CN113458936A - A multistation grinding device for metal casting processing - Google Patents

Abstract

The invention relates to the technical field of metal casting machining and discloses a multi-station polishing device for metal casting machining. The invention replaces the traditional manual grinding mode, the castings are accommodated by a plurality of groups of grinding stations in the station mechanism, synchronous grinding work can be carried out on a plurality of groups of castings under the translation of a shaft X, Y, Z driven by a driving mechanism, grinding work can be carried out on all directions of the castings under the universal adjustment of the grinding mechanism synchronously, and in the grinding process, dust generated by grinding can be recycled through the matching combination of the fan cover and the dust recycling mechanism.

Description

A multistation grinding device for metal casting processing

Technical Field

The invention relates to the technical field of metal casting machining, in particular to a multi-station polishing device for metal casting machining.

Background

The casting is a metal molding object obtained by various casting methods, namely, smelted liquid metal is poured into a casting mold prepared in advance by pouring, injecting, sucking or other casting methods, and after cooling, the casting is subjected to subsequent processing means such as polishing and the like to obtain an object with certain shape, size and performance.

But there are some shortcomings about the grinding device of metal casting processing usefulness in the existing market, and traditional foundry goods grinding device is mostly the mode that artifical handheld sander carried out polishing, and when its efficiency of polishing was low, handling strength was high again, and at the in-process of polishing, the cuttings that produce of polishing very easily corrodes staff's skin, and the cuttings are scattered in disorder by a wide margin, is difficult to effectual recycle. Accordingly, one skilled in the art provides a multi-station grinding apparatus for metal casting machining that solves the problems set forth in the background above.

Disclosure of Invention

The invention aims to provide a multi-station grinding device for metal casting machining, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a multistation grinding device for metal casting processing, is including the box of polishing, the front side of the box of polishing is located bottom position department and has seted up feed port, and the inboard of the box of polishing is located bottom position department and is provided with station mechanism, the inboard of the box of polishing is located middle part position department and is provided with actuating mechanism, the flexible end of Z axle air pressure bar is fixed with grinding machanism among the actuating mechanism, the top of the box of polishing is located middle part position department and is provided with the fan housing, and the bottom of the box of polishing is provided with dust recovery mechanism, the inboard of fan housing is provided with the fan that admits air.

As a still further scheme of the invention: the station mechanism comprises a station frame, guide slide bars are symmetrically and fixedly arranged on the inner side of the station frame, guide slide sleeves are sleeved on the outer sides of the guide slide bars, polishing platforms are fixedly arranged at the top ends of the guide slide sleeves, polishing stations are symmetrically arranged on the end faces of the polishing platforms, a locking support is arranged on the top end of each polishing platform in a penetrating mode through a feeding port, two sets of telescopic pull rods are symmetrically and symmetrically arranged on the inner sides of the locking support, a push-pull handle is embedded into the middle position of the front side of the locking support and connected with the telescopic pull rods through a transmission connecting rod, compression springs are sleeved on the outer sides of the telescopic pull rods, and locking buckles are arranged on the top ends of the telescopic pull rods.

As a still further scheme of the invention: the inner side of the locking support is symmetrically provided with two groups of guide clamping seats matched with the telescopic pull rod, and the telescopic pull rod is elastically clamped with the guide clamping seats through a compression spring.

As a still further scheme of the invention: the inner wall of the feeding port is symmetrically provided with locking clamping grooves, and the locking clamping grooves and the locking buckles are located on the same horizontal plane.

As a still further scheme of the invention: actuating mechanism includes the drive support, the inboard of drive support is located both ends position department symmetry and is provided with Y axle guide bar, and the rear side position of drive support is fixed with Y axle pneumatic rod in the middle part, the Y axle balladeur train has been cup jointed in the outside of Y axle guide bar, the top of Y axle balladeur train is located one end position department and is fixed with X axle pneumatic rod, and the terminal surface of Y axle balladeur train is located middle part position department and has seted up X axle guide chute, the inboard of X axle guide chute is run through the block and is had X axle slide, the terminal surface of X axle slide runs through and is fixed with Z axle pneumatic rod.

As a still further scheme of the invention: the telescopic end of the Y-axis pneumatic rod is fixedly connected with the Y-axis sliding frame, and the telescopic end of the X-axis pneumatic rod is fixedly connected with the X-axis sliding seat.

As a still further scheme of the invention: grinding machanism includes horizontal support, the inboard of horizontal support is located bottom position department and rotates and is connected with horizontal branch, and one side of horizontal support is located top position department and is fixed with horizontal motor, the terminal surface that horizontal support was run through to horizontal motor's output is provided with horizontal drive gear, the one end of horizontal branch is provided with horizontal synchronizing gear, and the middle part of horizontal branch runs through and is provided with vertical branch, the top of vertical branch is rotated and is connected with vertical support, one side of vertical support is located top position department and is provided with vertical motor, the terminal surface that vertical support was run through to vertical motor's output is provided with vertical drive gear, the one end of vertical branch is provided with vertical synchronizing gear, the bottom of vertical support is provided with the head of polishing.

As a still further scheme of the invention: the teeth of the transverse transmission gear are in meshed connection with the teeth of the transverse synchronous gear, and the teeth of the longitudinal transmission gear are in meshed connection with the teeth of the longitudinal synchronous gear.

As a still further scheme of the invention: the dust recovery mechanism is including connecting the dust recovery box of box bottom position department of polishing, one side of dust recovery box is located top position department and is connected with the water intaking valve, and one side of dust recovery box is located bottom position department and is connected with the drain valve, the port position department of dust recovery box is provided with the guide cover, and the both sides of dust recovery box are located top corner position department symmetry and are provided with the exhaust screen panel, the exhaust port symmetry of guide cover is provided with two sets of water conservancy diversion grillages, the inboard symmetry of water conservancy diversion grillages is provided with the dust filter screen, the bottom of dust filter screen is provided with the space bar, the inboard of dust recovery box is located bottom position department and rotates and is connected with the auger delivery auger, and the bottom middle part position department of dust recovery box is connected with the discharge valve.

As a still further scheme of the invention: the guide plate frame is of a U-shaped structure, and the number of U tubes of the guide plate frame is not less than two.

As a still further scheme of the invention: the input end of the spiral conveying auger penetrates through the end face of the dust recovery box body and is provided with a transmission motor, the spiral conveying auger takes a central line as a boundary, and the two sides of the central line are respectively provided with a positive paddle and a negative paddle which are symmetrically arranged with each other.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the traditional manual grinding mode is replaced, a plurality of groups of grinding stations in the station mechanism are used for accommodating castings, synchronous grinding work can be carried out on a plurality of groups of castings under the condition that the driving mechanism drives the X, Y, Z shaft of the grinding mechanism to translate, and grinding work can be carried out on all directions of the castings synchronously under the universal adjustment of the grinding mechanism, so that the grinding efficiency of the grinding device is improved, the operation intensity of workers is reduced, and in the grinding process, dust generated by grinding can be recycled through the matching combination of the fan cover and the dust recycling mechanism, so that the dust is prevented from drifting and corroding the skins of the workers, and meanwhile, the dust can be settled, recycled and utilized.

Drawings

FIG. 1 is a schematic structural view of a multi-station polishing device for metal casting machining;

FIG. 2 is a schematic structural diagram of the interior of a grinding box in a multi-station grinding device for metal casting machining;

FIG. 3 is a schematic structural diagram of a station mechanism in a multi-station grinding device for metal casting machining;

FIG. 4 is a schematic diagram of a drive mechanism of a multi-station grinding apparatus for metal casting machining;

FIG. 5 is a schematic diagram of a grinding mechanism in a multi-station grinding apparatus for metal casting machining;

fig. 6 is a schematic structural diagram of a dust recycling mechanism in a multi-station polishing device for metal casting machining.

In the figure: 1. polishing the box body; 2. a fan housing; 3. a feed port; 4. a station mechanism; 41. a station frame; 42. a guide slide bar; 43. a guide sliding sleeve; 44. polishing the platform; 45. polishing a station; 46. a locking bracket; 47. a push-pull handle; 48. a transmission connecting rod; 49. a telescopic pull rod; 410. a compression spring; 411. locking the buckle; 5. a dust recovery box body; 6. an exhaust mesh enclosure; 7. a water inlet valve; 8. a drain valve; 9. an air inlet fan; 10. a drive mechanism; 101. a drive bracket; 102. a Y-axis pneumatic rod; 103. a Y-axis guide bar; 104. a Y-axis carriage; 105. an X-axis guide chute; 106. an X-axis slide carriage; 107. a Z-axis pneumatic rod; 108. an X-axis gas pressure rod; 11. a polishing mechanism; 111. a transverse support; 112. a transverse transmission gear; 113. a transverse motor; 114. a transverse synchronizing gear; 115. a transverse strut; 116. a longitudinal strut; 117. a longitudinal synchronizing gear; 118. a longitudinal drive gear; 119. a longitudinal motor; 1110. a longitudinal support; 1111. polishing head; 12. a guide housing; 13. a dust filter screen; 14. a guide plate frame; 15. a partition plate; 16. a discharge valve; 17. a spiral conveying auger; 18. a drive motor; 19. locking draw-in groove.

Detailed Description

Referring to fig. 1 to 6, in an embodiment of the present invention, a multi-station polishing device for processing a metal casting includes a polishing box 1, a feeding port 3 is disposed at a bottom position on a front side of the polishing box 1, a station mechanism 4 is disposed at the bottom position on an inner side of the polishing box 1, the station mechanism 4 includes a station frame 41, a guide slide bar 42 is symmetrically fixed on the inner side of the station frame 41, a guide slide sleeve 43 is sleeved on an outer side of the guide slide bar 42, a polishing platform 44 is fixed on a top end of the guide slide sleeve 43, polishing stations 45 are symmetrically disposed on an end surface of the polishing platform 44, a locking bracket 46 is disposed at a top end of the polishing platform 44 penetrating through the feeding port 3, two sets of telescopic pull rods 49 are symmetrically disposed on an inner side of the locking bracket 46, a push-pull handle 47 is embedded and clamped at a middle position on a front side of the locking bracket 46, the push-pull handle 47 is connected with the telescopic pull rod 49 through a transmission link 48, the outer side of the telescopic pull rod 49 is sleeved with a compression spring 410, the top end of the telescopic pull rod 49 is provided with a locking buckle 411, the inner side of the locking support 46 is symmetrically provided with two groups of guide clamping seats matched with the telescopic pull rod 49, the telescopic pull rod 49 is elastically clamped with the guide clamping seats through the compression spring 410, the inner wall of the feeding port 3 is symmetrically provided with locking clamping grooves 19, the locking clamping grooves 19 and the locking buckles 411 are positioned on the same horizontal plane, when a metal casting is polished, a worker pulls the push-pull handle 47 to drive the transmission connecting rod 48 to symmetrically move, the transmission connecting rod 48 pulls the telescopic pull rod 49 to symmetrically slide in the symmetrical moving process, the locking buckle 411 is pulled out from the locking clamping grooves 19, the locking state is released, the synchronous worker continuously pulls the push-pull handle 47 to pull the polishing platform 44 out from the feeding port 3, and places a plurality of groups of metal castings in the polishing station 45, after the polishing machine is placed, the push-pull handle 47 is pushed, the polishing platform 44 is pushed back to the inside of the polishing box body 1 for polishing, in the pushing-back process, the telescopic pull rod 49 is elastically reset under the elastic pushing of the compression spring 410, so that the locking buckle 411 is elastically clamped into the locking clamping groove 19, and a locking state is formed.

The inner side of the grinding box body 1 is provided with a driving mechanism 10 at the middle position, the driving mechanism 10 comprises a driving support 101, the inner side of the driving support 101 at the two ends is symmetrically provided with Y-axis guide rods 103, the rear side of the driving support 101 at the middle position is fixed with a Y-axis pneumatic rod 102, the outer side of the Y-axis guide rod 103 is sleeved with a Y-axis sliding frame 104, the upper side of the Y-axis sliding frame 104 at one end is fixed with an X-axis pneumatic rod 108, the end surface of the Y-axis sliding frame 104 at the middle position is provided with an X-axis guide sliding groove 105, the inner side of the X-axis guide sliding groove 105 is penetrated and clamped with an X-axis sliding seat 106, the end surface of the X-axis sliding seat 106 is penetrated and fixed with a Z-axis pneumatic rod 107, the telescopic end of the Y-axis pneumatic rod 102 is fixedly connected with the Y-axis sliding frame 104, the telescopic end of the X-axis pneumatic rod 108 is fixedly connected with the X-axis sliding seat 106, after the metal casting is placed, the telescopic end of the Y-axis pneumatic rod 102 is telescopically moved, promote Y axle balladeur train 104 and slide on Y axle guide bar 103, carry out Y axle direction to grinding machanism 11 and remove, the flexible end of synchronous X axle pneumatic rod 108 is flexible to be removed, promote X axle slide 106 and slide in X axle guide chute 105, carry out X axle direction to grinding machanism 11 and remove, move grinding machanism 11 to treat directly over the foundry goods of polishing, and then the flexible end of Z axle pneumatic rod 107 stretches out, promote grinding machanism 11 and remove downwards, carry out the work of polishing to appointed foundry goods.

A grinding mechanism 11 is fixed at the telescopic end of a Z-axis pneumatic rod 107 in a driving mechanism 10, the grinding mechanism 11 comprises a transverse support 111, the inner side of the transverse support 111 at the bottom end position is rotatably connected with a transverse support rod 115, one side of the transverse support 111 at the top end position is fixedly provided with a transverse motor 113, the output end of the transverse motor 113 penetrates through the end surface of the transverse support 111 and is provided with a transverse transmission gear 112, one end of the transverse support rod 115 is provided with a transverse synchronizing gear 114, the middle part of the transverse support rod 115 is penetrated and provided with a longitudinal support rod 116, the top end of the longitudinal support rod 116 is rotatably connected with a longitudinal support 1110, one side of the longitudinal support 1110 at the top end position is provided with a longitudinal motor 119, the output end of the longitudinal motor 119 penetrates through the end surface of the longitudinal support 1110 and is provided with a longitudinal transmission gear 118, one end of the longitudinal support rod 116 is provided with a longitudinal synchronizing gear 117, and the bottom end of the longitudinal support 1110 is provided with a grinding head 1111, the teeth of the transverse transmission gear 112 are meshed with the teeth of the transverse synchronous gear 114, the teeth of the longitudinal transmission gear 118 are meshed with the teeth of the longitudinal synchronous gear 117, when different directions of a casting are required to be polished in the casting polishing process, the transverse motor 113 works to drive the transverse transmission gear 112 to rotate, the transverse supporting rod 115 is driven to rotate through the meshing transmission of the transverse transmission gear 112 and the teeth of the transverse synchronous gear 114, the longitudinal support 1110 is driven to swing left and right in a reverse direction, the polishing head 1111 is adjusted in the left and right direction, the synchronous longitudinal motor 119 works to drive the longitudinal transmission gear 118 to rotate, the longitudinal support 1110 is driven to rotate on the longitudinal supporting rod 116 through the meshing transmission of the longitudinal transmission gear 118 and the teeth of the longitudinal synchronous gear 117, the longitudinal support 1110 is driven to swing up and down, and the polishing head 1111 is adjusted in the up and down direction, so that the casting polishing machine can polish castings in different directions.

A fan cover 2 is arranged above the grinding box body 1 at the middle position, a dust recovery mechanism is arranged at the bottom end of the grinding box body 1, an air inlet fan 9 is arranged on the inner side of the fan cover 2, the dust recovery mechanism comprises a dust recovery box body 5 connected at the bottom end position of the grinding box body 1, one side of the dust recovery box body 5 is connected with an inlet valve 7 at the top end position, one side of the dust recovery box body 5 is connected with a drain valve 8 at the bottom end position, a guide cover 12 is arranged at the port position of the dust recovery box body 5, exhaust mesh covers 6 are symmetrically arranged at the corner positions of the top end of the two sides of the dust recovery box body 5, two groups of guide plate frames 14 are symmetrically arranged at the exhaust port of the guide cover 12, dust filter screens 13 are symmetrically arranged on the inner sides of the guide plate frames 14, a partition plate 15 is arranged at the bottom end of the dust filter screens 13, the guide plate frames 14 are of a U-shaped structure, and the number of U-shaped pipes of the guide plate frames 14 is not less than two groups, in to the metal casting grinding process, carry the cleaning water to the dust recovery box 5 in through water intaking valve 7, the bottom that highly does not have division board 15 of cleaning water, and be no longer than diversion grillage 14's bottom, and then at the metal casting grinding process, 9 work of admitting air, the dust of the output of will polishing blows in the dust recovery box 5, the dust blows in to the dust through guide housing 12 and retrieves inside box 5, carry out preliminary contact with the cleaning water and subside, and then under U-shaped structure diversion grillage 14's the supporting combination with dust filter screen 13, carry out water conservancy diversion isolation processing once more to the dust, make it carry out abundant contact with the cleaning water and subside, and then subside, clean gas after the filtration passes through exhaust screen panel 6 circulation discharge.

The inner side of the dust recovery box body 5 is rotatably connected with a spiral conveying auger 17 at the bottom end position, the middle position of the bottom end of the dust recovery box body 5 is connected with a discharge valve 16, the input end of the spiral conveying auger 17 penetrates through the end surface of the dust recovery box body 5 and is provided with a transmission motor 18, the spiral conveying auger 17 takes a central line as a boundary, and the two sides of the central line are respectively provided with a positive paddle and a negative paddle which are symmetrically arranged with each other, when the dust in the dust recovery box body 5 is accumulated to a certain degree, the dust is accumulated at the bottom of the dust recovery box body 5 under the action of gravity, and then a switch of a drain valve 8 is opened to discharge clean water, after the discharge is finished, the switch of the discharge valve 16 is opened, the synchronous transmission motor 18 works to drive the spiral conveying auger 17 to rotate, and the accumulated dust is spirally and symmetrically discharged through the positive paddle and the negative paddles which are symmetrically arranged with each other on the spiral conveying auger 17, the dust is discharged through a discharge valve 16 for recycling.

The working principle of the invention is as follows: when a metal casting is polished, a worker pulls the push-pull handle 47 to pull the polishing platform 44 out of the feeding port 3, and then places a plurality of groups of metal castings in the polishing station 45, after the metal castings are placed, the push-pull handle 47 is pushed, the polishing platform 44 is pushed back to the inside of the polishing box 1 to perform polishing work, and further after the metal castings are placed, the telescopic end of the Y-axis pneumatic rod 102 is pushed to move telescopically, the Y-axis carriage 104 is pushed to slide on the Y-axis guide rod 103 to move the polishing mechanism 11 in the Y-axis direction, the telescopic end of the synchronous X-axis pneumatic rod 108 is pushed to move telescopically, the X-axis slide seat 106 is pushed to slide in the X-axis guide chute 105 to move the polishing mechanism 11 in the X-axis direction, the polishing mechanism 11 is moved to be right above the casting to be polished, and then the telescopic end of the Z-axis pneumatic rod 107 extends out, and the polishing mechanism 11 moves downwards, when the designated casting is polished, and in the process of polishing the casting, when the casting is polished in different directions, the transverse motor 113 works to drive the transverse transmission gear 112 to rotate, the transverse support rod 115 is driven to rotate through the meshing transmission of the transverse transmission gear 112 and the teeth of the transverse synchronous gear 114, so as to drive the longitudinal support 1110 to swing left and right reversely, the polishing head 1111 is adjusted in the left and right direction, the synchronous longitudinal motor 119 works to drive the longitudinal transmission gear 118 to rotate, the longitudinal support 1110 is driven to rotate on the longitudinal support rod 116 through the meshing transmission of the longitudinal transmission gear 118 and the teeth of the longitudinal synchronous gear 117, so as to drive the longitudinal support 1110 to swing up and down, the polishing head 1111 is adjusted in the up and down direction, so that the polishing head can polish the casting in different directions, the air inlet fan 9 further works to blow the dust produced by polishing into the dust recovery box 5, the dust blows in to dust recovery box 5 inside through guide housing 12, carries out preliminary contact with the cleaning water and subsides, and then under the supporting combination with dust filter screen 13 of U-shaped structure draft shield frame 14, carries out water conservancy diversion isolation once more to the dust and handles, makes it and cleaning water carry out abundant contact and subsides, and then subsides, the clean gas after filtering through exhaust screen panel 6 circulation discharge.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. A multi-station polishing device for processing metal castings comprises a polishing box body (1), and is characterized in that a feeding port (3) is formed in the bottom end position of the front side of the polishing box body (1), and a station mechanism (4) is arranged in the bottom end position of the inner side of the polishing box body (1);

a driving mechanism (10) is arranged at the middle position of the inner side of the polishing box body (1), and a polishing mechanism (11) is fixed at the telescopic end of a Z-axis pneumatic rod (107) in the driving mechanism (10);

the dust recycling device is characterized in that a fan cover (2) is arranged in the middle of the upper portion of the polishing box body (1), a dust recycling mechanism is arranged at the bottom end of the polishing box body (1), and an air inlet fan (9) is arranged on the inner side of the fan cover (2).

2. The multi-station polishing device for metal casting machining according to claim 1, wherein the station mechanism (4) comprises a station frame (41), guide slide rods (42) are symmetrically fixed on the inner side of the station frame (41), a guide slide sleeve (43) is sleeved on the outer side of each guide slide rod (42), a polishing platform (44) is fixed at the top end of each guide slide sleeve (43), polishing stations (45) are symmetrically arranged on the end face of each polishing platform (44), a locking support (46) is arranged at the top end of each polishing platform (44) in a manner of penetrating through a feeding port (3), two groups of telescopic pull rods (49) are symmetrically arranged on the inner side of each locking support (46), a push-pull handle (47) is embedded and clamped in the middle position of the front side of each locking support (46), and the push-pull handle (47) is connected with the telescopic pull rods (49) through a transmission connecting rod (48), the outer side of the telescopic pull rod (49) is sleeved with a compression spring (410), and the top end of the telescopic pull rod (49) is provided with a locking buckle (411).

3. The multi-station grinding device for metal casting machining is characterized in that two groups of guide clamping seats matched with telescopic pull rods (49) are symmetrically arranged on the inner side of the locking support (46), and the telescopic pull rods (49) are elastically clamped with the guide clamping seats through compression springs (410).

4. The multi-station grinding device for metal casting machining is characterized in that locking clamping grooves (19) are symmetrically formed in the inner wall of the feeding port (3), and the locking clamping grooves (19) and the locking buckles (411) are located on the same horizontal plane.

5. The multi-station grinding device for machining the metal castings according to claim 1, wherein the driving mechanism (10) comprises a driving support (101), Y-axis guide rods (103) are symmetrically arranged at positions, located at two ends, of the inner side of the driving support (101), a Y-axis pneumatic rod (102) is fixed to the middle of the rear side of the driving support (101), a Y-axis sliding frame (104) is sleeved on the outer side of the Y-axis guide rod (103), an X-axis pneumatic rod (108) is fixed to one end position above the Y-axis sliding frame (104), an X-axis guide sliding groove (105) is formed in the middle position of the end face of the Y-axis sliding frame (104), an X-axis sliding base (106) is clamped to the inner side of the X-axis guide sliding groove (105) in a penetrating mode, and a Z-axis pneumatic rod (107) is fixed to the end face of the X-axis sliding base (106) in a penetrating mode.

6. The multi-station grinding device for metal casting machining according to claim 5, wherein the telescopic end of the Y-axis pneumatic rod (102) is fixedly connected with the Y-axis sliding frame (104), and the telescopic end of the X-axis pneumatic rod (108) is fixedly connected with the X-axis sliding frame (106).

7. The multi-station grinding device for metal casting machining according to claim 1, characterized in that the grinding mechanism (11) comprises a transverse support (111), a transverse support rod (115) is rotatably connected to the inner side of the transverse support (111) at the bottom end position, a transverse motor (113) is fixed to one side of the transverse support (111) at the top end position, a transverse transmission gear (112) is arranged at the output end of the transverse motor (113) through the end face of the transverse support (111), a transverse synchronizing gear (114) is arranged at one end of the transverse support rod (115), a longitudinal support rod (116) is arranged in the middle of the transverse support rod (115), a longitudinal support (1110) is rotatably connected to the top end of the longitudinal support rod (116), a longitudinal motor (119) is arranged at the top end position of one side of the longitudinal support (1110), the output end of the longitudinal motor (119) penetrates through the end face of the longitudinal support (1110) and is provided with a longitudinal transmission gear (118), one end of the longitudinal support rod (116) is provided with a longitudinal synchronous gear (117), and the bottom end of the longitudinal support (1110) is provided with a polishing head (1111).

8. The multi-station grinding device for metal casting machining according to claim 7, characterized in that the teeth of the transverse transmission gear (112) are in meshed connection with the teeth of the transverse synchronizing gear (114), and the teeth of the longitudinal transmission gear (118) are in meshed connection with the teeth of the longitudinal synchronizing gear (117).

9. The multi-station grinding device for metal casting machining according to claim 1, wherein the dust recovery mechanism comprises a dust recovery box body (5) connected to the bottom end of the grinding box body (1), one side of the dust recovery box body (5) is connected with a water inlet valve (7) at the top end, one side of the dust recovery box body (5) is connected with a water outlet valve (8) at the bottom end, a guide cover (12) is arranged at the port position of the dust recovery box body (5), exhaust mesh covers (6) are symmetrically arranged at the corner positions of the top end at the two sides of the dust recovery box body (5), two groups of guide plate frames (14) are symmetrically arranged at the exhaust ports of the guide cover (12), dust filter screens (13) are symmetrically arranged at the inner sides of the guide plate frames (14), and partition plates (15) are arranged at the bottom ends of the dust filter screens (13), the inner side of the dust recovery box body (5) is positioned at the bottom end and is rotatably connected with a spiral conveying auger (17), and the middle position of the bottom end of the dust recovery box body (5) is connected with a discharge valve (16).

10. The multi-station grinding device for metal casting machining is characterized in that the guide plate frame (14) is of a U-shaped structure, the number of U pipes of the guide plate frame (14) is not less than two, a transmission motor (18) is arranged at the end face, penetrating through the dust recovery box body (5), of the input end of the spiral conveying auger (17), the spiral conveying auger (17) is bounded by a central line, and a forward blade and a backward blade which are symmetrically arranged with each other are respectively arranged on the two sides of the central line.

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