CN108517234A - A kind of efficient coal cinder making apparatus - Google Patents

Abstract

The invention discloses a kind of efficient coal cinder making apparatus,Including the first main base frame,The feeding device being set on first main base frame and the pressure device for coal being set on the end face of the first main base frame downside,The pressure device for coal includes the second main base frame being set on the downside of the main base frame on end face,The first pressure coal chamber is provided in second main base frame,Be provided in inner wall on the right side of the first pressure coal chamber connected with the first pressure coal chamber and opening to the right first slide chamber,The first pressure coal intracavitary is fixedly connected with the first oil cylinder by the first solid seat,It on the right side of first oil cylinder and slides intracavitary positioned at described first and is provided with the first sliding block that can be horizontally slipped,It is connected with the first telescopic mast between the first sliding block left end face and first oil cylinder,It is fixedly installed third main base frame in the right end face of second main base frame.

Description

A kind of efficient coal cinder making apparatus

Technical field

The present invention relates to briquette preparing technical field, specifically a kind of efficient coal cinder making apparatus.

Background technology

Nowadays, briquette demand is big, and briquette is formed by mechanical compaction, and is usually required for when carrying out briquette preparation The shaping work of briquette is carried out using to some expensive briquette preparation facilities, and also can in the maintenance of everyday devices A large amount of maintenance cost is spent, therefore design one kind to quantify to briquette progress shaping work, while also reducing plant maintenance A kind of efficient coal cinder making apparatus of expense it is really necessary to.

Invention content

Technical problem to be solved by the invention is to provide a kind of efficient coal cinder making apparatus, can solve above-mentioned existing In the art the problem of.

The present invention is achieved through the following technical solutions：A kind of efficient coal cinder making apparatus of the present invention, including It first main base frame, the feeding device being set on first main base frame and is set on the downside of first main base frame on end face Pressure device for coal, the pressure device for coal includes the second main base frame being set on the downside of the main base frame on end face, second master Be provided with the first pressure coal chamber in pedestal, be provided in the right side inner wall of the first pressure coal chamber connected with the first pressure coal chamber and Opening to the right first slide chamber, the first pressure coal intracavitary is fixedly connected with the first oil cylinder by the first solid seat, described first It on the right side of oil cylinder and slides intracavitary positioned at described first and is provided with the first sliding block that can be horizontally slipped, a left side for first sliding block It is connected with the first telescopic mast between side end face and first oil cylinder, fixes and sets in the right end face of second main base frame It is equipped with third main base frame, the second pressure coal that opening is provided in the third main base frame to the left and slides chamber connection with described first Chamber, described second presses be provided in the front and back side inner wall of coal chamber and connected with the second pressure coal chamber first to begin to speak, and described first The left end begun to speak and be provided on the upper and lower sides inner wall for pressing coal chamber positioned at described second with described first begin to speak to connect second open Chamber is provided with second connected with the second pressure coal chamber in the upper inside walls of the second pressure coal chamber and slides chamber, and described second The first lead-in cavity for being provided in the upper inside walls of chamber and sliding chamber connection with described second is slided, described second slides the right side of chamber First motor is fixedly installed in inner wall, the left end be connected by power of the first motor has the first spiral shell shape bar, the first spiral shell shape The left end of bar is rotatably assorted by bearing to be connected to described second and slides in the inner left wall of chamber, and described second slides intracavitary setting Having can horizontally slip and lower end extends the second sliding block for penetrating the second pressure coal intracavitary, second sliding block and described the One spiral shell shape bar screw-thread fit connects and by being fixedly connected on upper surface and extending into the first slide guide in first lead-in cavity Row block carries out leading position, and the lower end of second sliding block is fixedly connected with second and consolidates block, and described second consolidates on the downside end face of block It is fixedly connected with the second slide guide row block with inner wall sliding connection on the downside of the second pressure coal chamber, it is solid in the described second solid block Surely it is connected with the second motor, the left end of second motor has the first solid block by shaft be connected by power, the described first solid block Be fixedly installed respectively on upper and lower side end face extend penetrate described second begin to speak in the second solid block, the left side of the described first solid block The third sliding block that fixed setting presses the sliding connection of coal cavity wall with described second on end face, it is solid in the third sliding block Surely it is provided with the first vibrating device, is fixedly connected with the 4th main base frame on the downside end face of the third main base frame, the described 4th It is provided with the first empty slot of opening to the left in main base frame, it is empty that connection described first is provided in the upper inside walls of first empty slot The first blowdown chamber that slot presses coal chamber with described second is provided with the first receiving block of sliding connection in first empty slot, It is provided with the second empty slot in the first receiving block, connection first blowdown is provided in the upper inside walls of second empty slot Second blowdown chamber of chamber and second empty slot, it is described first receiving block left end face on be fixedly installed first handle, institute It states feeding device top and is additionally provided with lighting equipment.

The feeding device includes the first charging being set in first main base frame as a preferred technical solution, Slot, the right end of the first charging spout downside inner wall are provided with connection first charging spout and press the first of coal chamber with described second Cavity, is fixedly installed the second oil cylinder in the inner left wall of first charging spout, the upside of second oil cylinder and is located at institute It states the third for being provided in the first main base frame and connecting with first charging spout to begin to speak, being provided in first charging spout can be left 4th sliding block of right sliding is connected with second between the left end face and second oil cylinder of the 4th sliding block and stretches Contracting column, the upper end of the 4th sliding block left end face is fixedly connected with to extend and penetrates the third and begin to speak interior block, described It is provided through the second cavity up and down in 4th sliding block, it is logical that third is provided through in the upper inside walls of first charging spout Chamber is provided with storage box on the upside of first main base frame, storage chamber, the downside of the storage chamber is provided in the storage box The 4th cavity for being connected to the third cavity and the storage chamber is provided in inner wall, on the downside of the 4th cavity and positioned at described The second vibrating device identical with the first vibrating device structure, the storage are fixedly installed in the downside inner wall of first charging spout It is fixedly installed the first frame body on the right side of case and on the upside end face of first main base frame, is provided in the first body Second charging spout is provided with connection second charging spout and first charging spout in the downside inner wall of second charging spout And it is located at the 5th cavity right over first cavity, it is respectively arranged with landing in the left and right sides inner wall of second charging spout Chamber is fixedly installed third motor in the downside inner wall of the landing chamber, and the upper end be connected by power of the third motor has second The upper end of spiral shell shape bar, the second spiral shell shape bar is rotatably assorted by bearing in the upper inside walls for being connected to the landing chamber, described Landing intracavitary is provided with the elevator that can be slided up and down and be connect with the second spiral shell shape bar screw-thread fit, and the landing chamber is got close to Connection second discharging chamber is provided on the side inner wall of second discharging chamber to begin to speak with the 4th of the landing chamber, it is described The 5th sliding block that can slide up and down is provided in second charging spout, it is fixed between the 5th sliding block and the elevator to connect It is connected to the third slide guide row block slided up and down in can beginning to speak the described 4th, the 4th electricity is fixedly installed in the 5th sliding block Machine, the lower end be connected by power of the 4th motor have a steering shaft, the downside end face of the steering shaft and the 5th sliding block it Between be provided with the first closed circle, the lower end of the steering shaft is fixedly connected with connection block, is fixedly installed on the side wall of the block Ball brush, the left and right sides of the 4th motor and is provided with the electric fan chamber that Open Side Down in the 5th sliding block, described The 5th motor is fixedly installed in the upper inside walls of electric fan chamber, the 5th motor lower end has by shaft be connected by power positioned at institute The flabellum of electric fan intracavitary is stated, be connected by power is set between the shaft and the upper inside walls of the electric fan chamber of the 5th motor lower end It is equipped with the second closed circle.

First vibrating device includes vibration shell as a preferred technical solution, is provided in the vibration shell Vibration cavity is fixedly installed bobbing machine in the downside inner wall of the vibration cavity, and the upper end be connected by power of the bobbing machine has pivoted arm, The upper end of the pivoted arm is rotatably assorted by bearing in the upper inside walls for being connected to the vibration cavity, is fixedly connected on the pivoted arm There are the solid block of vibrations, the right end of the solid block of vibrations to be fixedly connected with clump weight.

It is provided through material guide port up and down in the upper inside walls of the storage chamber as a preferred technical solution, initial When state, the material guide port sealed set has cover board, the upside end face of the cover board to be fixedly installed second handle.

The third main base frame is fixed by the be fixedly connected on upside end face second solid seat as a preferred technical solution, It is connected in the right end face of first main base frame.

It is solid that third is provided between end face and the storage box on the upside of first main base frame as a preferred technical solution, Seat.

The lighting equipment includes be fixedly mounted on the feeding device top described as a preferred technical solution, Lamppost on one frame body, the lamppost top are installed with daylighting lamp.

The beneficial effects of the invention are as follows：The configuration of the present invention is simple, it is easy to operate, when carrying out briquette molding by the present apparatus, Staff opens cover board and is added into required molding briquette into storage chamber by material guide port, and coal passes through the 4th cavity at this time And third cavity drops into the second cavity, while the second vibrating device starts, bobbing machine rotates at this time, and then passes through pivoted arm The solid block rotation of vibrations is driven, and then drives clump weight rotation, and then the second vibration is driven by rotating eccentrically mounted clump weight Device shakes, and then is beneficial to drop into the coal in the second cavity and implements so that the molding briquette of institute is identical in quality, and at this time the Two oil cylinders start, and then by the second telescopic mast drive the 4th sliding block move right in the first charging spout to the second cavity with 5th cavity and the first cavity on-state, in the process, the 4th sliding block drive block to move right, and then pass through block Third cavity and the partition of the first charging spout are opened, third motor rotates at this time, and then drives elevator to exist by the second spiral shell shape bar Landing intracavitary moves down, and then the 5th sliding block is driven to move down, and the 4th motor rotates at this time, and then passes through steering shaft band Dynamic connection block rotation, and then the rotation of ball brush is driven, and will be in the second cavity by ball brush during the decline of the 5th sliding block Coal falls on the second pressure coal intracavitary by brush, while the 5th motor rotates, and then drives flabellum rotation by shaft, and then by powder It blows off, falls behind by the coal brush in the second cavity, the 4th sliding block and the 5th sliding block are returned to original state, while first Oil cylinder starts, and then drives the briquette that the first sliding block moves right, and then will fall into the second pressure coal chamber by the first telescopic mast It elapses to the right, and by the extruding between third sliding block by coal extrusion forming, after being molded, rotation, and then pass through Shaft drives the first solid block rotation, so drive the second solid block be transferred to first begin to speak in, first motor starts at this time, and then passes through First spiral shell shape bar drives the second sliding block to slide intracavitary second and moves right, and then the second solid block is driven to move right, in turn Drive third sliding block to move right, so drive the molding coal cinder that is built-up in third sliding block left end face move right to On the upside of first blowdown chamber, the first vibrating device starts at this time, and then the coal cinder in third sliding block is shaken off to the second empty slot, When the coal cinder storage capacity in the second empty slot reaches certain amount, staff can be by pulling first handle to be received first to the left Hold block to pull out from the first empty slot left end opening and then take out coal cinder, molding work can not only complete briquette by the present apparatus Make, while device self structure is simple, maintenance cost is relatively low, is worth of widely use.

Description of the drawings

The present invention is described in detail by following specific embodiment and attached drawing for ease of explanation,.

Fig. 1 is a kind of internal structure schematic diagram of efficient coal cinder making apparatus of the present 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 of the second vibrating device in the present invention.

Specific implementation mode

As Figure 1-Figure 4, a kind of efficient coal cinder making apparatus of the invention, including the first main base frame 11, be set to Feeding device on first main base frame 11 and the pressure device for coal being set on first main base frame, 11 downside end face, institute It includes the second main base frame 62 being set on 11 downside end face of the main base frame to state pressure device for coal, is set in second main base frame 62 It is equipped with the first pressure coal chamber 64, is provided in the right side inner wall of the first pressure coal chamber 64 and is connected and open with the first pressure coal chamber 64 Mouth to the right first slide chamber 68, first oil cylinder 65, institute are fixedly connected with by the first solid seat 63 in the first pressure coal chamber 64 It states the right side of the first oil cylinder 65 and slides the first sliding block 67 that is provided with and can horizontally slip in chamber 68 positioned at described first, described the The first telescopic mast 66, second main base frame are connected between the left end face of one sliding block 67 and first oil cylinder 65 Third main base frame 71 is fixedly installed in 62 right end face, be provided in the third main base frame 71 opening to the left and with it is described First slides the second pressure coal chamber 73 of the connection of chamber 68, is provided with and described second in the front and back side inner wall of the second pressure coal chamber 73 What pressure coal chamber 73 was connected first begins to speak 75, described first begin to speak 75 left end and press coal chamber 73 positioned at described second upper and lower sides in It is provided on wall and begins to speak the second of 75 connections to begin to speak 85 with described first, be provided in the upper inside walls of the second pressure coal chamber 73 Second connected with the second pressure coal chamber 73 slides chamber 81, described second slide be provided in the upper inside walls of chamber 81 with it is described Second slides the first lead-in cavity 79 of the connection of chamber 81, and described second slides in the right side inner wall of chamber 81 and be fixedly installed first motor 78, the left end be connected by power of the first motor 78 has the first spiral shell shape bar 82, the left end of the first spiral shell shape bar 82 to pass through bearing It is rotatably assorted and is connected to described second and slides in the inner left wall of chamber 81, described second slides and be provided with and can horizontally slip in chamber 81 And lower end extends the second sliding block 77 penetrated in the second pressure coal chamber 73, second sliding block 77 and the first spiral shell shape 82 screw-thread fit of bar connects and by being fixedly connected on upper surface and extending into the first slide guide row in first lead-in cavity 79 Block 83 carries out leading position, and the lower end of second sliding block 77 is fixedly connected with the second solid block 74, the downside of the described second solid block 74 It is fixedly connected with the second slide guide row block 72 with 73 downside inner wall sliding connection of the second pressure coal chamber on end face, described the The second motor 76 is fixedly connected in two solid blocks 74, the left end of second motor 76 has the first solid block by shaft be connected by power 87, be fixedly installed respectively on the side end face up and down of the described first solid block 87 extend penetrate described second begin to speak it is second solid in 85 Block 84, in the left end face of the described first solid block 87 fixed setting press the of the 73 inner wall sliding connection of coal chamber with described second Three sliding blocks 86 are fixedly installed the first vibrating device 110, the downside of the third main base frame 71 in the third sliding block 86 It is fixedly connected with the 4th main base frame 95 on end face, the first empty slot 92 of opening to the left, institute are provided in the 4th main base frame 95 It states to be provided in the upper inside walls of the first empty slot 92 and is connected to the first blowdown that first empty slot 92 presses coal chamber 73 with described second Chamber 88, is provided with the first receiving block 89 of sliding connection in first empty slot 92, setting in the first receiving block 89 There is the second empty slot 93, connection the first blowdown chamber 88 and second sky are provided in the upper inside walls of second empty slot 93 Second blowdown chamber 91 of slot 93, it is described first receiving block 89 left end face on be fixedly installed first handle 94, the charging Device top is additionally provided with lighting equipment.

Valuably, the feeding device includes the first charging spout 37 being set in first main base frame 11, and described The right end of one charging spout, 37 downside inner wall is provided with connection first charging spout 37 and presses the first of coal chamber 73 to lead to described second Chamber 61, is fixedly installed the second oil cylinder 21 in the inner left wall of first charging spout 37, the upside of second oil cylinder 21 and It is provided with the third connected with first charging spout 37 in first main base frame 11 and begins to speak 23, first charging spout The 4th sliding block 35 that can be horizontally slipped, left end face and second oil cylinder 21 of the 4th sliding block 35 are provided in 37 Between be connected with the second telescopic mast 24, the upper end of 35 left end face of the 4th sliding block is fixedly connected with extension and penetrates institute State the block 22 that third is begun to speak in 23, be provided through the second cavity 36 in the 4th sliding block 35 up and down, described first plus Third cavity 34 is provided through in the upper inside walls of hopper 37, the upside of first main base frame 11 is provided with storage box 26, It is provided with storage chamber 27 in the storage box 26, is provided in the downside inner wall of the storage chamber 27 and is connected to the third cavity 34 With the 4th cavity 32 of the storage chamber 37,32 downside of the 4th cavity and the downside inner wall positioned at first charging spout 37 It is inside fixedly installed the second vibrating device 100 identical with 110 structure of the first vibrating device, 26 right side of the storage box and is located at It is fixedly installed the first frame body 46 on the upside end face of first main base frame 11, second is provided in first frame body 46 and is added Hopper 47 is provided with connection second charging spout 47 and first charging spout in the downside inner wall of second charging spout 47 37 and the 5th cavity 38 right over first cavity 61, it sets respectively in the left and right sides inner wall of second charging spout 47 Be equipped with landing chamber 43, be fixedly installed third motor 42 in the downside inner wall of the landing chamber 43, the third motor 42 it is upper End be connected by power has the second spiral shell shape bar 44, and the upper end of the second spiral shell shape bar 44 is rotatably assorted by bearing is connected to the landing In the upper inside walls of chamber 43, being provided in the landing chamber 43 can slide up and down and connect with 44 screw-thread fit of the second spiral shell shape bar The elevator 49 connect, the landing chamber 43, which is got close on the side inner wall of second discharging chamber 47, to be provided with connection described second and goes out The 4th of material chamber 47 and the landing chamber 43 begins to speak 45, is provided with can slide up and down in second charging spout 47 and the 5th slide Block 52 is fixedly connected between the 5th sliding block 52 and the elevator 49 and can begin to speak to slide up and down in 45 the described 4th Third slide guide row block 51, be fixedly installed the 4th motor 53, the lower end of the 4th motor 53 in the 5th sliding block 52 Be connected by power has steering shaft 48, and it is closed to be provided with first between the steering shaft 48 and the downside end face of the 5th sliding block 52 The lower end of circle 55, the steering shaft 48 is fixedly connected with connection block 41, and ball brush 39, institute are fixedly installed on the side wall of the block 41 It states the left and right sides of the 4th motor 53 and is provided with the electric fan chamber 56 that Open Side Down, the electricity in the 5th sliding block 52 It fans in the upper inside walls of chamber 56 and is fixedly installed the 5th motor 57, there is position in 57 lower end of the 5th motor by shaft be connected by power Flabellum 59 in the electric fan chamber 56, be connected by power in 57 lower end of the 5th motor shaft and the electric fan chamber 56 it is upper The second closed circle 58 is provided between the inner wall of side.

Valuably, second vibrating device 100 includes vibration shell 101, and vibration is provided in the vibration shell 101 Chamber 103, bobbing machine 102 is fixedly installed in the downside inner wall of the vibration cavity 103, and the upper end power of the bobbing machine 102 connects It is connected to pivoted arm 105, the upper end of the pivoted arm 105 is rotatably assorted by bearing in the upper inside walls for being connected to the vibration cavity 103, The solid block 104 of vibrations is fixedly connected on the pivoted arm 105, the right end for shaking solid block 104 is fixedly connected with clump weight 106.

Valuably, it is provided through material guide port 29 up and down in the upper inside walls of the storage chamber 27, in the initial state, institute Stating material guide port sealed set has cover board 28, the upside end face of the cover board 28 to be fixedly installed second handle 31.

Valuably, the third main base frame 71 is fixedly connected on institute by the be fixedly connected on upside end face second solid seat 69 In the right end face for stating the first main base frame 11.

Valuably, it is provided with third between first main base frame, 11 upside end face and the storage box 26 and consolidates seat 25.

Valuably, the lighting equipment includes being fixedly mounted on first frame body 46 on the feeding device top Lamppost 112,112 top of the lamppost is installed with daylighting lamp 111, to provide illuminating effect.

When original state, the second telescopic mast 24 is retracted to greatest extent in the second oil cylinder 21, at this time a left side for the 4th sliding block 35 Side end face and the inner left wall of the first charging spout 37 abut against, and the second cavity 36 is connected to greatest extent with third cavity 34 at this time, Meanwhile the 5th sliding block 52 upside end face and the upper inside walls of the second charging spout 47 abut against, at this time join block 41 to greatest extent It is retracted into the 5th cavity 38, meanwhile, the first telescopic mast 66 is retracted to greatest extent in the first oil cylinder 65, at this time the first sliding block 67 Left end face and the inner left wall of the second pressure coal chamber 73 abut against, the left end face of the second sliding block 77 and second slides chamber 81 Inner left wall abut against, the second solid block 74 moves to left to greatest extent in the first charging spout 37 at this time, at this time the second solid block 84 Right end face is abutted against with the second begin to speak 85 right end face, at this time the left end face of the second slide guide row block 72 and the first blowdown chamber 88 right side inner wall is in and flushes state, and the first receiving block 89 is stretched into greatest extent in the first empty slot 92 at this time, second is let out at this time Material chamber 91 is connected to greatest extent with the first blowdown chamber 88.

When carrying out briquette molding by the present apparatus, staff opens cover board 28 and by material guide port 29 into storage chamber 27 It is added into required molding briquette, coal is dropped by the 4th cavity 32 and third cavity 34 in the second cavity 36 at this time, together When the second vibrating device 100 start, bobbing machine 102 rotates at this time, and then drives the solid block 104 of vibrations to rotate by pivoted arm 105, into And clump weight 106 is driven to rotate, and then the vibrations of the second vibrating device 100 are driven by rotating eccentrically mounted clump weight 106, into And be beneficial to drop into the coal in the second cavity 36 and implement so that the molding briquette of institute is identical in quality, the second oil cylinder 21 opens at this time It is dynamic, so by the second telescopic mast 24 drive the 4th sliding block 35 move right in the first charging spout 37 to the second cavity 36 with 61 on-state of 5th cavity 38 and the first cavity, in the process, the 4th sliding block 35 drive block 22 to move right, in turn Third cavity 34 and the partition of the first charging spout 37 are opened by block 22, third motor 42 rotates at this time, and then passes through the second spiral shell Shape bar 44 drives elevator 49 to be moved down in landing chamber 43, and then the 5th sliding block 52 is driven to move down, and at this time the 4th Motor 53 rotates, and then drives connection block 41 to rotate by steering shaft 48, and then ball brush 39 is driven to rotate, and in the 5th sliding block 52 Decline during the coal in second cavity 36 is fallen on by brush in the second pressure coal chamber 73 by ball brush 39, while the 5th motor 57 rotations, and then drive flabellum 59 to rotate by shaft, and then powder is blown off, fall behind by the coal brush in the second cavity 36, 4th sliding block 35 and the 5th sliding block 52 are returned to original state, while the first oil cylinder 65 starts, and then are stretched by first Contracting column 66 drives the first sliding block 67 to move right, and then the briquette for falling into the second pressure coal chamber 68 is elapsed to the right, and by with Extruding between third sliding block 86 is by coal extrusion forming, after being molded, rotation, and then the first solid block is driven by shaft 87 rotations, and then drive the second solid block 84 to be transferred to first and begin to speak in 75, first motor 78 starts at this time, and then passes through the first spiral shell shape Bar 82 drives the second sliding block 77 to be slided in chamber 81 second and moves right, and then the second solid block 74 is driven to move right, in turn It drives third sliding block 86 to move right, and then the molding coal cinder being built-up in 86 left end face of third sliding block is driven to move right Move to the upside of the first blowdown chamber 88, the first vibrating device 110 starts at this time, and then by the coal cinder in third sliding block 86 shake off to In second empty slot 93, when the coal cinder storage capacity in the second empty slot 93 reaches certain amount, staff can be by pulling to the left First receiving block 89 is pulled out from 92 left end opening of the first empty slot and then takes out coal cinder by first handle 94.

The beneficial effects of the invention are as follows：The configuration of the present invention is simple, it is easy to operate, when carrying out briquette molding by the present apparatus, Staff opens cover board and is added into required molding briquette into storage chamber by material guide port, and coal passes through the 4th cavity at this time And third cavity drops into the second cavity, while the second vibrating device starts, bobbing machine rotates at this time, and then passes through pivoted arm The solid block rotation of vibrations is driven, and then drives clump weight rotation, and then the second vibration is driven by rotating eccentrically mounted clump weight Device shakes, and then is beneficial to drop into the coal in the second cavity and implements so that the molding briquette of institute is identical in quality, and at this time the Two oil cylinders start, and then by the second telescopic mast drive the 4th sliding block move right in the first charging spout to the second cavity with 5th cavity and the first cavity on-state, in the process, the 4th sliding block drive block to move right, and then pass through block Third cavity and the partition of the first charging spout are opened, third motor rotates at this time, and then drives elevator to exist by the second spiral shell shape bar Landing intracavitary moves down, and then the 5th sliding block is driven to move down, and the 4th motor rotates at this time, and then passes through steering shaft band Dynamic connection block rotation, and then the rotation of ball brush is driven, and will be in the second cavity by ball brush during the decline of the 5th sliding block Coal falls on the second pressure coal intracavitary by brush, while the 5th motor rotates, and then drives flabellum rotation by shaft, and then by powder It blows off, falls behind by the coal brush in the second cavity, the 4th sliding block and the 5th sliding block are returned to original state, while first Oil cylinder starts, and then drives the briquette that the first sliding block moves right, and then will fall into the second pressure coal chamber by the first telescopic mast It elapses to the right, and by the extruding between third sliding block by coal extrusion forming, after being molded, rotation, and then pass through Shaft drives the first solid block rotation, so drive the second solid block be transferred to first begin to speak in, first motor starts at this time, and then passes through First spiral shell shape bar drives the second sliding block to slide intracavitary second and moves right, and then the second solid block is driven to move right, in turn Drive third sliding block to move right, so drive the molding coal cinder that is built-up in third sliding block left end face move right to On the upside of first blowdown chamber, the first vibrating device starts at this time, and then the coal cinder in third sliding block is shaken off to the second empty slot, When the coal cinder storage capacity in the second empty slot reaches certain amount, staff can be by pulling first handle to be received first to the left Hold block to pull out from the first empty slot left end opening and then take out coal cinder, molding work can not only complete briquette by the present apparatus Make, while device self structure is simple, maintenance cost is relatively low, is worth of widely 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 domain should be determined by the scope of protection defined in the claims.

Claims (7)

1. a kind of efficient coal cinder making apparatus, including the first main base frame, the feeding device that is set on first main base frame And it is set to the pressure device for coal on the downside of first main base frame on end face, the pressure device for coal includes being set to the main base frame The second main base frame on the end face of downside is provided with the first pressure coal chamber, the right side of the first pressure coal chamber in second main base frame Be provided in inner wall connected with the first pressure coal chamber and opening to the right first slide chamber, the first pressure coal intracavitary passes through the One solid seat is fixedly connected with the first oil cylinder, and cunning can be controlled by sliding intracavitary on the right side of first oil cylinder and positioned at described first and being provided with It is flexible to be connected with first for the first dynamic sliding block between the left end face of first sliding block and first oil cylinder Column is fixedly installed third main base frame in the right end face of second main base frame, opening is provided in the third main base frame The the second pressure coal chamber for sliding chamber connection to the left and with described first is provided with and institute in the front and back side inner wall of the second pressure coal chamber State the connection of the second pressure coal chamber first is begun to speak, the described first left end begun to speak and the upper and lower sides inner wall for pressing coal chamber positioned at described second On be provided with described first begin to speak to connect second begin to speak, be provided in the upper inside walls of the second pressure coal chamber and described the What two pressure coal chambers were connected second slides chamber, and described second slides to be provided in the upper inside walls of chamber and slide chamber with described second and connect The first lead-in cavity, described second slides and is fixedly installed first motor, the left end of the first motor in the right side inner wall of chamber Be connected by power has the first spiral shell shape bar, and the left end of the first spiral shell shape bar is rotatably assorted by bearing to be connected to described second and slide chamber Inner left wall on, described second, which slides intracavitary, which is provided with, can horizontally slip and lower end extends and penetrates the second pressure coal intracavitary Second sliding block, second sliding block connect with the first spiral shell shape bar screw-thread fit and by be fixedly connected on upper surface and The the first slide guide row block extended into first lead-in cavity carries out leading position, and the lower end of second sliding block is fixedly connected with Two solid blocks, be fixedly connected on the downside end face of the described second solid block and the second pressure coal chamber on the downside of inner wall be slidably connected The second slide guide row block, be fixedly connected with the second motor in the described second solid block, the left end of second motor is dynamic by shaft Power is connected with the first solid block, is fixedly installed extension respectively on the side end face up and down of the described first solid block and penetrates described second and begins to speak Interior second solid block, in the left end face of the described first solid block fixed setting press the sliding connection of coal cavity wall with described second Third sliding block, be fixedly installed the first vibrating device, the downside end face of the third main base frame in the third sliding block On be fixedly connected with the 4th main base frame, opening the first empty slot to the left, first empty slot are provided in the 4th main base frame Upper inside walls in be provided with and be connected to the first blowdown chamber that first empty slot presses coal chamber with described second, in first empty slot It is provided with the first receiving block of sliding connection, the second empty slot is provided in the first receiving block, second empty slot The the second blowdown chamber for being connected to the first blowdown chamber and second empty slot is provided in upper inside walls, the first receiving block First handle is fixedly installed in left end face, the feeding device top is additionally provided with lighting equipment.

2. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：The feeding device includes setting The first charging spout being placed in first main base frame, the right end of inner wall is provided with connection described the on the downside of first charging spout The first cavity that one charging spout presses coal chamber with described second is fixedly installed the second oil in the inner left wall of first charging spout Cylinder, the upside of second oil cylinder and is provided with the third connected with first charging spout in first main base frame and opens Chamber is provided with the 4th sliding block that can be horizontally slipped, the left end face of the 4th sliding block and institute in first charging spout It states and is connected with the second telescopic mast between the second oil cylinder, the upper end of the 4th sliding block left end face is fixedly connected with extension It penetrates the third to begin to speak interior block, is provided through the second cavity, first charging in the 4th sliding block up and down It is provided through third cavity in the upper inside walls of slot, storage box, the storage box are provided on the upside of first main base frame It is inside provided with storage chamber, the connection third cavity and the 4th of the storage chamber is provided in the downside inner wall of the storage chamber Cavity is fixedly installed and the first vibrating device on the downside of the 4th cavity and in the downside inner wall of first charging spout Structure identical second vibrating device is fixedly installed on the right side of the storage box and on the upside end face of first main base frame There is the first frame body, is provided with the second charging spout in the first body, the company of being provided in the downside inner wall of second charging spout Lead to fiveth cavity of second charging spout with first charging spout and right over first cavity, described second adds It is respectively arranged with landing chamber in the left and right sides inner wall of hopper, third motor is fixedly installed in the downside inner wall of the landing chamber, The upper end be connected by power of the third motor has the second spiral shell shape bar, and the upper end of the second spiral shell shape bar is rotatably assorted company by bearing Be connected in the upper inside walls of the landing chamber, the landing intracavitary be provided with can slide up and down and with the second spiral shell shape bar screw thread The elevator of mating connection, the landing chamber, which is got close on the side inner wall of second discharging chamber, to be provided with connection described second and goes out Material chamber is begun to speak with the 4th of the landing chamber, and the 5th sliding block that can slide up and down is provided in second charging spout, described The third slide guide row block slided up and down in can beginning to speak the described 4th is fixedly connected between 5th sliding block and the elevator, It is fixedly installed the 4th motor in 5th sliding block, the lower end be connected by power of the 4th motor has a steering shaft, described turn To the first closed circle is provided between axis and the downside end face of the 5th sliding block, the lower end of the steering shaft is fixedly connected with Join block, be fixedly installed ball brush on the side wall of the block, the left and right sides of the 4th motor and is slided positioned at the described 5th It is provided with the electric fan chamber that Open Side Down in block, is fixedly installed the 5th motor in the upper inside walls of the electric fan chamber, the described 5th There is the flabellum positioned at the electric fan intracavitary in motor lower end by shaft be connected by power, and be connected by power is in the 5th motor lower end The second closed circle is provided between shaft and the upper inside walls of the electric fan chamber.

3. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：The first vibrating device packet Vibration shell is included, vibration cavity is provided in the vibration shell, bobbing machine is fixedly installed in the downside inner wall of the vibration cavity, The upper end be connected by power of the bobbing machine has pivoted arm, and the upper end of the pivoted arm is rotatably assorted by bearing is connected to the vibration cavity Upper inside walls on, the solid block of vibrations is fixedly connected on the pivoted arm, the right end of the solid block of vibrations is fixedly connected with clump weight.

4. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：In the upside of the storage chamber It is provided through material guide port up and down in wall, in the initial state, the material guide port sealed set has cover board, the upside of the cover board End face is fixedly installed second handle.

5. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：The third main base frame passes through The the second solid seat for being fixedly connected on upside end face is fixedly connected in the right end face of first main base frame.

6. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：On the upside of first main base frame It is provided with third between end face and the storage box and consolidates seat.

7. a kind of efficient coal cinder making apparatus according to claim 1, it is characterised in that：The lighting equipment includes solid Lamppost of the Dingan County on first frame body on the feeding device top, the lamppost top is installed with daylighting lamp.