CN107031104B

CN107031104B - A kind of extrusion apparatus

Info

Publication number: CN107031104B
Application number: CN201710267284.4A
Authority: CN
Inventors: 程佩芳
Original assignee: Huidong County Xu Sun Xing Button Co Ltd
Current assignee: Huidong County Xu Sun Xing Button Co ltd
Priority date: 2017-04-21
Filing date: 2017-04-21
Publication date: 2017-12-29
Anticipated expiration: 2037-04-21
Also published as: CN107031104A

Abstract

A kind of extrusion apparatus,Including outrigger,Slid chamber is provided with outrigger,Sliding internal frame can be slippingly installed up and down in slid chamber,Sliding internal frame center is provided with the first downward slippage slot of beginning,The second slippage slot of the slippage slot of UNICOM first is provided with sliding internal frame positioned at the first slippage slot upper end,Dynamic yoke plate can be slippingly installed up and down in the second slippage slot,The bar that rises and falls can be slippingly installed up and down in the first slippage slot,And bar upper end of rising and falling is fixedly connected with dynamic yoke plate,Bar lower end of rising and falling is installed with the first motor,First motor lower end is connected with extruding drift,The extruding drift lower surface is provided with extruding cambered surface,Sliding internal frame in left and right equity be provided with set groove and under set groove,On set groove and under set and be installed with the second motor between groove,Second motor top and bottom are connected to output shaft and lower output shaft,On set groove and under set between groove be provided with positioned at the second motor rear end set in UNICOM groove and under set the communication groove of groove.

Description

A kind of extrusion apparatus

Technical field

The present invention relates to extrusion technique field, and in particular to a kind of extrusion apparatus.

Background technology

Nowadays extrusion moulding machine application is very extensive, will be squeezed casting die and is pressed into a variety of shapes so as to meet to make With demand, in machining, food processing all extensive uses, extrusion moulding machine is mainly used in the shaping of metal, it can also be used to moulds The shaping of the materials such as material, rubber, graphite, in compacting process, typically need fixture to be squeezed casting die and fix, so as to Prevent from shaking in press process, then drive the motor starting pushed, and extruding drift is moved towards casting die is squeezed, but Be in traditional extrusion moulding machine, extruding drift be typically all it is exposed outside, when being squeezed casting die and promoting easily to being squeezed casting die Touch by mistake, and during it will be squeezed casting die and fix, if motor is accidentally, it is easy to which operating personnel are caused to hinder Evil, therefore, there is potential safety hazard in traditional extrusion moulding machine.

The content of the invention

It is an object of the invention to provide a kind of extrusion apparatus and its application method, can overcome the upper of prior art State defect.

According to the present invention, a kind of extrusion apparatus of apparatus of the present invention, including outrigger, sliding is provided with the outrigger Chamber, can slippingly be provided with sliding internal frame in the slid chamber up and down, and it is downward that the sliding internal frame center is provided with the beginning First slippage slot, described slide in internal frame are provided with second of the first slippage slot described in UNICOM positioned at the first slippage slot upper end Slippage slot, dynamic yoke plate can be slippingly installed up and down in second slippage slot, can up and down slippingly in first slippage slot The bar that rises and falls is installed, and the bar upper end of rising and falling is fixedly connected with the dynamic yoke plate, article lower end of rising and falling is installed with One motor, the first motor lower end are connected with extruding drift, and the extruding drift lower surface is provided with extruding cambered surface, the cunning Move left and right equity in internal frame be provided with set groove and under set groove, it is described on set groove and under set and be installed between groove Second motor, the second motor top and bottom are connected to output shaft and lower output shaft, it is described on set groove and under Set between groove be provided with positioned at second motor rear end set on described in UNICOM groove and under set the communication groove of groove, described the The spiral bar that rises and falls coordinated with the dynamic yoke plate screw thread is provided with by turn bearing or so equity in two slippage slots, it is described to rise and fall Spiral bar lower end extends downwardly into be set in groove on described, and left and right equity is provided with interior spiral hole, institute in the slid chamber bottom State in interior spiral hole screw thread and coordinate installation positioning spiral bar, the positioning spiral bar upper end be possibly extending up to it is described under set groove In, and can be connected to turn by turn bearing with the sliding internal frame, it is described on set groove and under set change be installed in groove Position device.

Valuably, including being fixedly mounted on, leading in the communication groove moves bar to the displacement device and sliding is arranged on institute The position adjustable rack led and moved on bar is stated, the position adjustable rack upper end is provided with Top Crossbeam, and the position adjustable rack lower end is provided with lower cross arm, described Upper coupling sleeve and lower coupling sleeve are provided with by turn bearing respectively in Top Crossbeam and lower cross arm, set in the communication groove rear end There is the 3rd slippage slot, the 3rd motor is installed with the 3rd slippage slot upper end, the 3rd motor lower end is connected with change Spiral bar is changed, the conversion spiral bar can be arranged in the 3rd slippage slot bottom to turn, and peace is slid in the 3rd slippage slot Equipped with spiral block, the spiral block coordinates with the conversion spiral bar screw thread, and is fixedly connected with the position adjustable rack.

Valuably, be provided with Extruding die at the slid chamber center bottom, the Extruding die lower surface be provided with The squeezing action cambered surface that the extruding cambered surface is engaged, the extruding drift are made directly over the Extruding die by extruding Coordinated with cambered surface and the extruding cambered surface, so that extruding drift depresses to required shape to being squeezed casting die.

Valuably, slid chamber front-end and back-end lower end is provided with the disengaging groove with slid chamber insertion, described Groove is passed in and out to allow the propulsion and release that are squeezed casting die.

Valuably, length and the second slippage slot top to institute of the extruding drift caudal to the dynamic yoke plate top The length for stating sliding internal frame bottom is equal, so as to when the dynamic yoke plate be located at the top, it is described extrude drift caudal with it is described Sliding internal frame bottom flushes.

The beneficial effects of the invention are as follows：

1. apparatus of the present invention, in original state, extruding drift caudal flushes with sliding internal frame bottom and is contracted in first In slippage slot, so as to be advantageous to be squeezed the propulsion of casting die, touched by mistake prevented also from extruding drift to being squeezed casting die generation；

2. upper coupling sleeve is in upper position during original state, now, the upper coupling sleeve takes off with the upper output shaft Open, can not make during the second motor turn extruding drift that turn occur, it is therefore possible to prevent extruding drift surprisingly triggers turn and caused Injury to operating personnel；

3. in use, will be squeezed casting die is pushed into slid chamber bottom from disengaging groove, the second motor can drive positioning spiral bar Turn, because positioning spiral bar lower end and interior spiral hole screw thread coordinate, therefore, sliding internal frame can be driven to slide downwards, in sliding Frame will gradually be squeezed casting die compression, due to the auto-lock function of screw thread, can make to be squeezed casting die compression stabilization, avoid in process Slide, it is stable so as to make to be squeezed casting die processing；

4. apparatus of the present invention are simple in construction, operation is firm, safe.

Brief description of the drawings

, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical scheme of the prior art The required accompanying drawing used is briefly described in technology description, it should be apparent that, drawings in the following description are only to invent Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis These accompanying drawings obtain other accompanying drawings.

Fig. 1 is a kind of overall structure diagram of extrusion apparatus of the present invention.

Fig. 2 is Fig. 1 direction of arrow structural representation.

Fig. 3 is the partial enlarged drawing in Fig. 1.

Embodiment

All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive Feature and/or step beyond, can combine in any way.

This specification（Including any accessory claim, summary and accompanying drawing）Disclosed in any feature, except non-specifically chatting State, can alternative features equivalent by other or with similar purpose replaced.I.e., unless specifically stated otherwise, each feature It is an example in a series of equivalent or similar characteristics.

As Figure 1-3, a kind of extrusion apparatus of the invention, including outrigger 1, slid chamber is provided with the outrigger 11, sliding internal frame 2 can be slippingly installed in the slid chamber 11 up and down, the sliding center of internal frame 2 be provided with the beginning to Under the first slippage slot 22, be provided with described in UNICOM the first cunning positioned at the upper end of the first slippage slot 22 in the sliding internal frame 2 The second slippage slot 21 of groove 22 is moved, dynamic yoke plate 71 can be slippingly installed up and down in second slippage slot 21, described first slides The bar 72 that rises and falls can be slippingly provided with up and down by moving in groove 22, and the upper end of bar 72 of rising and falling is fixedly connected with the dynamic yoke plate 71, The lower end of bar 72 of rising and falling is installed with the first motor 73, and the lower end of the first motor 73 is connected with extruding drift 74, described Extruding drift 74 lower surface, which is provided with, extrudes cambered surface 75, and left and right equity, which is provided with, in the sliding internal frame 2 sets groove 23 with Set groove 24, it is described on set groove 23 and under set the second motor 30 be installed between groove 24, on second motor 30 End and lower end are connected to output shaft 32 and lower output shaft 31, it is described on set groove 23 and under set and be located at institute between groove 24 State the rear end of the second motor 30 be provided with set on described in UNICOM groove 23 and under set the communication groove 25 of groove 24, second slippage slot The spiral bar 52 that rises and falls coordinated with the dynamic screw thread of yoke plate 71, the spiral shell that rises and falls are provided with by turn bearing or so equity in 21 The lower end of shape bar 52, which extends downwardly into, to be set on described in groove 23, and left and right equity is provided with interior spiral hole in the bottom of slid chamber 11 13, screw thread coordinates installation positioning spiral bar 51 in the interior spiral hole 13, and the upper end of positioning spiral bar 51 is possibly extending up to institute State down and set in groove 24, and with it is described sliding internal frame 2 can be connected to turn by turn bearing, it is described on set groove 23 and lower dress Determine displacement device is installed in groove 24.

Valuably, the displacement device includes being fixedly mounted on leading in the communication groove 25 and moves bar 66 and slide installation In the position adjustable rack 6 led and moved on bar 66, the upper end of position adjustable rack 6 is provided with Top Crossbeam 62, and the lower end of position adjustable rack 6 is provided with Lower cross arm 61, upper coupling sleeve 42 and lower coupling sleeve are provided with by turn bearing respectively in the Top Crossbeam 62 and lower cross arm 61 41, the 3rd slippage slot 26 is provided with the rear end of communication groove 25, and the 3rd is installed with the upper end of the 3rd slippage slot 26 Motor 78, the lower end of the 3rd motor 78 are connected with conversion spiral bar 79, and the conversion spiral bar 79 can be arranged on to turn the Slid in the bottom of three slippage slot 26, in the 3rd slippage slot 26 and spiral block 60 is installed, the spiral block 60 and the conversion The screw thread of spiral bar 79 coordinates, and is fixedly connected with the position adjustable rack 6.

Valuably, Extruding die 14 is provided with the center bottom of slid chamber 11, the lower surface of Extruding die 14 is set Be equipped with the squeezing action cambered surface 76 that is engaged of extruding cambered surface 75, the extruding drift 74 the Extruding die 14 just on Side, coordinated by squeezing action cambered surface 76 and the extruding cambered surface 75, so that extruding drift 74 depresses to institute to being squeezed casting die The shape needed.

Valuably, the front-end and back-end lower end of slid chamber 11 is provided with the disengaging groove with the slid chamber 11 insertion 12, it is described to pass in and out groove 12 to allow the propulsion and release that are squeezed casting die.

Valuably, the extruding caudal of drift 74 is pushed up to the length on the dynamic top of yoke plate 71 with second slippage slot 21 The length of sliding internal frame 2 bottom is held to be equal, so that when the dynamic yoke plate 71 is located at the top, the extruding drift 74 Caudal flushes with sliding internal frame 2 bottom.

During original state, the sliding internal frame 2 is located at the upper end of slid chamber 11, and the spiral block 60 is located at the described 3rd The upper end of slippage slot 26, so as to the position adjustable rack 6 together with the upper coupling sleeve 42 and lower coupling sleeve 41 all in upper position, this When, the upper coupling sleeve 42 disengages with the upper output shaft 32, and the lower coupling sleeve 41 and the lower power of output shaft 31 and The positioning spiral bar 51 connects, and the dynamic yoke plate 71 be located at the upper end of the second slippage slot 21, and described extrudes the tail of drift 74 Side flushes with sliding internal frame 2 bottom；

In use, will be squeezed casting die is pushed into the bottom of slid chamber 11 from the disengaging groove 12, and start described second Motor 30, it is therefore, described because the lower coupling sleeve 41 and the lower power of output shaft 31 and the positioning spiral bar 51 are connected Second motor 30 can drive the turn of positioning spiral bar 51, the lower end of positioning spiral bar 51 and the interior screw thread of spiral hole 13 Coordinate, therefore, the sliding internal frame 2 can be driven to slide downwards, the sliding internal frame 2 will gradually be squeezed casting die compression, be extruded Part stops second motor 30 after compressing, and starts the 3rd motor 78, and the 3rd motor 78 can drive the first line of a couplet Knot set 42 and lower coupling sleeve 41 move down, and the upper coupling sleeve 42 connects with the upper output shaft 32 and the spiral bar 52 that rises and falls Connect, and the lower coupling sleeve 41 disengages with the lower output shaft 31, when the position adjustable rack 6 slides onto lowermost end downwards, stops 3rd motor 78 simultaneously starts first motor 73 and second motor 30, and first motor 73 can drive described Drift turn is extruded, it is therefore, described because the upper coupling sleeve 42 is connected with the upper output shaft 32 and the spiral bar 52 that rises and falls Second motor 30 can drive the turn of spiral bar 52 of rising and falling, and the spiral bar 52 that rises and falls drives the dynamic yoke plate 71, rise and fall bar 72 and extruding drift 74 move down, the extruding drift 74 will gradually be squeezed casting die and be squeezed into during moving down Shape；

After the completion of extrusion molding, the antiport of the second motor 30, the extruding drift 74 is driven to move up, it is described When extruding drift 74 is moved to peak, stops second motor 30 and drive the upper connection using the 3rd motor 78 Set 42 and lower coupling sleeve 41 move up, and the upper coupling sleeve 42 is disengaged with the upper output shaft 32, and the lower coupling sleeve 41 are connected with the lower power of output shaft 31 and the positioning spiral bar 51, now drive the cunning using second motor 30 Move internal frame 2 to slide upwards, be squeezed casting die so as to unclamp and allow to be squeezed casting die and be pushed outwardly.

The beneficial effects of the invention are as follows：Apparatus of the present invention are in original state, extruding drift caudal and sliding internal frame bottom Flush and be contracted in the first slippage slot, so as to be advantageous to be squeezed the propulsion of casting die, prevented also from extruding drift to being squeezed casting die Generation is touched by mistake；

Upper coupling sleeve is in upper position during original state, and now, the upper coupling sleeve disengages with the upper output shaft, It can not make extruding drift that turn occur during the second motor turn, it is therefore possible to prevent extruding drift surprisingly triggers turn and caused pair The injury of operating personnel；

In use, will be squeezed casting die is pushed into slid chamber bottom from disengaging groove, the second motor can drive the bar rotation of positioning spiral It is dynamic, because positioning spiral bar lower end and interior spiral hole screw thread coordinate, therefore, sliding internal frame can be driven to slide downwards, slide internal frame Casting die compression will be gradually squeezed, due to the auto-lock function of screw thread, can make to be squeezed casting die compression stabilization, avoid sending out in process Raw sliding, it is stable so as to make to be squeezed casting die processing；

Apparatus of the present invention are simple in construction, and operation is firm, safe.

Embodiment described above, only inventing, but invent protection domain be not limited thereto, it is any without Conversion or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention It should be determined by the scope of protection defined in the claims.

Claims

1. a kind of extrusion apparatus, including outrigger, it is characterised in that：Slid chamber is provided with the outrigger, can in slid chamber Sliding internal frame is slippingly installed up and down, the sliding internal frame center is provided with the first downward slippage slot of beginning, the cunning Move in internal frame and the second slippage slot of the slippage slot of UNICOM first is provided with positioned at the first slippage slot upper end, can in second slippage slot Dynamic yoke plate is slippingly installed up and down, the bar that rises and falls can be slippingly installed up and down in first slippage slot, and bar upper end of rising and falling It is fixedly connected with dynamic yoke plate, the bar lower end of rising and falling is installed with the first motor, and the first motor lower end is connected with extruding Drift, the extruding drift lower surface are provided with extruding cambered surface, in the sliding internal frame left and right equity be provided with set groove and Under set groove, it is described on set groove and under set and be installed with the second motor, the second motor top and bottom between groove Be connected to output shaft and lower output shaft, it is described on set groove and under set and be provided with positioned at the second motor rear end between groove The communication groove that groove sets groove with is set on described in UNICOM, is provided with second slippage slot by turn bearing or so equity The spiral bar that rises and falls coordinated with dynamic yoke plate screw thread, the spiral bar lower end of rising and falling, which extends downwardly into, to be set in groove, the sliding Left and right equity is provided with interior spiral hole in the end of bottom of chamber, and screw thread coordinates installation positioning spiral bar, the positioning in the interior spiral hole Spiral bar upper end, which is possibly extending up to down, to be set in groove, and can be connected to turn by turn bearing with sliding internal frame, the upper dress Determine groove and under set displacement device be installed in groove.

2. extrusion apparatus as claimed in claim 1, it is characterised in that：The displacement device is described including being fixedly mounted on Leading in communication groove moves bar and sliding is arranged on the position adjustable rack led and moved on bar, and the position adjustable rack upper end is provided with horizontal stroke Arm, the position adjustable rack lower end are provided with lower cross arm, the first line of a couplet are provided with by turn bearing respectively in the Top Crossbeam and lower cross arm Knot covers and lower coupling sleeve, is provided with the 3rd slippage slot in the communication groove rear end, is fixedly mounted in the 3rd slippage slot upper end There is the 3rd motor, the 3rd motor lower end is connected with conversion spiral bar, and the conversion spiral bar can be arranged on the 3rd to turn Slid in slippage slot bottom, in the 3rd slippage slot and spiral block is installed, the spiral block and the conversion spiral bar screw thread Coordinate, and be fixedly connected with the position adjustable rack.

3. extrusion apparatus as claimed in claim 1, it is characterised in that：Extruding is provided with the slid chamber center bottom Cavity plate, the Extruding die lower surface are provided with the squeezing action cambered surface being engaged with the extruding cambered surface, the extruding drift Directly over the Extruding die.

4. extrusion apparatus as claimed in claim 1, it is characterised in that：Slid chamber front-end and back-end lower end is respectively provided with There is the disengaging groove with slid chamber insertion.

5. extrusion apparatus as claimed in claim 1, it is characterised in that：The drift caudal that extrudes is to the dynamic yoke plate top The length at end is equal with the length of the second slippage slot top to the sliding internal frame bottom.