CN208804078U - Big water-coating port hydraulic station - Google Patents

Abstract

The utility model discloses a kind of big water-coating port hydraulic stations, including fuel tank, hydraulic pump, accumulator and shell and tube cooler.Hydraulic pump is set to the top of fuel tank, and hydraulic pump is connected by fuel sucking pipe with fuel tank.Accumulator is set on the side wall of fuel tank, and accumulator is connected with the output end of hydraulic pump, and electromagnetic relief valve is provided on accumulator, and accumulator can be connected by the first oil pipe with hydraulic actuator.Shell and tube cooler can be connected by oil return pipe with fuel tank.The hydraulic oil of hydraulic actuator reflux; after being cooled down first by shell and tube cooler; it flows back into fuel tank again; excessively high it can cause to shut down to avoid the temperature of fuel tank; it will not influence production, extend service life of equipment, reduce maintenance of equipment cost; reduce the equipment breakdown for leading to influence to produce by plant issue.

Description

Big water-coating port hydraulic station

Technical field

The utility model relates to cast steel technical fields, and in particular to a kind of big water-coating port hydraulic station.

Background technique

Big water-coating port hydraulic system is the important equipment on conticaster, and the mouth of a river wrapped greatly makes steel by the unlatching of hydraulic cylinder Water pours into Zhong Bao, realizes the first procedure of continuous casting ring.Big water-coating port hydraulic control not only reduces labor intensity of workers, but also mentions High automation degree of equipment, casts ring production for fast pace, high efficiency and takes a firm foundation.

Hydraulic station in big water-coating port is connect with hydraulic cylinder by oil pipe, and various rule can be realized in big water-coating port hydraulic system Fixed movement.Traditional big water-coating port hydraulic station uses accumulator pressure dwelling loop, and electromagnetic relief valve, which is powered, to pressurize, power loss pressure release Working principle controls fuel tank oil temperature.But since production on-site environment temperature is higher, fuel tank heat dissipation effect is poor, tank temperature It is excessively high to cause to shut down, it influences to produce.

Utility model content

Based on this, it is necessary to conventional hydraulic station tank temperature it is excessively high cause to shut down aiming at the problem that, a kind of big packet is provided Mouth of a river hydraulic station.

A kind of big water-coating port hydraulic station, comprising:

Fuel tank；

Hydraulic pump is set to the top of the fuel tank, and the hydraulic pump is connected by fuel sucking pipe with the fuel tank；

Accumulator is set on the side wall of the fuel tank, and the accumulator is connected with the output end of the hydraulic pump, Electromagnetic relief valve is provided on the accumulator, the accumulator can be connected by the first oil pipe with hydraulic actuator； And

Shell and tube cooler can be connected by the second oil pipe with the hydraulic actuator, and the tube type cold But device is connected by oil return pipe with the fuel tank.

It in one of the embodiments, further include return filter, the return filter is set to second oil pipe On, and the return filter is between the shell and tube cooler and the hydraulic actuator.

The shell and tube cooler includes cooler body, water inlet pipe, outlet pipe, oil inlet in one of the embodiments, Pipe and flowline, the water inlet pipe and the outlet pipe are set on the end face of described cooler body one end, the oil inlet pipe The both ends of the cooler body are respectively arranged at the flowline, the oil inlet pipe is connected with second oil pipe, institute Flowline is stated to be connected with the oil return pipe.

The cooler body includes tube body, left end cap, right end cap, cooling tube and baffling in one of the embodiments, Plate；

The left end cap and the right end cap are respectively arranged at the both ends of the tube body to seal the tube body, the water inlet Pipe and the outlet pipe are arranged at intervals on the left end cap, are equipped in the left end cap and are divided into the cavity of the left end cap The demarcation plate of first cavity and the second cavity, first cavity are connected with the water inlet pipe, second cavity with it is described Outlet pipe is connected；

The baffle plate is set in the tube body, and the cooling tube is set on the baffle plate, and the cooling tube is curved Bent U-shaped, the water inlet of the cooling tube is connected with first cavity, the water outlet of the cooling tube and second chamber Body is connected.

The baffle plate extends along the axial screw of the tube body in one of the embodiments, so that the baffle plate With the inner wall of the tube body formed for hydraulic oil pass through around circulation road.

The oil inlet pipe and the flowline are respectively arranged at the both ends of the tube body in one of the embodiments, and The oil inlet pipe and the flowline are arranged symmetrically about the revenue centre of the tube body, and the oil inlet pipe and the flowline are equal It is connected with the inner cavity of the tube body.

It in one of the embodiments, further include pressure gauge, the pressure gauge is set to the output end of the hydraulic pump.

Above-mentioned big water-coating port hydraulic station, the hydraulic oil of hydraulic actuator reflux are cooling by shell and tube cooler first Afterwards, then flow back into fuel tank, can to avoid fuel tank temperature it is excessively high cause to shut down, will not influence production, extend equipment use Service life reduces maintenance of equipment cost, reduces the equipment breakdown for leading to influence to produce by plant issue.

Detailed description of the invention

Fig. 1 is the piping connection schematic diagram of big water-coating port hydraulic station in an embodiment；

Fig. 2 is the structural schematic diagram of shell and tube cooler in Fig. 1.

Specific embodiment

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, with reference to the accompanying drawing to this The specific embodiment of utility model is described in detail.Many details are explained in the following description in order to abundant Understand the utility model.But the utility model can be implemented with being much different from other way described herein, this field Technical staff can do similar improvement without prejudice to the utility model connotation, therefore utility model is not by described below Specific implementation limitation.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.

Referring to Fig. 1, the big water-coating port hydraulic station 10 in an embodiment, for driving hydraulic cylinder movement on conticaster. Specifically, which includes fuel tank 100, hydraulic pump 200, accumulator 300 and shell and tube cooler 400.

Fuel tank 100 is for accommodating hydraulic oil.Fuel tank 100 is generally disposed at the side of conticaster, or is set to conticaster Rack on.Hydraulic pump 200 is set to the top of fuel tank 100, and hydraulic pump 200 is connected by fuel sucking pipe 210 with fuel tank 100 It is logical.Hydraulic pump 200 can go out the oil pump in fuel tank 100, be then delivered to hydraulic actuator 20.Hydraulic actuator 20 can Think the hydraulic actuators such as hydraulic cylinder.

Accumulator 300 is set on the side wall of fuel tank 100, and accumulator 300 is connected with the output end of hydraulic pump 200, Accumulator 300 can be connected by the first oil pipe 310 with hydraulic actuator 20.Accumulator 300 is a kind of energy savings dress It sets, it is that compression energy or position can store that it, which is in due course the energy conversion in system, when system needs, and will pressure Contracting energy or position can be changed into the energy such as hydraulic or air pressure and release, and mend feed system, again to guarantee whole system pressure just Often.Accumulator 300 is generally divided into spring and inflation, the influence in order to avoid gas to hydraulic oil, selects in present embodiment Spring accumul ator.

Accumulator 300 is equipped with electromagnetic relief valve 320, and electromagnetic relief valve 320 is for controlling accumulator 300.Specifically, electric When the energization of magnetic overflow valve 320 is opened, compression energy or position can be changed into the energy such as hydraulic or air pressure and released by accumulator 300, Mend feed system.When 320 power loss of electromagnetic relief valve is closed, the energy conversion in system is compression energy or position by accumulator 300 It can store.

Shell and tube cooler 400 is connected by the second oil pipe 410 with hydraulic actuator 20, and shell and tube cooler 400 are connected by oil return pipe 420 with fuel tank 100.The hydraulic oil that hydraulic actuator 20 flows back, it is cooling by shell and tube first It after device 400 is cooling, then flows back into fuel tank 100, excessively high can cause to shut down to avoid the temperature of fuel tank 100.

Referring to Figure 2 together, specifically, shell and tube cooler 400 includes cooler body 410, water inlet pipe 420, water outlet Pipe 430, oil inlet pipe 440 and flowline 450.Water inlet pipe 420 and outlet pipe 430 are set to the end face of 410 one end of cooler body On, water inlet pipe 420 is connected with cooling water tank, and outlet pipe 430 connects trench, to discharge cooling water.Oil inlet pipe 440 and the second oil Pipe 410 is connected, and flowline 450 is connected with oil return pipe 420.

In present embodiment, cooler body 410 include tube body 411, left end cap 412, right end cap 413, cooling tube 414 and Baffle plate 415.Left end cap 412 and right end cap 413 are respectively arranged at the both ends of tube body 411, and left end cap 412 and right end cap 413 divide The both ends of other sealed tube body 411 are to form closed chamber.Water inlet pipe 420 and outlet pipe 430 are arranged at intervals on left end cap 412.It is left Partition 412a is equipped in end cap 412, the cavity of left end cap 412 is divided into the first cavity 412b and the second cavity by partition 412a 412c, the first cavity 412b are connected with water inlet pipe 420, and the second cavity 412c is connected with outlet pipe 430.Baffle plate 415 is set It is placed in tube body 411, cooling tube 414 is set on baffle plate 415.Cooling tube 414 is bent U-shaped, the water inlet of cooling tube 414 It is connected with the first cavity 412b, the water outlet of cooling tube 414 is connected with the second cavity 412c.The bending of cooling tube 414 is in U Type can increase the stroke that cooling water flows in shell and tube cooler 400, and then when the heat exchange of increase cooling water and hydraulic oil Between, improve heat exchange efficiency.

Specifically, multiple fixation holes are uniformly provided on baffle plate 415, the both ends of cooling tube 414 are arranged in fixation hole, To which multiple cooling tubes 414 are uniformly arranged on baffle plate 415.Baffle plate 415 is the axial screw extension along tube body 411 Structure so that the inner wall of baffle plate 415 and tube body 411 formed for hydraulic oil pass through around circulation road, stream by that can increase Flowing stroke of the hydraulic oil in shell and tube cooler 400, and then the heat-exchange time of hydraulic oil and cooling water is improved, further mention High heat exchange efficiency.

Oil inlet pipe 440 and flowline 450 are respectively arranged at the both ends of tube body 411, and oil inlet pipe 440 and flowline 450 close It is arranged symmetrically in the revenue centre of tube body 411, oil inlet pipe 440 and flowline 450 are connected with the inner cavity of tube body 411.Oil inlet Pipe 440 and flowline 450 are located at the not ipsilateral of tube body 411, can increase the number that hydraulic oil streams, and improve heat exchange effect Rate.

In present embodiment, big water-coating port hydraulic station 10 further includes return filter 500, and return filter 500 is set to On second oil pipe 410, return filter 500 is set between shell and tube cooler 400 and hydraulic actuator 20.Hydraulic execution After the hydraulic oil that element 20 flows back is filtered by return filter 500, tube type cold can be polluted to avoid the impurity in hydraulic oil But device 400 and fuel tank 100 improve the service life of big water-coating port hydraulic station 10.Big water-coating port hydraulic station 10 further includes pressure gauge (not shown), pressure gauge are set to the output end of hydraulic pump 200.Pressure gauge can show the pressure of hydraulic oil, facilitate operator The pressure of member's confirmation hydraulic oil, to determine the need for opening the pressure of the adjusting hydraulic oil of accumulator 300.

The working principle of above-mentioned big water-coating port hydraulic station 10 specifically:

After hydraulic oil in fuel tank 100 is sucked out hydraulic pump 200, the pressure of hydraulic oil is adjusted by accumulator 300, then It is transported in hydraulic actuator 20, pressure gauge can show the pressure of hydraulic oil.The hydraulic oil that hydraulic actuator 20 flows back It after being filtered by return filter 500, is flowed into cooler body 410 by oil inlet pipe 440, hydraulic oil and cooling tube 414 Interior cooling water sufficiently exchanges heat after cooling, is then flow back into fuel tank 100 by flowline 450 and oil return pipe 420.

Above-mentioned big water-coating port hydraulic station 10, the hydraulic oil that hydraulic actuator 20 flows back, passes through shell and tube cooler first After 400 is cooling, then flow back into fuel tank 100, can to avoid fuel tank 100 temperature it is excessively high cause to shut down, will not influence production, prolong Service life of equipment has been grown, maintenance of equipment cost is reduced, has reduced the equipment breakdown for leading to influence to produce by plant issue. Meanwhile cooling tube 414 is U-shaped, the inner wall of baffle plate 415 and tube body 411 formed for hydraulic oil pass through around circulation road, Ke Yizeng Add the heat-exchange time of cooling water and hydraulic oil, improves heat exchange efficiency.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (7)

1. a kind of big water-coating port hydraulic station characterized by comprising

Fuel tank；

Hydraulic pump is set to the top of the fuel tank, and the hydraulic pump is connected by fuel sucking pipe with the fuel tank；

Accumulator is set on the side wall of the fuel tank, and the accumulator is connected with the output end of the hydraulic pump, described Electromagnetic relief valve is provided on accumulator, the accumulator can be connected by the first oil pipe with hydraulic actuator；And

Shell and tube cooler can be connected by the second oil pipe with the hydraulic actuator, and the shell and tube cooler It is connected by oil return pipe with the fuel tank.

2. big water-coating port hydraulic station according to claim 1, which is characterized in that it further include return filter, the oil return Filter is set on second oil pipe, and the return filter is located at the shell and tube cooler and the hydraulic execution Between element.

3. big water-coating port hydraulic station according to claim 1, which is characterized in that the shell and tube cooler includes cooler Main body, water inlet pipe, outlet pipe, oil inlet pipe and flowline, the water inlet pipe and the outlet pipe are set to the cooler body On the end face of one end, the oil inlet pipe and the flowline are respectively arranged at the both ends of the cooler body, the oil inlet pipe It is connected with second oil pipe, the flowline is connected with the oil return pipe.

4. big water-coating port hydraulic station according to claim 3, which is characterized in that the cooler body includes tube body, a left side End cap, right end cap, cooling tube and baffle plate；

The left end cap and the right end cap are respectively arranged at the both ends of the tube body to seal the tube body, the water inlet pipe and The outlet pipe is arranged at intervals on the left end cap, is equipped in the left end cap cavity of the left end cap being divided into first The demarcation plate of cavity and the second cavity, first cavity are connected with the water inlet pipe, second cavity and the water outlet Pipe is connected；

The baffle plate is set in the tube body, and the cooling tube is set on the baffle plate, and the cooling tube bending is in U Type, the water inlet of the cooling tube are connected with first cavity, the water outlet of the cooling tube and the second cavity phase Connection.

5. big water-coating port hydraulic station according to claim 4, which is characterized in that axial direction of the baffle plate along the tube body Extend spirally so that the inner wall of the baffle plate and the tube body formed for hydraulic oil pass through around circulation road.

6. big water-coating port hydraulic station according to claim 4, which is characterized in that the oil inlet pipe and flowline difference The both ends of the tube body are set to, and the oil inlet pipe and the flowline are arranged symmetrically about the revenue centre of the tube body, The oil inlet pipe and the flowline are connected with the inner cavity of the tube body.

7. big water-coating port hydraulic station according to claim 1, which is characterized in that further include pressure gauge, the pressure gauge is set It is placed in the output end of the hydraulic pump.