CN109224943A - A kind of gas turbine and its application method - Google Patents

Abstract

The invention discloses a kind of gas turbine and its application methods, this method institute use device includes apparatus main body, is set to the intracorporal agitating device of described device master, is set to the intracorporal discharger of described device master and is set to the intracorporal pressurizing unit of described device master, and the agitating device includes being set to the intracorporal first rotation chamber of described device master；Blender industrial at present generally separates transport and whipping step, it is worked respectively by two power sources to complete stirring work, many blenders are overturn to topple over the material that stirring is completed after completion of stirring simultaneously, it is prone to accidents, safety is lower, the present invention is directed to design one kind to synchronously complete transport and stirring by a power source, and stirring liquid intermittent can be added in whipping process keeps stirring more abundant, it is turned to after completion of stirring by switching simultaneously to start a kind of gas turbine of discharge and squeeze function and its application method.

Description

A kind of gas turbine and its application method

Technical field

The present invention relates to power source technical field, specially a kind of gas turbine and its application method.

Background technique

Industrial blender generally separates transport and whipping step at present, by two power sources work respectively come Stirring work is completed, while many blenders are overturn to topple over the material that stirring is completed after completion of stirring, are easy Generation accident, safety is lower, therefore designs one kind and can synchronously complete transport and stirring by a power source, and Stirring liquid intermittent can be added in whipping process keeps stirring more abundant, while being turned to after completion of stirring by switching to open Dynamic discharge and squeeze function, improve its working efficiency, and a kind of gas turbine simple to operate and its application method are real It is necessary to.

Summary of the invention

The purpose of the present invention is to provide a kind of gas turbine and its application methods, in the prior art above-mentioned for overcoming Defect.

A kind of gas turbine according to the present invention and its application method, this method institute use device include apparatus main body, set It is placed in the intracorporal agitating device of described device master, the intracorporal discharger of described device master is set to and is set to described device Main intracorporal pressurizing unit, the agitating device include being set to the intracorporal first rotation chamber of described device master, close to described the What is be connected in the upper inside walls of inner wall on the right side of one rotation chamber is provided with the first cavity, is fixedly installed and stirs in first cavity Room is mixed, the stir chamber of opening upwards is provided in the teeter chamber, the downside inner wall of inner wall on the right side of the first rotation chamber It is inside fixedly installed gas turbine, gas turbine upper end power, which is connected with, to be extended through the first rotation chamber and prolong Stretch the first rotating shaft being passed through in the stir chamber, be fixedly connected in the first rotating shaft it is several can in the stir chamber into Row rotates the stirring rod of stirring, and being fixedly connected in the first rotating shaft can be in the first tooth of the intracavitary rotation of first rotation Wheel, the first gear left end are provided with meshed second gear, and the second gear left end is provided with mutually nibbles with it The third gear of conjunction, what is be connected in the upper inside walls of the first rotation chamber inner left wall is provided with the second rotation chamber, What is be connected in the second rotation chamber upper inside walls is provided with third rotation chamber, is fixedly connected at the third gear axis It is intracavitary and extend and be passed through to the third and rotate the second intracavitary shaft to extend through second rotation, in second shaft Being fixedly connected with can be in the second shaft of the intracavitary rotation of second rotation, and second shaft front end is provided with meshed Second bevel gear, it is described second rotation chamber front inner wall in be connected be provided with transport chamber, be provided in the transport chamber Conveyer belt, the second bevel gear front end are connected to the conveyor belt back end by shaft, are fixedly connected in second shaft The first cam of intracavitary rotation can be rotated in the third by having, and what is be connected in inner wall on the right side of the third rotation chamber is provided with the One sliding cavity, what can be horizontally slipped in first sliding cavity is provided with the first pushing block, is provided in first pushing block up and down Perforative first through hole, what is be connected on the downside of first sliding cavity in inner wall is provided with the second cavity, first sliding cavity The third cavity for being provided with opening upwards being connected in upper inside walls is fixedly installed liquid chamber in the third cavity, institute State be provided with opening upwards in liquid chamber set sap cavity, set and stir liquid required for can loading primary stirring in sap cavity, it is described to set It is provided with the second through-hole in inner wall on the downside of sap cavity, what is be connected in the upper inside walls of the transport chamber inner left wall is provided with Opening upwards topple over chamber.

Further technical solution, the discharger include inner wall on the downside of being set to of being connected the first rotation chamber The 4th interior rotation chamber, gas turbine lower end power, which is connected with to extend, is passed through the third intracavitary to the 4th rotation Shaft, being fixedly connected in the third shaft can set in the handle ratchet wheel of the intracavitary rotation of the 4th rotation, the handle ratchet wheel It is equipped with the first ratchet with its phase one way engagement, what is be connected in inner wall on the downside of the 4th rotation chamber is provided with the 5th rotation Chamber, is fixedly connected at the axle center of first ratchet lower end to extend and is passed through fourth shaft intracavitary to the 5th rotation, described Being fixedly connected in 4th shaft can be provided in the 4th gear of the intracavitary rotation of the 5th rotation, the 4th gear right end The 5th meshed gear, what is be connected in the 5th rotation chamber upper inside walls is provided with the 6th rotation chamber, and described the It is fixedly connected with to extend at five gear axis and is passed through fiveth shaft intracavitary to the 6th rotation, it is fixed in the 5th shaft It is connected with the setting that can be connected in inner wall on the right side of the second cam of the intracavitary rotation of the 6th rotation, the 6th rotation chamber There is the second sliding cavity, what can be horizontally slipped in second sliding cavity is provided with the second pushing block, is provided in second pushing block Upper and lower perforative third through-hole, what is be connected in the second sliding cavity upper inside walls is provided with fourth hole, the four-way Hole is connected with the stir chamber, and what is be connected in inner wall on the downside of second sliding cavity is provided with outlet plenum.

Further technical solution, the pressurizing unit include being meshed in the 6th gear of the 5th gear right end, The 6th gear right end is provided with the 7th meshed gear, in the upside of inner wall on the right side of the 5th rotation chamber What is be connected in wall is provided with the 7th rotation chamber, is fixedly connected with extension at the 7th gear axis and is passed through to described 7th turn The 6th intracavitary shaft is moved, being fixedly connected in the 6th shaft can be in the triconodont of the intracavitary rotation of the 7th rotation Wheel, the third hand tap gear left end are provided with the 4th meshed bevel gear, phase in the 7th rotation chamber inner left wall The eight revolution that is provided with of connection moves chamber, is fixedly connected with extension at the axle center of the 4th bevel gear left end and is passed through to the eight revolution The 7th intracavitary shaft is moved, the crankshaft of intracavitary rotation can be moved in the eight revolution by being fixedly connected in the 7th shaft, described Crankshaft upper hinge is connected with pull rod, and pull rod lower end hinge is connected with the pressure ram that can be moved up and down in the stir chamber.

Further technical solution, what is be connected on the downside of first sliding cavity in inner wall is provided with the first limiting slot, institute State the first pushing block lower end be fixedly connected with extension be passed through to the first limited block in first limiting slot, first limited block The first spring is fixedly connected on the right side of right end and first limiting slot between inner wall, phase in inner wall on the downside of second sliding cavity Connection is provided with the second limiting slot, and second pushing block lower end is fixedly connected with extension and is passed through to second limiting slot It is fixedly connected with second spring between inner wall on the right side of second limited block, the second limited block right end and second limiting slot, What is be connected in the upper inside walls of inner wall on the right side of second sliding cavity is provided with third sliding cavity, the third sliding cavity Inside it is provided with positioner.

Further technical solution, the positioner include the first card that can be slided up and down in the third sliding cavity Block, first fixture block upper end are provided with the first pulling block that can be slided up and down in the third sliding cavity, close to the third What is be connected in the left and right sides inner wall of inner wall on the downside of sliding cavity is provided with third limiting slot, first fixture block left and right ends point It is not fixedly connected with extension to be passed through to the third limited block in the third limiting slot, third limited block upper end and described the It is fixedly connected with third spring between three limiting slot upper inside walls, in the left and right sides of the third sliding cavity upper inside walls What is be connected in wall is provided with the 4th limiting slot, and first pulling block left and right ends have been respectively fixedly connected with extension and have been passed through to described The 4th limited block in 4th limiting slot, it is fixed between the 4th limited block upper end and the 4th limiting slot upper inside walls to connect It is connected to the 4th spring.

Further technical solution is fixedly connected with first between first pulling block lower end and first fixture block upper end Bracing wire, the second pushing block upside end face are provided with opening upwards and can be with the first cards of the first fixture block phase clamping matching Hole.

The specific steps of this method are:

Firstly, when needing to stir, user of service, which pours into raw material, to be toppled over intracavitary, starts gas turbine, drive third shaft with And handle ratchet wheel rotation, handle ratchet wheel does not drive the first ratchet wheel at this time, and discharger and pressurizing unit do not work, while combustion gas Turbine drives first rotating shaft, stirring rod and first gear rotation, and then passes through engaging between first gear and second gear Effect drives second gear rotation, and then drives third gear, the by engagement between second gear and third gear Two shafts and the rotation of the second shaft drive the second cone tooth by the engagement between the second shaft and second bevel gear at this time Wheel rotation by feedstock transportation to stir chamber, while passing through the rotation of the second shaft so that conveyer belt, which is in, rotates forward working condition It drives the first cam to rotate, and then the first cam is made to push the first pushing block to the right, first through hole and the second through-hole is made to be in interval Connected state will be set the stirring liquid loaded in sap cavity and be flowed into stir chamber, so that raw material and stirring liquid fill in stir chamber Divide stirring, completes whipping step；

Secondly, the stirring liquid set in sap cavity is exhausted after the completion of stirring, sap cavity is set in reversion at this time, at this time at agitating device In inverted status, conveyer belt reversion does not influence that work is discharged, while being made by the one way engagement between handle ratchet wheel and the first ratchet With, the first ratchet of drive, the 4th shaft and the rotation of the 4th gear, and then pass through engaging between the 4th gear and the 5th gear Effect drives the 5th gear, the 5th shaft and the rotation of the second cam, at this time by the rotation of the second cam by the second pushing block to Right promotion, so that third through-hole and fourth hole and outlet plenum are in connected state, while at the first card hole and the first fixture block In detent position, the interior material for stirring completion of stir chamber can be flowed into for a person to use in outlet plenum at this time, while pass through the 5th gear Engagement between the 6th gear drives the rotation of the 6th gear, and then passes through engaging between the 6th gear and the 7th gear Effect drives the 7th gear, the 6th shaft and third hand tap gear rotation, so by third hand tap gear and the 4th bevel gear it Between engagement drive the 4th bevel gear, the 7th shaft and crank rotation, pressure ram is carried out up and down by pull rod at this time Shift reciprocately makes the material that stirring is completed in stir chamber accelerate to flow into outlet plenum, completes discharge work；

Finally, stop the present apparatus when discharge finishes, complete work.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when needing to stir, user of service will be former Material, which pours into, topples over intracavitary, starting gas turbine, drives third shaft and handle ratchet wheel rotation, handle ratchet wheel does not drive the first spine at this time Wheel rotation, discharger and pressurizing unit do not work, while gas turbine drives first rotating shaft, stirring rod and first gear Rotation, and then second gear rotation is driven by the engagement between first gear and second gear, and then pass through the second tooth Engagement between wheel and third gear drives third gear, the second shaft and the second shaft to rotate, and passes through second at this time Engagement between shaft and second bevel gear drives second bevel gear rotation, so that conveyer belt, which is in, rotates forward working condition, Drive the rotation of the first cam by feedstock transportation to stir chamber, while by the rotation of the second shaft, so make the first cam to The first pushing block of right promotion makes first through hole and the second through-hole be in intermittent communication state, will set the stirring liquid stream loaded in sap cavity Enter to stir chamber, so that raw material and stirring liquid are sufficiently stirred in stir chamber, completes whipping step, after the completion of stirring, The stirring liquid set in sap cavity is exhausted, and sap cavity is set in reversion at this time, and agitating device is in inverted status at this time, and conveyer belt inverts, It does not influence that work is discharged, while by the one way engagement effect between handle ratchet wheel and the first ratchet, driving the first ratchet, the 4th turn Axis and the rotation of the 4th gear, and then the 5th gear, the 5th are driven by the engagement between the 4th gear and the 5th gear Shaft and the rotation of the second cam, are at this time pushed to the right the second pushing block by the rotation of the second cam so that third through-hole with Fourth hole and outlet plenum are in connected state, while the first card hole and the first fixture block are in detent position, at this time stir chamber The material that interior stirring is completed can flow into it is for a person to use in outlet plenum, while by engaging work between the 5th gear and the 6th gear It is rotated with the 6th gear of drive, and then the 7th gear, the 6th is driven by the engagement between the 6th gear and the 7th gear Shaft and third hand tap gear rotation, and then the 4th cone is driven by the engagement between third hand tap gear and the 4th bevel gear Pressure ram is up and down reciprocatingly displaced by pull rod by gear, the 7th shaft and crank rotation at this time, makes stirring in stir chamber The material of completion is accelerated to flow into outlet plenum, completes discharge work, stops the present apparatus when discharge finishes, completes work, pass through The present apparatus can be to industrially needing the raw material stirred to carry out automatic transportation and automatic stirring, and in whipping process between energy Stirring liquid, which is added, in having a rest property keeps stirring more abundant, while being turned to after completion of stirring by switching to start discharge and squeeze function Can, its working efficiency is improved, it is simple to operate, it is worth being recommended to use.

Detailed description of the invention

Fig. 1 is overall structure diagram inside a kind of gas turbine of the invention and its application method；

Fig. 2 is the enlarged diagram of " A " in Fig. 1；

Fig. 3 is the enlarged diagram of " B " in Fig. 1；

Fig. 4 is the enlarged diagram of " C " in Fig. 1；

Fig. 5 is the enlarged diagram of " D-D " in Fig. 1；

Fig. 6 is the enlarged diagram of " E-E " in Fig. 1.

Specific embodiment

Below with reference to Fig. 1-6, the present invention is described in detail.

Referring to Fig.1-6, a kind of gas turbine of embodiment according to the present invention and its application method, this method use dress It sets including apparatus main body 10, the agitating device being set in described device main body 10, the row being set in described device main body 10 Device and the pressurizing unit being set in described device main body 10 out, the agitating device include being set to described device main body The first rotation chamber 11 in 10, what is be connected in the upper inside walls of the first rotation 11 right side inner wall of chamber is provided with first Cavity 12 is fixedly installed teeter chamber 13 in first cavity 12, the stirring of opening upwards is provided in the teeter chamber 13 Chamber 14 is fixedly installed gas turbine 15, the combustion gas wheel in the downside inner wall of the first rotation 11 right side inner wall of chamber 15 upper end power of machine, which is connected with, to be extended through the first rotation chamber 11 and extends the be passed through to the stir chamber 14 One shaft 16 is fixedly connected with several stirring rod that rotation stirring can be carried out in the stir chamber 14 in the first rotating shaft 16 17, it is fixedly connected with the first gear 18 that can be rotated in the first rotation chamber 11 in the first rotating shaft 16, described first 18 left end of gear is provided with meshed second gear 19, and 19 left end of second gear is provided with meshed Three gears 20, what is be connected in the upper inside walls of the first rotation 11 inner left wall of chamber is provided with the second rotation chamber 21, What is be connected in second rotation, 21 upper inside walls of chamber is provided with third rotation chamber 22, fixes at 20 axle center of third gear It is connected with and extends through in the second rotation chamber 21 and extend the second shaft 23 being passed through in third rotation chamber 22, institute State the second shaft 23 for being fixedly connected with and being rotated in the second shaft 23 in the second rotation chamber 21, second shaft 23 Front end is provided with meshed second bevel gear 25, and what is be connected in the second rotation 21 front inner wall of chamber is provided with fortune Defeated chamber 26 is provided with conveyer belt 27 in the transport chamber 26, and 25 front end of second bevel gear is connected to the biography by shaft Send band 27 rear end, the first cam 28 rotated in chamber 22 can be rotated in the third by being fixedly connected in second shaft 23, What is be connected in the third rotation 22 right side inner wall of chamber is provided with the first sliding cavity 29, can control in first sliding cavity 29 Sliding is provided with the first pushing block 30, and perforative first through hole 31 up and down is provided in first pushing block 30, and described first is sliding What is be connected in dynamic 29 downside inner wall of chamber is provided with the second cavity 32, and what is be connected in 29 upper inside walls of the first sliding cavity sets It is equipped with the third cavity 33 of opening upwards, liquid chamber 34 is fixedly installed in the third cavity 33, is set in the liquid chamber 34 Be equipped with opening upwards sets sap cavity 35, sets and stirs liquid required for can loading primary stirring in sap cavity 35, described to set under sap cavity 35 The second through-hole 36 is provided in the inner wall of side, what is be connected in the upper inside walls of 26 inner left wall of transport chamber is provided with out Mouthful upward topples over chamber 37.

Valuably or illustratively, the discharger includes in being set to of being connected 11 downside of the first rotation chamber The 4th rotation chamber 38 in wall, the 15 lower end power of gas turbine are connected with extension and are passed through to the 4th rotation chamber 38 Interior third shaft 39 is fixedly connected with the handle ratchet wheel that can be rotated in the 4th rotation chamber 38 in the third shaft 39 40, the first ratchet 41 with its phase one way engagement is provided in the handle ratchet wheel 40, in the 4th rotation 38 downside inner wall of chamber What is be connected is provided with the 5th rotation chamber 42, and extension is fixedly connected at the 41 lower end axle center of the first ratchet and is passed through to described the Five rotate the 4th shaft 43 in chambers 42, and being fixedly connected in the 4th shaft 43 can rotate in the 5th rotation chamber 42 The 4th gear 44,44 right end of the 4th gear is provided with the 5th meshed gear 45, the 5th rotation chamber 42 What is be connected in upper inside walls is provided with the 6th rotation chamber 46, be fixedly connected at 45 axle center of the 5th gear extension be passed through to Described 6th rotates the 5th shaft 47 in chamber 46, and being fixedly connected in the 5th shaft 47 can be in the 6th rotation chamber 46 Second cam 48 of interior rotation, the described 6th rotates second sliding cavity 49 that is provided with being connected in 46 right side inner wall of chamber, described What can be horizontally slipped in second sliding cavity 49 is provided with the second pushing block 50, and up and down perforative the is provided in second pushing block 50 Three through-holes 51, what is be connected in 49 upper inside walls of the second sliding cavity is provided with fourth hole 52, the fourth hole 52 with The stir chamber 14 is connected, and what is be connected in the 49 downside inner wall of the second sliding cavity is provided with outlet plenum 53.

Valuably or illustratively, the pressurizing unit includes being meshed in the 6th gear of 45 right end of the 5th gear 54,54 right end of the 6th gear is provided with the 7th meshed gear 55, in 42 right side of the 5th rotation chamber What is be connected in the upper inside walls of wall is provided with the 7th rotation chamber 56, and it is logical to be fixedly connected with extension at 55 axle center of the 7th gear Enter to the 6th shaft 57 in the 7th rotation chamber 56, being fixedly connected in the 6th shaft 57 can be in the 7th rotation The third hand tap gear 58 rotated in chamber 56,58 left end of third hand tap gear are provided with the 4th meshed bevel gear 59, The eight revolution that is provided with being connected in 7th rotation, 56 inner left wall of chamber moves chamber 60, the 59 left end axle center of the 4th bevel gear Place is fixedly connected with the 7th shaft 61 for extending and being passed through to the eight revolution and moving in chamber 60, is fixedly connected in the 7th shaft 61 The crankshaft 62 rotated in chamber 60 can be moved in the eight revolution by having, and 62 upper hinge of crankshaft is connected with pull rod 63, the pull rod 63 Lower end hinge is connected with the pressure ram 64 that can be moved up and down in the stir chamber 14.

Valuably or illustratively, what is be connected in the 29 downside inner wall of the first sliding cavity is provided with the first limiting slot 65,30 lower end of the first pushing block is fixedly connected with extension and is passed through to the first limited block 66 in first limiting slot 65, institute It states and is fixedly connected with the first spring 67 between 65 right side inner wall of 66 right end of the first limited block and first limiting slot, described second What is be connected in 49 downside inner wall of sliding cavity is provided with the second limiting slot 68, and 50 lower end of the second pushing block is fixedly connected with extension It is passed through to the second limited block 69 in second limiting slot 68,69 right end of the second limited block and second limiting slot 68 It is fixedly connected with second spring 70 between the inner wall of right side, is connected in the upper inside walls of the 49 right side inner wall of the second sliding cavity Logical is provided with third sliding cavity 71, is provided with positioner in the third sliding cavity 71.

Valuably or illustratively, the positioner includes can slide up and down in the third sliding cavity 71 first Fixture block 72,72 upper end of the first fixture block are provided with the first pulling block 73 that can be slided up and down in the third sliding cavity 71, lean on What is be connected in the left and right sides inner wall of the nearly 71 downside inner wall of third sliding cavity is provided with third limiting slot 74, and described first 72 left and right ends of fixture block are respectively fixedly connected with extension and are passed through to the third limited block 75 in the third limiting slot 74, and described It is fixedly connected with third spring 76 between three limited blocks, 75 upper end and 74 upper inside walls of third limiting slot, close to the third What is be connected in the left and right sides inner wall of 71 upper inside walls of sliding cavity is provided with the 4th limiting slot 77, first pulling block 73 or so Both ends are respectively fixedly connected with extension and are passed through to the 4th limited block 78 in the 4th limiting slot 77, the 4th limited block 78 The 4th spring 79 is fixedly connected between upper end and 77 upper inside walls of the 4th limiting slot.

Valuably or illustratively, it is fixedly connected between 73 lower end of the first pulling block and 72 upper end of the first fixture block First bracing wire 80, the 50 upside end face of the second pushing block are provided with opening upwards and can be with the 72 phase clamping matchings of the first fixture block The first card hole 81.

The specific steps of this method are:

Firstly, user of service, which pours into raw material, to be toppled in chamber 37 when needing to stir, start gas turbine 15, third is driven to turn Axis 39 and handle ratchet wheel 40 rotate, and handle ratchet wheel 40 does not drive the first ratchet 41 to rotate at this time, and discharger and pressurizing unit are not Work, while gas turbine 15 drives first rotating shaft 16, stirring rod 17 and first gear 18 to rotate, and then passes through first gear Engagement between 18 and second gear 19 drives second gear 19 to rotate, and then passes through second gear 19 and third gear 20 Between engagement drive third gear 20, the second shaft 23 and the second shaft 23 rotation, at this time pass through the second shaft 23 Engagement between second bevel gear 25 drives second bevel gear 25 to rotate, so that conveyer belt 27, which is in, rotates forward work shape State drives the rotation of the first cam 28 by feedstock transportation to stir chamber 14, while by the rotation of the second shaft 23, and then makes the One cam 28 pushes to the right the first pushing block 30, so that first through hole 31 and the second through-hole 36 is in intermittent communication state, will set sap cavity The stirring liquid loaded in 35 flows into stir chamber 14, so that raw material and stirring liquid are sufficiently stirred in stir chamber 14, completes Whipping step；

Secondly, the stirring liquid set in sap cavity 35 is exhausted after the completion of stirring, sap cavity 35 is set in reversion at this time, at this time stirring dress It sets in inverted status, conveyer belt 27 inverts, and does not influence that work is discharged, while by between handle ratchet wheel 40 and the first ratchet 41 One way engagement effect, drives the first ratchet 41, the 4th shaft 43 and the rotation of the 4th gear 44, so by the 4th gear 44 with Engagement between 5th gear 45 drives the 5th gear 45, the 5th shaft 47 and the rotation of the second cam 48, passes through at this time The rotation of second cam 48 pushes to the right the second pushing block 50, so that at third through-hole 51 and fourth hole 52 and outlet plenum 53 In connected state, while the first card hole 81 and the first fixture block 72 are in detent position, the material that stirring is completed in stir chamber 14 at this time Material can flow into for a person to use in outlet plenum 53, while drive the by engagement between the 5th gear 45 and the 6th gear 54 The rotation of six gears 54, and then the 7th gear the 55, the 6th is driven by the engagement between the 6th gear 54 and the 7th gear 55 Shaft 57 and third hand tap gear 58 rotate, and then pass through the engagement band between third hand tap gear 58 and the 4th bevel gear 59 Dynamic 4th bevel gear 59, the 7th shaft 61 and crankshaft 62 rotate, and are at this time carried out pressure ram 64 up and down reciprocatingly by pull rod 63 Displacement makes the material that stirring is completed in stir chamber 14 accelerate to flow into outlet plenum 53, completes discharge work；

Finally, stop the present apparatus when discharge finishes, complete work.

When original state, the first pushing block 30 is moved to the left to greatest extent in the first sliding cavity 29, at this time first through hole 31 It is in misaligned state with the second through-hole 36, while the second pushing block 50 is moved to the left to greatest extent in the second sliding cavity 49, at this time Third through-hole 51 and fourth hole 52 are in misaligned state, and 72 lower end of the first fixture block extends and is passed through to the second sliding cavity 49 at this time It is interior, while the first pulling block 73 is located at lower limit position in third sliding cavity 71.

When needing to stir, user of service, which pours into raw material, to be toppled in chamber 37, starts gas turbine 15, drives third shaft 39 and handle ratchet wheel 40 rotate, handle ratchet wheel 40 does not drive the first ratchet 41 to rotate at this time, discharger and pressurizing unit not work Make, while gas turbine 15 drives first rotating shaft 16, stirring rod 17 and first gear 18 to rotate, and then passes through first gear 18 Engagement between second gear 19 drives second gear 19 to rotate, so by second gear 19 and third gear 20 it Between engagement drive third gear 20, the second shaft 23 and the rotation of the second shaft 23, at this time by the second shaft 23 with Engagement between second bevel gear 25 drives second bevel gear 25 to rotate, so that conveyer belt 27, which is in, rotates forward working condition, The rotation of the first cam 28 is driven by feedstock transportation to stir chamber 14, while by the rotation of the second shaft 23, and then makes first Cam 28 pushes to the right the first pushing block 30, so that first through hole 31 and the second through-hole 36 is in intermittent communication state, will set sap cavity 35 The stirring liquid of interior loading flows into stir chamber 14, so that raw material and stirring liquid are sufficiently stirred in stir chamber 14, completes to stir Step is mixed, after the completion of stirring, the stirring liquid set in sap cavity 35 is exhausted, and sap cavity 35 is set in reversion at this time, at this time agitating device In inverted status, conveyer belt 27 is inverted, and does not influence that work is discharged, while passing through the list between handle ratchet wheel 40 and the first ratchet 41 To engagement, the first ratchet 41, the 4th shaft 43 and the rotation of the 4th gear 44 are driven, and then pass through the 4th gear 44 and the Engagement between five gears 45 drives the 5th gear 45, the 5th shaft 47 and the rotation of the second cam 48, at this time by the The rotation of two cams 48 pushes to the right the second pushing block 50, so that third through-hole 51 is in fourth hole 52 and outlet plenum 53 Connected state, while the first card hole 81 and the first fixture block 72 are in detent position, the material that stirring is completed in stir chamber 14 at this time It can flow into for a person to use in outlet plenum 53, while drive the 6th by engagement between the 5th gear 45 and the 6th gear 54 Gear 54 rotates, and then drives the 7th gear 55, the 6th turn by the engagement between the 6th gear 54 and the 7th gear 55 Axis 57 and third hand tap gear 58 rotate, and then are driven by the engagement between third hand tap gear 58 and the 4th bevel gear 59 4th bevel gear 59, the 7th shaft 61 and crankshaft 62 rotate, and pressure ram 64 is carried out up and down reciprocatingly position by pull rod 63 at this time It moves, the material that stirring is completed in stir chamber 14 is made to accelerate to flow into outlet plenum 53, complete discharge work, the stopping when discharge finishes The present apparatus completes work.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when needing to stir, user of service will be former Material, which pours into, topples over intracavitary, starting gas turbine, drives third shaft and handle ratchet wheel rotation, handle ratchet wheel does not drive the first spine at this time Wheel rotation, discharger and pressurizing unit do not work, while gas turbine drives first rotating shaft, stirring rod and first gear Rotation, and then second gear rotation is driven by the engagement between first gear and second gear, and then pass through the second tooth Engagement between wheel and third gear drives third gear, the second shaft and the second shaft to rotate, and passes through second at this time Engagement between shaft and second bevel gear drives second bevel gear rotation, so that conveyer belt, which is in, rotates forward working condition, Drive the rotation of the first cam by feedstock transportation to stir chamber, while by the rotation of the second shaft, so make the first cam to The first pushing block of right promotion makes first through hole and the second through-hole be in intermittent communication state, will set the stirring liquid stream loaded in sap cavity Enter to stir chamber, so that raw material and stirring liquid are sufficiently stirred in stir chamber, completes whipping step, after the completion of stirring, The stirring liquid set in sap cavity is exhausted, and sap cavity is set in reversion at this time, and agitating device is in inverted status at this time, and conveyer belt inverts, It does not influence that work is discharged, while by the one way engagement effect between handle ratchet wheel and the first ratchet, driving the first ratchet, the 4th turn Axis and the rotation of the 4th gear, and then the 5th gear, the 5th are driven by the engagement between the 4th gear and the 5th gear Shaft and the rotation of the second cam, are at this time pushed to the right the second pushing block by the rotation of the second cam so that third through-hole with Fourth hole and outlet plenum are in connected state, while the first card hole and the first fixture block are in detent position, at this time stir chamber The material that interior stirring is completed can flow into it is for a person to use in outlet plenum, while by engaging work between the 5th gear and the 6th gear It is rotated with the 6th gear of drive, and then the 7th gear, the 6th is driven by the engagement between the 6th gear and the 7th gear Shaft and third hand tap gear rotation, and then the 4th cone is driven by the engagement between third hand tap gear and the 4th bevel gear Pressure ram is up and down reciprocatingly displaced by pull rod by gear, the 7th shaft and crank rotation at this time, makes stirring in stir chamber The material of completion is accelerated to flow into outlet plenum, completes discharge work, stops the present apparatus when discharge finishes, completes work, pass through The present apparatus can be to industrially needing the raw material stirred to carry out automatic transportation and automatic stirring, and in whipping process between energy Stirring liquid, which is added, in having a rest property keeps stirring more abundant, while being turned to after completion of stirring by switching to start discharge and squeeze function Can, its working efficiency is improved, it is simple to operate, it is worth being recommended to use.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (6)

1. a kind of gas turbine and its application method, this method institute use device includes apparatus main body, is set to described device master Intracorporal agitating device is set to the intracorporal discharger of described device master and is set to the intracorporal extruding dress of described device master It sets, it is characterised in that: the agitating device includes being set to the intracorporal first rotation chamber of described device master, close to described first turn What is be connected in the upper inside walls of inner wall on the right side of dynamic chamber is provided with the first cavity, is fixedly installed stirring in first cavity Room is provided with the stir chamber of opening upwards in the teeter chamber, in the downside inner wall of inner wall on the right side of the first rotation chamber It is fixedly installed gas turbine, gas turbine upper end power, which is connected with, extends through the first rotation chamber and extension It is passed through to the first rotating shaft in the stir chamber, be fixedly connected in the first rotating shaft several can carry out in the stir chamber The stirring rod of stirring is rotated, the first gear that can rotate intracavitary rotation described first is fixedly connected in the first rotating shaft, The first gear left end is provided with meshed second gear, and the second gear left end is provided with meshed Third gear, close described first rotates the second rotation chamber that is provided with being connected in the upper inside walls of chamber inner left wall, described What is be connected in second rotation chamber upper inside walls is provided with third rotation chamber, is fixedly connected with extension at the third gear axis Intracavitary and extension is rotated by described second to be passed through to the third and rotate the second intracavitary shaft, it is fixed in second shaft Meshed the can be provided in the second shaft of the intracavitary rotation of second rotation, second shaft front end by being connected with Two bevel gears, it is described second rotation chamber front inner wall in be connected be provided with transport chamber, transmission is provided in the transport chamber Band, the second bevel gear front end are connected to the conveyor belt back end by shaft, and being fixedly connected in second shaft can The first cam of intracavitary rotation is rotated in the third, what is be connected in inner wall on the right side of the third rotation chamber is provided with the first cunning Chamber is moved, what can be horizontally slipped in first sliding cavity is provided with the first pushing block, is provided in first pushing block and runs through up and down First through hole, what is be connected on the downside of first sliding cavity in inner wall is provided with the second cavity, on the upside of first sliding cavity The third cavity for being provided with opening upwards being connected in inner wall is fixedly installed liquid chamber in the third cavity, described to set Opening upwards are provided in liquid chamber sets sap cavity, sets and stirs liquid required for can loading primary stirring in sap cavity, described to set sap cavity The second through-hole is provided in the inner wall of downside, what is be connected in the upper inside walls of the transport chamber inner left wall is provided with opening Upward topples over chamber.

2. a kind of gas turbine according to claim 1 and its application method, it is characterised in that: the discharger includes The 4th rotation chamber being set on the downside of the first rotation chamber in inner wall being connected, the cooperation of gas turbine lower end power connect It is connected to extend and is passed through the third shaft intracavitary to the 4th rotation, being fixedly connected in the third shaft can be the described 4 The handle ratchet wheel of intracavitary rotation is rotated, the first ratchet with its phase one way engagement, the 4th rotation are provided in the handle ratchet wheel What is be connected in inner wall on the downside of chamber is provided with the 5th rotation chamber, is fixedly connected with extension at the axle center of first ratchet lower end and is passed through The 4th intracavitary shaft is rotated to the described 5th, being fixedly connected in the 4th shaft can be in the intracavitary rotation of the 5th rotation The 4th gear, the 4th gear right end is provided with the 5th meshed gear, the 5th rotation chamber upper inside walls What is be inside connected is provided with the 6th rotation chamber, and extension is fixedly connected at the 5th gear axis and is passed through to the 6th rotation The 5th intracavitary shaft, being fixedly connected in the 5th shaft can be in the second cam of the intracavitary rotation of the 6th rotation, institute State be connected in inner wall on the right side of the 6th rotation chamber be provided with the second sliding cavity, what can be horizontally slipped in second sliding cavity sets It is equipped with the second pushing block, perforative third through-hole up and down is provided in second pushing block, in the second sliding cavity upper inside walls What is be connected is provided with fourth hole, and the fourth hole is connected with the stir chamber, inner wall on the downside of second sliding cavity What is be inside connected is provided with outlet plenum.

3. a kind of gas turbine according to claim 1 and its application method, it is characterised in that: the pressurizing unit includes It is meshed in the 6th gear of the 5th gear right end, the 6th gear right end is provided with the 7th meshed tooth Wheel, what is be connected in the upper inside walls of inner wall on the right side of the 5th rotation chamber is provided with the 7th rotation chamber, the 7th tooth It is fixedly connected with to extend at wheel axle center and is passed through sixth shaft intracavitary to the 7th rotation, be fixedly connected in the 6th shaft Meshed the can be provided in the third hand tap gear of the intracavitary rotation of the 7th rotation, the third hand tap gear left end by having Four bevel gears, the described 7th, which rotates the eight revolution that is provided with being connected in chamber inner left wall, moves chamber, the 4th bevel gear left end It is fixedly connected with to extend to be passed through to the eight revolution at axle center and moves the 7th intracavitary shaft, be fixedly connected in the 7th shaft The crankshaft of intracavitary rotation can be moved in the eight revolution, the crankshaft upper hinge is connected with pull rod, the connection of pull rod lower end hinge There is the pressure ram that can be moved up and down in the stir chamber.

4. a kind of gas turbine according to claim 1 and its application method, it is characterised in that: under first sliding cavity What is be connected in the inner wall of side is provided with the first limiting slot, and first pushing block lower end is fixedly connected with extension and is passed through to described first It is fixedly connected between inner wall on the right side of the first limited block in limiting slot, the first limited block right end and first limiting slot First spring, what is be connected on the downside of second sliding cavity in inner wall is provided with the second limiting slot, and second pushing block lower end is solid Surely extension is connected with to be passed through to the second limited block in second limiting slot, the second limited block right end and second limit It is fixedly connected with second spring between inner wall on the right side of the slot of position, is connected in the upper inside walls of inner wall on the right side of second sliding cavity Logical is provided with third sliding cavity, is provided with positioner in the third sliding cavity.

5. a kind of gas turbine according to claim 1 and its application method, it is characterised in that: the positioner includes The first fixture block that can be slided up and down in the third sliding cavity, first fixture block upper end, which is provided with, to be slided in the third Intracavitary the first pulling block slided up and down, the setting being connected in the left and right sides inner wall of inner wall on the downside of the third sliding cavity There is third limiting slot, first fixture block left and right ends are respectively fixedly connected with that extension is passed through to the third limiting slot Three limited blocks are fixedly connected with third spring between third limited block upper end and the third limiting slot upper inside walls, lean on What is be connected in the left and right sides inner wall of the nearly third sliding cavity upper inside walls is provided with the 4th limiting slot, first pulling block Left and right ends are respectively fixedly connected with extension and are passed through to the 4th limited block in the 4th limiting slot, on the 4th limited block The 4th spring is fixedly connected between end and the 4th limiting slot upper inside walls.

6. a kind of gas turbine according to claim 1 and its application method, it is characterised in that: first pulling block lower end Be fixedly connected with the first bracing wire between first fixture block upper end, on the upside of second pushing block end face be provided with opening upwards and It can be with the first card hole of the first fixture block phase clamping matching；The specific steps of this method are:

Firstly, when needing to stir, user of service, which pours into raw material, to be toppled over intracavitary, starts gas turbine, drive third shaft with And handle ratchet wheel rotation, handle ratchet wheel does not drive the first ratchet wheel at this time, and discharger and pressurizing unit do not work, while combustion gas Turbine drives first rotating shaft, stirring rod and first gear rotation, and then passes through engaging between first gear and second gear Effect drives second gear rotation, and then drives third gear, the by engagement between second gear and third gear Two shafts and the rotation of the second shaft drive the second cone tooth by the engagement between the second shaft and second bevel gear at this time Wheel rotation by feedstock transportation to stir chamber, while passing through the rotation of the second shaft so that conveyer belt, which is in, rotates forward working condition It drives the first cam to rotate, and then the first cam is made to push the first pushing block to the right, first through hole and the second through-hole is made to be in interval Connected state will be set the stirring liquid loaded in sap cavity and be flowed into stir chamber, so that raw material and stirring liquid fill in stir chamber Divide stirring, completes whipping step；

Secondly, the stirring liquid set in sap cavity is exhausted after the completion of stirring, sap cavity is set in reversion at this time, at this time at agitating device In inverted status, conveyer belt reversion does not influence that work is discharged, while being made by the one way engagement between handle ratchet wheel and the first ratchet With, the first ratchet of drive, the 4th shaft and the rotation of the 4th gear, and then pass through engaging between the 4th gear and the 5th gear Effect drives the 5th gear, the 5th shaft and the rotation of the second cam, at this time by the rotation of the second cam by the second pushing block to Right promotion, so that third through-hole and fourth hole and outlet plenum are in connected state, while at the first card hole and the first fixture block In detent position, the interior material for stirring completion of stir chamber can be flowed into for a person to use in outlet plenum at this time, while pass through the 5th gear Engagement between the 6th gear drives the rotation of the 6th gear, and then passes through engaging between the 6th gear and the 7th gear Effect drives the 7th gear, the 6th shaft and third hand tap gear rotation, so by third hand tap gear and the 4th bevel gear it Between engagement drive the 4th bevel gear, the 7th shaft and crank rotation, pressure ram is carried out up and down by pull rod at this time Shift reciprocately makes the material that stirring is completed in stir chamber accelerate to flow into outlet plenum, completes discharge work；

Finally, stop the present apparatus when discharge finishes, complete work.