, an output rod of the oil cylinder is connected with the first L-shaped steel frame, after a workpiece is placed on the material receiving plate, the output rod of the oil cylinder starting oil cylinder can drive the first L-shaped steel frame and the second L-shaped steel frame to move in two directions, and the first L-shaped steel frame and the second L-shaped steel frame move along the first translation sliding rail and the second translation sliding rail respectively through the first pulley block and the second pulley block.

As shown in fig. 2, a first chain wheel 32 is arranged at the top of one end of the first H-shaped steel frame 3, a first transmission chain 33 which bypasses the first chain wheel 32 is arranged above the first H-shaped steel frame 3, one end of the first transmission chain 33 is connected with the material receiving vehicle 5, the other end of the first transmission chain 33 is connected with the first roller set 6, a second chain wheel 41 is arranged at the top of one end of the second H-shaped steel frame 4 opposite to the position of the first chain wheel 31, a second transmission chain 42 which bypasses the second chain wheel 41 is arranged above the second H-shaped steel frame 4, one end of the second transmission chain is connected with the material receiving vehicle 5, the other end of the second transmission chain 42 is connected with the second roller set 7, the first roller set 6 and the second roller set 7 are symmetrically arranged in a consistent structure, the second roller set 7 is arranged on the side wall of the fixed support 71, a connecting piece 72 connected with the end of the second transmission chain 42 is arranged at the top of the fixed support 71, a displacement sensor 73 is arranged on one side of the first H-shaped steel frame 4, and a limiting frame 43 matched with the chain wheel 73 is arranged at one end of the first H-shaped steel frame 4.

When the first H-shaped steel frame and the second H-shaped steel frame move towards the direction of the first chain wheel, the distance between the first chain wheel and the first roller set is increased, and the first transmission chain bypasses the first chain wheel, so that the first chain wheel changes the moving direction of the first transmission chain, the first transmission chain between the first chain wheel and the first roller set is gradually lengthened, the first transmission chain between the first chain wheel and the material receiving vehicle is shortened, the second transmission chain does not transmit, the material receiving vehicle can be pulled by the first transmission chain at the moment, and the material receiving vehicle moves along with the movement of the first H-shaped steel frame; when first H type steelframe and second H type steelframe removed towards the direction of second sprocket, the interval between second sprocket and the second roller train increases for the interval between second sprocket and the material receiving vehicle shortens, and first drive chain does not transmit this moment, and the material receiving vehicle can be pulled by second drive chain this moment, along with first H type steelframe and the removal of second H type steelframe.

Claims (8)

1. The utility model provides a receiving mechanism for casting work piece which characterized in that: including but first H type steel frame (3) and second H type steelframe (4) that are parallel to each other and synchronous horizontal migration, but be equipped with horizontal migration's material receiving vehicle (5) between first H type steel frame (3) and second H type steelframe (4), material receiving vehicle (5) can be between first H type steel frame (3) and second H type steelframe (4) reciprocating motion, during first H type steel frame (3) and second H type steelframe (4) both way movement, the length direction synchronous both way movement of material receiving vehicle (5) along first H type steel frame (3) and second H type steelframe (4).

2. The receiving mechanism for the cast workpieces according to claim 1, wherein: the outer side of the first H-shaped steel frame (3) is provided with a first roller set (6) which is fixedly arranged, the outer side of the second H-shaped steel frame (4) is provided with a second roller set (7) which is fixedly arranged and symmetrical to the first roller set (6), and the first roller set (6) and the second roller set (7) are respectively positioned in an outer side groove of the first H-shaped steel frame (3) and an outer side groove of the second H-shaped steel frame (4).

3. The receiving mechanism for the cast workpieces according to claim 2, wherein: the top of first H shaped steel frame (3) one end is equipped with first sprocket (32), first H shaped steel frame (3) top is equipped with first drive chain (33) around first sprocket (32), the one end and the material receiving vehicle (5) of first drive chain (33) are connected, the other end and the first roller train (6) of first drive chain (33) are connected.

4. The receiving mechanism for the cast workpieces according to claim 2, wherein: the top of one end opposite to the position of the first chain wheel (32) on the second H-shaped steel frame (4) is provided with a second chain wheel (41), a second transmission chain (42) which bypasses the second chain wheel (41) is arranged above the second H-shaped steel frame (4), one end of the second transmission chain is connected with the material receiving vehicle (5), and the other end of the second transmission chain (42) is connected with the second roller set (7).

5. The receiving mechanism for the cast workpieces according to claim 4, wherein: the structure of first roller train (6) and second roller train (7) is unanimous and the symmetry sets up, second roller train (7) are located on the lateral wall of fixed bolster (71), the top of fixed bolster (71) is equipped with connecting piece (72) with the end connection of second drive chain (42), one side of fixed bolster (71) is equipped with displacement sensor (73), the one end relative with first sprocket (32) is equipped with spacing (43) with displacement sensor (73) complex on second H type steelframe (4).

6. The receiving mechanism for the cast workpieces according to claim 1, wherein: the steel frame structure is characterized in that a first L-shaped steel frame (34) and a second L-shaped steel frame (44) are arranged on the outer side of the first H-shaped steel frame (3) and the outer side of the second H-shaped steel frame (4) respectively, a first translation sliding rail (45) and a second translation sliding rail (46) which are used for supporting the first L-shaped steel frame (34) and the second L-shaped steel frame (44) to move synchronously and are parallel to each other are arranged at the top ends of the first L-shaped steel frame (34) and the second L-shaped steel frame (44) respectively, and a first pulley block (341) and a second pulley block (441) which are located at the tops of the first translation sliding rail (45) and the second translation sliding rail (46) are arranged at the top ends of the first L-shaped steel frame (34) and the second L-shaped steel frame (44) respectively.

7. The receiving mechanism for the cast workpieces according to claim 6, wherein: the outside of first H shaped steel frame (3) is equipped with fixed hydro-cylinder (81) that sets up, the output rod and the first L shaped steel frame (34) of hydro-cylinder (81) are connected.

8. The receiving mechanism for the cast workpieces according to claim 1, wherein: the utility model discloses a material receiving trolley, including material receiving trolley (5), material receiving trolley (5) and second H type steelframe, the both sides of material receiving trolley (5) all are equipped with and can be respectively at rolling third roller train (51) in the inboard fluting of first H type steelframe (3) and second H type steelframe (4), material receiving trolley (5) top is equipped with material receiving disc (52), be equipped with a plurality of pressure springs (53) between material receiving disc (52) and material receiving trolley (5), the middle part of pressure spring (53) is equipped with and is located material receiving trolley (5) top spacing post (54).

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