CN111409956A

CN111409956A - Dynamic gathering type liquid material loading and transporting device and dynamic discharging method

Info

Publication number: CN111409956A
Application number: CN202010283501.0A
Authority: CN
Inventors: 郭银平
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2020-07-14

Abstract

The invention relates to a dynamic material gathering type liquid material loading and transporting device and a dynamic material discharging method, and the technical scheme is that a bag body with an upper opening peripheral wall hermetically connected with the inner wall of a box body top plate is hung and connected in a box body, a space between the outer wall of the bag body and the inner wall of the box body forms an inflating cavity, a space between the inner wall of the bag body and the box body top plate forms a charging cavity, two sides of the bottom of the bag body are provided with guide support rods fixed with the lower surface of the bag body, two ends of each guide support rod are provided with rollers rolling along the vertical direction, the inner walls of two sides of the box body are provided with tracks arranged along the vertical direction, the rollers are arranged in the tracks, and the bottom of the box body is connected with a liquid outlet pipeline communicated with the inflating cavity.

Description

Dynamic gathering type liquid material loading and transporting device and dynamic discharging method

Technical Field

The invention relates to a dynamic gathering type liquid material loading and transporting device and a dynamic discharging method for liquid materials.

Background

The shipment of liquid materials has always been a great problem for workers in the related art, and the existing shipping methods usually employ stainless steel tanks or carbon steel tanks, which have high transportation cost, difficult shipment and potential safety hazards, so that improvement and innovation thereof are imperative.

Disclosure of Invention

In view of the above situation, the present invention provides a dynamic gathering type liquid material loading and transporting device and a dynamic discharging method, which can effectively solve the problem of efficient loading and transporting of liquid materials.

The technical scheme of the invention is as follows:

a dynamic material gathering type liquid material loading and transporting device comprises a box body, wherein the box body is of a hollow structure made of an airtight material, a bag body with an upper opening peripheral wall hermetically connected with the inner wall of a box body top plate is connected in the box body in a hanging mode, a charging cavity is formed by the space between the outer wall of the bag body and the inner wall of the box body, a charging cavity is formed by the space between the inner wall of the bag body and the box body top plate, a material opening communicated with the charging cavity is arranged in the center of the box body top plate where the charging cavity is located, guide support rods fixed with the lower surface of the bag body are arranged on two sides of the bottom of the bag body, rollers rolling in the vertical direction are arranged at two ends of each guide support rod, tracks arranged in the vertical direction are arranged on the inner walls on two sides of the box body, the rollers are arranged in the tracks and slide up and down along the length direction of the rollers, the bag body around the drain hole is pressed and fixed by a connecting bolt which penetrates through the drain hole and is screwed on the opening part of the liquid outlet pipeline to form a sealing connection structure of the drain hole and the liquid outlet pipeline, a liquid outlet pipe is connected on the liquid outlet pipeline which extends out of the box body part, a valve is arranged on the liquid outlet pipe, and an inflation joint pipe communicated with the inflation cavity is connected on the side surface of the box body.

A dynamic liquid material discharging method adopting the dynamic material gathering type liquid material loading and transporting device comprises the following steps:

charging

The connecting bolt penetrates through the drain hole and then is screwed and fixed with the upper opening of the liquid outlet pipeline, the bag body around the drain hole is tightly pressed and fixed on the bottom surface of the box body through a pressing plate (111) at the upper part of the connecting bolt, so that the drain hole is hermetically connected with the liquid outlet pipeline, the valve is closed, the liquid material is filled into a charging cavity of the bag body from a material opening at the top of the box body, and then a sealing cover matched with the material opening is filled in the upper opening of the material opening for sealing, so that the charging is completed;

secondly, discharging

After the box body is transported to a destination, two ends of an inflation pipeline are respectively connected with an air outlet of an air pump and an inflation connector pipe, a liquid leading-out pipe is connected with a water leading-out pipe and led out to a storage container, the air pump is started, a valve is opened, compressed air at an air outlet end of the air pump enters an inflation cavity from the inflation connector pipe, liquid materials are discharged sequentially through a drain hole, a liquid outlet pipeline and the liquid leading-out pipe, along with continuous discharge of the liquid materials, the liquid level continuously drops, the weight of the liquid materials at two sides of the inflation cavity is continuously reduced, finally bag bodies at two sides are pushed up by the air pressure of the inflation connector pipe fed into the inflation cavity under the traction of a guide support rod, meanwhile, the bag bodies at two sides of the top of the bag bodies are pushed out towards the center direction under the action of the air pressure, a downward slope is formed from two sides of the charging cavity to the center, the liquid, so that the material is not remained.

The invention has novel and unique structure, is simple and reasonable, is easy to produce and operate, saves time and labor, has low cost, and solves the problems of loading and unloading of liquid materials by discharging the liquid materials through the drain hole of the bag body, the liquid outlet pipeline and the liquid outlet pipe in sequence; along with the continuous reduction of the thickness of the liquid materials at two sides along the vertical direction, two sides of the lower part of the bag body are jacked up by the air pressure in the inflation cavity, and meanwhile, the bag bodies at two sides of the top of the bag body are jacked out towards the center under the action of the air pressure, so that a downward slope is formed from two sides of the charging cavity to the center, the liquid materials are continuously and intensively discharged from the drain holes along the slope towards the center, and the liquid materials in the charging cavity are completely cleaned, so that the materials are almost not left, the material receiving efficiency is greatly improved, the material discharging time is shortened, and the material; the discharge pipeline is detachable, so that the transportation on the vehicle is not needed, and the discharge pipeline is not always fixed on the discharge port, so that the risk of blockage of the discharge pipeline in the transportation process is avoided; the transportation is quick, efficient, safe, long in service life, convenient to use, effectual, is the innovation on the liquid shipment device.

Drawings

FIG. 1 is a cross-sectional front view of the present invention.

FIGS. 2-3 are sectional front views sequentially showing the state of use of the material receiving process of the present invention.

Fig. 4 to 5 are sectional side views of the present invention, in which the guide bar is not jacked in the state of fig. 4, and the guide bar is jacked in the state of fig. 5.

Fig. 6 is a bottom view of the pouch of the present invention.

Fig. 7 is a schematic structural view of the guide bar of the present invention.

Fig. 8 is a partial enlarged view of the invention at a in fig. 5.

FIG. 9 is a schematic sectional view showing the connection between the drainage hole and the liquid outlet pipe according to the present invention, wherein the direction of the arrows indicates the flowing direction of the liquid material.

Fig. 10 is a schematic structural view of the connecting bolt of the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in figures 1-10, the invention comprises a box body 1, the box body 1 is a hollow structure made of air-proof material, a bag body 3 with the upper opening peripheral wall hermetically connected with the inner wall of a box body top plate is hung and connected in the box body 1, an inflation cavity 3b is formed by the space between the outer wall of the bag body 3 and the inner wall of the box body, a charging cavity 3a is formed by the space between the inner wall of the bag body 3 and the box body top plate, a material opening 2 communicated with the charging cavity is arranged in the center of the box body top plate where the charging cavity is positioned, guide support rods 5 fixed with the lower surface of the bag body 3 are arranged at two sides of the bottom of the bag body 3, rollers 51 rolling along the vertical direction are arranged at two ends of the guide support rods 5, rails 6 arranged along the vertical direction are arranged on the inner walls at two sides of the box body 1, the rollers 51 are arranged in the rails and slide up, the bottom surface of the bag body 3 is provided with a drain hole 31 which is vertically communicated and is opposite to the upper opening of the liquid outlet pipeline 4, the bag body around the drain hole is pressed and fixed by a connecting bolt 11 which penetrates through the drain hole and is screwed on the opening part of the liquid outlet pipeline to form a sealing connection structure of the drain hole and the liquid outlet pipeline, the liquid outlet pipeline 4 extending out of the box body part is connected with a liquid outlet pipe 14, the liquid outlet pipe 14 is provided with a valve 13, and the side surface of the box body 1 is connected with an inflation joint pipe 11 communicated with the inflation cavity 3 b.

In order to ensure the using effect, the bag body 3 is made of deformable waterproof materials. Deformable waterproof material can be rubber etc. for guaranteeing its intensity, can increase thickness according to actual need, the upper end of the bag body 3 is followed and is connected the accessible through gluing with box roof inner wall sealing and hang in the box. When the valve is closed, the liquid material 10 is hermetically contained in the bag body because the drain hole is hermetically connected with the liquid outlet pipeline and the bag body is made of a waterproof material, and when the valve is opened, the liquid material is discharged through the drain hole, the liquid outlet pipeline and the liquid outlet pipe in sequence.

The axial line of the material port 2, the axial line of the drain hole 31 and the axial direction of the liquid outlet pipeline 4 are collinear; under normal conditions, flange joint drainage pipeline 7 on liquid eduction tube 14 can, when the liquid eduction tube 14 of carriage bottom blockked up or met other circumstances and can't normally go out the liquid, can insert the filling chamber cooperation water pump with other pipelines from the material mouth and take out.

The material opening 2 is provided with a sealing cover 9 in a rotating way for sealing the upper opening.

The two ends of the guide supporting rod 5 are connected with roller supporting plates 52, the rollers 51 are rotatably connected to the roller supporting plates 52 through rotating shafts, and the rollers 51 are arranged in the tracks 6 in a sliding mode.

The inflation joint pipe 11 is connected with an inflation pipeline 12, and the air inlet end of the inflation pipeline 12 is connected with the air outlet of the air pump 8; the air pressure provided by the air pump 8 is 0.05-0.2 Mpa, and the air pressure range is enough to provide the pressure for jacking the two sides of the bag body. The inflation pipeline 7 and the inflation joint pipe 4 can be connected through flanges. The inflation joint pipe 11 can be arranged at any position of the box body according to actual requirements, such as the lower parts of the left and right ends or the bottom surfaces of the two ends of the box body, as long as the inflation joint pipe is communicated with the inflation cavity, as shown in fig. 4 and 5, 2 inflation pipelines can be arranged and respectively connected to the side walls of the two sides of the box body, and the installation position of the inflation joint pipe is not limited in the embodiment.

The connecting bolt 11 is an integrated structure formed by coaxially connecting an upper pressing plate 111 and a lower screw rod 112, a vertically through drainage channel 113 is formed in the center of the connecting bolt 11, an external thread is arranged on the outer wall of the screw rod 112, an internal thread corresponding to the external thread is arranged on the inner wall of the upper part of the liquid outlet pipe 4, the screw rod 112 penetrates through the drain hole and then is rotationally fixed with the upper part of the liquid outlet pipe 4, and the pressing plate 111 tightly presses and fixes a bag body around the drain hole on the bottom surface of the box body.

The upper surface of the connecting bolt 11 is provided with a clamping groove 11a for remote rotation operation; during the installation, stretch into the operation that the bag body was screwed up or loosened from the material mouth through supplementary member, supplementary member adopt a length longer pole can, the tip of pole set up with the dop that the draw-in groove corresponds can, if the draw-in groove can set up the cross dop rather than matching for cross draw-in groove pull head.

The dynamic liquid material discharging method of the dynamic material gathering type liquid material loading and transporting device comprises the following steps:

charging

The connecting bolt 11 penetrates through the drain hole and then is screwed and fixed with the upper opening of the liquid outlet pipeline, the bag body around the drain hole is tightly pressed and fixed on the bottom surface of the box body through the pressing plate 111 at the upper part of the connecting bolt, so that the drain hole is hermetically connected with the liquid outlet pipeline, the valve 13 is closed, the liquid material 10 is filled into the charging cavity 3a of the bag body from the material opening 2 at the top of the box body 1, and then the sealing cover matched with the material opening is filled in the upper opening of the material opening for sealing, so that the charging is completed;

secondly, discharging

After the box body is transported to a destination, two ends of an inflation pipeline 12 are respectively connected with an air outlet of an air pump 8 and an inflation connector pipe 11, a liquid leading-out pipe 14 is connected with a water leading pipeline 7 and led out to a storage container, the air pump is started, a valve is opened, compressed air at the air outlet end of the air pump enters an inflation cavity from the inflation connector pipe 4, liquid materials sequentially pass through a drain hole, a liquid outlet pipeline and the liquid leading-out pipe to be discharged, the liquid level continuously drops along with the continuous discharge of the liquid materials, the weight of the liquid materials at two sides of the inflation cavity is continuously reduced, finally bag bodies at two sides are pushed up by the air pressure sent into the inflation cavity by the inflation connector pipe under the traction of a guide support rod, meanwhile, the bag bodies at two sides of the top of the bag bodies are pushed out towards the center direction under the action of the air pressure, so that a downward slope is formed from two sides of the charging cavity to the center, so that the material is not remained.

The box be the carriage, can set up fixed pulley and rather than complex wire rope in the box carriage to link together wire rope and direction die-pin, when not using, can receive the carriage top with the bag body, do not influence the carriage and use under other scenes, specifically pack up the operation and can not give in the door picture of opening the carriage, the door is the conventional setting of carriage, rotates the ascending bag body of packing up of assembly pulley drive direction die-pin.

Compared with the prior art, the bag body is novel and unique in structure, simple and reasonable, easy to produce, easy to operate, time-saving, labor-saving and low in cost, the bag body is fixed in the box body in a suspension mode, so that the box body is partitioned into an inflation cavity and a charging cavity which are mutually communicated, meanwhile, the bottom of the bag body is provided with a drain hole which is hermetically connected with a liquid outlet pipeline, liquid materials are discharged through the drain hole, the liquid outlet pipeline and a liquid outlet pipe in sequence, and the problem of loading and unloading the liquid materials is solved; along with the continuous reduction of the thickness of the liquid materials at two sides along the vertical direction, two sides of the lower part of the bag body are jacked up by the air pressure in the inflation cavity, and meanwhile, the bag bodies at two sides of the top of the bag body are jacked out towards the center under the action of the air pressure, so that a downward slope is formed from two sides of the charging cavity to the center, the liquid materials are continuously and intensively discharged from the drain holes along the slope towards the center, and the liquid materials in the charging cavity are completely cleaned, so that the materials are almost not left, the material receiving efficiency is greatly improved, the material discharging time is shortened, and the material; the discharge pipeline is detachable, so that the transportation on the vehicle is not needed, and the discharge pipeline is not always fixed on the discharge port, so that the risk of blockage of the discharge pipeline in the transportation process is avoided; the transportation is quick, efficient, safe, long in service life, convenient to use, effectual, is the innovation on the liquid shipment device.

The applicant should also point out that the above-mentioned description of the present application is only an example and is not intended to limit the scope of the present application, and all technical solutions substantially identical to the technical solutions of the present application, which are made by equivalent or equivalent substitution means, belong to the scope of the present application.

Claims

1. A dynamic material gathering type liquid material loading and transporting device comprises a box body (1) and is characterized in that the box body (1) is of a hollow structure made of air-tight materials, a bag body (3) with an upper opening peripheral wall connected with the inner wall of a box body top plate in a sealing mode is connected in the box body (1) in a hanging mode, an inflating cavity (3b) is formed in the space between the outer wall of the bag body (3) and the inner wall of the box body, a charging cavity (3a) is formed in the space between the inner wall of the bag body (3) and the box body top plate, a material opening (2) communicated with the charging cavity is arranged in the center of the box body top plate where the charging cavity is located, guide support rods (5) fixed with the lower surface of the bag body are arranged on two sides of the bottom of the bag body (3), rollers (51) rolling along the vertical direction are arranged at two ends of each guide, the bag body structure comprises a guiding structure which slides up and down along the length direction of the bag body structure to form up and down sliding of two sides of the bottom of the bag body, the bottom of the box body (1) is connected with a liquid outlet pipeline (4) communicated with an inflation cavity (3b), a drain hole (31) which is communicated up and down and is opposite to the upper opening of the liquid outlet pipeline (4) is formed in the bottom surface of the bag body (3), the bag body around the drain hole is pressed and fixed by a connecting bolt (11) which penetrates through the drain hole and is screwed on the opening part of the liquid outlet pipeline to form a sealing connection structure of the drain hole and the liquid outlet pipeline, a liquid outlet pipe (14) is connected on the liquid outlet pipeline (4) extending out of the box body part, a valve (13) is arranged on the liquid outlet pipe (14), and an inflation.

2. A dynamic polymeric liquid material handling device as defined in claim 1, wherein said bag (3) is made of a deformable water impermeable material.

3. The dynamic aggregate type liquid material loading device according to claim 1, wherein the axis of the material opening (2), the axis of the drain hole (31) and the axial direction of the liquid outlet pipeline (4) are collinear.

4. The dynamic aggregate type liquid material loading device according to claim 1, wherein a sealing cover (9) for sealing the upper opening of the material opening (2) is screwed on the material opening.

5. The dynamic gathering type liquid material loading and transporting device as claimed in claim 1, wherein the two ends of the guiding support rod (5) are connected with roller support plates (52), the rollers (51) are rotatably connected on the roller support plates (52) through rotating shafts, and the rollers (51) are slidably arranged in the track (6).

6. The dynamic gathering type liquid material loading and transporting device as claimed in claim 1, wherein an inflation pipeline (12) is connected to the inflation joint pipe (11), and the air inlet end of the inflation pipeline (12) is connected to the air outlet of the air pump (8).

7. The dynamic polymer liquid material loading and transporting device according to claim 1, wherein the connecting bolt (11) is an integral structure formed by coaxially connecting an upper pressing plate (111) and a lower screw rod (112), the center of the connecting bolt (11) is provided with a vertically through drainage channel (113), the outer wall of the screw rod (112) is provided with an external thread, the inner wall of the upper part of the liquid outlet pipeline (4) is provided with an internal thread corresponding to the external thread, the screw rod (112) passes through the drainage hole and then is rotationally fixed with the upper part of the liquid outlet pipeline (4), and the pressing plate (111) presses and fixes the bag body around the drainage hole on the bottom surface of the box body.

8. The dynamic aggregate liquid material handling device of claim 7, wherein said connecting bolt (11) has a slot (11a) on its upper surface for remote rotation.

9. A method for dynamically discharging a liquid material using the dynamic aggregate type liquid material handling device of claim 1, comprising the steps of:

charging

The connecting bolt (11) penetrates through the drain hole and then is screwed and fixed with the upper opening of the liquid outlet pipeline, the bag body around the drain hole is tightly pressed and fixed on the bottom surface of the box body through a pressing plate (111) at the upper part of the connecting bolt, so that the drain hole is hermetically connected with the liquid outlet pipeline, the valve (13) is closed, the liquid material (10) is filled into a filling cavity (3a) of the bag body from a material opening (2) at the top of the box body (1), and then a sealing cover matched with the material opening is filled into the upper opening of the material opening for sealing, so that the filling is;

secondly, discharging

After the box body is transported to a destination, two ends of an inflation pipeline (12) are respectively connected with an air outlet of an air pump (8) and an inflation joint pipe (11), a liquid leading-out pipe (14) is connected with a water leading-out pipeline (7) and led out to a storage container, the air pump is started, a valve is opened, compressed air at the air outlet end of the air pump enters an inflation cavity from the inflation joint pipe (4), liquid materials are discharged sequentially through a water discharging hole, a liquid discharging pipeline and the liquid leading-out pipe, the liquid level continuously descends along with continuous discharge of the liquid materials, the weight of the liquid materials at two sides of the inflation cavity is continuously reduced, finally bag bodies at two sides are jacked up by the air pressure sent into the inflation cavity by the inflation joint pipe under the traction of a guide supporting rod, meanwhile, the bag bodies at two sides of the top of the bag bodies are jacked out towards the center under the action of the air pressure, so that a downward slope is, thereby completely cleaning the liquid material in the charging cavity and ensuring no residue of the material.