CN113387048A

CN113387048A - Material capsule with dynamic combined material pipe

Info

Publication number: CN113387048A
Application number: CN202110622986.6A
Authority: CN
Inventors: 郭银平
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2021-09-14

Abstract

The invention discloses a material capsule with a dynamic combined material pipe, which comprises a capsule body, wherein a material port is arranged at the top end of the capsule body, a fixed frame is also arranged at the material port, a mounting hole is arranged at the center of the fixed frame, a main material pipe is arranged at the mounting hole, at least two connecting holes are also arranged in the fixed frame, a sleeve pipe is fixedly arranged in the connecting hole and has a similar structure with the main material pipe, the sleeve pipe comprises an inner lining pipe and an outer connecting pipe, the sleeve pipe is connected and installed with the material pipe through a rubber hose, the material pipe comprises an inner pipe and an outer pipe, the top of the inner pipe is higher than the top of the outer pipe, the bottom of the inner pipe is higher than the bottom of the outer pipe, an auxiliary moving device for dynamically and quickly moving and discharging the combined material pipe is also arranged on the material pipe, and the effect that the material is automatically moved and is drawn close to the middle part is realized under the action of rubber elastic recovery and external force, the use value of the material capsule and the cleanness degree of the material absorption are improved.

Description

Material capsule with dynamic combined material pipe

Technical Field

The invention belongs to the technical field of particle material transportation equipment, and particularly relates to a material capsule with a dynamic combined material pipe.

Background

The traditional material transport bag cannot effectively recover by self when materials are extracted, most industrial powder materials are fine in particles, strong in flowability, easy to lose and easy to pollute, at present, the powder materials are often transported by shipping containers and train carriages, when in unloading, the powder materials are sucked out under the action of a fan through a discharge channel extending into a discharge port at the top of a carriage, when in wind power discharge, the powder materials in the containers or the train carriages have residues and are difficult to send out, the material receiving efficiency is low, the traditional material bag cannot be contracted and randomly change a cavity, so that the side edges of the material bag still have partial residues during suction operation, and time and labor are wasted by adopting manual cleaning; and along with the continuous progress of technique, some have also inhaled the material device and added additional auxiliary stay structure, assist and receive the material, but the structure of this kind of mode is comparatively loaded down with trivial details again, and the residue of corner can't absorb totally, can't realize that dynamic material pipe self-moving, recovery and shrink have seriously influenced the work efficiency that the material link was inhaled in the material transportation, for this reason, we need a material capsule with dynamic combination material pipe.

Disclosure of Invention

The invention aims to provide a material capsule with a dynamic combined material pipe, aiming at solving the problem of low material receiving efficiency of residual powder materials in the related technology.

The technical scheme adopted by the invention is as follows:

a material capsule with a dynamic combined material pipe comprises a capsule body, wherein a material port for feeding and discharging is formed in the center of the top end of the capsule body, a fixed frame is further connected and installed at the material port, a mounting hole is formed in the center of the fixed frame, a main material pipe is further connected and installed at the mounting hole, at least two connecting holes are further formed in the fixed frame and communicated with the mounting hole, a sleeve is fixedly installed in each connecting hole and similar to the main material pipe in structure, each sleeve comprises a lining pipe and an outer connecting pipe connected with the lining pipe through a support, the sleeve is communicated with the main material pipe, the sleeve is connected and installed with the material pipe through a rubber hose to realize the movement of the material pipe, the material pipe is uniformly distributed in M number, M is more than or equal to 2, and each material pipe comprises an inner pipe and an outer pipe, the top of the inner pipe is higher than the top of the outer pipe, the bottom of the inner pipe is higher than the bottom of the outer pipe, the inner pipe is connected with the inner lining pipe, the outer pipe is connected with the outer pipe, the inner pipe and the outer pipe are fixedly connected through supporting rods, the supporting rods are evenly distributed, N is larger than or equal to 3, and an auxiliary moving device for dynamically and quickly unloading the combined material pipe in a self-moving manner is further arranged on the material pipe.

Preferably, the capsule body is made of a high-molecular wear-resistant rubber material.

Preferably, the auxiliary moving device comprises a buckle arranged at the bottom of the fixing frame and a net sleeve connected with the buckle, and the material pipe is arranged in the net sleeve.

Further preferably, the material pipes are four in matching installation and are distributed in bilateral symmetry.

Further preferably, the number of the sleeves connected with the material pipe is four, and the four sleeves are all located on the same horizontal plane.

Preferably, the auxiliary moving device comprises a spiral spring arranged on the material pipe, pull rings arranged on the spiral spring and a pull wire connected and installed between the two pull rings.

Preferably, the material pipes are four in the left and right symmetrical distribution of the capsule body, and the volute spiral springs in the left and right symmetrical distribution on the material pipes are connected through a wire drawing ring and a pull ring to realize the movement of the material pipes to the middle.

Preferably, the number of the sleeves connected with the material pipe is eight, the sleeves are arranged in a matched mode, and the sleeves are located on the same horizontal plane.

Further preferably, tension springs for contraction and movement are further arranged between every two material pipes distributed on the same side.

Further preferably, springs are respectively connected and mounted at the left and right bottom parts of the capsule body.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the material capsule integrated structure, the material residue of the corners at the inner side of the capsule is avoided through the matching of the combined distributing pipes arranged in the capsule body and the auxiliary moving device, the effect that the material pipe sucks materials to move to the middle part in a self-moving manner is realized through the elastic recovery of rubber and the elastic recovery of springs, the working efficiency of a material sucking link is greatly improved, the clean degree of material unloading of the material capsule is improved, and the practicability and the high efficiency of the material capsule are further improved;

2. according to the capsule, the material pipe with a special structure is arranged in the capsule body, so that the material sucking speed is greatly improved, the air flow channel is formed between the inner pipe and the outer pipe, partial air is sucked by the air flow channel while the material pipe sucks materials, the problem of blockage of the materials in the sucking link is avoided, further, air blowing operation can be performed on the air flow channel, the materials are sucked out from the inner pipe in an accelerated mode, the use value of the material capsule is further improved, the supporting and fixing effects are provided by arranging the fixing frame, the bottom of the fixing frame is connected and provided with the plurality of sleeve pipes and the material pipe, the rubber hose is arranged between the sleeve pipes and the material pipe, the material pipe can move and shift conveniently, the material pipe is distributed in the capsule body in claw shapes at four corners of the capsule body, and the high efficiency of material sucking is further guaranteed;

3. according to the capsule, the auxiliary moving device is arranged on the material pipe, the positioning and guiding movement effects of the material pipe are realized further under the auxiliary support of the net sleeve and the buckle, the loading material is fully loaded in an initial state, the bottom end of the material pipe is completely inclined and distributed at the four corners of the lower part of the capsule body, the materials on the left side and the right side are gradually reduced along with the continuous operation of the material suction, the capsule body is made of high-strength high-polymer wear-resistant elastic rubber materials and has strong elastic recovery capability, under the self-recovery of the rubber, the corners of the capsule body are folded to move towards the middle part and drive the material pipe to approach to the middle part, the combined material pipe dynamically and automatically moves to suck the materials, the materials are quickly and completely sucked out, and the high efficiency and the cleanness degree of material discharge are further improved;

4. in the invention, the auxiliary moving device is arranged to realize the functions of self-recovery of the material capsule and side corner recovery by spring force, prevent the capsule material from remaining, and ensure that the material pipe is intensively drawn close to the middle part to realize continuous and uninterrupted high-speed material suction, the capsule body is made of high-strength high-polymer wear-resistant elastic rubber material and has stronger elastic recovery capability, the corner of the capsule body is gradually lifted under the self-recovery of the rubber and the elastic recovery of the spring, so that the material residue of the side corner at the inner side of the capsule is avoided, the volute spiral spring is arranged on the material pipe to provide the other self-recovery acting force, and further, the symmetrically distributed material pipes are further drawn close to the middle part quickly under the self-recovery and spring recovery effects of the capsule by arranging pull rings on the volute spiral spring and connecting and installing a wire drawing wire between the two pull rings, the material pipe is for setting up respectively four in the left and right symmetric distribution of capsule body, and the scroll spring of left and right symmetric distribution on the material pipe passes through wire drawing and pull ring connection and realizes moving to the middle part of material pipe, and is further, the material pipe that the homonymy distributes still is provided with the tension spring that is used for the shrink to remove between two liang, is convenient for realize that the material pipe inhales the material operation at this internal developments of capsule from removing, has improved the convenient material function of inhaling of this material pipe greatly, has also further improved the use value and the material cleanliness factor of inhaling of this material capsule simultaneously.

Drawings

FIG. 1 is an internal schematic view of a full-load structure according to embodiment 1 of the present invention;

FIG. 2 is an enlarged view of the portion A in FIG. 1;

FIG. 3 is a schematic view of the discharge state in example 1 of the present invention;

FIG. 4 is an internal schematic view of a full-load structure according to embodiment 2 of the present invention;

FIG. 5 is an enlarged view of the portion B of FIG. 4;

FIG. 6 is a schematic view of the discharge state in embodiment 2 of the present invention;

FIG. 7 is a schematic view of the connection of the same-side material pipe in embodiment 2 of the present invention;

FIG. 8 is a view of the connection structure of the fixing frame of the present invention;

FIG. 9 is a structural view of the mount of the present invention;

fig. 10 is a structural view of the feed tube of the present invention.

The labels in the figure are: 1-capsule body, 2-material port, 3-fixing frame, 4-mounting hole, 41-main material pipe, 5-connecting hole, 6-sleeve, 61-inner lining pipe, 62-outer connecting pipe, 63-bracket, 7-rubber hose, 8-material pipe, 81-inner pipe, 82-outer pipe, 83-supporting rod, 9-auxiliary moving device, 10-buckle, 11-net sleeve, 12-volute spring, 13-pull ring, 14-wire drawing, 15-tension spring and 16-spring.

Detailed Description

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-3 and 8-10, a material capsule with a dynamic combined material pipe comprises a capsule body 1, wherein the capsule body 1 is made of high-molecular wear-resistant rubber materials and has good wear resistance and elastic recovery capability, a material port 2 for feeding and discharging is arranged at the center of the top end of the capsule body 1, the material capsule is integrally structured, material residue at the inner side corner of the capsule is avoided through the cooperation of a combined type distributing pipe and an auxiliary moving device which are arranged in the capsule body, the effect that the material pipe sucks the material from moving to approach the middle part is realized through rubber elastic recovery and spring elastic recovery, the working efficiency of a material sucking link is greatly improved, the clean degree of discharging of the material capsule is also improved, and the practicability and the high efficiency of the material capsule are further improved.

The material port 2 is also connected with a fixed frame 3, the center of the fixed frame 3 is provided with a mounting hole 4, the mounting hole 4 is also connected with a main material pipe 41, the main material pipe penetrates through the material port and is mounted in the mounting hole, the fixed frame 3 is also internally provided with at least two connecting holes 5, the connecting holes 5 are communicated with the mounting hole 4, the connecting holes 5 are also fixedly provided with a sleeve 6, the sleeve 6 is similar to the main material pipe 41 in structure, the sleeve 6 comprises a lining pipe 61 and an external pipe 62 connected with the lining pipe 61 through a bracket 63, the sleeve 6 is communicated with the main material pipe 41, namely, the lining pipe of the sleeve is connected and fixed with the lining pipe of the main material pipe, the external pipe of the sleeve is connected and fixed with the external pipe of the main material pipe, the sleeve 6 is connected and mounted with the material pipe 8 through a rubber hose 7 to realize the movement of the material pipe 8, the material pipes 8 are M which are uniformly distributed, M is more than or equal to 2, the material pipe 8 comprises an inner pipe 81 and an outer pipe 82, the top of the inner tube 81 is higher than the top of the outer tube 82, the bottom of the inner tube 81 is higher than the bottom of the outer tube 82, the inner tube 81 is connected with the inner lining tube 61, the outer tube 82 is connected with the outer connecting tube 62, the inner tube 81 and the outer tube 82 are fixedly connected through the supporting rods 83, the number of the supporting rods 83 is N, the number of the supporting rods 83 is evenly distributed, and N is larger than or equal to 3.

Through the material pipe that sets up special construction in the capsule body, the speed of inhaling the material has been improved greatly, form an airflow channel between inner tube and the outer tube, when the material pipe inhales the material, airflow channel inhales partial air, the jam problem of material in the suction link has been avoided, furthermore, also can blow the operation to airflow channel, the acceleration suction of material from the inner tube has been realized, the use value of this material capsule has further been improved, through setting up the mount, provide support and fixed effect, mount bottom connection installs a plurality of sleeves and material pipe, and set up rubber hose between material pipe and the sleeve pipe and be convenient for realize the removal and the skew of material pipe, the material pipe is claw form in the distribution of capsule body four corners at the capsule body, the high efficiency of material suction has further been guaranteed.

The material pipe 8 is also provided with an auxiliary moving device 9 for dynamically and quickly discharging the combined material pipe 8 in a self-moving manner, the auxiliary moving device 9 comprises a buckle 10 arranged at the bottom of the fixing frame 3 and a net sleeve 11 connected with the buckle 10, the material pipe 8 is arranged in the net sleeve 11, the material pipe 8 is four pipes which are arranged in a matched manner and are symmetrically distributed in the left and right direction, the sleeves 6 connected with the material pipe 8 are also four pipes which are uniformly distributed, the four sleeves 6 are all positioned on the same horizontal plane, the auxiliary moving device is arranged on the material pipe, further under the auxiliary support of the net sleeve and the buckle, the positioning and guiding moving action of the material pipe is realized, in an initial state, the material is fully loaded, the bottom end of the material pipe is completely inclined and distributed at the four corners of the lower part of the capsule body, the materials on the left side and the right side are gradually reduced along with the continuous operation of material suction, and the capsule body is made of high-strength high-polymer wear-resistant elastic rubber material, the rubber self-recovery capsule has the advantages that the rubber self-recovery capsule has strong elastic recovery capacity, the corners of the capsule body are folded to move towards the middle part and drive the material pipe to be close to the middle part, the combined material pipe dynamically and self-moves to suck materials, the materials are quickly and completely sucked out, and the material discharging efficiency and the cleaning degree are further improved.

Example 2:

referring to fig. 4-10, a material capsule with dynamic combination material pipe, including capsule body 1, capsule body 1 adopts the wear-resisting rubber material of polymer to make, have good wearability and elastic recovery ability, offer the material mouth 2 that is used for feeding and unloading in the center department of capsule body 1 top, this material capsule integral type structural design, through the cooperation of the combined type distribution material pipe that sets up in capsule body and auxiliary moving device, the material of the inboard corner of capsule has been avoided remaining, through rubber elastic recovery, the effect that the material pipe was inhaled the material and is drawn close to from the middle part from the removal has been realized to spring force recovery, the work efficiency of inhaling the material link has been improved greatly, the clean degree that this material capsule unloaded has also been improved simultaneously, the practicality and the high efficiency of this material capsule have further been improved.

The material pipe 8 is further provided with an auxiliary moving device 9 used for dynamic self-moving quick discharging of the combined type material pipe 8, the auxiliary moving device 9 comprises a volute spiral spring 12 arranged on the material pipe 8, pull rings 13 arranged on the volute spiral spring 12 and pull wires 14 connected and installed between the two pull rings 13, the material pipe 8 is respectively four in left and right symmetrical distribution and is arranged on the capsule body 1, the volute spiral spring 12 symmetrically distributed on the material pipe 8 in the left and right sides is connected through the pull wires 14 and the pull rings 13 to enable the material pipe 8 to move towards the middle, eight sleeve pipes 6 connected with the material pipe 8 are installed and distributed in a matching mode, the sleeve pipes 6 are all located on the same horizontal plane, tension springs 15 used for shrinkage movement are further arranged between every two material pipes 8 distributed on the same side, and springs 16 are further installed and connected to the bottoms of the left side and the right side of the capsule body 1 respectively.

The auxiliary moving device is arranged, so that the functions of self-recovery of the material capsule and side corner recovery of spring elasticity are realized, the capsule material is prevented from remaining, the material pipe is intensively drawn close to the middle part to realize continuous and uninterrupted high-speed operation of material suction, the capsule body is made of high-strength high-polymer wear-resistant elastic rubber material and has strong elastic recovery capability, the corners of the capsule body are gradually lifted under the self-recovery of rubber and the elastic recovery of the spring, the material residue of the side corner inside the capsule is avoided, the scroll spring is arranged on the material pipe to provide another self-recovery acting force, further, the symmetrically-distributed material pipes are further subjected to the aims of quickly drawing the capsule self-recovery and the spring recovery towards the middle part by arranging pull rings on the scroll spring and connecting and arranging drawn wires between the two pull rings, the material pipe is for setting up respectively four in the left and right symmetric distribution of capsule body, and the scroll spring of left and right symmetric distribution on the material pipe passes through wire drawing and pull ring connection and realizes moving to the middle part of material pipe, and is further, the material pipe that the homonymy distributes still is provided with the tension spring that is used for the shrink to remove between two liang, is convenient for realize that the material pipe inhales the material operation at this internal developments of capsule from removing, has improved the convenient material function of inhaling of this material pipe greatly, has also further improved the use value and the material cleanliness factor of inhaling of this material capsule simultaneously.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a material capsule with developments combination material pipe which characterized in that: comprises a capsule body (1), a material port (2) for feeding and discharging is arranged at the center of the top end of the capsule body (1), a fixed frame (3) is further connected and installed at the material port (2), a mounting hole (4) is arranged at the center of the fixed frame (3), a main material pipe (41) is further connected and installed at the mounting hole (4), at least two connecting holes (5) are further arranged in the fixed frame (3), the connecting holes (5) are communicated with the mounting hole (4), a sleeve (6) is further fixedly installed in the connecting holes (5), the sleeve (6) is similar to the main material pipe (41), the sleeve (6) comprises an inner lining pipe (61) and an outer connecting pipe (62) connected with the inner lining pipe (61) through a support (63), and the sleeve (6) is communicated with the main material pipe (41), the device comprises a sleeve (6), a material pipe (8) is connected and installed through a rubber hose (7) to achieve movement of the material pipe, the material pipe (8) is uniformly distributed, M is larger than or equal to 2, the material pipe (8) comprises an inner pipe (81) and an outer pipe (82), the top of the inner pipe (81) is higher than the top of the outer pipe (82), the bottom of the outer pipe (82) is higher than the bottom of the outer pipe (82), the inner pipe (81) is connected with the inner lining pipe (61), the outer pipe (82) is connected with the outer pipe (62), the inner pipe (81) and the outer pipe (82) are fixedly connected through supporting rods (83), the supporting rods (83) are uniformly distributed, N is larger than or equal to 3, and an auxiliary moving device (9) used for dynamic self-moving and rapid discharging of the combined material pipe (8) is further arranged on the material pipe (8).

2. The material capsule with the dynamic combined material pipe as claimed in claim 1, wherein: the capsule body (1) is made of high-molecular wear-resistant rubber materials.

3. The material capsule with the dynamic combined material pipe as claimed in claim 1, wherein: the auxiliary moving device (9) comprises a buckle (10) arranged at the bottom of the fixed frame (3) and a net sleeve (11) connected with the buckle (10), and the material pipe (8) is installed in the net sleeve (11).

4. The material capsule with the dynamic combined material pipe as claimed in claim 3, wherein: the material pipes (8) are four in matching installation and are distributed in bilateral symmetry.

5. The material capsule with the dynamic combined material pipe as claimed in claim 4, wherein: the four sleeves (6) connected with the material pipe (8) are also uniformly distributed, and the four sleeves (6) are all positioned on the same horizontal plane.

6. The material capsule with the dynamic combined material pipe as claimed in claim 1, wherein: the auxiliary moving device (9) comprises a volute spiral spring (12) arranged on the material pipe (8), pull rings (13) arranged on the volute spiral spring (12) and a pull wire (14) connected and installed between the two pull rings (13).

7. The material capsule with the dynamic combined material pipe as claimed in claim 6, wherein: the material pipes (8) are respectively four and are symmetrically distributed on the left and right of the capsule body (1), and the volute spiral springs (12) symmetrically distributed on the left and right of the material pipes (8) are connected through the drawing wires (14) and the pull rings (13) to realize the movement of the material pipes (8) towards the middle.

8. The material capsule with the dynamic combined material pipe as claimed in claim 7, wherein: eight sleeves (6) connected with the material pipe (8) are installed and distributed in a matching mode, and the sleeves (6) are all located on the same horizontal plane.

9. The material capsule with the dynamic combined material pipe as claimed in claim 8, wherein: tension springs (15) for contraction and movement are further arranged between every two material pipes (8) distributed on the same side.

10. The material capsule with the dynamic combined material pipe as claimed in claim 7, wherein: the left and right sides of the capsule body (1) are respectively connected with springs (16).