CN211070470U - Gas stirring concentrate slurry tank - Google Patents

Abstract

The utility model discloses a gaseous stirring concentrate thick liquid jar, which comprises a tank body and a compressor, jar body one side is equipped with overflow mouth and discharge gate from top to bottom respectively, be equipped with the feed inlet in jar body opposite side middle part slant, be stamped the apron at jar body top, the apron top surface is rotated through the bearing and is connected with the main shaft, the main shaft is cavity, still be fixed with the motor at the apron top surface, the main shaft top passes through belt drive with the output shaft of motor, the main shaft top has the pipeline through the rotary joint intercommunication, the pipeline is connected with the gas outlet of compressor, the main shaft bottom is passed the apron and is arranged in a jar internal portion, main shaft bottom mounting at jar internal portion has agitating unit, the main shaft communicates: mechanical stirring and gas stirring can use alone or simultaneously, prevent that the ore pulp from appearing deposiing, and gas stirring can avoid frequently using mechanical stirring, reduces the fault rate, uses reinforcing stirring effect simultaneously, and extension operating time promotes the work efficiency of ore dressing, improves mineral resources recycle rate.

Description

Gas stirring concentrate slurry tank

The technical field is as follows:

the utility model relates to a mineral processing equipment technical field, concretely relates to gaseous stirring concentrate thick liquid jar.

Background art:

the flotation operation is the important component part in the ore dressing process, when carrying out the flotation operation, need put into concentrate thick liquid jar with the high concentration ore pulp in the concentrated pond and store, then it filters to send to ceramic-ceramic filter to promote through the sediment stuff pump, wherein, the concentrate thick liquid jar is used for the ore pulp stirring before filtering, make the ore grain suspension and fully contact with the medicament, the mixing, create the condition for filtering the operation, because ore pulp concentration is high, easy sediment, after the time uses for a long time, the (mixing) shaft of concentrate thick liquid jar is fragile, the fault rate is high, need frequent shut down maintenance, secondly, concentrate thick liquid jar inner space is narrow and small, it is limited, the maintenance difficulty, normal operating time has been shortened, the work efficiency of whole ore dressing has been reduced, lead to the reduction of mineral resources recycle rate.

The utility model has the following contents:

an object of the utility model is to provide a reduce the fault rate, improve ore dressing efficiency, promote the gas agitation concentrate thick liquid jar of mineral resources rate of recovery.

The utility model discloses by following technical scheme implement:

the utility model provides a gaseous stirring concentrate thick liquid jar, includes a jar body and compressor, jar body one side is equipped with overflow mouth and discharge gate from top to bottom respectively, jar body opposite side middle part is equipped with the feed inlet in the slant the jar body top is stamped the apron, the apron top surface is rotated through the bearing and is connected with the main shaft, the main shaft is cavity the apron top surface still is fixed with the motor, the main shaft top with the output shaft of motor passes through belt drive, the main shaft top has the pipeline through the rotary joint intercommunication, the pipeline with the gas outlet of compressor is connected, the main shaft bottom is passed the apron is arranged in jar internal portion the internal portion of jar the main shaft bottom is fixed with agitating unit, the main shaft with agitating unit's stirring outlet duct intercommunication.

Preferably, the stirring device consists of a primary backflow prevention device, a secondary backflow prevention device and an exhaust stirring device.

Preferably, second grade anti-reflux device includes outer barrel, interior barrel, piston block and spring, outer barrel top with the main shaft is fixed, and outer barrel with the main shaft intercommunication outer barrel is inside to be set up interior barrel, interior barrel top with outer barrel top is fixed, and interior barrel with the main shaft intercommunication interior barrel is inside to slide from top to bottom to be equipped with the piston block in, the piston block with set up between the interior barrel bottom the spring, spring one end with piston block bottom is fixed, the spring other end with interior barrel bottom is fixed interior barrel lateral wall top be equipped with the through-hole of the inside intercommunication of outer barrel.

Preferably, the exhaust stirring device is fixed to the bottom of the secondary backflow prevention device and comprises a shell, a vent cylinder and a stirring air outlet pipe, the top of the vent cylinder is fixed to the top of the outer cylinder, the vent cylinder is communicated with the outer cylinder, the shell is covered and fixed to the outer wall of the vent cylinder, and an air outlet hole communicated with the inside of the shell is formed in the side wall of the vent cylinder.

Preferably, be provided with in the exhaust agitating unit one-level anti-reflux device, one-level anti-reflux device includes stopper and connecting rod, the stopper slides from top to bottom and arranges in inside the breather pipe, the stopper top surface is the toper, the stopper top with the connecting rod bottom, the connecting rod top is passed interior barrel bottom, and with the piston piece bottom is fixed.

Preferably, still include the sleeve, the sleeve cover is established the main shaft outer wall, the sleeve with the main shaft rotates to be connected, the sleeve with be fixed with branch between the internal wall of jar.

The utility model has the advantages that: mechanical stirring can be used under the condition that a compressor cannot be used without an air source, gas stirring can be used under the condition that a motor cannot be used, ore pulp is prevented from precipitating, frequent use of mechanical stirring can be avoided through gas stirring, damage to structures such as a main shaft is reduced, and the failure rate is reduced; mechanical stirring and gas stirring can be simultaneously used, the stirring effect is enhanced, the working time is prolonged, the working efficiency of ore dressing is improved, and the recovery and utilization rate of mineral resources is improved; through one-level anti-reflux device, second grade anti-reflux device, prevent effectively that the ore pulp from flowing back and entering the main shaft, cause the damage to main shaft isotructure, influence high-pressure gas's output.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a partially enlarged schematic view of a in fig. 1.

In the figure: the device comprises a tank body 1, a compressor 2, an overflow port 3, a discharge port 4, a feed inlet 5, a cover plate 6, a main shaft 7, a motor 8, a rotary joint 9, a pipeline 10, a stirring device 11, a secondary backflow prevention device 11.1, an outer cylinder 11.11, an inner cylinder 11.12, a piston block 11.13, a spring 11.14, a through hole 11.15, an exhaust stirring device 11.2, a shell 11.21, a ventilation cylinder 11.22, a stirring air outlet pipe 11.23, an air outlet hole 11.24, a primary backflow prevention device 11.3, a limiting block 11.31, a connecting rod 11.32, a sleeve 12 and a support rod 13.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and fig. 2, a gas stirring concentrate slurry tank, including a tank body 1 and a compressor 2, overflow mouth 3 and discharge gate 4 are respectively arranged from top to bottom on one side of the tank body 1, a feed inlet 5 is arranged obliquely upwards in the middle of the other side of the tank body 1, a cover plate 6 is covered on the top of the tank body 1, the top surface of the cover plate 6 is rotatably connected with a main shaft 7 through a bearing, the main shaft 7 is hollow, a motor 8 is further fixed on the top surface of the cover plate 6, the top end of the main shaft 7 is in belt transmission with an output shaft of the motor 8, the top end of the main shaft 7 is communicated with a pipeline 10 through a rotary joint 9, the pipeline 10 is connected with a gas outlet of the compressor 2, the bottom end of the main shaft 7 penetrates through the cover plate 6 and is arranged in.

The feed inlet 5, the overflow port 3 and the discharge port 4 are respectively covered with a cover, the cover is removed, the ore pulp can be fed into the tank body 1 through the feed inlet 5, a pipeline is connected to the overflow port 3 after the cover is removed, the excessive ore pulp is fed and discharged through the overflow port 3, after the stirring is finished, the cover is removed, and the ore pulp enters the next processing unit through the discharge port 4; during mechanical stirring, the motor 8 drives the main shaft 7 to rotate through belt transmission, the main shaft 7 drives the stirring device 11 to rotate, and the stirring gas outlet pipe 11.23 of the stirring device 11 is used for stirring ore pulp, so that high-concentration ore pulp is prevented from precipitating, and the high-concentration ore pulp is more suitable for being used under the condition of a small amount of ore pulp or used under the condition that the compressor 2 cannot be used without a gas source; when gas is stirred, high-pressure gas is introduced into the main shaft 7 through the pipeline 10 and the rotary joint 9 by the compressor 2, the gas enters the stirring device 11 through the main shaft 7 and enters ore pulp through the stirring gas outlet pipe 11.23, the ore pulp is turned through the high-pressure gas, the ore pulp is stirred, precipitation is prevented, the ore pulp is more suitable under the condition of a large amount of ore pulp or used under the condition that the motor 8 cannot be used, frequent mechanical stirring can be avoided, the damage to the main shaft 7 and other structures is reduced, and the failure rate is reduced; mechanical stirring and gas stirring can use simultaneously, strengthen stirring effect, extension operating time promotes the work efficiency of ore dressing, improves mineral resources recycle rate.

The stirring device 11 consists of a primary backflow prevention device 11.3, a secondary backflow prevention device 11.1 and an exhaust stirring device 11.2.

The secondary backflow prevention device 11.1 comprises an outer cylinder 11.11, an inner cylinder 11.12, a piston block 11.13 and a spring 11.14, the top of the outer cylinder 11.11 is fixed with a spindle 7, the outer cylinder 11.11 is communicated with the spindle 7, the inner cylinder 11.12 is arranged inside the outer cylinder 11.11, the top of the inner cylinder 11.12 is fixed with the top of the outer cylinder 11.11, the inner cylinder 11.12 is communicated with the spindle 7, the piston block 11.13 is arranged inside the inner cylinder 11.12 in a vertical sliding mode, the spring 11.14 is arranged between the piston block 11.13 and the bottom of the inner cylinder 11.12, one end of the spring 11.14 is fixed with the bottom of the piston block 11.13, the other end of the spring 11.14 is fixed with the bottom of the inner cylinder 11.12, and a through hole 11.15 communicated with the inside of the outer cylinder 11.11 is arranged above the side. When high-pressure gas passes through the stirring device 11, the high-pressure gas firstly enters the inner cylinder 11.12 of the secondary backflow prevention device 11.1, the piston block 11.13 is pushed downwards by the high-pressure gas, the spring 11.14 is compressed and contracted, the through hole 11.15 is not blocked by the piston block 11.13, and the gas enters the outer cylinder 11.11 from the through hole 11.15; when gas is not fed in, the spring 11.14 is reset upwards to drive the piston block 11.13 to ascend to block the through hole 11.15, and therefore ore pulp is prevented from entering the main shaft 7.

The exhaust stirring device 11.2 is fixed at the bottom of the secondary backflow prevention device 11.1, the exhaust stirring device 11.2 comprises a shell 11.21, a ventilation cylinder 11.22 and a stirring air outlet pipe 11.23, the top of the ventilation cylinder 11.22 is fixed with the top of the outer cylinder 11.11, the ventilation cylinder 11.22 is communicated with the outer cylinder 11.11, the shell 11.21 is covered and fixed on the outer wall of the ventilation cylinder 11.22, and an air outlet hole 11.24 communicated with the inside of the shell 11.21 is formed in the side wall of the ventilation cylinder 11.22. The high-pressure gas enters the aeration cylinder 11.22 of the exhaust gas stirring device 11.2 from the outer cylinder 11.11, enters the shell 11.21 through the gas outlet hole 11.24, and finally enters the ore pulp from the stirring gas outlet pipe 11.23.

Be provided with one-level anti-reflux device 11.3 in exhaust agitating unit 11.2, one-level anti-reflux device 11.3 includes stopper 11.31 and connecting rod 11.32, and stopper 11.31 slides from top to bottom and arranges inside breather pipe 11.22, and stopper 11.31 top surface is the toper, stopper 11.31 top and connecting rod 11.32 bottom, barrel 11.12 bottom in connecting rod 11.32 top passed to it is fixed with piston block 11.13 bottom. In the process that high-pressure gas enters the inner cylinder body 11.12 and pushes the piston block 11.13 downwards, the piston block 11.13 drives the limiting block 11.31 to descend through the connecting rod 11.32, the limiting block 11.31 does not block the air outlet 11.24, and the gas enters the shell 11.21 from the air outlet 11.24; when gas is not fed, the spring 11.14 is reset upwards to drive the piston block 11.13 to ascend, the piston block 11.13 simultaneously drives the limiting block 11.31 to ascend through the connecting rod 11.32, and the limiting block 11.31 blocks the air outlet hole 11.24, so that ore pulp is prevented from entering the air cylinder 11.22; through one-level backflow preventer 11.3, second grade backflow preventer 11.1, effectively prevent that the ore pulp from flowing back and entering main shaft 7, cause the damage to main shaft 7 isotructure, influence high-pressure gas's output.

The tank is characterized by further comprising a sleeve 12, the sleeve 12 is sleeved on the outer wall of the main shaft 7, the sleeve 12 is rotatably connected with the main shaft 7, and a supporting rod 13 is fixed between the sleeve 12 and the inner wall of the tank body 1. The main shaft 7 is supported and limited by the sleeve 12 and the support rod 13.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a gaseous stirring concentrate thick liquid jar, a serial communication port, including a jar body and compressor, jar body one side is equipped with overflow mouth and discharge gate from top to bottom respectively, jar body opposite side middle part is equipped with the feed inlet in the slant the jar body top is stamped the apron, the apron top surface is connected with the main shaft through the bearing rotation, the main shaft is cavity the apron top surface still is fixed with the motor, the main shaft top with the output shaft of motor passes through belt transmission, the main shaft top has the pipeline through the rotary joint intercommunication, the pipeline with the gas outlet of compressor is connected, the main shaft bottom is passed the apron is arranged in jar internal portion the internal portion of jar main shaft bottom mounting has agitating unit, the main shaft with agitating unit's stirring outlet pipe intercommunication.

2. A gas stirring concentrate slurry tank according to claim 1, characterized in that: the stirring device consists of a primary backflow prevention device, a secondary backflow prevention device and an exhaust stirring device.

3. A gas stirring concentrate slurry tank according to claim 2, characterized in that: the second grade anti-reflux device includes outer barrel, interior barrel, piston block and spring, outer barrel top with the main shaft is fixed, and outer barrel with the main shaft intercommunication outer barrel is inside to be set up interior barrel, interior barrel top with outer barrel top is fixed, and interior barrel with the main shaft intercommunication interior barrel is inside to slide from top to bottom to be equipped with the piston block, the piston block with set up between the interior barrel bottom the spring, spring one end with piston block bottom is fixed, the spring other end with interior barrel bottom is fixed interior barrel lateral wall top be equipped with the through-hole of the inside intercommunication of outer barrel.

4. A gas stirring concentrate slurry tank according to claim 3, characterized in that: the exhaust stirring device is fixed to the bottom of the secondary backflow prevention device and comprises a shell, a vent cylinder and a stirring air outlet pipe, the top of the vent cylinder is fixed to the top of the outer cylinder body, the vent cylinder is communicated with the outer cylinder body, the shell is covered and fixed to the outer wall of the vent cylinder, and an air outlet hole communicated with the inside of the shell is formed in the side wall of the vent cylinder.

5. A gas stirring concentrate slurry tank according to claim 4, characterized in that: be provided with in the exhaust agitating unit one-level anti-reflux device, one-level anti-reflux device includes stopper and connecting rod, the stopper slides from top to bottom and arranges in inside the breather pipe, the stopper top surface is the toper, the stopper top with the connecting rod bottom, the connecting rod top is passed interior barrel bottom, and with piston piece bottom is fixed.

6. A gas stirring concentrate slurry tank according to claim 1, characterized in that: the support is characterized by further comprising a sleeve, the sleeve is sleeved on the outer wall of the main shaft and is rotatably connected with the main shaft, and a supporting rod is fixed between the sleeve and the inner wall of the tank body.

Images