Easily-propelled white spirit discharging device capable of adapting to bottom of vat
Technical Field
The invention relates to the technical field of wine making, in particular to an easily-propelled type white spirit discharging device which can adapt to the bottom of a vat.
Background
The ground cylinder fermentation refers to fermentation of brewing materials in a cylinder, and is a main fermentation mode in the white spirit industry, the brewing materials are called as 'fermented grains' after being fermented and matured by the ground cylinder, the fermented grains are taken out of the wine cylinder and are called as 'fermented grains', the existing white spirit unstrained grain discharging device mostly digs out the materials in the ground cylinder through a spiral lifting structure, but in practical use, as grooves are mostly arranged at the bottom of the ground cylinder, the stability of the ground cylinder structure can be enhanced through the grooves, but the existing spiral lifting structure cannot dig the materials falling around the grooves, so that the fermented grains are not thoroughly discharged, and in order to facilitate the spiral lifting structure to enter the materials, a breaking structure is mostly arranged below the spiral lifting structure at present, so that the spiral lifting structure can enter the materials to dig the materials, but when the materials at the bottom are dug, the bottom of the breaking structure firstly contacts the grooves of the ground cylinder, so that the materials at the bottom cannot be dug out, and partial materials cannot be dug out, and the ground cylinder bottom of the white spirit is easy to push the white spirit.
Disclosure of Invention
The invention aims to provide an easily-propelled white spirit discharging device which can adapt to the bottom of a cylinder, so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an easily impulse type white spirit play unstrained spirits device at adaptable ground jar bottom of jar, includes the support frame, the bottom of support frame all is provided with around the department and removes the wheel, the top both sides of support frame all are provided with hydraulic telescoping rod, and are two sets of hydraulic telescoping rod's top is all connected on the fixed plate, the equal vertical penetrating in both sides of fixed plate has the guide bar, the bottom of guide bar all is connected on the support frame, the bottom of fixed plate is connected with the pneumatic cylinder, the piston rod of pneumatic cylinder bottom runs through the support frame and is connected with the connecting plate, the bottom of connecting plate with dig and get the mechanism and be connected.
Preferably, it includes the solid fixed cylinder of connection in the connecting plate bottom to dig the mechanism of getting, the intermediate position of connecting plate bottom has driving motor, be connected with the connecting rod on the power end of driving motor bottom, the limiting plate is run through to the bottom of connecting rod, the limiting plate sets up on the inner wall of solid fixed cylinder, the bottom of connecting rod is connected with the fixed axle, the bottom of fixed axle is provided with helical blade, the spread groove has been seted up to the lateral wall bottom hoop of solid fixed cylinder, be provided with flexible subassembly on the spread groove, be provided with the auxiliary assembly on the connecting rod.
Preferably, flexible subassembly includes that the hoop sets up the slide rail on solid fixed cylinder, the slide rail is located the top of spread groove, even sliding connection has the slider on the inner wall of slide rail, the slider extends solid fixed cylinder outside one side and is connected with the connecting block, one side that the slider was kept away from to the connecting block all is connected with electric putter, electric putter's bottom all is provided with breaks the piece, break one side that the piece is close to solid fixed cylinder and all be provided with the laminating piece, and the laminating piece contacts with the spread groove, the inside of gu fixed cylinder is provided with the bottom and the slide rail in hoop groove and link up each other, the inside in hoop groove is provided with drive assembly.
Preferably, drive assembly is including setting up the annular plate at the slider top, the top of annular plate extends to the inside in hoop groove, the even hoop of lateral wall of annular plate is provided with tooth, and the annular plate passes through tooth and gear engagement and is connected, the gear cup joints on driving motor's power end, driving motor fixed connection is on the top inner wall in hoop groove.
Preferably, the auxiliary assembly is including connecting the grafting wheel on the connecting rod, be connected with the toper frame on the outer wall of grafting wheel, and the bottom of toper frame runs through fixed section of thick bamboo, set up on the outer wall of fixed section of thick bamboo with toper frame assorted logical groove, there is the installation piece one side that the toper frame extends to fixed section of thick bamboo through bolted connection, the bottom of installation piece is connected with the bracing piece, the bottom of bracing piece is connected on the motor case, the power end of motor case is connected with the pivot, be provided with the same montant of two sets of structures in the pivot, the montant sets up and gets on the subassembly at the shovel.
Preferably, the shovel subassembly is got including connecting the fixed shovel on the montant, the rear side of fixed shovel articulates there are two sets of electric telescopic handle that the structure is the same, and is two sets of electric telescopic handle's power end all articulates with the barrier plate.
Compared with the prior art, the invention has the beneficial effects that:
1. the motor drives the connecting rod to rotate clockwise, so that the connecting rod can drive the fixed shaft to rotate, the helical blade is driven to lift fermented grains to the upper part of the fixed cylinder, when the fermented grains above the fixed cylinder are to be fully stacked, the fixed cylinder can be driven to move upwards through the hydraulic cylinder and the hydraulic telescopic rod and further can enter an unloading area, the motor drives the fixed shaft to rotate anticlockwise, the fermented grains can be taken out and then placed in the unloading area, when the fixed cylinder enters a ground cylinder, the breaking block is driven to move downwards to the lower part of the fixed cylinder through the electric push rod, the driving motor is started simultaneously, the gear rotates, the sliding block is guided in the sliding rail, teeth on the annular plate are driven by the gear to drive the annular plate to rotate, the sliding block is driven to move circularly in the sliding rail, the breaking block can be driven to rotate, the fermented grains in the ground cylinder can be broken conveniently, and when the fermented grains at the bottom are excavated, the breaking block moves upwards to the upper part of the fixed cylinder, so that the broken grains can be prevented from contacting with a groove of the ground cylinder, the helical blade is influenced by further, ground materials can be completely excavated from the bottom of the ground cylinder;
2. through setting up the auxiliary assembly, when only remaining the material around the ground jar recess does not take out, install the installation piece on the toper frame, continue to pass through motor work, it is rotatory to make the connecting rod drive the wheel of cup jointing, and then it is rotatory to drive the toper frame, it can shovel the material around the recess to make fixed shovel get through the toper frame is rotatory, before shovel gets, at first drive fixed shovel through the motor case and incline into material department, then it is rotatory to drive the continuation of fixed shovel through the motor case, make fixed shovel follow-up level when shovel gets and get, shorten through electric telescopic handle when shovel gets, can drive the direction removal that the barrier plate is close to fixed shovel, and then make things convenient for the shovel to get the material, thereby can shovel the material around the ground jar recess and get, thereby through digging and getting the mechanism, can avoid because the ground jar has the recess, lead to the unable problem of taking out on the recess and around the material.
Drawings
FIG. 1 is a schematic view of the structure of the present invention;
FIG. 2 is a schematic view of the digging mechanism of the present invention;
FIG. 3 is a partial schematic view of the present invention;
FIG. 4 is a schematic structural view at A of the present invention;
FIG. 5 is a partial schematic view of the construction of the auxiliary assembly of the present invention;
FIG. 6 is a schematic top view of the construction of the scooping assembly of the present invention.
In the figure: 1. a support frame; 2. a moving wheel; 3. a hydraulic telescopic rod; 4. a fixing plate; 5. a guide bar; 6. a hydraulic cylinder; 7. a connecting plate; 8. a digging mechanism; 81. a fixed cylinder; 82. a drive motor; 83. a connecting rod; 84. a limiting plate; 85. a fixed shaft; 86. a helical blade; 87. connecting grooves; 88. a telescoping assembly; 881. a slide rail; 882. a slider; 883. connecting blocks; 884. an electric push rod; 885. breaking the block; 886. fitting blocks; 887. a circumferential groove; 888. a drive assembly; 8881. an annular plate; 8882. teeth; 8883. a gear; 8884. a drive motor; 89. an auxiliary component; 891. sleeving a wheel; 892. a conical frame; 893. mounting a block; 894. a support bar; 895. a motor case; 896. a rotating shaft; 897. a vertical rod; 898. a scooping assembly; 8981. fixing a shovel; 8982. an electric telescopic rod; 8983. a barrier plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The invention provides a technical scheme that: the utility model provides an easily propelled type white spirit play unstrained spirits device of adaptable ground jar bottom of jar, please refer to and show 1 and 2, including support frame 1, the bottom of support frame 1 all is provided with all around and removes wheel 2, be convenient for remove support frame 1, the top both sides of support frame 1 all are provided with hydraulic telescoping rod 3, the top of two sets of hydraulic telescoping rod 3 is all connected on fixed plate 4, the equal vertical penetrating in both sides of fixed plate 4 has guide bar 5, the bottom of guide bar 5 is all connected on support frame 1, the bottom of fixed plate 4 is connected with pneumatic cylinder 6, the piston rod of pneumatic cylinder 6 bottom runs through support frame 1 and is connected with connecting plate 7, hydraulic telescoping rod 3 can drive fixed plate 4 and upwards remove, and then drive and dig and get the mechanism 8 removal, the bottom of connecting plate 7 with dig and get the mechanism 8 and be connected.
Please refer to fig. 1 and fig. 2, the digging mechanism 8 includes a fixed cylinder 81 connected to the bottom of the connecting plate 7, a driving motor 82 is disposed in the middle of the bottom of the connecting plate 7, a connecting rod 83 is connected to a power end of the bottom of the driving motor 82, a limiting plate 84 is penetrated through the bottom of the connecting rod 83, the limiting plate 84 is disposed on an inner wall of the fixed cylinder 81, a fixed shaft 85 is connected to the bottom end of the connecting rod 83, a helical blade 86 is disposed at the bottom end of the fixed shaft 85, the material can be lifted and lowered through forward rotation and reverse rotation of the helical blade 86, a connecting groove 87 is circumferentially formed in the bottom of a side wall of the fixed cylinder 81, a telescopic assembly 88 is disposed on the connecting groove 87, and an auxiliary assembly 89 is disposed on the connecting rod 83.
Please refer to fig. 2, fig. 3 and fig. 4, the telescopic assembly 88 includes a sliding rail 881 circumferentially disposed on the fixed cylinder 81, the sliding rail 881 is disposed above the connecting groove 87, a sliding block 882 is evenly slidably connected to an inner wall of the sliding rail 881, one side of the sliding block 882 extending out of the fixed cylinder 81 is connected to a connecting block 883, one side of the connecting block 883 away from the sliding block 882 is connected to an electric putter 884, a breaking block 885 is disposed at a bottom of the electric putter 884, the electric putter 884 can drive the breaking block 885 to move, one side of the breaking block 885 close to the fixed cylinder 81 is provided with an attaching block 886, the attaching block 886 contacts the connecting groove 87, when the breaking block 885 rotates, the attaching block 886 moves axially on the connecting groove 87, a circumferential groove 887 is disposed inside the fixed cylinder 81, a bottom of the circumferential groove 887 is communicated with the sliding rail 881, and a driving assembly 888 is disposed inside the circumferential groove 887.
Referring to fig. 2, 3 and 4, the driving assembly 888 includes a ring plate 8881 disposed on the top of the sliding block 882, the top of the ring plate 8881 extends to the inside of the circumferential groove 887, the side wall of the ring plate 8881 is uniformly and circumferentially provided with teeth 8882, the ring plate 8881 is engaged with a gear 8883 through the teeth 8882, the gear 8883 is sleeved on the power end of the driving motor 8884, the driving motor 8884 is fixedly connected to the inner wall of the top of the circumferential groove 887, the gear 8883 is driven to rotate by the driving motor 8884, the ring plate 8881 is driven to rotate by the teeth 8882, and the sliding block 882 moves in the sliding rail 881 in the axial direction, so as to drive the electric push rod 884 on the connecting block 883 to rotate, thereby driving the breaking block 885 to rotate, so as to break the fermented grains in the cylinder, and when the fermented grains at the bottom are dug, the breaking block 885 moves upwards to the fixed cylinder 81, thereby preventing the breaking block 885 from contacting the groove of the cylinder to dig the ground grain material 86, and completely discharging the material of the bottom of the cylinder.
Please refer to fig. 1, fig. 2, fig. 5 and fig. 6, the auxiliary assembly 89 includes a sleeving wheel 891 connected to the connecting rod 83, the outer wall of the sleeving wheel 891 is connected with a tapered rack 892, and the bottom of the tapered rack 892 penetrates through the fixed cylinder 81, a through groove matched with the tapered rack 892 is formed in the outer wall of the fixed cylinder 81, one side of the tapered rack 892 extending to the fixed cylinder 81 is connected with an installation block 893 through a bolt, the bottom of the installation block 893 is connected with a supporting rod 894, the bottom of the supporting rod 894 is connected to a motor box 895, the power end of the motor box 895 is connected with a rotating shaft 896, the rotating shaft 896 is provided with two sets of vertical rods 897 with the same structure, the vertical rods 897 are arranged on a shoveling assembly 898, the motor box 895 can drive the fixed shovel 8981 to rotate, and the fixed shovel 8981 is convenient for shoveling materials.
Please refer to fig. 5 and 6, the shoveling assembly 898 includes a fixed shovel 8981 connected to a vertical rod 897, the rear side of the fixed shovel 8981 is hinged with two sets of electric telescopic rods 8982 with the same structure, the power ends of the two sets of electric telescopic rods 8982 are hinged with a blocking plate 8983, when shoveling, the electric telescopic rods 8982 are shortened, the blocking plate 8983 can be driven to move towards the direction close to the fixed shovel 8981, and then the shoveling of materials is facilitated, so that shoveling of materials around the groove of the ground cylinder can be realized, and by means of the shoveling mechanism 8, the problem that materials on and around the groove cannot be taken out due to the fact that the ground cylinder is provided with the groove can be avoided.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.