CN217619907U - Transfer equipment for coating film on drill point - Google Patents

Abstract

The utility model discloses a drilling point is transfer equipment for coating film processing relates to drilling point processing technology field. Including slip table and the guide rail board of setting on the slip table left, slidable mounting has the slider on the lateral wall of guide rail board, the inside of slider is provided with places the subassembly, the inside of slider is provided with driven subassembly, it includes splint to place the subassembly, splint run through the top of slider and with slider sliding connection. Through the subassembly of placing that sets up, when the slider removed the position to the guide rail board rightmost side along the guide rail board, the ejector pin can support and promote slide rebound on the slide, the slide passes through two-way telescopic link and dead lever control horizontal pole downstream, make the kelly remove spacing to splint, the charging tray is cliied under the splint, avoid discharging the charging tray at the in-process that removes because of inertia takes place the skew, cause the drill point can not be accurate place under on the charging tray, and the speed that need not reduce the slider simultaneously, the efficiency is improved.

Description

Transfer equipment for coating film on drill point

Technical Field

The utility model relates to a drill point processing technology field specifically is a transfer equipment is used in drill point coating film processing.

Background

Generally, when grinding or inspecting drill bits, a plurality of drill bits are first placed in a magazine, and then the magazine is placed in a packing box and transported to the next workstation through the packing box, so that the plurality of drill bits can be ground and inspected at the workstation in batch. When the packaging box is conveyed to a workstation for operation, an upper material flow process is firstly carried out, namely the cutter box is taken out from the packaging box and placed on a cutter disc, and then the drill point in the cutter box is processed.

Through retrieval, chinese patent publication No. CN209615164U discloses a feeding and discharging mechanism for machining drill points, which comprises a base, a material tray moving mechanism, a mounting seat, a feeding mechanism and a discharging mechanism, wherein a drill point seat is arranged at one end of the base close to the material tray moving mechanism, a fixing plate is fixed at one end of the material tray moving mechanism, a lifting cylinder is fixed on a first sliding table, the mounting seat is mounted on the lifting cylinder, and a rotating cylinder is mounted on the mounting seat. The utility model discloses in revolving cylinder drive unloading mechanism to drill point seat department, the second air clamp drives two second fixed blocks and draws the drill point that processing was accomplished, make revolving cylinder cooperation lateral shifting mechanism place the drill point that processing was accomplished on charging tray down, after stacking one row of drill point on the charging tray down, the second motor drives down the charging tray and removes, cooperation unloading mechanism and lateral shifting mechanism place the drill point one-line under on the charging tray, and the work efficiency is improved, the labour has been reduced.

When the device is used, after a row of drill pins are stacked on the blanking plate, the second motor acts to drive the blanking plate on the second sliding table to move, so that the blanking plate is matched with the blanking mechanism and the transverse moving mechanism to place the drill pins on the blanking plate in a row, and the steps that the drill pins are easily stacked and need to be manually stacked in the past are reduced. However, when the second sliding table drives the blanking disc to move, if the speed of the second sliding table is too high, the blanking disc may deviate due to the inertia action position, so that the drill point cannot be accurately placed on the blanking disc, and if the speed is slow, the processing efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To the deficiency of the prior art, the utility model provides a drill point is transfer equipment for coating film processing has solved the problem that proposes in the above-mentioned background art.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a drill point is transfer equipment for coating film machining, includes the slip table and sets up at the left guide rail board of slip table, slidable mounting has the slider on the lateral wall of guide rail board, the inside of slider is provided with places the subassembly, the inside of slider is provided with driven subassembly, it includes splint to place the subassembly, splint run through the top of slider and with slider sliding connection, one side that the slider center was kept away from to splint is fixed with spring A's one end, spring A's the other end is fixed on the inner wall of slider.

Preferably, the placing assembly further comprises a cross rod, the cross rod is slidably mounted on the inner wall of the sliding block, the bottom of the cross rod is fixed to one end of the spring B, the other end of the spring B is fixed to the inner wall of the sliding block, and the top of the cross rod is fixed to the bottom of the clamping rod.

Preferably, the driven subassembly includes the driven plate, the right side of driven plate is fixed with telescopic link A's one end, telescopic link A's the other end is fixed with the left side of slider, the right side of driven plate is articulated with the one end of branch, the other end of branch runs through the slider and articulates with splint.

Preferably, the driven component further comprises a telescopic rod B, one end of the telescopic rod B is fixed on the inner wall of the sliding block, the other end of the telescopic rod B is fixed at the bottom of the sliding plate, the sliding plate is slidably mounted on the inner wall of the sliding block, the two sides of the sliding plate are hinged to one end of the bidirectional telescopic rod, the middle position of the bidirectional telescopic rod is hinged to the inner wall of the sliding block, the other end of the bidirectional telescopic rod is hinged to the fixing rod, and the top of the fixing rod is fixed at the bottom of the cross rod.

Preferably, the clamping groove is formed in the bottom of the clamping plate, the sliding groove is formed in the top of the sliding block, and through holes are formed in the left side and the bottom of the sliding block.

Preferably, a resisting plate is fixed at the top of the guide rail plate, the guide rail plate is penetrated by a mandril and is in sliding connection with the mandril, the mandril is fixed with one end of a spring C, and the other end of the spring C is fixed on the inner wall of the guide rail plate.

(III) advantageous effects

The utility model provides a transfer equipment is used in drill point coating film processing. The method has the following beneficial effects:

(1) This drill point is transfer equipment for coating film processing, place the subassembly through setting up, when the slider removed to the position on guide rail board rightmost side along the guide rail board, the ejector pin can support and promote slide rebound on the slide, the slide passes through two-way telescopic link and dead lever control horizontal pole downstream, make the kelly remove spacing to splint, the charging tray is cliied under the splint, avoid down the charging tray take place the skew because of inertia at the in-process that removes, cause the drill point can not be accurate place under on the charging tray, and the speed that need not reduce the slider simultaneously, the efficiency is improved.

(2) This drill point is transfer equipment for coating film processing through the driven subassembly that sets up, when the slider removed to the guide rail board leftmost along the guide rail board, the drill point on the unloading dish has placed completely and has finished, supports the board and can support on the driven plate, and the charging tray under the control splint pine, staff can easily take off unloading dish convenient to use.

Drawings

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

FIG. 2 is a schematic structural view of the slider of the present invention in a side view;

FIG. 3 is a schematic structural view of the slider of the present invention viewed from above;

FIG. 4 is a schematic view of the connecting structure of the guide rail plate and the post rod of the present invention;

FIG. 5 is a schematic view of the slider structure of the present invention;

fig. 6 is a schematic diagram of the through hole structure at the bottom of the slider.

In the figure: 1. a sliding table; 2. a guide rail plate; 3. placing the component; 31. a splint; 32. a cross bar; 33. a clamping rod; 4. a driven assembly; 41. a driven plate; 42. a telescopic rod A; 43. a strut; 44. a telescopic rod B; 45. a slide plate; 46. a bidirectional telescopic rod; 47. a fixing rod; 5. a slider; 6. a resisting plate; 7. and a push rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a drill point is transfer equipment for coating film processing, including slip table 1 and the guide rail board 2 of setting in slip table 1 left, slidable mounting has slider 5 on the lateral wall of guide rail board 2, slider 5's inside is provided with places subassembly 3, slider 5's inside is provided with driven subassembly 4, it includes splint 31 to place subassembly 3, splint 31 run through slider 5's top and with slider 5 sliding connection, one side that slider 5 center was kept away from to splint 31 is fixed with spring A's one end, spring A's the other end is fixed on slider 5's inner wall, horizontal pole 32 slidable mounting is on slider 5's inner wall, the bottom of horizontal pole 32 is fixed with spring B's one end, spring B's the other end is fixed on slider 5's inner wall, the top of horizontal pole 32 is fixed with the bottom of kelly 33, the draw-in groove has been seted up to splint 31's bottom, realize spacing or remove spacing to splint 31 through cooperation kelly 33, the arc scarf has been seted up at the top of kelly 33, when splint 31 moves to the both sides of slider 5 and resets, splint 31 can support and promote the kelly 33 and push up the kelly 33 downstream on the arc scarf at the kelly top, can insert the bottom of draw-in the kelly 31, the normal splint 31 of the position of splint 31, the splint 31 that moves when splint 31, the clamp bar that moves.

In this embodiment, the driven assembly 4 includes a driven plate 41, a right side of the driven plate 41 is fixed to one end of a telescopic rod a42, the other end of the telescopic rod a42 is fixed to a left side of the slider 5, a right side of the driven plate 41 is hinged to one end of a supporting rod 43, the other end of the supporting rod 43 penetrates through the slider 5 and is hinged to the clamping plate 31, one end of a telescopic rod B44 is fixed to an inner wall of the slider 5, the other end of the telescopic rod B44 is fixed to a bottom of the sliding plate 45, the sliding plate 45 is slidably mounted on an inner wall of the slider 5, two sides of the sliding plate 45 are hinged to one end of a bidirectional telescopic rod 46, a middle position of the bidirectional telescopic rod 46 is hinged to an inner wall of the slider 5, the other end of the bidirectional telescopic rod 46 is hinged to a fixing rod 47, and a top of the fixing rod 47 is fixed to a bottom of the cross rod 32.

In this embodiment, the spout has been seted up at the top of slider 5, and the through-hole has all been seted up to the left side and the bottom of slider 5, and the left through-hole of slider 5 can supply branch 43 normal removal, and the through-hole of slider 5 bottom can supply ejector pin 7 to insert.

In this embodiment, a resisting plate 6 is fixed at the top of the guide rail plate 2, the guide rail plate 2 is penetrated by a top rod 7 and is slidably connected with the top rod 7, the top rod 7 is fixed with one end of a spring C, and the other end of the spring C is fixed on the inner wall of the guide rail plate 2, when the slider 5 moves leftwards along the guide rail plate 2, the resisting plate 6 can resist the driven plate 41 to push the driven plate 41 to move rightwards, the driven plate 41 can push the clamping plate 31 to move towards two sides of the slider 5 through a supporting rod 43 to release the discharging disc, a worker can take the discharging disc filled with drill pins down, when the slider 5 moves rightwards along the guide rail plate 2, the slider 5 can resist the top rod 7 to push the top rod 7 to retract into the guide rail plate 2, and when a through hole at the bottom of the slider 5 moves to the position of the top rod 7, the top rod 7 moves upwards to extend into the inside of the slider 5 to resist the sliding plate 45 to push the sliding plate 45 to move upwards for a certain distance under the action of the spring C.

When the automatic feeding device works (or is used), when the sliding block 5 drives the feeding disc to move rightwards along the guide rail plate 2, the sliding block 5 can prop against the ejector rod 7 to push the ejector rod 7 to retract into the guide rail plate 2, and when the through hole at the bottom of the sliding block 5 moves to the position of the ejector rod 7, under the action of the spring C, the ejector rod 7 moves upwards to extend into the sliding block 5 to prop against the sliding plate 45 to push the sliding plate 45 to move upwards for a certain distance.

The sliding plate 45 pulls the fixing rod 47 to move downwards through the bidirectional telescopic rod 46, the fixing rod 47 pulls the cross rod 32 to move downwards, the cross rod 32 drives the clamping rod 33 to move downwards, the clamping rod 33 is withdrawn from the clamping groove in the bottom of the clamping plate 31, the limiting of the clamping plate 31 is relieved, and the clamping plate 31 moves towards the center of the sliding block 5 under the action of the spring A to clamp the blanking disc.

With the machine continuously putting drill needles into the blanking disc, the sliding block 5 drives the blanking disc to move leftwards along the guide rail plate 2, when the sliding block 5 moves to the position of the abutting plate 6, the abutting plate 6 can abut against the driven plate 41 to push the driven plate 41 to move rightwards, the driven plate 41 can push the clamping plates 31 to move towards the two sides of the sliding block 5 through the supporting rods 43, the blanking disc is loosened, a worker can take the blanking disc filled with the drill needles down, and a new blanking disc is placed on the top of the sliding block 5.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a drill point is transfer equipment for coating film processing, includes slip table (1) and sets up at slip table (1) left guide rail board (2), slidable mounting has slider (5), its characterized in that on the lateral wall of guide rail board (2): the inside of slider (5) is provided with places subassembly (3), the inside of slider (5) is provided with driven subassembly (4), it includes splint (31) to place subassembly (3), splint (31) run through the top of slider (5) and with slider (5) sliding connection, it is fixed with spring A's one end that slider (5) center was kept away from in splint (31), spring A's the other end is fixed on the inner wall of slider (5).

2. The transfer apparatus for coating processing of drill point according to claim 1, characterized in that: place subassembly (3) still including horizontal pole (32), horizontal pole (32) slidable mounting is on the inner wall of slider (5), the bottom of horizontal pole (32) is fixed with spring B's one end, spring B's the other end is fixed on the inner wall of slider (5), the top of horizontal pole (32) is fixed with the bottom of kelly (33).

3. The transfer apparatus for coating processing of drill bit according to claim 2, wherein: driven subassembly (4) are including driven plate (41), the right side of driven plate (41) is fixed with the one end of telescopic link A (42), the other end of telescopic link A (42) is fixed with the left side of slider (5), the right side of driven plate (41) is articulated with the one end of branch (43), the other end of branch (43) runs through slider (5) and is articulated with splint (31).

4. The transfer apparatus for coating processing of drill bit according to claim 3, wherein: driven subassembly (4) are still including telescopic link B (44), the one end of telescopic link B (44) is fixed on the inner wall of slider (5), the bottom in slide (45) is fixed to the other end of telescopic link B (44), slide (45) slidable mounting is on the inner wall of slider (5), the both sides of slide (45) are articulated with the one end of two-way telescopic link (46), the intermediate position of two-way telescopic link (46) is articulated with the inner wall of slider (5), the other end and the dead lever (47) of two-way telescopic link (46) are articulated, the bottom at horizontal pole (32) is fixed at the top of dead lever (47).

5. The transfer apparatus for coating processing of drill point according to claim 1, characterized in that: the clamping groove is formed in the bottom of the clamping plate (31), the sliding groove is formed in the top of the sliding block (5), and through holes are formed in the left side and the bottom of the sliding block (5).

6. The transfer apparatus for coating processing of drill point according to claim 1, characterized in that: the top of the guide rail plate (2) is fixed with a resisting plate (6), the guide rail plate (2) is penetrated by an ejector rod (7) and is in sliding connection with the ejector rod (7), the ejector rod (7) is fixed with one end of a spring C, and the other end of the spring C is fixed on the inner wall of the guide rail plate (2).

Images