Lock catch type lubricant dosing device
Technical Field
The invention relates to the technical field of dosing devices, in particular to a locking lubricant dosing device.
Background
Geomembranes are one of the geosynthetics, and in the geomembrane construction project, the seam lap process of the geomembrane is a critical process in which the unreeling is driven by a film laying machine and a lubricant is required to be applied to the geomembrane. The common practice in construction is that the film feeding machine is placed on an engineering trolley or a moving wheel is arranged on the film feeding machine so that the film feeding machine can move in the construction process, and a manual mode is adopted to add the lubricant in the moving process.
Automatic dosing devices for adding chemical agents or lubricants are often used in the field of sewage treatment and industrial production. The existing automatic dosing devices are generally classified into two types, one type is an immersion type, which is generally provided with an immersion tank, and processes by placing an object in the tank and automatically applying a chemical agent, for example, patent document CN201821433095.6 discloses a device for automatically adding a lubricant, which is terminated by a soap immersion tank, and the other type is a drop type, for example, patent application CN202010766502.0 discloses an environment-friendly sewage treatment device with controllable drop type chemical agent, which can perform a controllable drop operation on the chemical agent.
However, in the geomembrane project construction process, the membrane material is exposed to the outside and is driven during construction, and the construction environment must be a completely open environment, and the existing immersion type dosing device cannot be adopted in the open environment. For the existing dripping type, as the construction environment of the membrane material is open and the membrane material can be driven or moved in the construction process, if the dripping type is adopted, the dripping liquid is extremely unlikely to fall freely in the moving process, is easy to drift along with wind, and cannot be accurately applied to the membrane material. In view of the fact that the existing automatic dosing device cannot be suitable for automatically adding the lubricant in the geomembrane construction project, a dosing device with a more reasonable structure is needed at present so as to automatically add the lubricant in the geomembrane project.
Disclosure of Invention
The invention aims to solve the problems, and aims to provide a locking type lubricant dosing device which is used for automatically adding lubricant in a geomembrane project so as to better assist in geomembrane under-membrane construction.
In order to achieve the above purpose, the invention adopts the following technical scheme:
The invention provides a locking lubricant dosing device which comprises a medicine storage barrel body and a limiting clamping component, wherein the limiting clamping component comprises a flat plate part and a limiting part arranged on one side edge of the flat plate part, the limiting part comprises limiting convex edges which are symmetrically arranged and respectively provided with limiting grooves on the front surface and the back surface of the flat plate part, the medicine storage barrel body is connected with a liquid outlet pipeline, the liquid outlet pipeline comprises a main pipe section extending outwards from the medicine storage barrel body, two branch pipe sections connected with the tail ends of the main pipe section and a liquid outlet nozzle arranged at the tail ends of the two branch pipe sections, the main pipe section is a straight pipe, the branch pipe sections are of a hook-shaped structure bent towards the center, the two branch pipe sections are symmetrically arranged, the shape of the liquid outlet nozzle is matched with the shape of the limiting grooves, and the two liquid outlet nozzles are respectively clamped with the two limiting grooves.
The locking lubricant dosing device provided by the invention can be further characterized in that the pipe diameters of the main pipe section and the branch pipe section are equal, and the pipe diameters are 5 mm-10 mm.
The locking lubricant dosing device provided by the invention can be further characterized in that the main pipe section and the two branch pipe sections of the liquid outlet pipe are of an integrated structure, and the tail ends of the liquid outlet nozzle and the branch pipe sections are in threaded connection and fixed.
The locking type lubricant dosing device provided by the invention can be further characterized in that the medicine storage cylinder body is also connected with a liquid inlet pipeline, and a driving mechanism for driving lubricant to be conveyed is arranged on the medicine storage cylinder body.
The invention has the following functions and effects:
The locking type lubricant dosing device comprises a medicine storage cylinder body and a limiting clamping component, wherein the medicine storage cylinder body is connected with a liquid inlet pipeline and a liquid outlet pipeline, a driving mechanism is arranged on the medicine storage cylinder body, so that the automatic output of lubricant can be realized, the liquid outlet pipeline is provided with two branch pipe sections, the tail ends of the two branch pipe sections are respectively provided with a liquid outlet nozzle, the two liquid outlet nozzles are correspondingly clamped with two limiting grooves of the limiting clamping component, and a locking state is formed between the two liquid outlet nozzles. In the construction process, even the film feeding machine is in a moving state, the lubricant flowing out of the liquid outlet nozzle can be ensured to flow downwards along the limiting groove, and the lubricant is ensured to be always applied to the edge position of the film material to be constructed. The invention realizes automatic lubricant application, ensures that the lubricant can be accurately applied to the edge position of the membrane, and has two liquid outlets corresponding to the front and the back of the limit clamping component, and can be unreeled and removed from the membrane on the front and the back.
Drawings
FIG. 1 is a schematic illustration of a lock-type lubricant dosing device in accordance with an embodiment of the present invention;
fig. 2 is a top view of a locking state of the liquid outlet pipe and the limiting and clamping member in the embodiment of the invention;
Fig. 3 is a schematic installation diagram of a limiting clamping member, a water stop bar and a slot member in an embodiment of the invention.
Detailed Description
In order to make the technical means, creation features, achievement of the purposes and effects of the present invention easy to understand, the following embodiments specifically describe the lock-type lubricant dosing device of the present invention with reference to the accompanying drawings.
< Example >
As shown in fig. 1, the locking type lubricant dosing device comprises a medicine storage cylinder body 1 and a limiting clamping component 5.
As shown in fig. 1 to 3, the stopper engaging member 5 includes a flat plate portion 51 and a stopper portion provided at one side of the flat plate portion. The limiting portion includes limiting raised edges 52 which are symmetrically arranged and respectively formed with limiting grooves on the front and back sides of the flat plate portion.
The medicine storage cylinder 1 is used for storing lubricant. In the embodiment, the medicine storage cylinder body 1 is of a cylinder structure, stress concentration can be avoided by the cylinder structure, and the inner wall of the cylinder structure is smooth, so that later cleaning and maintenance are facilitated.
As shown in fig. 1 and 2, the drug storage cylinder 1 is connected with a liquid outlet pipe 4, and the liquid outlet pipe 4 comprises a main pipe section 41, two branch pipe sections 42 and two liquid outlet nozzles 43. The main tube section 41 is a straight tube and extends from the cartridge body 1 to the outside. The two branch pipe sections 42 are connected to the ends of the main pipe section 41, the two branch pipe sections 42 are symmetrically arranged, and the branch pipe sections 42 are in a hook-shaped structure bent toward the center. Two liquid outlet nozzles 43 are respectively connected to the ends of the two branch pipe sections 42. The main pipe section 41 and the two branch pipe sections 42 of the liquid outlet pipeline 4 are of an integrated structure, the integrated structure preferably adopts a metal pipe, the pipe diameters of the main pipe section and the branch pipe sections are equal, and the pipe diameter is 5 mm-10 mm. The shape of the liquid outlet nozzle 43 is matched with the shape of the limit groove of the limit clamping component 5, and the liquid outlet nozzle 43 is fixedly connected with the tail end of the branch pipe section 42 in a threaded manner. As shown in fig. 1 and 2, the two liquid outlet nozzles 43 are respectively engaged with the two limiting grooves of the limiting engaging member 5, and the liquid outlet Kong Bikai contact surfaces of the liquid outlet nozzles are arranged, so that the liquid outlet nozzles can smoothly flow out of the lubricant under the condition of phase engagement.
As shown in fig. 1 and 2, the medicine storage cylinder 1 is also connected with a liquid inlet pipeline 3, and the liquid inlet pipeline 3 is connected with an external lubricant output device. The medicine storage cylinder body 1 is provided with a driving mechanism 2, and the driving mechanism 2 is used for driving lubricant to be conveyed. The driving mechanism 2 comprises a shell, a driving source and a driving wheel, wherein the driving source and the driving wheel are arranged in the shell, the driving source adopts a pump body or a motor, the driving wheel is arranged in the medicine storage cylinder body 1, and the driving wheel adopts an impeller or a fluid gear. In this way, lubricant can be continuously input into the cartridge body 1 through the liquid inlet pipeline 3, and the lubricant can be output in real time through the driving mechanism.
Valves (not shown) may also be provided in the inlet 3 and outlet 4 pipes for controlling the flow of lubricant through the pipes.
As shown in fig. 1 and 3, the limit engaging member 5 is inserted into the slot member 6. The socket member 6 includes a side socket 62 and a flat plate portion 61, and the flat plate portion 61 is connected to the back surface of the side socket 62. The side slots 62 and the plate portion 61 are integrally formed, preferably of metal or engineering plastic. The groove cavity of the side slot 62 is provided with a shape area matched with the limit clamping member 5, and the limit clamping member 5 is inserted and installed in the groove cavity of the limit clamping member 5. The groove cavity of the side insertion groove 62 also has a region for accommodating a water stop strip.
The installation and working process of the locking type lubricant dosing device are as follows:
in the current geomembrane construction process, water stop strip construction work is usually carried out simultaneously when the membranes are lapped, and the water stop strip is positioned between the two membranes to be lapped. The prior art water stop strip 8 is usually wound on the roller 7, and the winding condition is shown in fig. 1, and the water stop strip is paid out in real time when the membrane lap joint is carried out.
The installation and use conditions of the lock catch type lubricant dosing device are that firstly, the medicine storage cylinder body 1 and the limit clamping component 5 of the lock catch type lubricant dosing device are installed on a film feeding machine, and the roller 7 wound with the water stop bar 8 is also installed on the film feeding machine, wherein the installation mode is realized by adopting a conventional installation mode among mechanical parts, such as a conventional mode of bracket, bolt connection, welding and the like. During installation, the liquid outlet nozzle 43 of the liquid outlet pipeline 4 is ensured to be clamped with the limiting groove of the limiting clamping component 5, the installation completion state is shown in fig. 1, a locking state is formed between the liquid outlet nozzle 43 and the limiting groove, and displacement is not easy to occur. The slot member 6 is connected with the lower end of the limit clamping member 5 in an inserting way. The tail end of the water stop bar 8 is downward paid out through the groove cavity of the slot member 6.
The working process of the locking type lubricant dosing device comprises the steps of installing a constructed film material on the flat plate portion 61 of the slot member 6 through a clamp in the geomembrane construction process, unreeling the film material to be constructed through a film unreeling machine, enabling the film material to be in contact with the flat plate portion 51 of the limiting clamping member 5 after the film material is unreeled, paying off a water stop bar through a roller while unreeling the film material to be constructed, and starting the locking type lubricant dosing device before the constructed film material is overlapped with the film material to be constructed, so that lubricant automatically flows out from the liquid outlet nozzle 43, and the liquid flowing out can flow downwards along the limiting groove because the liquid outlet nozzle 43 is spliced and locked at the limiting groove position of the limiting clamping member 5. And the film material to be constructed is spread on the front and/or rear surfaces of the flat plate portion 51, so that the lubricant is directly applied to the edge position of the film material to be constructed. And the membrane material to be constructed is overlapped with the constructed membrane material through the edge position, and the lubricant is fully applied to the edge, so that the construction of the geomembrane under the membrane is better assisted. In addition, since the lock-type lubricant dosing device of the present invention has two branch pipe sections and two liquid outlet nozzles correspond to the front and rear surfaces of the flat plate portion 51, unreeling and film releasing can be performed on both the front and rear surfaces.
The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention are included in the protection scope of the present invention.