CN105108074A - Catenary pouring jacket mould weight mechanism - Google Patents

Abstract

The invention discloses a catenary pouring jacket mould weight mechanism which comprises a chain wheel mechanism. The chain wheel mechanism is arranged horizontally and used for driving the catenary pouring jacket mould weight mechanism to operate in a circular mode. An I-beam guide rail which follows a chain is arranged below the chain wheel mechanism. A plurality of pouring jacket mould weight assemblies are hung on the I-beam guide rail through rollers and connected to the chain of the chain wheel mechanism through a driving arm. A mould conveying car is arranged below the pouring jacket mould weight assemblies. By means of the catenary pouring jacket mould weight mechanism, the labor intensity of workers is reduced, the production efficiency is improved, and occupational injury accidents are avoided.

Description

Stretched wire casing foundary weight mechanism

Technical field

The present invention relates to Casting Equipment field, be specifically related to the servicing unit of the casting equipment in a kind of machine moulding production line balance, particularly relate to a kind of stretched wire casing foundary weight mechanism.

Background technology

Be originally and by operator, the cast iron housing-case that 20Kg is heavy be enclosed within the sand mold be placed on annular mould carriage, and then the foundary weight that 20Kg is heavy is pressed on sand mold top.Such labor intensity is large, and easily industrial injury occurs.

Summary of the invention

The object of the invention is to the above problem overcoming prior art existence, a kind of stretched wire casing foundary weight mechanism is provided.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the present invention is achieved through the following technical solutions:

A kind of stretched wire casing foundary weight mechanism, comprise and being horizontally disposed with, for driving the chain-wheel mechanism of described stretched wire casing foundary weight mechanism circular flow, the I-steel guide rail of following chain is provided with below described chain-wheel mechanism, on described I-steel guide rail, suspention has many group casing foundary weight parts, described casing foundary weight parts are suspended on I-steel guide rail by roller, and be connected on the chain of described chain-wheel mechanism by actuating arm, be provided with mould carriage below described casing foundary weight parts.

Further, described chain-wheel mechanism is made up of a driving wheel, three driven pulleys and described chain, round rectangle lined up by chain, described driving wheel, driven pulley apportion corner, described chain is connected is formed by some joint outer plates, inner plate, chain roller, and the inner plate of below is provided with the contiguous block for connecting actuating arm.

Further, described actuating arm comprises the transmission guide rod be connected on contiguous block, transmission guide rod is vertically arranged, transmission guide rod is socketed with linear bearing, linear bearing is fixed in gripper shoe by linear axis bearing, and the gripper shoe other end is connected with turning rolls, and turning rolls is " ㄩ " character form structure, be connected to the roller described in inside both sides, two described rollers are connected on the wing plate of described I-steel guide rail; The shoulder pole pin for connecting casing foundary weight parts is provided with below described turning rolls.

Further, described casing foundary weight parts comprise shoulder pole, be connected with described actuating arm, described roller in the middle part of shoulder pole, shoulder pole two ends are connected with a pair stretched wire, be guide post below stretched wire, the guide post of both sides be socketed with foundary weight, below is connected with casing, casing is set in outside sand mold, be sand mould supporting plate bottom sand mold, described sand mould supporting plate is arranged on described mould carriage.

Further, described I-steel guide rail in the vertical direction be two ends higher than middle part, and by sloped transition between two ends and middle part, the gradient angle on described slope is between 5-10 degree.

Preferably, described driving wheel, by driving shaft, is connected to the sprocket wheel of driving shaft end, is connected to double row ball self-aligning bearing, drive shaft bearing seat, bearing cap and stent bearing plank in the middle part of driving shaft and forms; Described driven pulley, by driven shaft, is connected to another sprocket wheel of driven shaft end, is connected to roller bearing, driven shaft bearing block, driven pedestal cap and another stent bearing plank in the middle part of driven shaft and forms.

Preferably, described roller is connected on turning rolls by roller shaft, is stamped roller cap outside roller shaft.

Further, have common divisor between the casing number of described casing foundary weight parts and joint number × 2 of mould carriage, meanwhile, joint number × 2 of mould carriage must be the multiples of the casing number of casing foundary weight parts.

The invention has the beneficial effects as follows:

Adopt stretched wire casing foundary weight mechanism, the sand mold on casing auto-alignment mould carriage, vertical direction drops in sand mold at leisure, and foundary weight is pressed onto on sand mold automatically simultaneously.Casing is played by two stretched wires, vertically drops in sand mold at casing, only needs the relative position of operator righting casing and sand mold slightly, and when casing in-position, a little slightly power of operator compresses upper sand mold, lower sand mold casing.Alleviate the labour intensity of workman after adopting this device, also save an operator.

After the upper and lower sand mold mould assembly that machine moulding is produced, be put on the mould carriage of streamline.Before machinery cast, necessary grip housing-case is in sand mold, and presses foundary weight.Can prevent casting process from producing buoyancy tank or the case that rises like this, ensure the quality of production of the foundry goods after cast.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present invention.The specific embodiment of the present invention is provided in detail by following examples and accompanying drawing thereof.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is casing foundary weight parts front views;

Fig. 2 is casing foundary weight parts right views;

Fig. 3 is self-powered swing arm front view;

Fig. 4 is the A direction view in Fig. 3;

Fig. 5 is driving wheel structural representation;

Fig. 6 is driven wheel structure schematic diagram;

Fig. 7 is stretched wire casing foundary weight mechanism front view;

Fig. 8 is stretched wire casing foundary weight mechanism top view.

Number in the figure illustrates: 1, shoulder pole, 2, suspension hook, 3, stretched wire, 4, hanging ring screw, 5, guide post, 6, foundary weight, 7, casing, 8, sand mold, 9, sand mould supporting plate, 10, transmission guide rod, 11, linear axis bearing, 12, linear bearing, 13, gripper shoe, 14, roller, 15, roller shaft, 16, turning rolls, 17, shoulder pole pin, 18, turning rolls bearing, 19, roller cap, 20 guide rail brackets, 21, I-steel guide rail, 22, outer plate, 220, chain, 23 bearing pins, 24, contiguous block, 25, inner plate, 26, chain roller, 27, sprocket wheel, 271, driving wheel, 272, driven pulley, 28, stent bearing plank, 29, driving shaft, 30, double row ball self-aligning bearing, 31, drive shaft bearing seat, 32, , bearing cap, 33, driven shaft, 34, driven pedestal cap, 35, roller bearing, 36, driven shaft bearing block, 37, mould carriage.

Detailed description of the invention

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the present invention in detail.

Shown in Fig. 8, a kind of stretched wire casing foundary weight mechanism, comprise and being horizontally disposed with, for driving the chain-wheel mechanism of described stretched wire casing foundary weight mechanism circular flow, the I-steel guide rail 21 of following chain 220 is provided with below described chain-wheel mechanism, on described I-steel guide rail 21, suspention has many group casing foundary weight parts, described casing foundary weight parts are suspended on I-steel guide rail 21 by roller 14, and be connected on the chain 220 of described chain-wheel mechanism by actuating arm, be provided with mould carriage 37 below described casing foundary weight parts.Described chain-wheel mechanism is made up of a driving wheel 271, three driven pulleys 272 and described chain 220, round rectangle lined up by chain 220, described driving wheel 271, driven pulley 272 apportion corner, described chain is connected is formed by some joint outer plates 22, inner plate 25, chain roller 26, and the inner plate 25 of below is provided with the contiguous block 24 for connecting actuating arm.

Described actuating arm comprises the transmission guide rod 10 be connected on contiguous block 24, transmission guide rod 10 is vertically arranged, transmission guide rod 10 is socketed with linear bearing 12, linear bearing 12 is fixed in gripper shoe 13 by linear axis bearing 11, gripper shoe 13 other end is connected with turning rolls 16, turning rolls 16 is " ㄩ " character form structure, is connected to the roller 14 described in inside both sides, and two described rollers 14 are connected on the wing plate of described I-steel guide rail 21; The shoulder pole pin 17 for connecting casing foundary weight parts is provided with below described turning rolls 16.Described roller 14 is connected on turning rolls 16 by roller shaft 15, is stamped roller cap 19 outside roller shaft 15.

Described casing foundary weight parts comprise shoulder pole 1, be connected with described actuating arm, described roller 14 in the middle part of shoulder pole 1, shoulder pole 1 two ends are connected with a pair stretched wire 3 by suspension hook 2, guide post 5 is connected with by hanging ring screw 4 below stretched wire 3, the guide post 5 of both sides is socketed with foundary weight 6, below is connected with casing 7, casing 7 is set in outside sand mold 8, is sand mould supporting plate 9 bottom sand mold 8, and described sand mould supporting plate 9 is arranged on described mould carriage 37.

Described I-steel guide rail 21 in the vertical direction be two ends higher than middle part, and pass through sloped transition between two ends and middle part.

Described driving wheel 271, by driving shaft 29, is connected to the sprocket wheel 27 of driving shaft 29 end, double row ball self-aligning bearing 30, drive shaft bearing seat 31, bearing cap 32 and the stent bearing plank 28 be connected in the middle part of driving shaft 29 forms; Described driven pulley 272, by driven shaft 33, is connected to another sprocket wheel 27 of driven shaft 33 end, roller bearing 35, driven shaft bearing block 36, driven pedestal cap 34 and another stent bearing plank 28 be connected in the middle part of driven shaft 33 forms.

Stretched wire casing foundary weight mechanism follows annular mould carriage and is synchronized with the movement.As shown in Figure 7, Special chain transmission mechanism and annular mould carriage (shown in double dot dash line) are synchronized with the movement, namely along X to moving.

I-steel guide rail 21 is ring-like, as shown in Figure 8.The front view of the lower end of I-steel guide rail 21 is shown in Fig. 7, namely has individual descending and upward slope along the X direction.So the motion of casing foundary weight parts is by the motion along the X direction of Special chain transmission mechanism and the synthesis of automatic box jacketing foundary weight device movement in vertical direction.

The motion that Special chain transmission mechanism is transmitted by lazy-tongs, follows mould carriage along direction shown in arrow and is synchronized with the movement.Namely automatic box jacketing foundary weight device moves along direction shown in arrow in company with Special chain transmission mechanism.The roller of automatic box jacketing foundary weight device drives automatic box jacketing foundary weight device can move up and down in the vertical direction along transmission guide rod 10 in linear bearing along the descending of I-steel guide rail 21 and the rolling of upward slope.

Realize stretched wire casing foundary weight mechanism to follow mould carriage to be synchronized with the movement, following condition must be met simultaneously, namely the casing number of casing foundary weight parts and mould carriage joint number are taken advantage of 2(often to save on mould carriage and are placed two casees sand molds) number have common divisor, mould carriage joint number takes advantage of the number of 2 to be multiples of the casing number of casing foundary weight parts simultaneously.

Like this, as shown in Figure 6, when moving from right to left, move from top to bottom gradually along casing foundary weight parts during I-steel guide rail 21 descending simultaneously, complete automatic grip housing-case gradually and live the process that sand mold pushed down by sand mold 8 and foundary weight; When going up a slope along I-steel guide rail 21, casing foundary weight parts move gradually from lower to upper simultaneously, complete gradually automatically casing and the foundary weight pressure-off process from sand mold 8.

Adopt stretched wire casing foundary weight device, the sand mold on casing auto-alignment mould carriage, vertical direction drops in sand mold at leisure, and foundary weight is pressed onto on sand mold automatically simultaneously.Casing is played by two stretched wires, vertically drops in sand mold at casing, only needs the relative position of operator righting casing and sand mold slightly, and when casing in-position, a little slightly power of operator compresses upper sand mold 8-1, lower sand mold 8-2 casing.Alleviate the labour intensity of workman after adopting this device, also save an operator.

After the upper and lower sand mold mould assembly that machine moulding is produced, be put on the mould carriage of streamline.Before machinery cast, necessary grip housing-case is in sand mold, and presses foundary weight.Can prevent casting process from producing buoyancy tank or the case that rises like this, ensure the quality of production of the foundry goods after cast.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (8)

1. a stretched wire casing foundary weight mechanism, it is characterized in that: comprise and being horizontally disposed with, for driving the chain-wheel mechanism of described stretched wire casing foundary weight mechanism circular flow, the I-steel guide rail (21) of following chain (220) is provided with below described chain-wheel mechanism, the upper suspention of described I-steel guide rail (21) has many group casing foundary weight parts, described casing foundary weight parts are suspended on I-steel guide rail (21) by roller (14), and be connected on the chain (220) of described chain-wheel mechanism by actuating arm, be provided with mould carriage (37) below described casing foundary weight parts.

2. stretched wire casing foundary weight mechanism according to claim 1, it is characterized in that: described chain-wheel mechanism is made up of a driving wheel (271), three driven pulleys (272) and described chain (220), round rectangle lined up by chain (220), described driving wheel (271), driven pulley (272) apportion corner, described chain is connected is formed by some joint outer plates (22), inner plate (25), chain roller (26), and the inner plate (25) of below is provided with the contiguous block (24) for connecting actuating arm.

3. stretched wire casing foundary weight mechanism according to claim 2, it is characterized in that: described actuating arm comprises the transmission guide rod (10) be connected on contiguous block (24), transmission guide rod (10) is vertically arranged, transmission guide rod (10) is socketed with linear bearing (12), linear bearing (12) is fixed in gripper shoe (13) by linear axis bearing (11), gripper shoe (13) other end is connected with turning rolls (16), turning rolls (16) is " ㄩ " character form structure, the roller (14) described in one is connected to inside both sides, two described rollers (14) are connected on the wing plate of described I-steel guide rail (21), described turning rolls (16) below is provided with the shoulder pole pin (17) for connecting casing foundary weight parts.

4. stretched wire casing foundary weight mechanism according to claim 1, it is characterized in that: described casing foundary weight parts comprise shoulder pole (1), shoulder pole (1) middle part is connected with described actuating arm, described roller (14), shoulder pole (1) two ends are connected with a pair stretched wire (3), stretched wire (3) below is guide post (5), the guide post (5) of both sides is socketed with foundary weight (6), below is connected with casing (7), casing (7) is set in sand mold (8) outward, sand mold (8) bottom is sand mould supporting plate (9), and described sand mould supporting plate (9) is arranged on described mould carriage (37).

5. stretched wire casing foundary weight mechanism according to claim 1, is characterized in that: described I-steel guide rail (21) in the vertical direction be two ends higher than middle part, and by sloped transition between two ends and middle part, the gradient angle on described slope is between 5-10 degree.

6. stretched wire casing foundary weight mechanism according to claim 2, it is characterized in that: described driving wheel (271), by driving shaft (29), is connected to the sprocket wheel (27) of driving shaft (29) end, is connected to the double row ball self-aligning bearing (30) at driving shaft (29) middle part, drive shaft bearing seat (31), bearing cap (32) and stent bearing plank (28) form; Described driven pulley (272), by driven shaft (33), is connected to another sprocket wheel (27) of driven shaft (33) end, is connected to the roller bearing (35) at driven shaft (33) middle part, driven shaft bearing block (36), driven pedestal cap (34) and another stent bearing plank (28) form.

7. stretched wire casing foundary weight mechanism according to claim 3, is characterized in that: described roller (14) is connected on turning rolls (16) by roller shaft (15), is stamped roller cap (19) outside roller shaft (15).

8. stretched wire casing foundary weight mechanism according to claim 1, is characterized in that: have common divisor between the casing number of described casing foundary weight parts and joint number × 2 of mould carriage, meanwhile, joint number × 2 of mould carriage must be the multiples of the casing number of casing foundary weight parts.