CN109057879A - A kind of steam turbine blade support arrangement of automation - Google Patents

Abstract

The invention discloses a kind of steam turbine blade support arrangements of automation, including apparatus main body, it is set to the intracorporal driving device of described device master and is set to the intracorporal grinding device of described device master, the driving device includes being set to intracorporal first cavity of described device master, the first sliding block is slidably provided in first cavity, what is be connected in the left and right sides inner wall of first cavity is provided with the second cavity, the second sliding block for extending and being passed through in second cavity is fixedly connected on the left and right sides end face of first sliding block, third cavity is provided in first sliding block, in the upper inside walls of the third cavity downward through and what is be connected be provided with first through hole；The present invention is directed to design a kind of steam that need to only be passed through can automatically carry out the grinding of feed and fed, operated without manpower intervention, the degree of automation is higher, device easy to use.

Description

A kind of steam turbine blade support arrangement of automation

Technical field

The present invention relates to automation equipment technical field, the steam turbine blade support arrangement of specifically a kind of automation.

Background technique

In many fish culture factories, staff needs to carry out to launch rearing pool feed daily to meet fish growth It is required, very complicated and great work intensity, while feed a part need to first carry out being ground into little particle when being fed after can Fed, this process can further increase workload again, be inconvenient, thus design it is a kind of need to only be passed through steam can from The grinding of dynamic progress feed is simultaneously fed, a kind of steam turbine blade support arrangement of automation without manpower intervention operation It is really necessary to.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of steam turbine blade support arrangements of automation, can solve The problems in certainly above-mentioned present technology.

The present invention is achieved through the following technical solutions: a kind of turbine blade branch of automation of the invention installs It sets, including apparatus main body, is set to the intracorporal driving device of described device master and is set to the intracorporal grinding of described device master Device, the driving device include being set to intracorporal first cavity of described device master, are slidably set in first cavity It is equipped with the first sliding block, what is be connected in the left and right sides inner wall of first cavity is provided with the second cavity, first sliding block Left and right sides end face on be fixedly connected with and extend the second sliding block for being passed through in second cavity, setting in first sliding block Have a third cavity, in the upper inside walls of the third cavity downward through and what is be connected be provided with first through hole, the third What is be connected in the left and right sides inner wall of cavity is provided with the second through-hole that Open Side Down, slidably sets in the third cavity It is equipped with third sliding block, is fixedly connected with first between the downside end face of the third sliding block and the downside inner wall of the third cavity Spring, what the upper inside walls of first cavity were connected is provided with the 4th cavity, is slidably arranged in the 4th cavity Have a Four-slider, in the Four-slider bilateral symmetry and it is perforative up and down be provided with third through-hole, under the Four-slider It is fixedly connected with the first pushing block on side end face, the 5th sky that Open Side Down is provided in the left and right sides inner wall of the 4th cavity Chamber is slidably provided with the 5th sliding block, end of the 5th sliding block far from first pushing block side in the 5th cavity Convex block is provided on face, wherein symmetrical in first sliding block to be provided with opening upwards and be with the 5th sliding block The 6th cavity matched, be connected in the inner wall of the 6th cavity far from third cavity side to be provided with first recessed Slot is provided with the 7th cavity in the upper inside walls of the 5th cavity, is provided with the 6th sliding block in the 7th cavity, and described What is be connected between the downside inner wall of seven cavitys and the upper inside walls of the 5th cavity is provided with fourth hole, and the described 6th is sliding It is fixedly connected with to extend through the fourth hole and extend the 7th be passed through in the 5th cavity on the downside end face of block and slide Block is symmetrically arranged with the 8th cavity that Open Side Down in the front and back side inner wall of the 4th cavity, sets in the 8th cavity It is equipped with and extends the 8th sliding block that is passed through in first cavity, the upside end face of the 8th sliding block is upper with the 8th cavity The first top pressure spring is fixedly connected between the inner wall of side, what is be connected between the 8th cavity and the 4th cavity is provided with Fifth hole, be rotatably provided in the fifth hole with the 8th sliding block close to one side end face of the 4th cavity and The first gear being meshed with the Four-slider, what is be connected in the upper inside walls of the 4th cavity is provided with opening to the right The first venthole, wherein what is be connected between the upper inside walls of the 7th cavity and first venthole is provided with One stomata, what is be connected in the inner wall of first venthole is provided with the 9th cavity, rotatably sets in the 9th cavity It is equipped with the 9th sliding block, it is perforative up and down in the 9th sliding block to be provided with the 6th through-hole, it is fixed on the inner wall of the 6th through-hole It is provided with the first turbine flabellum, being provided with for being connected in the right side inner wall of the 9th cavity first is begun to speak, and described first opens The second gear being meshed with the 9th sliding block is rotatably provided between the upper and lower sides inner wall of chamber, the second gear The first rotation axis is fixedly installed at axle center, the lower end of first rotation axis is rotatablely connected with described first by bearing On the downside inner wall begun to speak, the upper end of first rotation axis is connected on the grinding device, setting in described device main body There is fixed device.

As a preferred technical solution, the grinding device include be set in described device main body and opening upwards the Two begin to speak, and the first fixed block is fixedly connected on the described first downside inner wall begun to speak, is run through up and down in first fixed block Be provided with the 7th through-hole, be provided with grinding block on the upside end face of first fixed block, the grinding block be trapezoidal shape and The inner wall that side curved end is begun to speak with described second offsets, so when the grinding block rotation when can by the grinding block with Feed is ground into little particle by the described second friction begun to speak between inner wall, wherein the upper end of first rotation axis extends logical It is fixedly connected on the downside end face of the grinding block after crossing the 7th through-hole, circular array on the downside end face of the grinding block It arranges and that fixes is connected with hairbrush, the hairbrush can be used to for the feed after grinding to be swept to side, and described second begins to speak close to the right side Be provided with savings chamber in the downside inner wall of side inner wall, the upper inside walls of the savings chamber with described second begin to speak between be connected Be provided with the 8th through-hole, the third that is provided with being connected in the downside inner wall of the savings chamber is begun to speak, the third begin to speak in can Rotation is provided with the first rotating block, and the first rotating block annular array is provided with opening the 4th beginning to speak to the left, institute It states and is fixedly installed the second rotation axis at the axle center of the first rotating block, left and right is provided in the downside inner wall that the third is begun to speak and is passed through It wears and what is be connected with first cavity the 5th begins to speak, wherein the third is begun to speak the lower end and the described 5th of inner left wall What is be connected between the upper inside walls begun to speak is provided with the 9th through-hole, and what is be connected in the inner wall of the 5th cavity is provided with Six cavitys are rotatably provided with the second rotating block in the 6th cavity, the perforative setting in left and right in second rotating block There is the tenth through-hole, be fixedly installed the second turbine flabellum on the inner wall of the tenth through-hole, wherein a left side for second rotation axis End extension is passed through the described 6th and begins to speak interior and be fixedly connected with the third gear being meshed with the upper end of second rotating block.

It is symmetrical in the left and right sides inner wall of 7th cavity as a preferred technical solution, and what is be connected is provided with the One guide runner is fixedly connected with first for extending and being passed through in first guide runner on the left and right sides end face of the 6th sliding block Slider guide is fixedly connected with first time between the downside end face of first slider guide and the downside inner wall of first guide runner Position spring, it is symmetrical in the front and back side inner wall of the 5th cavity and what is be connected is provided with the second guide runner, the 5th sliding block Front and back side end face on be fixedly connected with and extend the second slider guide for being passed through in second guide runner, second slider guide The second return spring is fixedly connected between right end face and the inner wall of second guide runner, the 8th cavity is far from described What is be connected in the inner wall of 4th cavity side is provided with third guide runner, is fixedly connected with and prolongs on the end face of the 8th sliding block Stretch the third slider guide being passed through in the third guide runner.

What the lower end of the first cavity inner left wall was connected to as a preferred technical solution, is provided with air inlet pipe, described Switch is provided in the inner wall of air inlet pipe.

Pressure valve, the pressure valve are fixedly installed in the inner wall of first venthole as a preferred technical solution, Controllable flow is passed through the pressure size of the gas in the first venthole, and the 5th cavity is interior with first cavity junction The first check valve is fixedly installed on wall, the gas in the 5th cavity is only capable of unidirectionally to the right.

It is slidably connected between first sliding block and the inner wall of first cavity as a preferred technical solution, same When, first sliding block separates the air-tightness of the upper and lower sides of first cavity, second sliding block and described second It is slidably connected between the inner wall of cavity, second sliding block separates the second cavity upper and lower sides air-tightness.

It is provided with bevel structure on the downside end face of first return spring as a preferred technical solution, described It is provided on the upside end face of five sliding blocks and is set to what the bevel structure on the downside of first return spring on end face matched Bevel structure.

The fixed device includes being fixedly connected on end face at left and right sides of described device main body as a preferred technical solution, The fixed plate of lower end, perforative up and down in the fixed plate to be provided with fixation hole, the present apparatus can be consolidated by the fixation hole It is fixed.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, the course of work of the present apparatus uses at this time Personnel, which open, to be switched and ventilates into the first cavity, at this time gradually with the pressure in the first cavity on the downside of the first sliding block Increase the first sliding block of gas push to be gradually increasing in the first cavity, in the process, when the upper surface of the first sliding block abuts to The lower end surface of 8th sliding block pushes the 8th sliding block to rise in the 8th cavity, and the 8th sliding block drives the 4th by first gear at this time Sliding block declines in the 4th cavity, and drives the first pushing block to be caught in the by relative motion between Four-slider and the first sliding block In one through-hole and third sliding block is pushed to move down in third cavity, when promotion third sliding block to the second through-hole upper end opening When downside, the gas in the first cavity on the downside of the first sliding block is entered in third cavity by the second through-hole, and passes through first Through-hole enters in the 4th cavity, and the gas in the 4th cavity is entered in the first venthole by third through-hole at this time, at this time Gas in first venthole is entered in the 7th cavity by the first stomata and drives the first return spring by the 6th sliding block It moves down, and then by being set to the 5th sliding block for driving and being protruded into the 6th cavity below on the 7th sliding block and the 5th sliding block Two sides are mobile to the left and right respectively, and then convex block is driven to protrude into the first groove, even if the air pressure at this time in the first cavity reduces by the One sliding block will not decline, and the gas for flowing through the first venthole at this time drives the 9th sliding block by the first turbine flabellum Rotation, and then the rotation of the first rotation axis is driven by second gear, and then drive grinding block rotation, grinding block can will pour at this time Second begin to speak in and be located at grinding block on the upside of feed carry out grind and dropped on the downside of grinding block after grinding second is begun to speak Interior feed is swept into the 8th through-hole by hairbrush and is fallen into the 8th through-hole, in the process, the gas in the first cavity It is entered in the 5th cavity by the first check valve, and the rotation of the second rotating block, and then band logical is driven by the second turbine flabellum It crosses third gear and drives the rotation of the second rotation axis, and then drive the 4th to begin to speak to rotate by the first rotating block, at this time in savings chamber Drop into the 4th of upside begin to speak in feed be taken to the downside that third is begun to speak, and the 5th cavity is fallen to by the 9th through-hole It is interior, while feed is blown out and is fallen in lake outside the 5th cavity by the gas by flowing through the 5th cavity, is fed, passes through this Device can automatically carry out the grinding of feed and automatically feed to fish, and user of service only needs the regular check present apparatus simultaneously The addition of feed is carried out, use cost is small, and it is easy to operate, a large amount of cost of labor is saved, is worth being recommended to use.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of schematic diagram of internal structure of the steam turbine blade support arrangement of automation of the invention；

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 structural schematic diagram in direction " C-C " in Fig. 2；

Fig. 5 is the structural schematic diagram in direction " D-D " in Fig. 2.

Specific embodiment

As Figure 1-Figure 5, the steam turbine blade support arrangement of a kind of automation of the invention, including apparatus main body 11, The driving device being set in described device main body 11 and the grinding device being set in described device main body 11, the driving Device includes the first cavity 21 being set in described device main body 11, is slidably provided with first in first cavity 21 Sliding block 74, what is be connected in the left and right sides inner wall of first cavity 21 is provided with the second cavity 22, first sliding block 74 Left and right sides end face on be fixedly connected with and extend the second sliding block 73 for being passed through in second cavity 22, first sliding block 74 Inside be provided with third cavity 76, in the upper inside walls of the third cavity 76 downward through and what is be connected be provided with first through hole 70, what is be connected in the left and right sides inner wall of the third cavity 76 is provided with the second through-hole 75 that Open Side Down, the third Third sliding block 80 is slidably provided in cavity 76, under the downside end face of the third sliding block 80 and the third cavity 76 The first spring 77 is fixedly connected between the inner wall of side, what the upper inside walls of first cavity 21 were connected is provided with the 4th cavity 34, it is slidably provided with Four-slider 81 in the 4th cavity 34, bilateral symmetry and is passed through up and down in the Four-slider 81 That wears is provided with third through-hole 33, is fixedly connected with the first pushing block 35 on the downside end face of the Four-slider 81, and the described 4th It is provided with the 5th cavity 39 that Open Side Down in the left and right sides inner wall of cavity 34, is slidably arranged in the 5th cavity 39 There is the 5th sliding block 37, the 5th sliding block 37 is provided with convex block 38 on the end face far from 35 side of the first pushing block, wherein institute Symmetrical the 6th cavity 79 that is provided with opening upwards and can match with the 5th sliding block 37 in the first sliding block 74 is stated, What the 6th cavity 79 was connected in the inner wall far from 76 side of third cavity be provided with the first groove 78, the described 5th It is provided with the 7th cavity 48 in the upper inside walls of cavity 39, is provided with the 6th sliding block 47 in the 7th cavity 48, the described 7th What is be connected between the downside inner wall of cavity 48 and the upper inside walls of the 5th cavity 39 is provided with fourth hole 42, and described It is fixedly connected with to extend through the fourth hole 42 and extend on the downside end face of six sliding blocks 47 and is passed through the 5th cavity 39 The 7th interior sliding block 43 is symmetrically arranged with the 8th cavity 83 that Open Side Down in the front and back side inner wall of the 4th cavity 34, Be provided in 8th cavity 83 and extend the 8th sliding block 88 that is passed through in first cavity 21, the 8th sliding block 88 it is upper Be fixedly connected with the first top pressure spring 84 between side end face and the upper inside walls of the 8th cavity 83, the 8th cavity 83 with What is be connected between 4th cavity 34 is provided with fifth hole 85, is rotatably provided in the fifth hole 85 and institute The 8th sliding block 88 is stated close to the first gear 86 the 4th cavity 34 1 side end face and be meshed with the Four-slider 81, institute State be connected in the upper inside walls of the 4th cavity 34 be provided with opening the first venthole 32 to the right, wherein the described 7th is empty What is be connected between the upper inside walls of chamber 48 and first venthole 32 is provided with the first stomata 49, first venthole 32 Inner wall in be connected be provided with the 9th cavity 51, be rotatably provided with the 9th sliding block 52 in the 9th cavity 51, institute State in the 9th sliding block 52 it is perforative up and down be provided with the 6th through-hole 53, be fixedly installed first on the inner wall of the 6th through-hole 53 Turbine flabellum 54, being provided with for being connected in the right side inner wall of the 9th cavity 51 first begin to speak 56, and described first begins to speak 56 Upper and lower sides inner wall between be rotatably provided with the second gear 55 being meshed with the 9th sliding block 52, the second gear The first rotation axis 29 is fixedly installed at 55 axle center, the lower end of first rotation axis 29 is rotatablely connected with by bearing Described first begin to speak 56 downside inner wall on, the upper end of first rotation axis 29 is connected on the grinding device, the dress It sets and is provided with fixed device in main body 11.

Valuably, the grinding device includes being set in described device main body 11 and the second of opening upwards begins to speak 25, Described first begin to speak 25 downside inner wall on be fixedly connected with the first fixed block 27, it is perforative up and down in first fixed block 27 It is provided with the 7th through-hole 28, grinding block 26 is provided on the upside end face of first fixed block 27, the grinding block 26 is ladder Shape and side curved end offset with the described second begin to speak 25 inner wall, and then can pass through institute when the grinding block 26 rotation It states grinding block 26 and feed is ground into little particle by the described second friction for beginning to speak between 25 inner walls, wherein first rotation The upper end of axis 29 is fixedly connected on the downside end face of the grinding block 26 after extending through the 7th through-hole 28, the grinding Annular array and fixation are connected with hairbrush 31 on the downside end face of block 26, and the hairbrush 31 can be used to sweep in the feed after grinding To side, described second begins to speak 25 is provided with savings chamber 24 in the downside inner wall of right side inner wall, the savings chamber 24 it is upper Side inner wall with described second begin to speak to be connected between 24 be provided with the 8th through-hole 23, phase in the downside inner wall of the savings chamber 24 The third that is provided with of connection begins to speak 69, and the third begins to speak rotatably to be provided with the first rotating block 68 in 69, and described first turn 68 annular array of motion block be provided with opening to the left the 4th begin to speak 67, be fixedly installed at the axle center of first rotating block 68 Have the second rotation axis 71, the third begin to speak 69 downside inner wall in be provided with left and right and run through and be connected with first cavity 21 Logical the 5th begins to speak 65, wherein the third begin to speak 69 inner left walls lower end with the described 5th begin to speak 65 upper inside walls it Between be connected be provided with the 9th through-hole 66, what is be connected in the inner wall of the 5th cavity 65 is provided with the 6th cavity 61, institute It states and is rotatably provided with the second rotating block 62 in the 6th cavity 61, left and right is perforative in second rotating block 62 is provided with Ten through-holes 64 are fixedly installed the second turbine flabellum 63 on the inner wall of the tenth through-hole 64, wherein second rotation axis 71 Left end extend and be passed through the described 6th and begin to speak in 61 and be fixedly connected with the to be meshed with the upper end of second rotating block 62 Three gears 72.

Valuably, symmetrical in the left and right sides inner wall of the 7th cavity 48 and what is be connected is provided with the first guide runner 45, it is fixedly connected with first for extending and being passed through in first guide runner 45 on the left and right sides end face of the 6th sliding block 47 and leads Sliding block 46 is fixedly connected between the downside end face of first slider guide 46 and the downside inner wall of first guide runner 45 One return spring 44, it is symmetrical in the front and back side inner wall of the 5th cavity 39 and what is be connected is provided with the second guide runner 41, institute The second slider guide 91 for being fixedly connected on the front and back side end face of the 5th sliding block 37 and extending and being passed through in second guide runner 41 is stated, The second return spring is fixedly connected between the right end face of second slider guide 91 and the inner wall of second guide runner 41 89, what is be connected in the inner wall of the 8th cavity 83 far from 34 side of the 4th cavity is provided with third guide runner 82, institute State the third slider guide 87 for being fixedly connected on the end face of the 8th sliding block 88 and extending and being passed through in the third guide runner 82.

Valuably, what the lower end of 21 inner left wall of the first cavity was connected to is provided with air inlet pipe 57, the air inlet pipe 57 Inner wall in be provided with switch 58.

Valuably, pressure valve 36 is fixedly installed in the inner wall of first venthole 32, the pressure valve 36 is controllable The pressure size of the gas to circulate in the first venthole 32, the 5th cavity 65 are interior with 21 junction of the first cavity The first check valve 59 is fixedly installed on wall, the gas in the 5th cavity 65 is only capable of unidirectionally to the right.

Valuably, it is slidably connected simultaneously between first sliding block 74 and the inner wall of first cavity 21, it is described First sliding block 74 separates the air-tightness of the upper and lower sides of first cavity 21, second sliding block 73 and second sky It is slidably connected between the inner wall of chamber 22, second sliding block 73 separates the 22 upper and lower sides air-tightness of the second cavity.

Valuably, bevel structure is provided on the downside end face of first return spring 44, the 5th sliding block 37 The inclined-plane knot matched with the bevel structure being set on the 44 downside end face of the first return spring is provided on the end face of upside Structure.

Valuably, the fixed device includes the fixation for being fixedly connected on 11 left and right sides end face lower end of described device main body Plate 201, perforative up and down in the fixed plate 201 to be provided with fixation hole 202, the present apparatus can be carried out by the fixation hole 202 It is fixed.

When original state, the downside end face of the second sliding block 73 and the downside inner wall of the second cavity 22 are abutted against, and at this time first Sliding block 74 declines to greatest extent in the first cavity 21, while the upside of the upside end face of third sliding block 80 and third cavity 76 Face abuts against, and first through hole 70 is opened gas by partition with third cavity 76 and is not communicated at this time, meanwhile, the 8th sliding block 88 is in the 8th sky Decline to greatest extent in chamber 83, Four-slider 81 rises to greatest extent in the 4th cavity 34, at this time the upper end of Four-slider 81 Face and the upper inside walls of the 4th cavity 34 abut against, while the 5th sliding block 37 is to greatest extent close to the first pushing block 35, the 6th sliding block 47 upside end face and the upper inside walls of the 7th cavity 48 abut against.

The course of work of the present apparatus, user of service opens switch 58 and ventilates into the first cavity 21 at this time, at this time As the pressure in the first cavity 21 of 74 downside of the first sliding block is gradually increased the first sliding block of gas push 74 in the first cavity 21 It is inside gradually increasing, in the process, when the lower end surface that the upper surface of the first sliding block 74 abuts to the 8th sliding block 88 pushes the 8th to slide Block 88 rises in the 8th cavity 83, and the 8th sliding block 88 drives Four-slider 81 in the 4th cavity 34 by first gear 86 at this time Interior decline, and drive the first pushing block 35 to be caught in first through hole 70 by the relative motion between Four-slider 81 and the first sliding block 74 It is interior and third sliding block 80 is pushed to move down in third cavity 76, when pushing 80 to the second through-hole of third sliding block, 75 upper end opening Downside when, the gas in the first cavity 21 of the downside of the first sliding block 74 is entered in third cavity 76 by the second through-hole 75, And entered in the 4th cavity 34 by first through hole 70, the gas in the 4th cavity 34 is entered by third through-hole 33 at this time In first venthole 32, the gas in the first venthole 32 is entered in the 7th cavity 48 and is passed through by the first stomata 49 at this time 6th sliding block 47 drives the first return spring 44 to move down, and then by being set on the 7th sliding block 43 and the 5th sliding block 37 Driving the 5th sliding block 37 protruded into the 6th cavity 79 below, two sides are mobile to the left and right respectively, and then convex block 38 is driven to protrude into first In groove 78, it will not decline the air pressure even if in the first cavity 21 reduces the first sliding block 74 at this time, flow through at this time The gas of first venthole 32 drives the rotation of the 9th sliding block 52 by the first turbine flabellum 54, and then is driven by second gear 55 The rotation of first rotation axis 29, and then grinding block 26 is driven to rotate, grinding block 26 can will pour into second and begin to speak in 25 and be located at this time The feed of the upside of grinding block 26 carries out grinding and will drop into the second of 26 downside of the grinding block feed link begun to speak in 25 after grinding It crosses hairbrush 31 to be swept into the 8th through-hole 23 and fall into the 8th through-hole 23, in the process, the gas in the first cavity 21 is logical It crosses the first check valve 59 to enter in the 5th cavity 65, and the rotation of the second rotating block 62 is driven by the second turbine flabellum 63, into And band drives the rotation of the second rotation axis 71 by third gear 72, and then drives the 4th to begin to speak 67 turns by the first rotating block 68 It is dynamic, dropped into savings chamber 24 at this time the 4th of upside begin to speak the feed in 67 be taken to third begin to speak 69 downside, and pass through 9th through-hole 66 is fallen in the 5th cavity 65, while the gas by flowing through the 5th cavity 65 is empty by feed blowout the 5th It falls in lake, is fed outside chamber 65.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, the course of work of the present apparatus uses at this time Personnel, which open, to be switched and ventilates into the first cavity, at this time gradually with the pressure in the first cavity on the downside of the first sliding block Increase the first sliding block of gas push to be gradually increasing in the first cavity, in the process, when the upper surface of the first sliding block abuts to The lower end surface of 8th sliding block pushes the 8th sliding block to rise in the 8th cavity, and the 8th sliding block drives the 4th by first gear at this time Sliding block declines in the 4th cavity, and drives the first pushing block to be caught in the by relative motion between Four-slider and the first sliding block In one through-hole and third sliding block is pushed to move down in third cavity, when promotion third sliding block to the second through-hole upper end opening When downside, the gas in the first cavity on the downside of the first sliding block is entered in third cavity by the second through-hole, and passes through first Through-hole enters in the 4th cavity, and the gas in the 4th cavity is entered in the first venthole by third through-hole at this time, at this time Gas in first venthole is entered in the 7th cavity by the first stomata and drives the first return spring by the 6th sliding block It moves down, and then by being set to the 5th sliding block for driving and being protruded into the 6th cavity below on the 7th sliding block and the 5th sliding block Two sides are mobile to the left and right respectively, and then convex block is driven to protrude into the first groove, even if the air pressure at this time in the first cavity reduces by the One sliding block will not decline, and the gas for flowing through the first venthole at this time drives the 9th sliding block by the first turbine flabellum Rotation, and then the rotation of the first rotation axis is driven by second gear, and then drive grinding block rotation, grinding block can will pour at this time Second begin to speak in and be located at grinding block on the upside of feed carry out grind and dropped on the downside of grinding block after grinding second is begun to speak Interior feed is swept into the 8th through-hole by hairbrush and is fallen into the 8th through-hole, in the process, the gas in the first cavity It is entered in the 5th cavity by the first check valve, and the rotation of the second rotating block, and then band logical is driven by the second turbine flabellum It crosses third gear and drives the rotation of the second rotation axis, and then drive the 4th to begin to speak to rotate by the first rotating block, at this time in savings chamber Drop into the 4th of upside begin to speak in feed be taken to the downside that third is begun to speak, and the 5th cavity is fallen to by the 9th through-hole It is interior, while feed is blown out and is fallen in lake outside the 5th cavity by the gas by flowing through the 5th cavity, is fed, passes through this Device can automatically carry out the grinding of feed and automatically feed to fish, and user of service only needs the regular check present apparatus simultaneously The addition of feed is carried out, use cost is small, and it is easy to operate, a large amount of cost of labor is saved, is worth being recommended to use.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (8)

1. a kind of steam turbine blade support arrangement of automation, including apparatus main body, it is set to the intracorporal driving of described device master Device and it is set to the intracorporal grinding device of described device master, the driving device includes that be set to described device master intracorporal First cavity is slidably provided with the first sliding block, phase in the left and right sides inner wall of first cavity in first cavity Connection is provided with the second cavity, and extension is fixedly connected on the left and right sides end face of first sliding block and is passed through second sky The second intracavitary sliding block, is provided with third cavity in first sliding block, in the upper inside walls of the third cavity downward through And what is be connected is provided with first through hole, what is be connected in the left and right sides inner wall of the third cavity is provided with what Open Side Down Second through-hole, is slidably provided with third sliding block in the third cavity, the downside end face of the third sliding block and described the The first spring is fixedly connected between the downside inner wall of three cavitys, what the upper inside walls of first cavity were connected is provided with Four cavitys are slidably provided with Four-slider in the 4th cavity, bilateral symmetry and run through up and down in the Four-slider Be provided with third through-hole, the first pushing block, a left side for the 4th cavity are fixedly connected on the downside end face of the Four-slider It is provided with the 5th cavity that Open Side Down in right two sides inner wall, is slidably provided with the 5th sliding block in the 5th cavity, institute It states and is provided with convex block on the 5th end face of the sliding block far from first pushing block side, wherein bilateral symmetry in first sliding block The 6th cavity for being provided with opening upwards and can match with the 5th sliding block, the 6th cavity is empty far from the third What is be connected in the inner wall of chamber side is provided with the first groove, is provided with the 7th cavity in the upper inside walls of the 5th cavity, Be provided with the 6th sliding block in 7th cavity, the upper inside walls of the downside inner wall of the 7th cavity and the 5th cavity it Between be connected be provided with fourth hole, be fixedly connected on the downside end face of the 6th sliding block and extend through the four-way Hole simultaneously extends the 7th sliding block being passed through in the 5th cavity, is symmetrically arranged with out in the front and back side inner wall of the 4th cavity Mouthful the 8th downward cavity, is provided with the 8th sliding block for extending and being passed through in first cavity in the 8th cavity, and described the The first top pressure spring is fixedly connected between the upside end face of eight sliding blocks and the upper inside walls of the 8th cavity, the described 8th is empty What is be connected between chamber and the 4th cavity is provided with fifth hole, be rotatably provided in the fifth hole with it is described 8th sliding block is close to the first gear the 4th cavity one side end face and be meshed with the Four-slider, the 4th cavity Upper inside walls in be connected be provided with opening the first venthole to the right, wherein the upper inside walls of the 7th cavity with What is be connected between first venthole is provided with the first stomata, and what is be connected in the inner wall of first venthole is provided with 9th cavity, is rotatably provided with the 9th sliding block in the 9th cavity, perforative up and down in the 9th sliding block to be provided with 6th through-hole, is fixedly installed the first turbine flabellum on the inner wall of the 6th through-hole, in the right side inner wall of the 9th cavity Being provided with for being connected first is begun to speak, and is rotatably provided between the described first upper and lower sides inner wall begun to speak and described 9th sliding The second gear that block is meshed is fixedly installed the first rotation axis at the axle center of the second gear, first rotation axis Lower end is rotatablely connected on the downside inner wall that described first begins to speak by bearing, and the upper end of first rotation axis is connected to On the grinding device, fixed device is provided in described device main body.

2. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: the grinding dress It sets including being set in described device main body and the second of opening upwards begins to speak, it is fixed on the described first downside inner wall begun to speak to connect It is connected to the first fixed block, it is perforative up and down in first fixed block to be provided with the 7th through-hole, the upside of first fixed block Grinding block is provided on end face, the grinding block is that the inner wall that trapezoidal shape and side curved end are begun to speak with described second offsets, And then feed is ground in the friction between the inner wall that can be begun to speak by the grinding block and described second when grinding block rotation At little particle, wherein the upper end of first rotation axis is fixedly connected on the grinding block after extending through the 7th through-hole Downside end face on, annular array and fixation are connected with hairbrush on the downside end face of the grinding block, and the hairbrush can be used to Feed after grinding is swept to side, described second, which begins to speak, is provided with savings chamber in the downside inner wall of right side inner wall, described The upper inside walls of savings chamber with described second begin to speak between be connected be provided with the 8th through-hole, the downside inner wall of the savings chamber The third that is provided with inside being connected is begun to speak, the third begin to speak it is interior be rotatably provided with the first rotating block, first rotation Block annular array is provided with opening the 4th beginning to speak to the left, is fixedly installed second turn at the axle center of first rotating block Moving axis, is provided with that left and right is run through and what is be connected with first cavity the 5th begins to speak in the downside inner wall that the third is begun to speak, Wherein, the third begin to speak inner left wall lower end and the 5th upper inside walls begun to speak between be connected be provided with the 9th Through-hole, what is be connected in the inner wall of the 5th cavity is provided with the 6th cavity, is rotatably provided in the 6th cavity Second rotating block, left and right is perforative in second rotating block is provided with the tenth through-hole, fixed on the inner wall of the tenth through-hole It is provided with the second turbine flabellum, wherein the left end extension of second rotation axis is passed through the described 6th and begins to speak interior and be fixedly connected There is the third gear being meshed with the upper end of second rotating block.

3. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: the described 7th is empty It is symmetrical and what is be connected is provided with the first guide runner in the left and right sides inner wall of chamber, on the left and right sides end face of the 6th sliding block Be fixedly connected with and extend the first slider guide for being passed through in first guide runner, the downside end face of first slider guide with it is described It is fixedly connected with the first return spring between the downside inner wall of first guide runner, it is symmetrical in the front and back side inner wall of the 5th cavity And what is be connected is provided with the second guide runner, and extension is fixedly connected on the front and back side end face of the 5th sliding block and is passed through described The second slider guide in two guide runners, it is fixed between the right end face of second slider guide and the inner wall of second guide runner It is connected with the second return spring, what is be connected in the inner wall of the 8th cavity far from the 4th cavity side is provided with third Guide runner is fixedly connected with the third slider guide for extending and being passed through in the third guide runner on the end face of the 8th sliding block.

4. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: described first is empty The lower end connection of chamber inner left wall is provided with air inlet pipe, and switch is provided in the inner wall of the air inlet pipe.

5. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: described first goes out Pressure valve is fixedly installed in the inner wall of stomata, the pressure that the pressure valve controllable flow is passed through the gas in the first venthole is big It is small, the first check valve, the 5th cavity are fixedly installed on the inner wall of the 5th cavity and first cavity junction Interior gas is only capable of unidirectionally to the right.

6. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: described first is sliding It is slidably connected simultaneously between block and the inner wall of first cavity, first sliding block is by the upper and lower sides of first cavity Air-tightness separated, be slidably connected between second sliding block and the inner wall of second cavity, described second is sliding Block separates the second cavity upper and lower sides air-tightness.

7. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: described first time It is provided with bevel structure on the downside end face of position spring, is provided with and is set to described the on the upside end face of the 5th sliding block The bevel structure that bevel structure on the downside of one return spring on end face matches.

8. a kind of steam turbine blade support arrangement of automation according to claim 1, it is characterised in that: the fixed dress Set the fixed plate including being fixedly connected on end face lower end at left and right sides of described device main body, it is perforative up and down in the fixed plate to set It is equipped with fixation hole, the present apparatus can be fixed by the fixation hole.