A kind of ultra-high pressure water fluid jet power device for waste tire processing
Technical field
The utility model relates to Waterjets cutting technology field more particularly to a kind of super-pressure for waste tire processing
Water jet power device.
Background technique
The recovery method of waste tire mainly has renovation, heat energy utilization and production rubber powder etc..Renovation generally applies to oblique
Tire, and there is also very big difficulties on reconditioning technology for most commonly used radial currently on the market.Heat energy utilization by
In the immature of technology, the value of secondary pollution and recycling can be caused very low to environment during recycling.Pass through crushing
Rubber powder is made in waste tire by mode, then applies to industrial production.The product that this mode recycles is worth high and not secondary
Pollution.Therefore, the way of recycling that rubber powder is a kind of great future is made in waste tire.Currently, waste tire is handled plastic
The method of powder mainly has freezing, chemical method, Mechanical Method and water jet method etc..Freezing and chemical method are due to high-cost original
Cause is rarely used in industrial production;The rubber powder mesh number of Mechanical Method production is limited, hardly results in the recovery product of high value, and development is empty
Between be greatly limited.A kind of technique of the high pressure water jet as pure physical action, will not destroy the inside of material
Tissue.Tire can be adequately cracked under pressure, obtain the high value rubber powder of high mesh number, while the water used may be used also
With recycling and reusing, no waste that whole flow process is pollution-free.Therefore, water jet method is that a kind of recycling of waste tire most has prospect
Method.
Traditional Water jet equipment only pass through equip huge equipment supporter and complicated pipeline could improve pressure and
Flow, but such mode needs bigger space, and brings great inconvenience to the maintenance in equipment later period.Currently,
There are many ultra-high pressure water fluid jet devices, is mainly used for cleaning, pressure measurement, cutting, robot etc..At the recycling of waste tire
Also there are the relevant technologies to mention water jet device in reason, but in prior art, the adjusting of pressure is artificial by pressure regulator valve mostly
It adjusting, such mode is not only accurate, but also does not adapt to intelligent production, meanwhile, pressure regulator valve is unloaded by adjusting
The size of flow realizes pressure regulation, and the reality output of motor does not change, this necessarily will cause the waste of the energy.
For this reason, it is necessary to which it is above-mentioned scarce to overcome to provide a kind of ultra-high pressure water fluid jet power device for waste tire processing
It falls into.
Summary of the invention
The utility model provides a kind of ultra-high pressure water fluid jet power device for waste tire processing, has and adjusts in real time
The output of control motor reduces energy dissipation, reduces the features such as cost improves efficiency, precision is high and intelligence degree is higher.
In order to solve the above-mentioned technical problem, technical solution adopted in the utility model is:
A kind of ultra-high pressure water fluid jet power device for waste tire processing, including:Integral support is arranged described whole
Water inlet on body support frame, is arranged in the servo motor on the integral support, and setting is watched on the integral support, with described
The plunger pump that motor is connected with the water inlet is taken, the fuel tank on the integral support is set, is arranged in the integral support
Signal processing mechanism that is upper, connecting with the servo motor, is arranged on the integral support and is arranged in the servo motor
With the filter above the plunger pump, the booster body on the integral support is set, is arranged on the integral support
High pressure discharge mechanism.
Preferably, the booster body includes:Booster on the integral support is set, and setting is in the whole branch
The supercharger outlet structure being connect on frame, with above-mentioned booster, and be arranged on the integral support, with the supercharger outlet
The battery of structure connection.
Preferably, the high pressure discharge mechanism includes:Support tube on the integral support is set, is arranged in the branch
High-pressure outlet on stay tube, and the water knife inlet pressure sensor being arranged on the support tube.
Preferably, the water inlet is arranged on the panel of the integral support side, and the bottom of the side panel is arranged in
End.
Preferably, signal processing mechanism includes:Signal processor in the integral support is set, and is arranged described
The control panel being connect on integral support, with the signal processor.
Preferably, the support tube is L-shaped.
Preferably, the supercharger outlet structure includes:Fixing seat on the integral support is set, is arranged described
The outlet pressure of the booster sensor being connect in fixing seat, with the booster.
Preferably, the power of the servo motor is 50KW, frequency 50Hz.
Compared with prior art, a kind of ultra-high pressure water fluid jet power dress for waste tire processing of the utility model
It sets, the plunger pump is set and drives the booster body pressurization, oil pressure information is fed back to the letter by the booster mechanisms
Number processing mechanism is connected to water knife on the booster body, and water knife plays a part of to crack tire, and user passes through the signal processor
Parameter required for structure input service, makes hydraulic pressure precisely reach required value, and the structure setting of the utility model also has real
When regulation motor output, reduce energy dissipation, reduce the features such as cost improves efficiency, precision is high and intelligence degree is higher.
Detailed description of the invention
Fig. 1 is a kind of structural representation of ultra-high pressure water fluid jet power device for waste tire processing of the utility model
Figure.
Fig. 2 is a kind of working principle of ultra-high pressure water fluid jet power device for waste tire processing of the utility model
Schematic diagram.
Specific embodiment
With reference to the accompanying drawing, the embodiments of the present invention is specifically illustrated, attached drawing is only for reference and illustrates use, not structure
The limitation of pairs of the utility model patent protection scope.
Please refer to Fig. 1 and Fig. 2, a kind of ultra-high pressure water fluid jet power dress for waste tire processing of the utility model
It sets, including:Integral support 1, water inlet 2, servo motor 3, plunger pump 4, fuel tank 5, signal processing mechanism 6, filter 7, pressurization
Mechanism 8 and high pressure discharge mechanism 9, wherein the water inlet 2 is arranged on the integral support 1, and the setting of water inlet 2 exists
On the 1 side panel of integral support, and the bottom end of the side panel is set, the servo motor 3 is arranged in the entirety
On bracket 1, the plunger pump 4 is arranged on the integral support 1 and connect with the servo motor 3 and the water inlet 2,
The fuel tank 5 is arranged on the integral support 1 and the side of the servo motor 3, the plunger pump 4, the letter is arranged in
Number processing mechanism 6 be arranged on the integral support 1 and with the servo motor 3, the booster body 8, the plunger pump 4
And the high pressure discharge mechanism 9 connects, the filter 7 is arranged on the integral support 1, and the high pressure discharge mechanism 9 is set
It sets on integral support 1 and setting is in described booster body one side.
Specifically, the integral support 1 plays installation fixed function, and the power of the servo motor 3 is 50KW, and frequency is
50Hz, the signal processing mechanism 6 include:Signal processor in the integral support 1 is set, and is arranged in the entirety
The control panel 61 connecting on bracket 1, with the signal processor, the control panel 61 are arranged with the water inlet 2 same
Side and the top that the water inlet 2 is arranged in, the number of the filter 7 are two, are arranged under the booster body 8
Side, the booster body 8 include:Booster 81 on the integral support 1 is set, be arranged on the integral support 1, with
The supercharger outlet structure 82 that above-mentioned booster 81 connects, and be arranged on the integral support 1, with the supercharger outlet knot
The battery 83 that structure 82 connects, the supercharger outlet structure 82 include:Fixing seat 821 on the integral support 1 is set,
The outlet pressure of the booster sensor 822 be arranged in the fixing seat 821, being connect with the booster, it is further, described
The both ends of booster 81 are separately connected the both ends of two batteries 83, connect pressure respectively in the two-port of the booster 81
Hydraulic pressure information is fed back to the signal processor by sensor, the pressure sensor, and 83 both ends of battery are connected to respectively
Water knife a, the water knife a play cracking tire, and the signal processor is joined according to required for the work that user inputs
Number adjusts the output of the servo motor 3 by the pressure information of pressure sensor feedback described at two, to make water in real time
Pressure precisely reaches required value, and then improves the accuracy of utility model works efficiency, and the high pressure discharge mechanism 9 wraps
It includes:Support tube 91 on the integral support 1 is set, the high-pressure outlet 92 on the support tube 91, and setting are set
Water knife a inlet pressure sensor 93 on the support tube 91, the support tube 91 is L-shaped.
From the above, it can be seen that a kind of ultra-high pressure water fluid jet power for waste tire processing of the utility model
Device mainly includes the servo motor 3, the plunger pump 4, the signal processor, the water knife a inlet pressure sensor
93, the outlet pressure of the booster sensor 822, the booster 81, the battery 83 and water knife a, the servo motor 3
It being controlled by the signal processor, connection drives the plunger pump 4, and the plunger pump 4 drives the booster 81 to be pressurized, if
Oil pressure information is fed back to the signal processor by the pressure sensor set between the plunger pump 4 and the booster 81,
Further, the both ends of the booster 81 are separately connected the both ends of two batteries 83, the two-port of the booster 81
Hydraulic pressure information is fed back to the signal processor, the battery by the outlet pressure of the booster sensor 822 of upper connection
The water knife a of 83 both ends connection plays a part of to crack tire, and the signal processor passes through pressure according to the running parameter received
The pressure information of sensor feedback adjusts the output of the servo motor 3 in real time, so that hydraulic pressure is precisely reached required value, separately
It outside, is 50KW, frequency 50Hz by the power setting of the servo motor 3, so that the adjustable range of the utility model adapts to
Wide application.
The utility model have the output of real-time monitoring motor, reduce energy dissipation, reduce cost improve efficiency, precision it is high
And intelligence degree it is higher the features such as.
Above disclosed is only the preferred embodiment of the utility model, and the right of the utility model cannot be limited with this
Protection scope, therefore equivalent variations made according to the patent scope of the utility model still belong to the model that the utility model is covered
It encloses.