CN215320821U - Ferrite composite membrane circulating fracturing device - Google Patents

Abstract

The utility model discloses a ferrite composite film circulating fracturing device which comprises a base frame main body, wherein a fracturing station and two winding and unwinding mechanisms positioned on two sides of the fracturing station are arranged on the base frame main body, each winding and unwinding mechanism comprises a material reel and a forward and reverse rotation driving source, each fracturing station comprises a circulating material belt mechanism and a press roller mechanism, each circulating material belt mechanism comprises a circulating belt supporting roller and a forward and reverse switching circulating driving source, and each press roller mechanism comprises a knurling roller body and a lifting adjusting part. The utility model can realize the winding and unwinding switching of the ferrite composite film, thereby realizing forward and reverse circulating fracturing operation without frequent material shaft switching transposition operation, and greatly improving the fracturing efficiency. Adopt circulation material to take mechanism and compression roller mechanism to cooperate, satisfy positive reverse fracturing control demand, the fracturing position is even stable simultaneously, and fracturing quality obtains the guarantee. The device has the functions of on-line detection, tension control and deviation correction, meets the consistency and stability of circulating operation, has higher automation degree, and reduces the monitoring cost and the operation intensity of personnel.

Description

Ferrite composite membrane circulating fracturing device

Technical Field

The utility model relates to a ferrite composite membrane circulating fracturing device, and belongs to the technical field of fracturing equipment.

Background

When the ferrite film is fractured, the performance parameters can be achieved only by single fracturing, and multiple fracturing is needed. If multi-roller fracturing is adopted, the equipment structure is complex, the tension of each part needs to be considered at the same time, the speed needs to be kept consistent, and the equipment cost is higher. If single-roller fracturing is adopted, the structure is relatively simple, but multiple times of fracturing are needed to achieve the effect.

Ferrite membrane is at single roll fracturing in-process, originally adopts unwinding mechanism material loading blowing, fracturing mechanism to carry out fracturing, winding mechanism receives the material unloading, again to the material loading that the fracturing was crossed on unwinding mechanism, repeats above process, nevertheless has following several problems: the rolled film is pressed on single-roller equipment, only a few minutes are needed, the repeated feeding and discharging and the material penetrating time are long, and the utilization efficiency of the equipment is not high; one device requires one person to control.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects of the prior art, and provides a ferrite composite membrane circulating fracturing device aiming at the problems that the traditional multi-roller fracturing equipment is high in cost and high in control difficulty and the interval period of repeated feeding and discharging of single-roller equipment is long.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

the ferrite composite membrane circulating fracturing device comprises a base frame main body, wherein a fracturing station for fracturing the ferrite composite membrane and two winding and unwinding mechanisms positioned on two sides of the fracturing station are arranged on the base frame main body, each winding and unwinding mechanism comprises a material reel and a forward and reverse rotation driving source for driving the material reel to perform forward rotation or reverse rotation switching,

the fracturing station includes circulation material area mechanism and compression roller mechanism, circulation material area mechanism including be used for with compression roller mechanism perpendicularly to the relative circulation area backing roll that sets up, be used for driving circulation area forward reverse of circulation material area mechanism switch the forward reverse of carrying the displacement and switch the circulation driving source, compression roller mechanism include with circulation area backing roll matched with possess rotatory free displacement's knurling roll body, be used for adjusting knurling roll body lift displacement's lift adjustment portion.

Preferably, a visual detection mechanism is arranged between the fracturing station and any winding and unwinding mechanism, and a material guide roller shaft is arranged between the visual detection mechanism and the adjacent winding and unwinding mechanism.

Preferably, the circulating material belt mechanism comprises two circulating belt guide shafts positioned on two sides of the circulating belt supporting roller, the forward and reverse switching circulating driving source comprises a forward and reverse switching rotating source, and a driving end of the forward and reverse switching rotating source is synchronously coupled and connected with the circulating belt supporting roller and any one of the circulating belt guide shafts in a linkage manner.

Preferably, the driving end of the forward and reverse switching rotation source, the circulating belt supporting roller and the circulating belt guide shaft are respectively provided with a driving fluted disc, and the three driving fluted discs are synchronously coupled and connected through a chain belt.

Preferably, the lifting adjusting part comprises two lifting adjusting positions which are axially distributed at intervals along the embossing roller body, and the lifting adjusting positions are in transmission connection with a shaft seat of the embossing roller body.

Preferably, the lifting adjusting position is a rotary lifting adjusting rod.

Preferably, an elastic element is arranged between the rotary lifting adjusting rod and the shaft seat of the embossing roller body.

Preferably, the winding and unwinding mechanism includes a tension control unit configured to control a tension of the material reel.

Preferably, the material roll shaft is provided with an axial deviation-correcting displacement.

The utility model has the following beneficial effects:

1. the winding and unwinding switching of the ferrite composite film can be realized, so that forward and reverse circulating fracturing operation is realized, frequent material shaft switching transposition operation is not required, and the fracturing efficiency is greatly improved.

2. Adopt circulation material to take mechanism and compression roller mechanism to cooperate, satisfy positive reverse fracturing control demand, the fracturing position is even stable simultaneously, and fracturing quality obtains the guarantee.

3. The device has the functions of on-line detection, tension control and deviation correction, meets the consistency and stability of circulating operation, has higher automation degree, and reduces the monitoring cost and the operation intensity of personnel.

Drawings

FIG. 1 is a schematic structural diagram of a ferrite composite membrane circulating fracturing device of the utility model.

FIG. 2 is a schematic diagram of a side view structure of the ferrite composite membrane cyclic fracturing device of the utility model.

FIG. 3 is a schematic sectional structure diagram of the ferrite composite membrane circulating fracturing device of the utility model.

Detailed Description

The utility model provides a ferrite composite membrane circulating fracturing device. The technical solution of the present invention is described in detail below with reference to the accompanying drawings so that it can be more easily understood and appreciated.

Ferrite complex film circulation fracturing unit, as shown in fig. 1 to 3, including bed frame main part 1, be equipped with on the bed frame main part 1 and be used for the fracturing station 2 of ferrite complex film fracturing and be located two receipts unwinding mechanism 3 of 2 both sides of fracturing station, receive unwinding mechanism 3 and include material spool 31 and be used for driving material spool 31 and carry out forward rotation or reverse rotation switching's positive and negative rotation driving source 32.

It is clear that specifically speaking, the winding and unwinding mechanisms 3 of 2 both sides of fracturing station all carry out the drive to material spool 31 through positive and negative rotation drive source 32, positive and negative rotation drive source 32 can adopt servo motor, when carrying out the fracturing operation, two winding and unwinding mechanisms 3 adopt the cooperation drive of rolling and unreeling, after unreeling to the end, rotate through positive and negative rotation drive source 32 and turn to the switching for the station switching of rolling and unreeling realizes reverse operation, so circulate, need not to carry out middle reloading operation, greatly improved fracturing efficiency.

The fracturing station 2 comprises a circulating material belt mechanism 4 and a pressing roller mechanism 5, wherein the circulating material belt mechanism 4 comprises a circulating belt supporting roller 40 which is arranged vertically and oppositely relative to the pressing roller mechanism, a forward and reverse switching circulating driving source 6 which is used for driving the circulating belt of the circulating material belt mechanism to switch forward and reverse to convey displacement, and the pressing roller mechanism 5 comprises an embossing roller body 50 which is matched with the circulating belt supporting roller 50 and has free rotation displacement and a lifting adjusting part 7 which is used for adjusting the lifting displacement of the embossing roller body.

Specifically, in the process that the two winding and unwinding mechanisms 3 form forward and reverse feeding, the circulating material belt mechanism 4 moves by matching the forward and reverse switching circulating driving source 6 with the feeding direction thereof, so that the requirement on adaptability of the fracturing conveying direction is met.

During the fracturing operation, the lifting stroke of the embossing roller body 50 can be adjusted through the lifting adjusting part 7, so that the gap between the embossing roller body 50 and the circulating belt supporting roller 50 is controlled, the circulating belt follows the circulating belt supporting roller 50, and the ferrite composite film is pressed between the circulating belt and the embossing roller body 50, so that the fracturing operation is realized.

In an embodiment, a visual detection mechanism 8 is arranged between the fracturing station 2 and any winding and unwinding mechanism 3, and a material guiding roller shaft 80 is arranged between the visual detection mechanism 8 and the adjacent winding and unwinding mechanism 3.

Specifically, the visual inspection mechanism 8 includes a horizontal support platform and an image portion located on the horizontal support platform, and the material guide roller shaft 80 is arranged at a height equal to that of the circulating belt, so that the ferrite composite film stably runs on the horizontal support platform, and the online detection is ensured to be effective and accurate.

In one embodiment, the endless belt mechanism 4 includes two endless belt guide shafts 41 disposed on both sides of the endless belt support roller, and the forward/reverse switching circulation drive source 6 includes a forward/reverse switching rotation source 60 having a drive end coupled to the endless belt support roller and any one of the endless belt guide shafts in a synchronized linkage.

More specifically, the driving end of the positive and negative switching rotary source, the circulating belt supporting roller and the circulating belt guide shaft are respectively provided with a driving fluted disc, and the three driving fluted discs are synchronously linked and matched through a chain belt.

Specifically, the traditional circulating material belt mechanism 4 is driven by a single side or two sides, and the circulating material belt mechanism 4 is driven by a combination of a single-side circulating belt guide shaft 41 and a circulating belt supporting roller 50 in the scheme, so that the circulating material belt runs more stably and reliably, meanwhile, the circulating belt supporting roller 50 can be controlled by accurate torsion, the phenomenon of relative slippage of fracturing stations is prevented, and the fracturing quality is ensured to be more uniform and reliable.

In one embodiment, the elevation adjustment part 7 comprises two elevation adjustment positions 70 spaced apart from each other in the axial direction of the embossing roll body, the elevation adjustment positions being in driving connection with the axle seats of the embossing roll body. The lifting adjusting position is a rotary lifting adjusting rod. An elastic element is arranged between the rotary lifting adjusting rod and the shaft seat of the embossing roller body.

The lifting adjusting positions 70 can adjust the lifting strokes of the two ends of the embossing roller body, so that stable and reliable fracturing crack is ensured, and meanwhile, the fracturing uniformity is further improved by adopting an elastic compression joint mode.

In one embodiment, the winding and unwinding mechanism 3 is provided with a tension control section for controlling the tension of the reel. The material roll shaft has axial deviation-rectifying displacement.

The tension control part can monitor the winding and unwinding tension of the material winding shaft 31, and the accurate tension control can be realized through the communication between the tension control part and the forward and reverse rotation driving source 32, so that the requirement on the operation stability of the ferrite composite film is met. The deviation-rectifying displacement can be realized by adopting a deviation-rectifying sensor and a telescopic driving matched mode, and no matter the deviation rectification or the tension control belongs to the prior art, the repeated description is omitted, only the deviation-rectifying operation and the tension control need to be met, and the stability of the forward and reverse circulating fracturing is maintained.

Through the above description, the ferrite composite membrane cyclic fracturing device can realize winding and unwinding switching of the ferrite composite membrane, so that forward and reverse cyclic fracturing operation is realized, frequent material shaft switching transposition operation is not required, and the fracturing efficiency is greatly improved. Adopt circulation material to take mechanism and compression roller mechanism to cooperate, satisfy positive reverse fracturing control demand, the fracturing position is even stable simultaneously, and fracturing quality obtains the guarantee. The device has the functions of on-line detection, tension control and deviation correction, meets the consistency and stability of circulating operation, has higher automation degree, and reduces the monitoring cost and the operation intensity of personnel.

The technical solutions of the present invention are fully described above, it should be noted that the specific embodiments of the present invention are not limited by the above description, and all technical solutions formed by equivalent or equivalent changes in structure, method, or function according to the spirit of the present invention by those skilled in the art are within the scope of the present invention.

Claims (9)

1. Ferrite complex film circulation fracturing unit, its characterized in that:

comprises a base frame main body, wherein a fracturing station for fracturing a ferrite composite membrane and two winding and unwinding mechanisms positioned on two sides of the fracturing station are arranged on the base frame main body, each winding and unwinding mechanism comprises a material reel and a forward and reverse rotation driving source for driving the material reel to perform forward rotation or reverse rotation switching,

the fracturing station includes circulation material area mechanism and compression roller mechanism, circulation material area mechanism including be used for with compression roller mechanism perpendicularly to the relative circulation area backing roll that sets up, be used for driving circulation area forward reverse of circulation material area mechanism switch the forward reverse of carrying the displacement and switch the circulation driving source, compression roller mechanism include with circulation area backing roll matched with possess rotatory free displacement's knurling roll body, be used for adjusting knurling roll body lift displacement's lift adjustment portion.

2. The ferrite composite membrane circulating fracturing device of claim 1, wherein:

and a visual detection mechanism is arranged between the fracturing station and any winding and unwinding mechanism, and a guide roller shaft is arranged between the visual detection mechanism and the winding and unwinding mechanism.

3. The ferrite composite membrane circulating fracturing device of claim 1, wherein:

the circulating material belt mechanism comprises two circulating belt guide shafts positioned on two sides of the circulating belt supporting roller, the forward and reverse switching circulating driving source comprises a forward and reverse switching rotating source, and the driving end of the forward and reverse switching rotating source is synchronously linked and matched with the circulating belt supporting roller and any circulating belt guide shaft.

4. The ferrite composite membrane circulating fracturing device of claim 3, wherein:

and the driving end of the positive and negative switching rotating source, the circulating belt supporting roller and the circulating belt guide shaft are respectively provided with a driving fluted disc, and the three driving fluted discs are synchronously linked and connected in a matching way through a chain belt.

5. The ferrite composite membrane circulating fracturing device of claim 1, wherein:

the lifting adjusting part comprises two lifting adjusting positions which are axially distributed at intervals along the embossing roller body, and the lifting adjusting positions are in transmission connection with a shaft seat of the embossing roller body.

6. The ferrite composite membrane circulating fracturing device of claim 5, wherein:

the lifting adjusting position is a rotary lifting adjusting rod.

7. The ferrite composite membrane circulating fracturing device of claim 6, wherein:

an elastic element is arranged between the rotary lifting adjusting rod and the shaft seat of the embossing roller body.

8. The ferrite composite membrane circulating fracturing device of claim 1, wherein:

the winding and unwinding mechanism is provided with a tension control part for controlling the tension of the material reel.

9. The ferrite composite membrane circulating fracturing device of claim 8, wherein:

the material roll shaft is provided with axial deviation rectifying displacement.

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