CN104772382A - Casting mold air hole tapping method and device by means of gas needle board - Google Patents

Abstract

The invention provides a casting mold air hole tapping method and device by means of a gas needle board, and the gas needle board can be replaced easily in a short time. An input/output roller conveyor (2) is installed on the lower surface of an elevated working platform (1) of a clamping mechanism (8) provided with the gas needle board (5), and feeding and taking-out roller conveyors (12, 13) are arranged on one end or two ends of the input/output roller conveyor (2). The clamping mechanism (8) is released, the gas needle board (5) installed on the elevated working platform is output from the input/output roller conveyor (2) to the feeding and taking-out roller conveyor (13), a next gas needle board (14) is input from the feeding and taking-out roller conveyor (12) to the input/output roller conveyor (2), and the next gas needle board (14) is installed on the lower surface of the elevated working platform by means of the clamping mechanism (8). The gas needle board (14) goes down along with the elevated working platform and drills a casting mold (22).

Description

The board-like pore of air tube of casting mold offers method and device

Technical field

The present invention relates to and use air tube plate (gas needle board) to carry out method that pore offers and device to casting mold, more specifically, relate to, at one-sided or bilateral, there is spare space, and the board-like pore of air tube can changing air tube plate in automatic or manual mode offers method and device thereof.

Background technology

As described in patent document 1, which, casting mold is offered to the device of pore in the past known automaticly.This device described in patent document 1 is following structure: in the mode of bolted, the air tube plate possessing multiple air tube is fixed on self-powered platform, and utilizes cylinder body that described self-powered platform is elevated, carry out perforate thus to casting mold.Said structure does not have problems when the pattern (pattern) of pore is fixing.

But, in recent Casting Equipment, there is following trend, such as, if cylinder block (cylinder block), the structure loading two in a casting mold is become the structure of loading 4 in a casting mold, the density of the mold arrangement in a casting mold is uprised, thus realizes the raising of productivity ratio.

In recent years be adapted in the general Casting Equipment that multi items produces on a small quantity, in order to tackle the different pore configuration for each casting mold, following methods and device become main flow: be stored in the aperture pattern of each casting mold in the robot of the air tube holding one or about two, carry out perforate thus.But when utilizing the air tube of one or about two to carry out perforate for each casting mold, within the limited time, the number of perforate is restricted.Therefore, the quantity producing the mould be configured in a casting mold is subject to the situation of several quantitative limitations of the pore that can offer.

On the other hand, according to the air tube plate mode possessing multiple air tube, by making multiple air tube physically close as much as possible on air tube plate, more air tube can be configured.Therefore, for utilize in the past, the air tube plate that is vertically configured with multiple air tube on a flat board to carry out method and the device of perforate to casting mold, need to rethink.

The shortcoming that the board-like pore of air tube offers method and device is, needs for each casting mold prepares air tube plate, and, produce with multi items the pattern frequently carried out on a small quantity and change correspondingly, also need to change air tube plate.In the device of above-mentioned patent document 1, owing to being the structure in the mode of bolted, the air tube plate possessing multiple air tube being fixed on self-powered platform, therefore, there are the following problems: when the pattern for carrying out pore changes, easily cannot carry out the replacing operation of air tube plate.

Patent document 1: Japanese Patent Publication 48-40530 publication

Summary of the invention

Therefore, the object of the present invention is to provide the board-like pore of the air tube of casting mold to offer method and device, (enter circulation (incyle)=in device operation process=) replacing of air tube plate can be carried out continually easily at short notice.

The board-like pore of air tube of casting mold of the present invention is offered method and is completed to solve above-mentioned problem, it is characterized in that, input and output roller path is installed on the lower surface of self-powered platform, described self-powered platform possesses the clamp system of air tube plate, supply taking-up roller path is arranged at one end or the two ends of above-mentioned input and output roller path, above-mentioned clamp system is discharged, the air tube plate being installed on self-powered platform is exported from input and output roller path to supply taking-up roller path, in addition, next air tube plate is inputted from supply taking-up roller path to input and output roller path, then, utilize above-mentioned clamp system that next air tube plate is installed on self-powered platform lower surface, on this basis, this air tube plate is declined together with self-powered platform, pore is offered to casting mold.

In addition, the board-like pore of air tube of casting mold of the present invention is offered device and is completed to solve above-mentioned problem, and it is characterized in that possessing: self-powered platform, it possesses the clamp system of air tube plate; Input and output roller path, it is installed on the lower surface of above-mentioned self-powered platform; And supply taking-up roller path, it is arranged at one end or the two ends of above-mentioned input and output roller path, the air tube plate being installed on self-powered platform takes out from input and output roller path by this supply taking-up roller path, in addition, next air tube plate supplies to input and output roller path by this supply taking-up roller path.

In addition, input and output roller path and supply taking-up roller path can be become by the free roll-type conveying mechanism without drive source, or can be become by the driving roll-type conveying mechanism with drive source.

According to the present invention, the clamp system of self-powered platform can be discharged, the air tube plate being installed on self-powered platform is exported from input and output roller path to supply taking-up roller path, in addition, next air tube plate can be inputted from supply taking-up roller path to input and output roller path, and this air tube plate is installed on the lower surface of self-powered platform, therefore, it is possible to easily within the short time (entering circulation), carry out the replacing of air tube plate continually.Therefore, and based on different for the method for robot of the air tube holding one or about two, restriction can not be caused because pore offers the time to the number of openings.

Accompanying drawing explanation

Fig. 1 is the top view that the first embodiment is shown.

Fig. 2 is the sectional view cut open along the A-A line in Fig. 1.

Fig. 3 is the sectional view cut open along the B-B line in Fig. 1.

Fig. 4 is the sectional view cut open along the C-C line in Fig. 1.

Fig. 5 is the three-view diagram that air tube plate is shown.

Fig. 6 be illustrate automatic fixture open after the front sectional view of major part of state.

Fig. 7 be illustrate automatic fixture close after the front sectional view of major part of state.

Fig. 8 is that the variation of the first embodiment is shown, identical with Fig. 2 sectional view.

Fig. 9 is the top view that the second embodiment is shown.

Figure 10 is the sectional view cut open along the D-D line in Fig. 9.

Figure 11 is the sectional view cut open along the E-E line in Fig. 9.

Figure 12 is the sectional view cut open along the F-F line in Fig. 9.

Figure 13 is the three-view diagram that air tube plate is shown.

Figure 14 is the key diagram of the state after being opened by manual, and Figure 14 (a) is front sectional view, and Figure 14 (b) is side view cutaway drawing, and Figure 14 (c) is the side view cutaway drawing that the state after being positioned over free roll is shown.

Figure 15 is the key diagram of the state after being closed by manual, and Figure 15 (a) is front sectional view, and Figure 15 (b) is side view cutaway drawing, and Figure 15 (c) is the side view cutaway drawing that the state after rising from free roll is shown.

Figure 16 is the key diagram of the state after alignment pin is opened, and Figure 16 (a) is front sectional view, and Figure 16 (b) is side view cutaway drawing.

Figure 17 is the key diagram of the state after alignment pin cuts out, and Figure 17 (a) is front sectional view, and Figure 17 (b) is side view cutaway drawing.

Figure 18 is that the variation of the second embodiment is shown, identical with Figure 10 sectional view.

Description of reference numerals:

1 ... self-powered platform; 2 ... input and output roller path; 3 ... air tube; 4 ... most advanced and sophisticated; 5 ... air tube plate; 6 ... lift head; 7 ... cylinder body; 8 ... clamp system; 12 ... supply taking-up roller path; 13 ... supply taking-up roller path; 14 ... air tube plate; 15 ... jackshaft; 16 ... roller chain; 17 ... gear motor; 18 ... gear motor; 19 ... gear motor; 20 ... pawl; 21 ... notch; 22 ... casting mold; 23 ... metal frame; 24 ... roller path; 25 ... positioner; 26 ... cylinder body; 27 ... flanged roller; 35 ... jackshaft; 36 ... roller chain; 50 ... frame structure; 51 ... plumb post; 52 ... roof crossrail; 101 ... self-powered platform; 102 ... input and output roller path; 103 ... air tube; 104 ... most advanced and sophisticated; 105 ... air tube plate; 106 ... lift head; 108 ... clamp system; 112 ... supply taking-up roller path; 113 ... supply taking-up roller path; 114 ... air tube plate; 120 ... alignment pin; 121 ... hole; 122 ... casting mold; 123 ... metal frame; 124 ... roller path; 125 ... positioner; 126 ... cylinder body; 127 ... not flanged roller; 128 ... side roller; 131 ... handle; 132 ... bar; 133 ... dull and stereotyped; 135 ... end.

Detailed description of the invention

(the first embodiment)

Fig. 1 ~ Fig. 8 is the accompanying drawing that the first embodiment of the present invention is shown.First embodiment uses to drive the pore of roller path and automatic clamping mechanism to offer device.

In Fig. 1 ~ Fig. 3,50 is the frame structures be made up of 4 plumb posts 51 and roof crossrail 52.Be provided with self-powered platform 1 in the downside of roof crossrail 52, this self-powered platform 1 can be elevated by actuators 26 such as the cylinder bodies being arranged at roof crossrail 52.Be provided with input and output roller path 2 at the lower surface of this self-powered platform 1, this input and output roller path 2 air feed needle plate 5 loads and carries this air tube plate 5.Air tube plate 5 is for offering pore to casting mold.

As shown in Figure 2, Figure 4 shows, input and output roller path 2 possesses multipair flanged roller 27 arranged opposite.Utilize gear motor 17 and via jackshaft 15 and roller chain (roller chain) 16, these flanged rollers 27 above-mentioned rotated towards positive and negative both direction.As shown in Figure 5, air tube plate 5 is structures air tube 3 being configured at dull and stereotyped lower surface in tip 4 mode down of air tube 3.As shown in Figure 4, the edges at two ends of flat board is supported on flanged roller 27 of input and output roller path 2, thus left and right directions is in fig. 2 carried air tube plate 5.

The clamp system 8 shown in Fig. 6 is provided with at self-powered platform 1.In the present embodiment, clamp system 8 is automatic clamping mechanism, and possesses: lift head 6, and it is arranged to there is gap between the upper surface of air tube plate 5 on input and output roller path 2; And cylinder body 7, it is configured at the upper surface of self-powered platform 1.Clamp system 8 also possesses the pawl 20 of the lifting by cylinder body 7.The bar of cylinder body 7 extends to than lift head 6 and air tube plate 5 position on the lower, and pawl 20 is positioned at the below of air tube plate 5.For the pawl 20 of the lifting by cylinder body 7, cylinder body 7 is utilized to make it increase, thus, automatically make air tube plate 5 increase while be positioned to by air tube plate 5 touch with the lower surface of lift head 6, thus air tube plate 5 is fixed on lift head 6.For the location of lift head 6 and air tube plate 5, the end had by clamp system 8 is that the pawl 20 of wedge shape and the notch 21 of the shape embedded for pawl 20 that is arranged at air tube plate 5 side carry out.Notch 21 is the otch formed at the periphery of air tube plate 5.The rod of cylinder body 7 becomes the thickness not occurring with the periphery of air tube plate 5 to disturb.Pawl 20 than this bar more vigor needle plate 5 stretch out and be embedded into notch 21.Like this, utilize clamp system 8 that the air tube plate 5 on input and output roller path 2 is fixed on self-powered platform 1, in addition, if discharged by clamp system 8, then air tube plate 5 turns back on input and output roller path 2.

As shown in Figure 2, supply taking-up roller path 12,13 is provided with at the two ends of input and output roller path 2.As shown in the variation of Fig. 8, supply taking-up roller path 12 also only can be set in one end of input and output roller path 2.Utilize gear motor 18,19 and via jackshaft 35, roller chain 36 and supply taking-up roller path 12,13 can be made to carry out rotating forward or reversing.When being provided with supply taking-up roller path 12,13 as shown in Figure 2, a wherein side can be used for the taking-up of air tube plate 5, and the opposing party is used for the supply of the air tube plate 14 next used, when being only configured with supply taking-up roller path 12 as shown in Figure 8, be used for taking-up and the supply of air tube plate.In addition, as shown in Figure 2, be set to by the height of the conveyor surface of supply taking-up roller path 12,13 in advance, the height of the conveyor surface of the input and output roller path 2 after rising with making self-powered platform 1 is identical.

As shown in Fig. 1 and Fig. 4, with on supply taking-up roller path 12,13 orthogonal directions, be configured with the roller path 24 for carrying casting mold 22.Casting mold 22 such as in metal frame 23 by moulding, and on roller path 24, be transported to the below of self-powered platform 1.In the present embodiment, the input and output roller path 2 of air tube plate 5 and supply taking-up roller path 12,13 are configured at and the direction for carrying the roller path 24 of casting mold 22 at a right angle, but also they can be configured to parallel.

Next, the action of said apparatus is described.

When offering pore, clamp system 8 cutting out, thus, for the air tube plate 5 on self-powered platform 1, being mounted to the state of the lower surface contiguity of lift head 6.For locating and being fixed on the air tube plate 5 after self-powered platform 1, the actuators such as cylinder body 26 are utilized to make it decline, thereby, it is possible to offer pore from top to casting mold 22.Following state has been shown in Fig. 3 and Fig. 7: clamp system 8 cuts out, air tube plate 5 and lift head 6 lower surface touch and can carry out offering of gas.In addition, after positioning utilizing positioner 25 pairs of metal frames 23 and fixing, offering of pore is carried out.

When air tube plate 5 is changed, as shown in Figure 6, under the state after making self-powered platform 1 increase, pawl 20 is declined, clamp system 8 is opened, air tube plate 5 is placed on input and output roller path 2.In this case, between the upper surface of air tube plate 5 and the lower surface of lift head 6, there is gap, be formed as the state that input and output roller path 2 pairs of air tube plates 5 can be utilized to carry.In this case, by making input and output roller path 2 and supply taking-up roller path 13 carry out action, air tube plate 5 can be outputted to supply taking-up roller path 13 from input and output roller path 2.

The air tube plate 14 of following use is on supply taking-up roller path 12.This air tube plate 14 is inputted to input and output roller path 2, clamp system 8 cuts out, pawl 20 is embedded into be arranged at the notch 21 of air tube plate 14 side, carry out the location of air tube plate 14 and fixing thus.In this case, pore can be offered to next casting mold 22.

While utilizing air tube plate 14 to carry out perforate, not shown elevator (hoist), chain block (chain block) etc. can be utilized to be exported outside device by air tube plate 5, and the air tube plate next used can be placed on supply taking-up roller path 12 or 13.Thus, the pore of the first embodiment is applicable to not produce the foundry goods not with pore, the leachy foundry goods of continuous production tool, and the occasion entering circulation time and need to change air tube plate 5.

As shown in Figure 8, when being only provided with supply taking-up roller path 12, clamp system 8 being opened, air tube plate 5 is placed on input and output roller path 2, air tube plate 5 is taken out to supply taking-up roller path 12.In this case, utilize not shown elevator, chain block etc. to be exported outside device by air tube plate 5, the air tube plate 14 next used is placed on supply taking-up roller path 12.Make input and output roller path 2, supply taking-up roller path 12 carries out action towards the direction contrary with outbound course, thus air tube plate 14 is inputted with on roller path 2 towards input and output, then, clamp system 8 cuts out, carry out offering of pore.

In this case, need to change operation based on manually operated air tube plate.Thus, the gas punching machine based on the variation of the first embodiment being applicable to occasion of alternately producing the leachy foundry goods of tool and the foundry goods not with pore etc., entering the occasion of circulation time without the need to changing air tube plate.

(the second embodiment)

Fig. 9 ~ Figure 18 is the accompanying drawing that the second embodiment of the present invention is shown.The basic structure of the second embodiment communicates with the basic structure of the first embodiment, waits identical with above-mentioned first embodiment in the following areas: have the self-powered platform 101 be elevated by the actuators such as cylinder body 126; At the lower surface of self-powered platform 101, input and output roller path 102 is installed; For the air tube plate 105 being configured with this air tube 103 in tip 104 mode down of air tube 103, can carry being placed under the state on input and output roller path 102; And to be provided with supply taking-up roller path 112,113 in a position, place of one end of input and output roller path 102 or two positions, place at two ends, thus the output of the air tube plate 105 being installed on self-powered platform 101 can be carried out and be next installed on the input of air tube plate 114 of self-powered platform 101.

But the second embodiment is different from the first embodiment, input and output roller path 102 and supply taking-up roller path 112,113 are become by the free roll-type conveying mechanism without drive source.In addition, input and output roller path 102 offside roller 128 and not flanged roller 127 combinationally use, and wherein, not flanged roller 127 supports air tube plate 5,14 from below, and side roller 128 guides from side to air tube plate 5,14.For making it the air tube plate 105 carrying out action in a manual manner, not flanged roller 127 and side roller 128 is utilized they to be inputted swimmingly or export the position of regulation to.

In addition, in this second embodiment, different from the first embodiment, use manual clamp system 108.As shown in Figure 14, Figure 15, this manual clamp system 108 has following function, that is: relative to the lower surface being configured to the lift head 106 between the upper surface of air tube plate 105 with gap, make air tube plate 105 increase while be fixed this air tube plate 105, air tube plate 105 is touched with the lower surface of lift head 106.Specifically, the handle 131 be configured on self-powered platform 101 is operated, clamp system 108 cuts out, thus, the bar 132 (stem) of the below extending to air tube plate 105 is made to increase, thus the flat board 133 be connected with the lower end of bar 132 to support air tube plate 105 from lower surface and makes this air tube plate 105 increase.Thus, air tube plate 105 is fixed on the lower surface of lift head 106 in the mode of contiguity.In addition, if operate handle 131 and opened by clamp system 108, then bar 132 declines, and air tube plate 105 declines together with dull and stereotyped 133.Thus, air tube plate 105 by from lift head 106 tightlock status in discharge.In addition, clamp system 108 is configured near the outside of the periphery of the air tube plate 105 be close to lift head 106, and bar 132 can not disturb with the air tube plate 105 being transfused to output.In addition, in order to position air tube plate 105, be provided with the manual alignment pin 120 shown in Figure 16, Figure 17.Alignment pin 120 has the length that can arrive the air tube plate 105 being configured to have gap between lift head 106, decline by making alignment pin 120 in a manual fashion, air tube plate 105 by through for lift head 106 and be inserted into the hole 121 being formed at air tube plate 105, thus is fixed on the position of regulation by the end 135 of alignment pin 120.The end 135 of alignment pin 120 is formed as being embedded into the hole 121 being formed at air tube plate 105.If make alignment pin 120 rise, then end 135 is positioned at the upper surface position by the top than air tube plate 105, can not disturb with the air tube plate 105 being transfused to output.

Next, the action of the device of the second embodiment is described.

When offering pore, as shown in Figure 15 clamp system 108 cuts out, thus the air tube plate 105 on self-powered platform 101 is mounted to the state of touching with the lower surface of lift head 106.The three-view diagram of air tube plate 105 has been shown in Figure 13.

For the location of lift head 106 and air tube plate 105, the alignment pin 120 utilizing the mode being manually different from clamp system 108 to carry out being elevated and the hole 121 being arranged at air tube plate 105 side are carried out.Details are described above.Alignment pin 120, clamp system 108 are closed, utilizes actuator such as cylinder body 126 grade to make location and the air tube plate 105 being fixed on self-powered platform 101 declines, pore can be offered from top to casting mold 122 thus.

Casting mold 122 such as in metal frame 123 by moulding.Casting mold 122 is transported to the below of self-powered platform 101 by roller path 124, utilizes positioner 125 carry out the location of metal frame 123 and fix, then, carry out offering of pore.

When air tube plate 105 is changed, make alignment pin 120 increase, as shown in Figure 14 clamp system 108 is opened, air tube plate 105 is placed on input and output roller path 102.In this case, air tube plate 105 is exported to supply taking-up roller path 113 side from input and output with roller path 102 in a manual fashion.Next, in a manual fashion the air tube plate 114 next used is inputted from supply taking-up roller path 112 for subsequent use to input and output roller path 102.

In a manual fashion by air tube plate 114 from supply taking-up with roller path 112 to input and output roller path 102 side input after, as shown in figure 17, alignment pin 120 is made to decline and position, then, as shown in figure 15, Manual clamping mechanism 108 is closed, carries out the fixing of air tube plate 114.In this case, offering of pore can be carried out to next casting mold.

While the perforate based on air tube plate 114, not shown elevator, chain block etc. can be utilized to be exported outside device by air tube plate 105, and the air tube plate next used can be placed on supply taking-up roller path 112 or 113.Thus, the gas punching machine of the second embodiment is applicable to not produce the foundry goods not with pore, the leachy foundry goods of continuous production tool, and the occasion entering circulation time and need to change air tube plate 5.

When being only provided with supply taking-up roller path 112 as shown in Figure 18, clamp system 108 is opened, make alignment pin 120 increase, be placed on input and output roller path 102 by air tube plate 105 thus, operation is hereto identical with above-mentioned operation.In a manual fashion by air tube plate 105 from input and output with roller path 102 towards supply taking-up roller path 112 side export after, utilize not shown elevator, chain block etc. to be exported outside device by air tube plate 105, the air tube plate 114 next used is placed on supply taking-up roller path 112.Afterwards, can in a manual fashion the air tube plate 114 of supply taking-up roller path 112 be inputted to input and output roller path 102 side from supply taking-up roller path 112.The embodiment of Figure 18 changes operation based on manually operated air tube plate due to needs, therefore, it is possible to for the situation of alternately producing the leachy foundry goods of tool and the foundry goods not with pore etc., enter the occasion of circulation time without the need to changing air tube plate.

As described above, according to the present invention, the replacing of air tube plate easily can be carried out at short notice.Therefore, and based on different for the method for robot of the air tube holding one or about two, restriction can not be caused because pore offers the time to the number of openings.

Claims (4)

1. the board-like pore of the air tube of casting mold offers a method, it is characterized in that,

Input and output roller path is installed on the lower surface of self-powered platform, described self-powered platform possesses the clamp system of air tube plate, supply taking-up roller path is arranged at one end or the two ends of described input and output roller path,

Described clamp system is discharged, the air tube plate being installed on self-powered platform is exported from input and output roller path to supply taking-up roller path, in addition, next air tube plate is inputted from supply taking-up roller path to input and output roller path

Then, utilize described clamp system that next air tube plate is installed on self-powered platform lower surface,

On this basis, described next air tube plate is declined together with self-powered platform, pore is offered to casting mold.

2. the board-like pore of the air tube of casting mold offers a device, it is characterized in that possessing:

Self-powered platform, it possesses the clamp system of air tube plate;

Input and output roller path, it is installed on the lower surface of described self-powered platform; And

Supply taking-up roller path, it is arranged at one end or the two ends of described input and output roller path, the air tube plate being installed on self-powered platform takes out from input and output roller path by described supply taking-up roller path, in addition, next air tube plate supplies to input and output roller path by described supply taking-up roller path.

3. the board-like pore of the air tube of casting mold according to claim 2 offers device, it is characterized in that,

Input and output roller path and supply taking-up roller path are become by the free roll-type conveying mechanism without drive source.

4. the board-like pore of the air tube of casting mold according to claim 2 offers device, it is characterized in that,

Input and output roller path and supply taking-up roller path are become by the driving roll-type conveying mechanism with drive source.