CN203550606U - Production line mechanical discharging device - Google Patents

Abstract

The utility model relates to the technical field of discharging devices and belongs to a production line mechanical discharging device. The production line mechanical discharging device comprises a left calcium carbide discharging operation device and a right calcium carbide discharging operation device with the same structure; the right calcium carbide discharging operation device comprises calcium carbide furnaces, left horizontal section rails and right horizontal section rails; a front arc section rail and a rear arc section rail are respectively arranged at the front end and the rear end between the left horizontal section rail and the corresponding right horizontal section rail; the calcium carbide furnaces are arranged at the insides of the front arc section rails. The production line mechanical discharging device is reasonable and compact in structure and convenient to use, realizes the aims of automatic containing, conveying, cooling and discharging after the calcium carbide is discharged by the match use of the calcium carbide furnace, a calcium carbide trolley group, a first hydraulic cylinder, a jacking hydraulic cylinder and a chain plate conveyor, has the characteristic of safety and reliability and facilitates the operation, the labor intensity and safety loopholes of an operator are reduced and the production efficiency is improved.

Description

Pipeline system mechanization discharging device

Technical field

the utility model relates to calcium carbide furnace discharging device technique field, is a kind of pipeline system mechanization discharging device.

Background technology

nowadays according to national industrial policies, furnace of calcium carbide equipment technology has entered the epoch of maximization, closure, increasingly automated, environmental protection and energy saving, domestic and international in the development of having strengthened new construction and new technology aspect furnace of calcium carbide equipment, and constantly have new technology to drop into application.But furnace of calcium carbide is as traditional high energy consumption, heavy polluted industry, and its technology is still one of the most backward domestic industry.At present, at some newly-built and transformation closed calcium carbide furnace on, although be equipped with many advanced persons' equipment, coming out of the stove in link, be almost also by manually-operated completely.In the process of coming out of the stove, great majority adopt calcium carbide access in calcium carbide pot, the dolly that transports calcium carbide pot is transported to cooling factory building mechanically, action row handlebar calcium carbide pot together winches to vacant lot together with the calcium carbide in calcium carbide pot, nature cooling down, after cooling a period of time of calcium carbide, operation driving sticks together the thermoelectricity stone in pot to hang and is taken to calcium carbide Tuo Dui and stacks coolingly, calcium carbide pot is hung to telegram in reply stone and transports on dolly simultaneously.When sack for transporting calcium carbide vehicle arrives, again utilize manual operation driving or forklift that the coarse crushed calcium-carbide entrucking that sticks together is transported to calcium carbide demand ground, take to unload to calcium carbide demand, stacking, forklift be transported to disintegrating machine finished breaking for subsequent production.

so, the tradition of the furnace of calcium carbide technique of coming out of the stove, calcium carbide is cooling, broken process link is loaded down with trivial details, energy consumption is high, labor strength is large, work under bad environment, and also very dangerous, even there is accident and affect production.

Summary of the invention

the utility model provides a kind of pipeline system mechanization discharging device, overcome the deficiency of above-mentioned prior art, it can effectively solve, and calcium carbide is cooling after existing calcium carbide production, broken process is loaded down with trivial details, energy consumption is high, labor strength is large, work under bad environment and occur accident and affect the problem of production.

the technical solution of the utility model realizes by following measures: a kind of pipeline system mechanization discharging device, comprises left calcium carbide production running gear and right calcium carbide production running gear that structure is identical, right calcium carbide production running gear comprises furnace of calcium carbide, left horizontal segment track and right horizontal segment track, front-end and back-end between left horizontal segment track and right horizontal segment track are respectively arranged with front arc section track and rear arc section track, furnace of calcium carbide is positioned at the inner side of front arc section track, at left horizontal segment track, right horizontal segment track, on front arc section track and rear arc section track, distributing installation has end to end carbide pushcarts, on each carbide pushcarts, there is calcium carbide bucket, the left end of calcium carbide bucket and the left end of carbide pushcarts are hinged, between two tracks of left horizontal segment track, be installed with the first hydraulic cylinder of at least one, in the first hydraulic cylinder, there is outwardly directed the first hydraulic stem, the outer end of the first hydraulic stem holds out against on the rear end face of corresponding carbide pushcarts, the stroke of the first hydraulic stem is equal to or greater than the length of carbide pushcarts, the jacking hydraulic cylinder that is tiltedly installed with at least one between left horizontal segment track and right horizontal segment track has outwardly directed jacking hydraulic stem in jacking hydraulic cylinder, and the outer end of jacking hydraulic stem holds out against on the right side of corresponding calcium carbide bucket, the outside of the left horizontal segment track of corresponding jacking hydraulic stem position is installed with and is routed up chute by support, rout up the calcium carbide bucket that the feed end of chute holds out against with jacking hydraulic stem corresponding, between left calcium carbide production running gear and right calcium carbide production running gear, by support, be installed with the first chain scraper conveyor, the discharge end of routing up chute is positioned at the top of chain scraper conveyor corresponding, at the discharge end of the first chain scraper conveyor to there being disintegrating machine, there is warehouse in outside at disintegrating machine, between the discharge end of disintegrating machine and the inlet side of warehouse, by support, be installed with conveying device.

the further optimization and/or improvements to above-mentioned utility model technical scheme below:

above-mentioned between two tracks of left horizontal segment track vertically interval be installed with first hydraulic cylinder of two, in the outer end of the first hydraulic stem, by torsion spring, be installed with the first push pedal, the first push pedal holds out against on the rear end face of corresponding carbide pushcarts; Between two tracks of right horizontal segment track, interval is installed with second hydraulic cylinder of two vertically, in the second hydraulic cylinder, there is outwardly directed the second hydraulic stem, outer end at the second hydraulic stem is installed with the second push pedal by torsion spring, the second push pedal holds out against on the rear end face of corresponding carbide pushcarts, and the stroke of the second hydraulic stem is equal to or greater than the length of carbide pushcarts; Between left horizontal segment track and right horizontal segment track, along fore-and-aft direction, be arranged at intervals with respectively the groove body of two, at the tilted jacking hydraulic cylinder that is provided with of groove body; In jacking hydraulic cylinder, there is outwardly directed jacking hydraulic stem, right-hand member at each calcium carbide bucket is fixedly connected with top board, on the lower surface of top board, have the inverted draw cut matching with the outer end of jacking hydraulic stem, the outer end of jacking hydraulic stem holds out against in the inverted draw cut of the top board of corresponding calcium carbide bucket.

the above-mentioned arranged outside at left horizontal segment track has furnace of calcium carbide workshop, and furnace of calcium carbide is positioned at furnace of calcium carbide workshop, in the arranged outside of furnace of calcium carbide, has between calcium carbide cooling vehicle, and left horizontal segment track and right horizontal segment track are positioned between calcium carbide cooling vehicle.

above-mentioned conveying device comprises the second chain scraper conveyor, vibration tiling device and belt conveyor; The discharge end of disintegrating machine is positioned at the top of the second chain scraper conveyor corresponding with the feed end of the second chain scraper conveyor, and the discharge end of the second chain scraper conveyor is positioned at the top of vibration tiling device corresponding with the feed end of vibration tiling device; The discharge end of vibration tiling device is positioned at the top of belt conveyor feed end corresponding with belt conveyor feed end, and belt conveyor discharge end is positioned at the top of warehouse feed end corresponding with warehouse feed end.

the left surface of above-mentioned calcium carbide bucket is the inclined-plane of right low left high, and the discharge end of routing up chute is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer, between the discharge end of the first chain scraper conveyor and the feed end of disintegrating machine, be fixedly connected with guide chutes.

the utility model reasonable and compact in structure, easy to use, by being used in conjunction with of furnace of calcium carbide, carbide pushcarts group, the first hydraulic cylinder, jacking hydraulic cylinder and chain scraper conveyor, realize the object of access automatically after calcium carbide production, transportation, cooling and dumping, there is safe and reliable feature, facilitate operation, reduced operating personnel's labour intensity and potential safety hazard, improved production efficiency.

Accompanying drawing explanation

accompanying drawing 1 is the top view of the utility model most preferred embodiment.

accompanying drawing 2 is the structure for amplifying schematic diagram of warehouse and conveying device.

coding in accompanying drawing is respectively: 1 is furnace of calcium carbide, and 2 is left horizontal segment track, and 3 is right horizontal segment track, and 4 is front arc section track, 5 is rear arc section track, and 6 is carbide pushcarts, and 7 is the first hydraulic cylinder, 8 is jacking hydraulic cylinder, and 9 for routing up chute, and 10 is the first chain scraper conveyor, 11 is disintegrating machine, and 12 is warehouse, and 13 is the second hydraulic cylinder, 14 is the second chain scraper conveyor, and 15 is vibration tiling device, and 16 is belt conveyor, 17 is guide chutes, and 18 is between calcium carbide cooling vehicle, and 19 is furnace of calcium carbide workshop.

The specific embodiment

the utility model is not subject to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.

in the utility model, for convenience of description, the description of the relative position relation of each parts is to be all described according to the Butut mode of Figure of description 1, as: the position relationship of forward and backward, upper and lower, left and right etc. is to determine according to the Butut direction of Figure of description 1.

below in conjunction with embodiment and accompanying drawing, the utility model is further described:

as shown in accompanying drawing 1,2, this pipeline system mechanization discharging device comprises left calcium carbide production running gear and the right calcium carbide production running gear that structure is identical, right calcium carbide production running gear comprises furnace of calcium carbide 1, left horizontal segment track 2 and right horizontal segment track 3, front-end and back-end between left horizontal segment track 2 and right horizontal segment track 3 are respectively arranged with front arc section track 4 and rear arc section track 5, furnace of calcium carbide 1 is positioned at the inner side of front arc section track 4, at left horizontal segment track 2, right horizontal segment track 3, on front arc section track 4 and rear arc section track 5, distributing installation has end to end carbide pushcarts 6, on each carbide pushcarts 6, there is calcium carbide bucket, the left end of the left end of calcium carbide bucket and carbide pushcarts 6 is hinged, between two tracks of left horizontal segment track 2, be installed with the first hydraulic cylinder 7 of at least one, in the first hydraulic cylinder 7, there is outwardly directed the first hydraulic stem, the outer end of the first hydraulic stem holds out against on the rear end face of corresponding carbide pushcarts 6, the stroke of the first hydraulic stem is equal to or greater than the length of carbide pushcarts 6, the jacking hydraulic cylinder 8 that is tiltedly installed with at least one between left horizontal segment track 2 and right horizontal segment track 3 has outwardly directed jacking hydraulic stem in jacking hydraulic cylinder 8, and the outer end of jacking hydraulic stem holds out against on the right side of corresponding calcium carbide bucket, the outside of the left horizontal segment track 2 of corresponding jacking hydraulic stem position is installed with and is routed up chute 9 by support, routs up the calcium carbide bucket that the feed end of chute 9 holds out against with jacking hydraulic stem corresponding, between left calcium carbide production running gear and right calcium carbide production running gear, by support, be installed with the first chain scraper conveyor 10, the discharge end of routing up chute 9 is positioned at the top of chain scraper conveyor 11 corresponding, at the discharge end of the first chain scraper conveyor 10 to there being disintegrating machine 11, in the outside of disintegrating machine 11, there is warehouse 12, between the discharge end of disintegrating machine 11 and the inlet side of warehouse 12, by support, be installed with conveying device.

can according to actual needs, above-mentioned pipeline system mechanization discharging device be made further optimization and/or improvements:

as shown in Figure 1, between two tracks of left horizontal segment track 2, interval is installed with first hydraulic cylinder 7 of two vertically, outer end at the first hydraulic stem is installed with the first push pedal by torsion spring, and the first push pedal holds out against on the rear end face of corresponding carbide pushcarts 6; Between two tracks of right horizontal segment track 3, interval is installed with second hydraulic cylinder 13 of two vertically, in the second hydraulic cylinder 13, there is outwardly directed the second hydraulic stem, outer end at the second hydraulic stem is installed with the second push pedal by torsion spring, the second push pedal holds out against on the rear end face of corresponding carbide pushcarts 6, and the stroke of the second hydraulic stem is equal to or greater than the length of carbide pushcarts 6; Between left horizontal segment track 2 and right horizontal segment track 3, along fore-and-aft direction, be arranged at intervals with respectively the groove body of two, at the tilted jacking hydraulic cylinder 8 that is provided with of groove body; In jacking hydraulic cylinder 8, there is outwardly directed jacking hydraulic stem, right-hand member at each calcium carbide bucket is fixedly connected with top board, on the lower surface of top board, have the inverted draw cut matching with the outer end of jacking hydraulic stem, the outer end of jacking hydraulic stem holds out against in the inverted draw cut of the top board of corresponding calcium carbide bucket.Just the marching forward or oppositely advance employing hydraulic way of carbide pushcarts 6, a side at left horizontal segment track 2 or right horizontal segment track 3 is provided with Hydraulic Station, Hydraulic Station is fixedly installed togather with the first hydraulic cylinder 7, the second hydraulic cylinder 13 and jacking hydraulic cylinder 8 respectively, and two furnaces of calcium carbide 1 adopt a Hydraulic Station; Two the first hydraulic cylinders 7 are fixedly mounted on respectively former and later two places of two tracks of left horizontal segment track 2, can select to work independently and linkage work mode, and while working independently, another first hydraulic cylinder 7 is as standby; During linkage work first hydraulic stem when impulse stroke another first hydraulic stem at backstroke; Two the second hydraulic cylinders 13 are fixedly mounted on respectively former and later two places of two tracks of right horizontal segment track 3, can select to work independently and linkage work mode, while working independently, another second hydraulic stem is as standby, during linkage work second hydraulic stem when impulse stroke another second hydraulic stem at backstroke; Work independently and adopt electric button to select with the selection of linkage work; Between the first hydraulic cylinder 7 and the second hydraulic cylinder 13, by electric, undertaken chainly, the first hydraulic cylinder 7 or the second hydraulic cylinder 13 can only carry out the action of a direction while working; Carbide pushcarts 6 fltting speeds are adjustable, and the propelling time of a carbide pushcarts 6 is selected between 5 seconds in second to 15.Inverted draw cut has prevented the slippage in jacking process of jacking hydraulic stem.

as shown in Figure 1, in the arranged outside of left horizontal segment track 2, there is furnace of calcium carbide workshop 19, furnace of calcium carbide 1 is positioned at furnace of calcium carbide workshop 19, in the arranged outside of furnace of calcium carbide 1, has between calcium carbide cooling vehicle 18, and left horizontal segment track 2 and right horizontal segment track 3 are positioned between calcium carbide cooling vehicle 18.Adopt between two supporting calcium carbide cooling vehicles of furnace of calcium carbide 1 18, between calcium carbide cooling vehicle, 18 length and width are arranged by a certain percentage, calculate, can hold calcium carbide bucket to be cooled and carbide pushcarts 6 as principle by furnace of calcium carbide 1 output; Calcium carbide naturally stops 1 hour to 2 hours rear casing cooled and solidified and becomes calcium carbide to stick together in calcium carbide bucket, calcium carbide stick together rout up chute 9 be arranged between calcium carbide cooling vehicle 18 and furnace of calcium carbide workshop 19 between; First chain scraper conveyor 10 speeds of service are according to calcium carbide production actual conditions designs, and are provided with holdback and prevent that the first chain scraper conveyor 10 reversings from gliding, and pass into recirculated cooling water in the first chain scraper conveyor 10 framework beams.

as shown in accompanying drawing 1,2, conveying device comprises the second chain scraper conveyor 14, vibration tiling device 15 and belt conveyor 16; The discharge end of disintegrating machine 11 is positioned at the top of the second chain scraper conveyor 14 corresponding with the feed end of the second chain scraper conveyor 14, and the discharge end of the second chain scraper conveyor 14 is positioned at the top of vibration tiling device 15 corresponding with the feed end of vibration tiling device 15; The discharge end of vibration tiling device 15 is positioned at the top of belt conveyor 16 feed ends corresponding with belt conveyor 16 feed ends, and belt conveyor 16 discharge ends are positioned at the top of warehouse 12 feed ends corresponding with warehouse 12 feed ends.Vibration tiling device 15 is existing public equipment; Vibration tiling device 15 is arranged in tiling building, and vibration tiling device 15 plays the effect of calcium carbide tiling; Maximum temperature after calcium carbide fragmentation, in 600 degree, need to be carried out cooling before putting in storage; The cooling tiling building of fritter calcium carbide adopts the design of relative closure, on tiling building one side wall body, is furnished with two rows axial flow blower, extraneous cool breeze is blasted in cooling duct, after calcium carbide heat exchange, through the extraction air channel on cooling duct top Natural excrement.

as shown in Figure 1, the inclined-plane that the left surface of calcium carbide bucket is right low left high, the discharge end of routing up chute 9 is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer; Between the discharge end of the first chain scraper conveyor 10 and the feed end of disintegrating machine 11, be fixedly connected with guide chutes 17.Like this, the inclined-plane that the left surface of calcium carbide bucket is right low left high is convenient to cooled calcium carbide to stick together and rout up in chute 9 from entering in calcium carbide bucket; For being sticked together, calcium carbide than more smoothly, enters disintegrating machine 11 feeding ends, the length direction adjustment that calcium carbide need to be sticked together is also consistent with the first chain scraper conveyor 10 rotation directions, the traffic direction large due to axial and first chain scraper conveyor 10 of carbide pushcarts 6 is arranged vertically, so stick together will utilize before entering the first chain scraper conveyor 10 at calcium carbide, rout up chute 9 and turn around, and plagiocephaly forward.Anti-corrosion layer is convenient to prevent that the calcium carbide of firm furnace of calcium carbide 1 from causing corrosion to calcium carbide bucket.

above technical characterictic has formed most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease according to actual needs non-essential technical characterictic, meets the demand of different situations.

Claims (9)

1. a pipeline system mechanization discharging device, is characterized in that the left calcium carbide production running gear and the right calcium carbide production running gear that comprise that structure is identical, right calcium carbide production running gear comprises furnace of calcium carbide, left horizontal segment track and right horizontal segment track, front-end and back-end between left horizontal segment track and right horizontal segment track are respectively arranged with front arc section track and rear arc section track, furnace of calcium carbide is positioned at the inner side of front arc section track, at left horizontal segment track, right horizontal segment track, on front arc section track and rear arc section track, distributing installation has end to end carbide pushcarts, on each carbide pushcarts, there is calcium carbide bucket, the left end of calcium carbide bucket and the left end of carbide pushcarts are hinged, between two tracks of left horizontal segment track, be installed with the first hydraulic cylinder of at least one, in the first hydraulic cylinder, there is outwardly directed the first hydraulic stem, the outer end of the first hydraulic stem holds out against on the rear end face of corresponding carbide pushcarts, the stroke of the first hydraulic stem is equal to or greater than the length of carbide pushcarts, the jacking hydraulic cylinder that is tiltedly installed with at least one between left horizontal segment track and right horizontal segment track has outwardly directed jacking hydraulic stem in jacking hydraulic cylinder, and the outer end of jacking hydraulic stem holds out against on the right side of corresponding calcium carbide bucket, the outside of the left horizontal segment track of corresponding jacking hydraulic stem position is installed with and is routed up chute by support, rout up the calcium carbide bucket that the feed end of chute holds out against with jacking hydraulic stem corresponding, between left calcium carbide production running gear and right calcium carbide production running gear, by support, be installed with the first chain scraper conveyor, the discharge end of routing up chute is positioned at the top of chain scraper conveyor corresponding, at the discharge end of the first chain scraper conveyor to there being disintegrating machine, there is warehouse in outside at disintegrating machine, between the discharge end of disintegrating machine and the inlet side of warehouse, by support, be installed with conveying device.

2. pipeline system mechanization discharging device according to claim 1, it is characterized in that between two tracks of left horizontal segment track that interval is installed with first hydraulic cylinder of two vertically, outer end at the first hydraulic stem is installed with the first push pedal by torsion spring, and the first push pedal holds out against on the rear end face of corresponding carbide pushcarts; Between two tracks of right horizontal segment track, interval is installed with second hydraulic cylinder of two vertically, in the second hydraulic cylinder, there is outwardly directed the second hydraulic stem, outer end at the second hydraulic stem is installed with the second push pedal by torsion spring, the second push pedal holds out against on the rear end face of corresponding carbide pushcarts, and the stroke of the second hydraulic stem is equal to or greater than the length of carbide pushcarts; Between left horizontal segment track and right horizontal segment track, along fore-and-aft direction, be arranged at intervals with respectively the groove body of two, at the tilted jacking hydraulic cylinder that is provided with of groove body; In jacking hydraulic cylinder, there is outwardly directed jacking hydraulic stem, right-hand member at each calcium carbide bucket is fixedly connected with top board, on the lower surface of top board, have the inverted draw cut matching with the outer end of jacking hydraulic stem, the outer end of jacking hydraulic stem holds out against in the inverted draw cut of the top board of corresponding calcium carbide bucket.

3. pipeline system mechanization discharging device according to claim 1 and 2, the arranged outside that it is characterized in that left horizontal segment track has furnace of calcium carbide workshop, furnace of calcium carbide is positioned at furnace of calcium carbide workshop, in the arranged outside of furnace of calcium carbide, have between calcium carbide cooling vehicle, left horizontal segment track and right horizontal segment track are positioned between calcium carbide cooling vehicle.

4. pipeline system mechanization discharging device according to claim 1 and 2, is characterized in that conveying device comprises the second chain scraper conveyor, vibration tiling device and belt conveyor; The discharge end of disintegrating machine is positioned at the top of the second chain scraper conveyor corresponding with the feed end of the second chain scraper conveyor, and the discharge end of the second chain scraper conveyor is positioned at the top of vibration tiling device corresponding with the feed end of vibration tiling device; The discharge end of vibration tiling device is positioned at the top of belt conveyor feed end corresponding with belt conveyor feed end, and belt conveyor discharge end is positioned at the top of warehouse feed end corresponding with warehouse feed end.

5. pipeline system mechanization discharging device according to claim 3, is characterized in that conveying device comprises the second chain scraper conveyor, vibration tiling device and belt conveyor; The discharge end of disintegrating machine is positioned at the top of the second chain scraper conveyor corresponding with the feed end of the second chain scraper conveyor, and the discharge end of the second chain scraper conveyor is positioned at the top of vibration tiling device corresponding with the feed end of vibration tiling device; The discharge end of vibration tiling device is positioned at the top of belt conveyor feed end corresponding with belt conveyor feed end, and belt conveyor discharge end is positioned at the top of warehouse feed end corresponding with warehouse feed end.

6. pipeline system mechanization discharging device according to claim 1 and 2, the inclined-plane that the left surface that it is characterized in that calcium carbide bucket is right low left high, the discharge end of routing up chute is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer, between the discharge end of the first chain scraper conveyor and the feed end of disintegrating machine, be fixedly connected with guide chutes.

7. pipeline system mechanization discharging device according to claim 3, the inclined-plane that the left surface that it is characterized in that calcium carbide bucket is right low left high, the discharge end of routing up chute is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer, between the discharge end of the first chain scraper conveyor and the feed end of disintegrating machine, be fixedly connected with guide chutes.

8. pipeline system mechanization discharging device according to claim 4, the inclined-plane that the left surface that it is characterized in that calcium carbide bucket is right low left high, the discharge end of routing up chute is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer, between the discharge end of the first chain scraper conveyor and the feed end of disintegrating machine, be fixedly connected with guide chutes.

9. pipeline system mechanization discharging device according to claim 5, the inclined-plane that the left surface that it is characterized in that calcium carbide bucket is right low left high, the discharge end of routing up chute is bending backward; Or/and, in the inner side of calcium carbide bucket, be fixedly connected with anti-corrosion layer, between the discharge end of the first chain scraper conveyor and the feed end of disintegrating machine, be fixedly connected with guide chutes.

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