CN205074499U - Amorphous spouts upper and lower left -right control structure of nozzle position of belting - Google Patents

Abstract

The utility model relates to an amorphous spouts upper and lower left -right control structure of nozzle position of belting, the nozzle position adjustment is convenient accurate. The utility model relates to an including about and guiding mechanism of frame, upper and lower guiding mechanism, X axle, Y axle, Z axle that this amorphous spouts the space coordinate system of belting are set for as follows: spout facing of belting with this amorphous, X axle level is put, direction about directional, Y axle level is put, directional fore -and -aft direction, the Z axle is vertical to be put, directional orientation from top to bottom, it includes left -right control frame and left -right control actuating mechanism to control guiding mechanism, X axle slidable mounting is followed in the frame to the left -right control frame, left -right control actuating mechanism adjusting rack connection about with can drive the left -right control frame and slide along the X axle, guiding mechanism includes upper and lower adjusting mount and adjusts actuating mechanism from top to bottom, Z axle slidable mounting is followed on the left -right control frame to the adjusting mount from top to bottom, adjust actuating mechanism and upper and lower adjusting rack connection from top to bottom, the adjusting mount slides along the Z axle about driving.

Description

The nozzle location adjust structure up and down of amorphous spray belting

Technical field

The utility model relates to the nozzle location adjust structure up and down of a kind of amorphous spray belting.

Background technology

Amorphous spray band machine is that melt is formed the amorphous ribbon of very thin thickness by cooling fast, specifically melt from spray bag by nozzle spray to cooling copper roller is formed, if application number is the Chinese patent of 201210304598.4.The amorphous spray band machine of prior art, nozzle location guiding mechanism is unreasonable, makes the bad adjustment of relative position between nozzle and cooling copper roller, have impact on spray band quality.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and provides the nozzle location adjust structure up and down of a kind of reasonable in design, the nozzle location spray of amorphous accurately easy to adjust belting.

The technical scheme in the invention for solving the above technical problem is: a kind of nozzle location adjust structure up and down of amorphous spray belting, comprise frame, the X-axis of the space coordinates of this amorphous spray belting, Y-axis, Z axis are set as follows: with facing of this amorphous spray belting, X-axis level is put, in the lateral direction; Y-axis level is put, and points to fore-and-aft direction; Z axis vertical display, points to above-below direction; It is characterized in that: comprise upper and lower guiding mechanism and left and right adjusting mechanism; Left and right adjusting mechanism comprises left and right adjustment rack and left and right adjustment driving mechanism; Left and right adjustment rack is slidably mounted in frame along X-axis; Left and right adjustment driving mechanism is connected with left and right adjustment rack, and left and right adjustment rack can be driven to slide along X-axis; Upper and lower guiding mechanism comprises upper and lower adjustment rack and adjusts driving mechanism up and down; Upper and lower adjustment rack is slidably mounted on the adjustment rack of left and right along Z axis; Adjust driving mechanism to be up and down connected with upper and lower adjustment rack, upper and lower adjustment rack can be driven to slide along Z axis.

Left and right adjusting mechanism described in the utility model also comprises adjustment retaining mechanism; Adjustment retaining mechanism comprises adjustment locking cylinder and adjustment latch segment; Adjustment locking cylinder is arranged on the adjustment rack of left and right; Adjustment latch segment is arranged on the piston of adjustment locking cylinder, and can be connected by disengaged with frame.

Adjustment driving mechanism in left and right described in the utility model comprises left and right adjustment motor and left and right adjustment screw mandrel; Left and right adjustment motor is arranged in frame; Left and right adjustment screw mandrel is rotatably installed in frame, and arranges along X-axis; Left and right adjustment motor adjusts screw mandrel with left and right and is connected, and left and right adjustment screw mandrel can be driven to rotate; Left and right adjustment rack and left and right adjust screw mandrel and are connected.

The driving mechanism that adjusts up and down described in the utility model comprises and adjusts motor and adjust screw mandrel up and down up and down; Adjusting motor is up and down arranged on the adjustment rack of left and right; Adjust screw mandrel to be up and down rotatably installed on the adjustment rack of left and right, and arrange along Z axis; Adjust motor and adjust screw mandrel up and down and be connected up and down, adjustment screw mandrel rotation up and down can be driven; Upper and lower adjustment rack with adjust screw mandrel up and down and be connected.

The utility model compared with prior art, has the following advantages and effect: reasonable in design, by upper and lower guiding mechanism and left and right adjusting mechanism etc., can adjust the position of nozzle on X-axis, Z axis.

Accompanying drawing explanation

Fig. 1 is the structural representation applying amorphous of the present utility model spray belting.

Fig. 2 is the partial structurtes schematic diagram one of Fig. 1.

Fig. 3 is the plan structure schematic diagram of Fig. 2.

Fig. 4 is the partial structurtes schematic diagram two of Fig. 1.

Fig. 5 applies the structural representation that amorphous of the present utility model spray belting inner frame is connected with left and right micropositioning stage.

Fig. 6 is the structural representation applying amorphous of the present utility model spray belting retaining mechanism.

Detailed description of the invention

Below in conjunction with accompanying drawing, also by embodiment, the utility model is described in further detail, and following examples are that the utility model is not limited to following examples to explanation of the present utility model.

See Fig. 1 ~ Fig. 6, apply amorphous of the present utility model spray belting and comprise frame 1, cooling copper roller mechanism 2, spray turn-up mechanism 3, up and down guiding mechanism 4, rotary fine adjustment mechanism 5, left and right micro-adjusting mechanism 6, swing mechanism 7, synchronous interaction mechanism 8, retaining mechanism 9, framework 10, left and right adjusting mechanism 11 and molten steel guiding gutter guiding mechanism 12.

The X-axis of the space coordinates of this amorphous spray belting, Y-axis, Z axis are set as follows: with facing (i.e. Fig. 1) of this amorphous spray belting, X-axis level is put, in the lateral direction; Y-axis level is put, and points to fore-and-aft direction; Z axis vertical display, points to above-below direction.

Cooling copper roller mechanism 2 is arranged in frame 1.

The nozzle of spray turn-up mechanism 3 is positioned at the top of the cooling copper roller of cooling copper roller mechanism 2.

Framework 10 comprises outside framework 101 and inner frame 102.

Inner frame 102 is rotatably installed in outside framework 101, and its rotation is along Y direction, and such inner frame 102 can rotate around Y-axis.Spray turn-up mechanism 3 is fixed on inner frame 102.

Left and right adjusting mechanism 11 comprises left and right adjustment rack 111, left and right adjustment driving mechanism and adjustment retaining mechanism.

Left and right adjustment rack 111 is slidably mounted in frame 1 along X-axis.

Left and right adjustment driving mechanism is connected with left and right adjustment rack 111, and left and right adjustment rack 111 can be driven to slide along X-axis.Left and right adjustment driving mechanism comprises left and right adjustment motor 112 and left and right adjustment screw mandrel 113.Left and right adjustment motor 112 is arranged in frame 1.Left and right adjustment screw mandrel 113 is rotatably installed in frame 1, and arranges along X-axis.Left and right adjustment motor 112 adjusts screw mandrel 113 with left and right and is connected, and left and right adjustment screw mandrel 113 can be driven to rotate.Left and right adjustment rack 111 adjusts screw mandrel 113 by feed screw nut with left and right and is connected, and when left and right adjustment screw mandrel 113 rotates, left and right adjustment rack 111 slides along X-axis.

Adjustment retaining mechanism comprises adjustment locking cylinder 114 and adjustment latch segment 115.Adjustment locking cylinder 114 is arranged on left and right adjustment rack 111.Adjustment latch segment 115 is arranged on the piston of adjustment locking cylinder 114, and can be connected by disengaged with frame 1, when the piston adjusting locking cylinder 114 promotes adjustment latch segment 115 and frame 1 departs from, left and right adjustment rack 111 can slide in frame 1, when the piston promotion adjustment latch segment 115 adjusting locking cylinder 114 is connected with frame 1, left and right adjustment rack 111 is locked by adjustment latch segment 115, and left and right adjustment rack 111 can not be slided in frame 1.

Upper and lower guiding mechanism 4 is arranged on left and right adjustment rack 111, and it comprises upper and lower adjustment rack 41 and adjusts driving mechanism up and down.

Upper and lower adjustment rack 41 is slidably mounted on left and right adjustment rack 111 along Z axis.

Adjust driving mechanism to be up and down connected with upper and lower adjustment rack 41, upper and lower adjustment rack 41 can be driven to slide along Z axis.Adjust driving mechanism up and down and comprise adjustment motor 42 and up and down adjustment screw mandrel 43 up and down.Adjust motor 42 to be up and down arranged on left and right adjustment rack 111.Adjust screw mandrel 43 to be up and down rotatably installed on left and right adjustment rack 111, and arrange along Z axis.Adjust motor 42 and adjust screw mandrel 43 up and down and be connected up and down, adjustment screw mandrel 43 up and down can be driven to rotate.Upper and lower adjustment rack 41 by feed screw nut with adjust screw mandrel 43 up and down and be connected, when adjusting screw mandrel 43 up and down and rotating, upper and lower adjustment rack 41 slides along Z axis.

Rotary fine adjustment mechanism 5 is arranged on upper and lower adjustment rack 41, and it comprises rotary fine adjustment frame 51 and rotary fine adjustment driving mechanism.

Rotary fine adjustment frame 51 is rotatably installed on upper and lower adjustment rack 41, and its rotation is along X-direction.

Rotary fine adjustment driving mechanism is connected with rotary fine adjustment frame 51, and rotary fine adjustment frame 51 can be driven to rotate around X-axis.Rotary fine adjustment driving mechanism comprises rotary fine adjustment motor 52.Rotary fine adjustment motor 52 is connected with rotary fine adjustment frame 51, and rotary fine adjustment frame 51 can be driven to rotate around X-axis.

Swing mechanism 7 is arranged on rotary fine adjustment frame 51, and it comprises swing frame 71 and swing axle 72.Swing frame 71 is rotatably installed on rotary fine adjustment frame 51 by swing axle 72, and swing axle 72 is arranged along Z axis, and the rotation of such swing frame 71 is along Z-direction, and swing frame 71 can rotate around Z axis.

Left and right micro-adjusting mechanism 6 is arranged on swing frame 71, and it comprises left and right micropositioning stage 61 and left and right fine setting driving mechanism.

Left and right micropositioning stage 61 is slidably mounted on left and right fine setting driving mechanism along Z axis, and left and right fine setting driving mechanism can drive left and right micropositioning stage 61 to slide along Z axis.Left and right fine setting driving mechanism comprises left and right fine setting motor 62 and left and right fine setting screw mandrel 63.Left and right fine setting motor 62 is arranged on swing frame 71.Left and right fine setting screw mandrel 63 is rotatably installed on swing frame 71, and arranges along Z axis.Left and right fine setting motor 62 is finely tuned screw mandrel 63 with left and right and is connected, and left and right fine setting screw mandrel 63 can be driven to rotate.Left and right micropositioning stage 61 is finely tuned screw mandrel 63 by feed screw nut with left and right and is connected, and when left and right fine setting screw mandrel 63 rotates, left and right micropositioning stage 61 slides along Z axis.

Left and right micropositioning stage 61 has trimming groove 64.

Left side and the trimming groove 64 of inner frame 102 are slidably connected, and are so just connected with left and right micropositioning stage 61; And, when left and right micropositioning stage 61 drives the left side of inner frame 102 to move along Z axis slip, because left and right micropositioning stage 61 slides along Z axis, and the left side of inner frame 102 rotates around Y-axis, the structure be slidably connected with trimming groove 64 on the left of inner frame 102 can make left and right micropositioning stage 61 can not produce the rotation of inner frame 102 to interfere.

Left side and the swing frame 71 of outside framework 101 are fixed, and right side is fixed with check lock lever 103.

Synchronous interaction mechanism 8 comprises synchronous interaction frame 81 and synchronous interaction driving mechanism.

Synchronous interaction frame 81 is slidably mounted in frame 1 along Z axis.

Synchronous interaction driving mechanism is connected with synchronous interaction frame 81, and synchronous interaction frame 81 can be driven to slide along Z axis.Synchronous interaction driving mechanism comprises synchronous interaction motor 82 and synchronous interaction screw mandrel 83.Synchronous interaction motor 82 is arranged in frame 1.Synchronous interaction screw mandrel 83 is rotatably installed in frame 1, and arranges along Z axis.Synchronous interaction motor 82 is connected with synchronous interaction screw mandrel 83, and synchronous interaction screw mandrel 83 can be driven to rotate.Synchronous interaction frame 81 is connected with synchronous interaction screw mandrel 83 by feed screw nut, and when synchronous interaction screw mandrel 83 rotates, synchronous interaction frame 81 slides along Z axis.

Retaining mechanism 9 is arranged on synchronous interaction frame 81, and it comprises locking base plate 91, locking cylinder 92 and latch segment 93.

Locking base plate 91 is slidably mounted on synchronous interaction frame 81 along Y-axis.

Locking cylinder 92 is arranged on locking base plate 91.

Latch segment 93 is arranged on locking cylinder 92 along Z axis, and locking cylinder 92 can promote latch segment 93 and move along Z axis.

Check lock lever 103 is placed on locking base plate 91, and can be connected by disengaged with latch segment 93, and such retaining mechanism 9 just can be connected by disengaged with outside framework 101.

During adjustment, latch segment 93 and check lock lever 103 depart from:

1, when left and right adjustment rack 111 slides along X-axis, it drives upper and lower guiding mechanism 4 to slide along X-axis, upper and lower guiding mechanism 4 driven rotary micro-adjusting mechanism 5 slides along X-axis, rotary fine adjustment mechanism 5 drives swing mechanism 7 to slide along X-axis, swing mechanism 7 drives outside framework 101 to slide along X-axis, outside framework 101 drives inner frame 102 to slide along X-axis, and inner frame 102 drives spray turn-up mechanism 3 to slide along X-axis, so just have adjusted the right position of the nozzle of spray turn-up mechanism 3.

2, when adjustment rack 41 slides along Z axis up and down, its driven rotary micro-adjusting mechanism 5 slides along Z axis, rotary fine adjustment mechanism 5 drives swing mechanism 7 to slide along Z axis, swing mechanism 7 drives outside framework 101 to slide along Z axis, outside framework 101 drives inner frame 102 to slide along Z axis, inner frame 102 drives spray turn-up mechanism 3 to slide along Z axis, so just have adjusted the nozzle upper-lower position of spray turn-up mechanism 3.In the process that upper and lower adjustment rack 41 slides along Z axis, synchronous interaction frame 81, along Z axis synchronous slide, makes two ends, the left and right balance of spraying turn-up mechanism 3 like this.

3, rotary fine adjustment frame 51 is when X-axis rotates, it drives swing mechanism 7 to rotate around X-axis, swing mechanism 7 drives outside framework 101 to rotate around X-axis, outside framework 101 drives inner frame 102 to rotate around X-axis, inner frame 102 drives spray turn-up mechanism 3 to rotate around X-axis, so just have adjusted the position around X-axis of the nozzle of spray turn-up mechanism 3.

4, swing frame 71 can when Z axis rotates, it drives outside framework 101 to rotate around Z axis, outside framework 101 drives inner frame 102 to rotate around Z axis, and inner frame 102 drives spray turn-up mechanism 3 to rotate around Z axis, so just have adjusted the position around Z axis of the nozzle of spray turn-up mechanism 3; Simultaneously rotational steps large after, spray turn-up mechanism 3 just forwards outside to, facilitates staff to carry out the operations such as maintenance to spray turn-up mechanism 3.

5, when left and right micropositioning stage 61 slides along Z axis, it drives the left side of inner frame 102 to move, such inner frame 102 rotates around Y-axis on outside framework 101, and inner frame 102 drives spray turn-up mechanism 3 to rotate around Y-axis, has so just finely tuned the position around Y-axis of the nozzle of spray turn-up mechanism 3.

After the nozzle of turn-up mechanism 3 to be painted is adjusted to the right place, locking base plate 91 slides along Y-axis, and make latch segment 93 be positioned at above check lock lever 103, locking cylinder 92 drives latch segment 93 to move down, and latch segment 93 compresses check lock lever 103, is locked by check lock lever 103; Adjust latch segment 115 left and right adjustment rack 111 is locked simultaneously, left and right adjustment rack 111 can not be slided in frame 1; The nozzle of such spray turn-up mechanism 3 has just been fixed on the position after adjusting.

Molten steel guiding gutter guiding mechanism 12 is for installing molten steel guiding gutter, and it comprises the upper and lower guiding mechanism 13 of molten steel guiding gutter and molten steel guiding gutter left and right adjusting mechanism 14.

The upper and lower guiding mechanism of molten steel guiding gutter 13 comprises the upper and lower adjustment rack 131 of molten steel guiding gutter and molten steel guiding gutter adjusts driving mechanism up and down.

The upper and lower adjustment rack 131 of molten steel guiding gutter is slidably mounted in frame 1 along Z axis.

Molten steel guiding gutter adjusts driving mechanism up and down and is connected with the upper and lower adjustment rack 131 of molten steel guiding gutter, and the upper and lower adjustment rack 131 of molten steel guiding gutter can be driven to slide along Z axis.Molten steel guiding gutter adjusts driving mechanism up and down and comprises molten steel guiding gutter and adjust handwheel 132 up and down and molten steel guiding gutter adjusts screw mandrel 133 up and down.

Molten steel guiding gutter adjusts handwheel 132 up and down and is arranged in frame 1.Molten steel guiding gutter adjusts screw mandrel 133 up and down and is rotatably installed in frame 1, and arranges along Z axis.Molten steel guiding gutter adjusts handwheel 132 up and down and adjusts screw mandrel 133 up and down with molten steel guiding gutter and be connected, and molten steel guiding gutter can be driven to adjust screw mandrel 133 up and down and rotate.The upper and lower adjustment rack 131 of molten steel guiding gutter adjusts screw mandrel 133 by feed screw nut up and down with molten steel guiding gutter and is connected, when molten steel guiding gutter adjust up and down screw mandrel 133 rotate time, the upper and lower adjustment rack 131 of molten steel guiding gutter slides along Z axis.

Molten steel guiding gutter left and right adjusting mechanism 14 adjusts driving mechanism and molten steel guiding gutter installing rack 142 about comprising molten steel guiding gutter left and right adjustment rack 141, molten steel guiding gutter.

Molten steel guiding gutter left and right adjustment rack 141 is slidably mounted on the upper and lower adjustment rack 131 of molten steel guiding gutter along X-axis.

Adjust driving mechanism about molten steel guiding gutter to be connected with molten steel guiding gutter left and right adjustment rack 141, molten steel guiding gutter left and right adjustment rack 141 can be driven to slide along X-axis.Adjust about molten steel guiding gutter about adjusting handwheel 143 and molten steel guiding gutter about driving mechanism comprises molten steel guiding gutter and adjust screw mandrel 144.

Adjust handwheel 143 about molten steel guiding gutter to be arranged on the upper and lower adjustment rack 131 of molten steel guiding gutter.Adjust screw mandrel 144 about molten steel guiding gutter to be rotatably installed in frame 1, and arrange along X-axis.Adjust handwheel 143 about molten steel guiding gutter and adjust screw mandrel 144 about molten steel guiding gutter and be connected, adjust screw mandrel 144 about molten steel guiding gutter can be driven and rotate.Molten steel guiding gutter left and right adjustment rack 141 by feed screw nut with adjust screw mandrel 144 about molten steel guiding gutter and be connected, when about molten steel guiding gutter, adjust screw mandrel 144 when rotating, molten steel guiding gutter left and right adjustment rack 141 slides along X-axis.

Molten steel guiding gutter installing rack 142 is fixed on molten steel guiding gutter left and right adjustment rack 141, for installing molten steel guiding gutter.

Slided along X-axis along Z axis slip, molten steel guiding gutter left and right adjustment rack 141 by the upper and lower adjustment rack 131 of molten steel guiding gutter, the position of adjustable molten steel guiding gutter on Z axis and X-axis, facilitates the liquid in molten steel guiding gutter to flow in spray turn-up mechanism 3.

In addition, it should be noted that, the specific embodiment described in this description, the shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this description is only to the explanation of the utility model structure example.

Claims (4)

1. a nozzle location adjust structure up and down for amorphous spray belting, comprises frame, and the X-axis of the space coordinates of this amorphous spray belting, Y-axis, Z axis are set as follows: with facing of this amorphous spray belting, X-axis level is put, in the lateral direction; Y-axis level is put, and points to fore-and-aft direction; Z axis vertical display, points to above-below direction; It is characterized in that: comprise upper and lower guiding mechanism and left and right adjusting mechanism; Left and right adjusting mechanism comprises left and right adjustment rack and left and right adjustment driving mechanism; Left and right adjustment rack is slidably mounted in frame along X-axis; Left and right adjustment driving mechanism is connected with left and right adjustment rack, and left and right adjustment rack can be driven to slide along X-axis; Upper and lower guiding mechanism comprises upper and lower adjustment rack and adjusts driving mechanism up and down; Upper and lower adjustment rack is slidably mounted on the adjustment rack of left and right along Z axis; Adjust driving mechanism to be up and down connected with upper and lower adjustment rack, upper and lower adjustment rack can be driven to slide along Z axis.

2. the nozzle location adjust structure up and down of amorphous spray belting according to claim 1, is characterized in that: described left and right adjusting mechanism also comprises adjustment retaining mechanism; Adjustment retaining mechanism comprises adjustment locking cylinder and adjustment latch segment; Adjustment locking cylinder is arranged on the adjustment rack of left and right; Adjustment latch segment is arranged on the piston of adjustment locking cylinder, and can be connected by disengaged with frame.

3. the nozzle location adjust structure up and down of amorphous spray belting according to claim 1 and 2, is characterized in that: described left and right adjustment driving mechanism comprises left and right adjustment motor and left and right adjustment screw mandrel; Left and right adjustment motor is arranged in frame; Left and right adjustment screw mandrel is rotatably installed in frame, and arranges along X-axis; Left and right adjustment motor adjusts screw mandrel with left and right and is connected, and left and right adjustment screw mandrel can be driven to rotate; Left and right adjustment rack and left and right adjust screw mandrel and are connected.

4. the nozzle location adjust structure up and down of amorphous according to claim 1 and 2 spray belting, is characterized in that: the described driving mechanism of adjustment up and down comprises and adjusts motor up and down and adjust screw mandrel up and down; Adjusting motor is up and down arranged on the adjustment rack of left and right; Adjust screw mandrel to be up and down rotatably installed on the adjustment rack of left and right, and arrange along Z axis; Adjust motor and adjust screw mandrel up and down and be connected up and down, adjustment screw mandrel rotation up and down can be driven; Upper and lower adjustment rack with adjust screw mandrel up and down and be connected.