CN118004610A - Raw material transfer tank for fireproof paint production - Google Patents

Abstract

The invention relates to the technical field of transfer tanks, in particular to a raw material transfer tank for producing fireproof paint. Including the frame, the frame fixedly connected with jar body, jar body is provided with inlet pipe and row material pipe, jar body sliding connection has symmetrical arrangement's slip shell, jar body fixedly connected with symmetrical arrangement's first shell and symmetrical arrangement's second shell, the second shell with be adjacent the intercommunication has the connecting pipe between the first shell, symmetrical arrangement the equal fixedly connected with dead lever of dorsal part of slip shell, sealed sliding connection has the piston rod in the first shell. According to the invention, the amount of liquid contained in the tank body is changed by the relative movement of the symmetrically arranged sliding shells, and in the process of changing the amount of liquid contained in the tank body, the liquid level is always positioned at the top of the tank body, so that the phenomenon that the liquid is overturned under the inertia effect due to the fact that the liquid level in the tank body is too low is avoided, the change of the gravity center position on the tank body is caused, the loss is even caused due to the overturning of the tank body, and the damage to staff is caused.

Description

Raw material transfer tank for fireproof paint production

Technical Field

The invention relates to the technical field of transfer tanks, in particular to a raw material transfer tank for producing fireproof paint.

Background

In general, in order to prevent fire, fire-proof paint is sprayed on engine cabins, living cabins and bulkheads of ship cabins, wherein the fire-proof paint is a paint capable of improving fire resistance of materials, slowing down propagation speed of flame, or preventing combustion in a certain time, and is also called fire-proof paint, and because fire-proof paint has different raw material properties and different storage conditions, raw materials of the fire-proof paint are usually stored in different warehouses, so that the raw materials are transported by using transport tanks during production of the fire-proof paint.

The existing transfer tank is mainly only a single tank body, the volume of the existing transfer tank cannot be changed, the existing tank body can only transfer fireproof paint raw materials in the same volume, when the raw materials in a warehouse are insufficient to fill the tank body, the tank body which is not filled can only be transferred, and in the transfer process of the tank body, liquid can shake in the tank body, so that the change of the center of gravity of the tank body is caused, even the tank body can be overturned, although the existing transfer tank can reduce the liquid shake by adding a vertical plate in the tank body (the tank body is divided into a plurality of parts), the problem that the change of the weight of the tank body cannot be effectively solved by simply adding the vertical plate, and the tank body cannot be always filled with the liquid.

Disclosure of Invention

The invention provides a raw material transfer tank for producing fireproof paint, which aims to overcome the defects that the volume of the existing transfer tank cannot be changed, and when the tank body is not fully filled with liquid, the liquid can shake in the tank body, so that the gravity center of the tank body is changed, and even the tank body is overturned.

The technical proposal is as follows: the utility model provides a raw materials transportation jar of fire prevention coating production usefulness, includes the frame, frame fixedly connected with jar body, jar body is provided with inlet pipe and row material pipe, jar body sliding connection has symmetrical arrangement's slip shell, jar body fixedly connected with symmetrical arrangement's first shell and symmetrical arrangement's second shell, first shell with all be provided with transmission medium in the second shell, the second shell with be adjacent communicate between the first shell, the symmetrical arrangement the equal fixedly connected with dead lever of dorsal aspect of slip shell, sealed sliding connection has the piston rod in the first shell, the piston rod with dead lever fixed connection, the symmetrical arrangement opposite side in the second shell is equal sealed sliding connection has the piston plate, fixedly connected with elastic element between piston plate and the adjacent the second shell, jar body is provided with and is used for making the symmetrical arrangement the trigger mechanism that the slip shell all removed, be provided with in the jar and carry out the rabbling mechanism of stirring to its interior material.

Preferably, the triggering mechanism comprises a fixing frame, the fixing frame is fixedly connected with the tank body, the fixing frame is fixedly connected with a vertical rod, the vertical rod is far away from one side of the fixing frame and is slidably connected with a floating plate, the floating plate is fixedly connected with symmetrically arranged connecting frames, the symmetrically arranged connecting frames are in sliding connection with the tank body, the symmetrically arranged connecting frames are respectively in sliding connection with adjacent second shells, one side, close to the adjacent second shells, of the connecting frames is fixedly connected with a plugging plate, and the plugging plate is in sliding connection with the adjacent second shells.

Preferably, a side of the floating plate away from the fixing frame is an inclined plane, and the distance between the inclined plane and the fixing frame gradually decreases from the middle to the outside, so that substances on the floating plate are separated under the action of self gravity.

Preferably, the stirring mechanism comprises symmetrically arranged connecting sleeves, the symmetrically arranged connecting sleeves are respectively connected with adjacent sliding shells in a rotating mode, the symmetrically arranged connecting sleeves are all in sliding connection with the fixing frame, the connecting sleeves are provided with first limiting grooves, the fixing frame is fixedly connected with first limiting columns which are symmetrically arranged, the first limiting columns are in limiting fit with the adjacent first limiting grooves, stirring rods which are uniformly arranged are fixedly connected with the connecting sleeves, and a cleaning assembly used for cleaning the floating plates is arranged on the tank body.

Preferably, the first limiting groove is a spiral groove, and is used for enabling the connecting sleeve to rotate, and the stirring rods are uniformly distributed on the connecting sleeve and have the same distribution condition as the adjacent first limiting groove, and are used for stirring substances in adjacent areas.

Preferably, the side of the sliding shell, which is close to the adjacent connecting frame, is fixedly connected with blocking plates which are arranged at equal intervals, the blocking plates are used for blocking substances moving in the tank body, and the blocking plates are provided with through holes which are uniformly arranged.

Preferably, the cleaning assembly comprises an air passing shell, the air passing shell is fixedly connected to the tank body, a first one-way valve is arranged on one side, far away from the tank body, of the air passing shell, first pipes are symmetrically arranged on the first shell, the air passing shell is communicated with the air passing shell, an air distributing shell is fixedly connected to one side, close to the floating plate, of the tank body, an annular array of air holes is formed in one side, close to the floating plate, of the air distributing shell, a second pipe is communicated between the air distributing shell and the air passing shell, and a second one-way valve is arranged on one end, close to the air passing shell, of the second pipe.

Preferably, the frame is further provided with a fixing mechanism for fixing the frame in the transferring process, the fixing mechanism is arranged on the frame, the fixing mechanism comprises symmetrically arranged sliding rods, the symmetrically arranged sliding rods are all in sliding connection with one side of the frame, which is far away from the tank feeding pipe, the symmetrically arranged sliding rods are fixedly connected with sliding frames in a common mode, the sliding frames are matched with the frame in a contact mode, fixing pieces are fixedly connected with the sliding frames in a symmetrical mode, rotating shafts are rotationally connected with rotating shafts, L-shaped rods are fixedly connected with gears in a sliding mode, racks are fixedly connected with one sides of the frames, which are in symmetrical arrangement, are meshed with adjacent gears, and limiting assemblies for enabling the L-shaped rods to slide relative to the adjacent rotating shafts are arranged on one sides of the frames.

Preferably, the spacing subassembly is including equidistant and symmetrical arrangement's limiting plate, equidistant and symmetrical arrangement the equal fixed connection of limiting plate in the frame is close to one side of carriage, the limiting plate is provided with the second spacing groove, adjacent and symmetrical arrangement the equal fixedly connected with second spacing post of the back side of L type pole, the second spacing post with adjacent the spacing cooperation of second spacing groove.

Preferably, the second limiting groove is a part of an archimedes spiral shape, and is used for enabling the L-shaped rod to slide relative to the adjacent rotating shaft.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the amount of liquid contained in the tank body is changed by symmetrically arranging the relative movement of the sliding shells, and after the liquid filled in the tank body is changed to a certain extent, the liquid level is always positioned at the top of the tank body along with the increase of the filling amount in the process of changing the liquid contained in the tank body, so that the phenomenon that the liquid rolls under the inertia effect due to the too low liquid level in the tank body is avoided, the change of the gravity center position on the tank body is caused, the loss is even caused due to the tank body overturning, and the injury to staff is caused; the symmetrically arranged sliding shells are utilized to stir the liquid in the adjacent areas by uniformly arranged and rotating stirring rods in the process of relative movement, so that the normal state of the liquid is ensured, the phenomenon that the liquid forms hard skin in the area which is not impacted for a long time in the tank body and influences the subsequent discharging is avoided; the liquid which moves due to inertia is blocked by the blocking plates which are arranged at equal intervals, so that the liquid in the tank body is mutually divided, a single flow mode of the liquid in the tank body is broken, the mixing and the dispersion of the liquid in the tank body are promoted, the sloshing degree of the liquid in the tank body is weakened, the impact on the tank body is reduced, the fatigue stress on the tank body is reduced, and the safety of the device in the use process is improved; when the symmetrically arranged piston rods move oppositely, air in the air passing shell is pressed into the air dividing shell, then the air is sprayed to the floating plate through the air holes on the air dividing shell, and the upper adhered liquid is cleaned, so that the phenomenon that the floating plate is influenced by the action of buoyancy force and the relative movement of the two sliding shells is avoided; the L-shaped rods symmetrically arranged are in multi-point contact with the fork, so that the degree of freedom of the frame is increased and reduced, and the stability of the frame and parts on the frame in the transferring process is improved.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic perspective view of the frame and its upper parts according to the present invention;

FIG. 3 is a schematic perspective view of the tank and its internal parts;

FIG. 4 is a schematic perspective view of the tank and its upper parts according to the present invention;

FIG. 5 is an enlarged view of the perspective structure of FIG. 3A in accordance with the present invention;

FIG. 6 is a schematic perspective view of the gas passing shell and its upper parts according to the present invention;

FIG. 7 is a schematic perspective view of the pole and its upper parts according to the present invention;

FIG. 8 is a schematic view of another perspective of the frame and its upper parts of the present invention;

FIG. 9 is a schematic perspective view of the frame and its upper parts of the present invention;

FIG. 10 is a schematic perspective view of the components of the carriage of the present invention;

Fig. 11 is an exploded view of the perspective structure of the parts of the fixture of the present invention.

The marks of the components in the drawings are as follows: 1-frame, 2-tank, 3-slide shell, 4-first shell, 5-second shell, 6-connecting tube, 7-fixed rod, 8-piston rod, 9-piston plate, 10-elastic element, 1101-fixed frame, 1102-vertical rod, 1103-floating plate, 1104-connecting frame, 1105-plugging plate, 1201-connecting sleeve, 1202-first limit groove, 1203-first limit column, 1204-stirring rod, 1301-blocking plate, 1302-through hole, 1401-over-air shell, 1402-first check valve, 1403-first tube, 1404-divide-air shell, 1405-second tube, 1406-second check valve, 1501-slide rod, 1502-slide frame, 1503-fixed piece, 1504-rotating shaft, 1505-L-shaped rod, 1506-gear, 1507-rack, 1601-limit plate, 1602-second limit groove, 1603-second limit column.

Detailed Description

In the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted" and "disposed" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art. Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

Example 1: the utility model provides a raw materials transportation jar that fire prevention coating production was used, as shown in fig. 1-4, including frame 1, frame 1 fixedly connected with jar body 2, jar body 2's upside is provided with the inlet pipe, jar body 2's downside is provided with arranges the material pipe, jar body 2 sliding connection has two sliding shells 3 of bilateral symmetry arrangement, through the volume of holding that makes two sliding shells 3 back removal increase jar body 2, and make jar body 2 be full of it throughout in the in-process liquid that increases the volume of holding, thereby reduce jar body 2 because the degree that inertia takes place to roll in the transportation process, thereby make jar body 2's focus keep unchanged, and then improve jar body 2 transportation in-process's stability, jar body 2 fixedly connected with is left and right symmetrically arranged's two first shells 4 and two second shells 5 of bilateral symmetry arrangement, all be provided with transmission medium in first shell 4 and the second shell 5, transmission medium in the first shell 4 is for, transmission medium in the second shell 5 is nitrogen gas, and the intercommunication has 6 in the in-process liquid of increase volume to be full of holding volume, thereby reduce jar body 2, thereby, the piston rod 7 is connected with two piston rod 7 in the first shell 4, piston rod 9 is connected with two piston rod 9 in the piston rod 5 in the first side, piston rod 9 is connected with piston rod 9 in the piston rod is fixed connection to piston rod 5, piston rod 9 in the piston rod is connected with two adjacent piston rod 5, the piston rod is used for the piston rod is connected with in the piston rod 9 in the piston rod.

As shown in fig. 3-6, the triggering mechanism comprises a fixing frame 1101, the fixing frame 1101 is fixedly connected in a tank body 2, the fixing frame 1101 is fixedly connected with a vertical rod 1102, the upper side of the vertical rod 1102 is conical and used for preventing liquid from accumulating on the vertical rod 1102, a floating plate 1103 is slidingly connected on the upper side of the vertical rod 1102, the upper side of the floating plate 1103 is an inclined surface, the distance between the inclined surface and the fixing frame 1101 is gradually reduced from the middle to the outside and used for enabling substances on the floating plate 1103 to separate under the action of self gravity, the floating plate 1103 is fixedly connected with two connecting frames 1104 which are symmetrically arranged left and right, the two connecting frames 1104 are in sliding connection with the tank body 2, the two connecting frames 1104 are respectively in sliding connection with adjacent second shells 5, and the front side of each connecting frame 1104 is fixedly connected with a plugging plate 1105 which is in sliding connection with the adjacent second shells 5.

As shown in fig. 3 and fig. 4, the stirring mechanism includes two connecting sleeves 1201 symmetrically arranged left and right, the two connecting sleeves 1201 are respectively connected to the middle parts of adjacent sliding shells 3 in a rotating manner, the two connecting sleeves 1201 are both connected with a fixing frame 1101 in a sliding manner, the connecting sleeves 1201 are provided with first limiting grooves 1202, the first limiting grooves 1202 are spiral grooves and are used for enabling the connecting sleeves 1201 to rotate, the fixing frame 1101 is fixedly connected with two first limiting columns 1203 symmetrically arranged left and right, the first limiting columns 1203 are in limiting fit with the adjacent first limiting grooves 1202, the first limiting columns 1203 limit the adjacent first limiting grooves 1202, the two connecting sleeves 1201 rotate in a back moving manner, the connecting sleeves 1201 are fixedly connected with a plurality of stirring rods 1204 which are uniformly arranged, the distribution condition of the adjacent stirring rods 1204 is identical to the shape of the adjacent first limiting grooves 1202, the materials in the adjacent areas are uniformly stirred, the materials in the adjacent areas are prevented from being influenced by forming hard skins by liquid in the impact areas for a long time, and the tank body 1103 is provided with a cleaning assembly for cleaning floating plates.

As shown in fig. 3 and fig. 4, three blocking plates 1301 are fixedly connected to the upper sides in the two sliding shells 3, the three blocking plates 1301 are arranged at equal intervals, the blocking plates 1301 are used for blocking substances moving in the tank body 2, the thickness of the blocking plates 1301 is gradually reduced from top to bottom and used for guiding rolling liquid, force applied to the left and right directions of the tank body 2 when the liquid rolls is reduced, stability of the tank body 2 is improved, three through holes 1302 are formed in the blocking plates 1301 and uniformly arranged, the liquid in the tank body 2 is utilized to divide the liquid when the liquid rolls, a single flow mode of the liquid in the tank body 2 is broken, the rolling degree of the liquid in the tank body 2 is reduced, impact of the liquid on the tank body 2 is reduced, and the service life of the tank body 2 is prolonged.

As shown in fig. 1 and fig. 5-fig. 7, the cleaning assembly includes an air passing shell 1401, the air passing shell 1401 is fixedly connected to the front upper portion of the outer side of the tank body 2, a first check valve 1402 is installed on the front side of the air passing shell 1401, the circulation direction of the first check valve 1402 is backward, a first pipe 1403 is communicated between two first shells 4 and the air passing shell 1401, an air dividing shell 1404 is fixedly connected to the upper side in the tank body 2, a plurality of air holes in an annular array are arranged on the lower side of the air dividing shell 1404, air is extruded to the air dividing shell 1404 when two piston rods 8 move oppositely, then air in the air dividing shell 1404 is sprayed to the floating plate 1103 through the air holes on the air dividing shell, and liquid accumulated on the floating plate 1103 is cleaned, so that the influence of the liquid on the floating plate 1103 on the relative movement of two subsequent sliding shells 3 is prevented, a second pipe 1405 is communicated between the air dividing shell 1404 and the air passing shell 1401, a second check valve 1406 is installed on the front end in the second pipe, and the direction of the second check valve 1406 is backward.

When raw materials (resin, modifier, etc.) of the fireproof coating are required to be transported, for convenience of description, after the liquid is replaced, a worker firstly communicates an external discharging pipeline with a feeding pipe on the tank body 2, then injects external liquid into the tank body 2, along with the increase of the duration of the liquid injection into the tank body 2, the liquid level in the tank body 2 continuously rises, the liquid in the tank body 2 begins to apply pressure to the two sliding shells 3, and because the two sealing plates 1105 respectively seal the adjacent second shells 5, the two sliding shells 3 do not move at this time, after the liquid level rises to be in contact with the floating plate 1103, the floating plate 1103 begins to slide upwards along the vertical rod 1102 under the action of self-floating force along with the continuous rising of the liquid level, the floating plate 1103 drives the two connecting frames 1104 to move upwards together, the connecting frames 1104 drive the adjacent sealing plates to move upwards together, the sealing plates gradually lose the sealing of the adjacent second shells 5, and then the two sliding shells 3 begin to move back under the action of the liquid pressure.

In the process of back movement of the two sliding shells 3, the sliding shells 3 drive the adjacent fixed rods 7 to move together, the fixed rods 7 drive the adjacent piston rods 8 to move together, the two piston rods 8 move in the adjacent first shells 4 respectively and squeeze hydraulic oil in the adjacent first shells 4, hydraulic oil in the first shells 4 starts to enter the adjacent connecting pipes 6, then hydraulic oil enters the adjacent second shells 5 again, hydraulic oil entering the second shells 5 starts to squeeze the adjacent piston plates 9, the two piston plates 9 start to move back, nitrogen in the two second shells 5 is compressed, the two elastic elements 10 are compressed, the liquid level in the tank 2 starts to drop along with the continuous back movement of the two sliding shells 3, the buoyancy born by the floating plates 1103 is reduced, the floating plates start to move downwards under the action of self gravity, the floating plates 1103 drive the two connecting frames 1104 to move downwards together, the connecting frames 1104 drive the adjacent sealing plates 1105 to move downwards together, and the sealing plates 1105 gradually seal the adjacent second shells 5.

As the floating plate 1103 continues to move downward, when the blocking plate 1105 moves downward until the adjacent second shell 5 is completely blocked, hydraulic oil in the first shell 4 cannot be discharged, the two sliding shells 3 stop moving backward, as liquid is continuously injected into the tank 2, the liquid level in the tank 2 rises again, when the liquid level rises to be in contact with the floating plate 1103 again, then the floating plate 1103 moves upward again under the action of buoyancy, the blocking plate 1105 loses the blocking of the adjacent second shell 5 again, the two sliding shells 3 move backward again, and the circulation is performed until the tank 2 is completely filled, the amount of liquid in the tank 2 is increased by the backward movement of the two sliding shells 3, and the tank 2 is always filled with the liquid while the holding amount in the tank 2 is increased, so that the tank 2 and the liquid in the tank 2 are prevented from being overturned due to inertia in the subsequent transfer process, the gravity center of the tank 2 is changed too much, the loss is caused, and even injury is caused to workers.

In order to increase the chaotic degree of the liquid in the process of injecting the liquid into the tank body 2, the hard skin is prevented from being formed in the area which is not impacted locally in the long-time liquid injection process, so that the liquid is kept in a normal form, further the subsequent discharging is facilitated, and the method comprises the specific steps that in the process that two sliding shells 3 move back to back, the two sliding shells 3 drive the adjacent connecting sleeves 1201 to move together, the two sliding shells 3 start to slide back along the fixed frame 1101, the first limiting columns 1203 start to slide in the adjacent first limiting grooves 1202, in the process, the first limiting columns 1203 press the adjacent first limiting grooves 1202, the connecting sleeves 1201 start to rotate anticlockwise (left-view direction), the connecting sleeves 1201 drive a plurality of stirring rods 1204 on the connecting sleeves to rotate anticlockwise, and the rotating stirring rods 1204 stir the liquid in the adjacent area, so that the chaotic degree of the liquid is increased, the hard skin is prevented from being formed in the tank body 2, and adhesion occurs.

Because the liquid in the tank 2 can shake and impact the tank 2 due to the inertia effect in the transferring process, in order to improve the flow of the liquid in the tank 2 in the transferring process, reduce the shake and impact and enhance the stability, as follows, in the process that the tank 2 is transferred by a transportation vehicle (including but not limited to a forklift, for convenience of description, a forklift is used instead), if the forklift turns, the liquid in the tank 2 starts to move left and right under the action of the inertia, and because the three blocking plates 1301 in the sliding shell 3 divide the liquid in adjacent areas, the single flow mode of the liquid in the tank 2 is broken, the mixing and dispersion of the liquid in the tank 2 is promoted, so that the shaking degree of the liquid in the tank 2 is weakened, the impact on the tank 2 is reduced, the fatigue stress born by the tank 2 is reduced, and the safety of the device in the using process is improved.

After the device is completely transported, the forklift integrally places the device in a target area, then a worker communicates a discharge pipe of the tank body 2 with an external container, then the worker opens the discharge pipe of the tank body 2, liquid in the tank body 2 begins to discharge outwards, along with the reduction of the liquid quantity in the tank body 2, the pressure in the tank body 2 is reduced, the two sliding shells 3 begin to move oppositely under the action of negative pressure, the sliding shells 3 drive the adjacent fixed rods 7 to move together, the fixed rods 7 drive the adjacent piston rods 8 to move together, at this time, the two piston rods 8 move oppositely until all parts are reset after the liquid is completely discharged.

Because the liquid has a certain viscosity, in order to avoid the adhesion of the liquid to the floating plate 1103, when the two piston rods 8 move oppositely, the gas is sprayed to the floating plate 1103 by the gas separating shell 1404, so as to clean the liquid on the floating plate 1103, the specific steps are as follows, in the process that the two piston rods 8 move oppositely, the pressure in the gas passing shell 1401 is reduced, the first one-way valve 1402 is opened, the outside air enters the gas passing shell 1401 after passing through the first one-way valve 1402, when the two piston rods 8 move oppositely, the first one-way valve 1402 is closed, the second one-way valve 1406 is opened, the air in the gas passing shell 1401 enters the gas separating shell 1404 through the second pipe 1405, and then the air in the gas separating shell 1404 is discharged and sprayed to the floating plate 1103 through the air holes on the air separating shell, so that the adhered liquid on the floating plate 1103 is cleaned, the influence of the floating plate 1103 on the effect of the floating plate 1103 is avoided, the relative movement of the two sliding shells 3 is reduced, and the amount of the liquid contained in the tank 2 is reduced.

Example 2: on the basis of embodiment 1, as shown in fig. 8-11, the device further comprises a fixing mechanism for fixing the frame 1 in the transferring process, the fixing mechanism is arranged at the lower side of the frame 1, the fixing mechanism comprises two sliding rods 1501 which are symmetrically arranged left and right, the two sliding rods 1501 are both connected with the lower side of the frame 1 in a sliding mode, the lower ends of the two sliding rods 1501 are fixedly connected with sliding frames 1502 which are in contact fit with the frame 1 together, the sliding frames 1502 are fixedly connected with two fixing pieces 1503 which are symmetrically arranged left and right, the fixing pieces 1503 are rotationally connected with rotating shafts 1504, the rotating shafts 1504 are connected with two L-shaped rods 1505 which are symmetrically arranged front and back in a sliding mode, opposite sides of the two L-shaped rods 1505 are both arranged left and right in an elastic mode and are used for improving the stability of the frame 1 in the transferring process, gears 1506 are fixedly connected with the middle of the rotating shafts 1504, the lower sides of the frame 1 are fixedly connected with the two racks 1507 which are symmetrically arranged left and right, 1507 are meshed with the adjacent gears, the adjacent L-shaped rods 1505 are driven to rotate when the gears roll along the adjacent racks 1507, and the adjacent racks 1507 are in a sliding mode, the opposite sides of the two racks 1505 are arranged left and the opposite sides of the frame 1 are arranged in a sliding mode, and the opposite sides of the frame 1 are arranged in the sliding mode, and the opposite sides of the fixing points are arranged in the sliding mode, and the frame assembly is further arranged in the opposite sides of the frame 1 to the fixing points to be in the sliding mode, and the opposite sides of the fixing points of the frame 1 to the frame is arranged.

As shown in fig. 8-11, the limiting assembly comprises four limiting plates 1601 which are equidistant from front to back and symmetrically arranged from left to right, wherein the four limiting plates 1601 are fixedly connected to the lower side of the frame 1, the limiting plates 1601 are provided with second limiting grooves 1602, the second limiting grooves 1602 are part of an archimedes spiral shape and are used for enabling the L-shaped rods 1505 to slide relatively with the adjacent rotating shafts 1504, second limiting columns 1603 are fixedly connected to the back sides of the adjacent and symmetrically arranged L-shaped rods 1505, and the second limiting columns 1603 are in limiting fit with the adjacent second limiting grooves 1602.

In order to improve the stability of the invention in the transferring process, the fixing point of the fork of the forklift is increased by clamping the fork of the forklift through the L-shaped rod 1505, so that the freedom degree of the frame 1 is limited, and the stability and the safety in the transferring process are improved, and the specific steps are that when the frame 1 and the parts on the frame are transferred, a worker drives the forklift to the position where the fork is positioned below the sliding frame 1502 (as shown in fig. 7, the lower side of the sliding frame 1502 is the fork of the forklift), then the worker moves the fork of the forklift upwards, after the fork moves upwards to be contacted with the sliding frame 1502, the fork carries the sliding frame 1502 to move upwards together with the continuous upward movement of the fork, the sliding frame 1502 drives the two sliding rods 1501 to move upwards together with the two fixing pieces 1503, the two sliding rods 1501 slide upwards along the frame 1, the fixing member 1503 drives the two adjacent L-shaped rods 1505 and the adjacent rotating shaft 1504 to move upwards together, the rotating shaft 1504 drives the adjacent gear 1506 to move upwards together, the gear 1506 starts to roll upwards along the adjacent rack 1507, the gear 1506 drives the two adjacent L-shaped rods 1505 to rotate together until the sliding frame 1502 moves upwards to be in contact with the frame 1, at this time, the L-shaped rods 1505 also stop rotating, the L-shaped rods 1505 rotate to be in contact with the adjacent forks, limit is added to limit the frame 1 in the left-right direction, the situation that the frame 1 moves left and right under the action of centrifugal force in the steering process of a subsequent forklift is avoided, so that stability in the transferring process is improved, the sliding frame 1502 drives the frame 1 and parts thereon to move upwards together along with the continued upward movement of the forks, and workers stop lifting the forks after the frame 1 moves upwards to the target height.

In the process of rotating the L-shaped rod 1505, the L-shaped rod 1505 drives the adjacent second limiting columns 1603 to rotate together, the second limiting columns 1603 start to slide upwards in the adjacent second limiting grooves 1602, the second limiting columns 1603 start to move upwards due to the limiting of the second limiting grooves 1602 to the adjacent second limiting columns 1603, the second limiting columns 1603 drive the adjacent L-shaped rod 1505 to move upwards together, the L-shaped rod 1505 starts to slide upwards along the adjacent rotating shafts 1504, when the sliding frame 1502 moves upwards to be in contact with the frame 1, the L-shaped rod 1505 moves upwards to be in contact with the fork, so that the number of limiting points of the frame 1 is further increased, and the frame 1 is prevented from moving upwards under the action of inertia when the fork truck passes through a deceleration strip in the transferring process, so that the stability of the frame 1 and parts on the frame 1 in the transferring process is further improved.

After the frame 1 and its upper parts are transported to the destination, the worker lowers the forks, the frame 1 and its upper parts move downward together, and as the frame 1 moves downward into contact with the ground, the carriage 1502 and its upper parts continue to move downward under the force of gravity of the worker as the forks continue to move downward, the gear 1506 rolls downward along the adjacent racks 1507, the L-shaped bar 1505 starts to rotate in the opposite direction, and slides downward along the adjacent rotating shafts 1504 until all the parts are completely reset.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (10)

1. A raw materials transfer pot for fire-retardant coating production, characterized by: including frame (1), frame (1) fixedly connected with jar body (2), jar body (2) are provided with inlet pipe and row material pipe, jar body (2) sliding connection has sliding shell (3) of symmetrical arrangement, jar body (2) fixedly connected with first shell (4) of symmetrical arrangement and symmetrical arrangement's second shell (5), first shell (4) with all be provided with transmission medium in second shell (5), second shell (5) and adjacent intercommunication between first shell (4) have connecting pipe (6), symmetrical arrangement sliding shell (3) all fixedly connected with dead lever (7) in the dorsal aspect of dorsal aspect, sealing sliding connection has piston rod (8) in first shell (4), piston rod (8) with dead lever (7) fixedly connected with, symmetrical arrangement all sealing sliding connection has piston plate (9) in the opposite side in second shell (5), piston plate (9) with adjacent between second shell (5) fixedly connected with connecting piece (10), symmetrical arrangement has elastic component (10) in the first shell (3) and is used for making jar body (2) carry out the stirring mechanism, stirring mechanism (2) is used in the setting up.

2. A raw material transfer pot for producing fire retardant coating according to claim 1, characterized in that: the trigger mechanism comprises a fixing frame (1101), the fixing frame (1101) is fixedly connected with in the jar body (2), fixing frame (1101) fixedly connected with pole setting (1102), pole setting (1102) are kept away from one side sliding connection of fixing frame (1101) has kickboard (1103), kickboard (1103) fixedly connected with symmetrical arrangement's link (1104), symmetrical arrangement link (1104) all with jar body (2) sliding connection, symmetrical arrangement link (1104) respectively with adjacent second shell (5) sliding connection, link (1104) are close to adjacent one side fixedly connected with shutoff board (1105) of second shell (5), shutoff board (1105) with adjacent second shell (5) sliding connection.

3. A raw material transfer pot for producing fire retardant coating according to claim 2, characterized in that: the floating plate (1103) is provided with an inclined surface at one side far away from the fixed frame (1101), and the distance between the inclined surface and the fixed frame (1101) gradually decreases outwards from the middle, so that substances on the floating plate (1103) are separated under the action of self gravity.

4. A raw material transfer pot for producing fire retardant coating according to claim 2, characterized in that: the stirring mechanism comprises symmetrically arranged connecting sleeves (1201), the symmetrically arranged connecting sleeves (1201) are respectively connected with adjacent sliding shells (3) in a rotating mode, the symmetrically arranged connecting sleeves (1201) are all connected with a fixing frame (1101) in a sliding mode, the connecting sleeves (1201) are provided with first limiting grooves (1202), the fixing frame (1101) is fixedly connected with first limiting columns (1203) which are symmetrically arranged, the first limiting columns (1203) are in limiting fit with the adjacent first limiting grooves (1202), stirring rods (1204) which are uniformly arranged are fixedly connected with the connecting sleeves (1201), and cleaning assemblies used for cleaning floating plates (1103) are arranged on the tank body (2).

5. A raw material transfer pot for producing fire retardant coating according to claim 4, wherein: the first limiting grooves (1202) are spiral grooves and are used for enabling the connecting sleeve (1201) to rotate, the stirring rods (1204) are uniformly distributed on the connecting sleeve (1201) and are identical to the adjacent first limiting grooves (1202) in shape, and the stirring rods are used for stirring substances in adjacent areas.

6. A raw material transfer pot for producing fire retardant coating according to claim 2, characterized in that: the symmetrical arrangement the side that is close to adjacent of sliding shell (3) all rigid coupling has baffle (1301) that the equidistance was arranged, baffle (1301) are used for stopping the material of jar body (2) internal motion, baffle (1301) set up through-hole (1302) with evenly arranging.

7. A raw material transfer pot for producing fire retardant coating according to claim 4, wherein: the cleaning assembly comprises an air passing shell (1401), the air passing shell (1401) is fixedly connected with the tank body (2), a first one-way valve (1402) is arranged on one side, far away from the tank body (2), of the air passing shell (1401), first pipes (1403) are communicated between the first shells (4) and the air passing shell (1401) in symmetrical arrangement, an air distributing shell (1404) is fixedly connected to one side, close to the floating plate (1103), of the tank body (2), an annular array of air holes is formed in one side, close to the floating plate (1103), of the air distributing shell (1404), a second pipe (1405) is communicated between the air distributing shell (1404) and the air passing shell (1401), and a second one-way valve (1406) is arranged on one end, close to the air passing shell (1401), of the second pipe (1405).

8. A raw material transfer pot for producing fire retardant coating according to claim 1, characterized in that: still including being used for right frame (1) is carrying out fixed establishment in the transportation, fixed establishment set up in frame (1), fixed establishment including symmetrical arrangement's slide bar (1501), symmetrical arrangement slide bar (1501) all sliding connection in one side of frame (1) keep away from jar body (2) inlet pipe, symmetrical arrangement slide bar (1501) jointly fixedly connected with carriage (1502), carriage (1502) with frame (1) contact cooperation, carriage (1502) fixedly connected with symmetrical arrangement's mounting (1503), mounting (1503) rotation is connected with axis of rotation (1504), axis of rotation (1504) sliding connection have symmetrical arrangement's L shaped rod (1505), axis of rotation (1504) fixedly connected with gear (1506), one side that frame (1) is close to carriage (1502) is fixedly connected with symmetrical arrangement's rack (1507), rack (1507) and adjacent gear (1506), frame (1502) are close to one side that frame (1502) is close to be provided with L shaped rod (1505) the relative subassembly takes place.

9. A fire retardant coating material transfer pot according to claim 8, wherein: limiting components is including equidistance and symmetrical arrangement's limiting plate (1601), equidistance and symmetrical arrangement limiting plate (1601) all fixed connection in frame (1) is close to one side of carriage (1502), limiting plate (1601) are provided with second spacing groove (1602), adjacent and symmetrical arrangement the equal fixedly connected with second spacing post (1603) of dorsal part of L type pole (1505), second spacing post (1603) and adjacent spacing cooperation of second spacing groove (1602).

10. A raw material transfer pot for producing fire retardant coating according to claim 9, characterized in that: the second limit groove (1602) is a part of an archimedes spiral shape and is used for enabling the L-shaped rod (1505) to slide relative to the adjacent rotating shaft (1504).