CN113927788A

CN113927788A - Material guiding system with thermal cycle constant temperature effect for plastic product production

Info

Publication number: CN113927788A
Application number: CN202111179871.0A
Authority: CN
Inventors: 严仁苹
Original assignee: Yan Renping
Current assignee: Yan Renping
Priority date: 2021-10-11
Filing date: 2021-10-11
Publication date: 2022-01-14

Abstract

The invention discloses a material guide system with a thermal cycle constant temperature effect for plastic product production, wherein a preset material supply part is butted with an external material supply equipment end, and the outer side of the preset material supply part is nested and butted with a butting part, and the material guide system comprises: the limiting part is fixedly connected to the outer side of the preset feeding part; the accommodating groove is formed in the inner side of the upper end of the butt joint piece, and the accommodating groove and the blind groove are matched with the limiting piece and are in butt joint with the preset feeding piece. This guide system is used in plastic products production with thermal cycle constant temperature effect, the in-process of arranging the material is condensed a large amount of heat and will be through the copper material heat conduction piece of device laminating contact, stable cooperation self-rotation reserves the lower guide state of blade formation steam, transmit to the built-in constant temperature piece department of copper material and handle the material constant temperature, avoid the device all ring edge border temperature to rise while wasting of resources, and the bad phenomenon that discharge temperature distributes too fast very easily to appear solidifying is avoided contacting heat-conducting waste heat to exhaust material.

Description

Material guiding system with thermal cycle constant temperature effect for plastic product production

Technical Field

The invention relates to the technical field of plastic product production, in particular to a material guide system with a thermal circulation constant-temperature effect for plastic product production.

Background

Plastic products have become one of the most common articles on the market, and the production process thereof is gradually completed and matured, wherein the material guiding structure in the production process is one of the more important components, but the existing material guiding structure for plastic product production has certain defects, such as:

like the liquid heat-conducting glue guide structure of publication No. CN212196019U, it can carry out the air to the guide body and remove fast effectual completion, and pour the sizing material into the magazine from the packing tube, be favorable to saving resource and labour, but the in-process of current guide structure row material for plastic products production can condense a large amount of heat, its direct emission easily makes all ring edge border temperature rise while the wasting of resources, and the direct emission temperature of discharged material distributes the bad phenomenon that the rapid solidification easily appears too fast soon, and then waste heat collection and constant temperature can combine to be the problem that the value was considered.

Aiming at the problems, innovative design is urgently needed on the basis of the original material guide structure.

Disclosure of Invention

The invention aims to provide a material guide system with a thermal cycle constant temperature effect for plastic product production, which aims to solve the problems that a large amount of heat is condensed in the discharging process in the background technology, the direct discharge of the heat easily causes the temperature of the surrounding environment to rise, the resource is wasted, the discharged material is discharged at a high temperature, the discharged material is easy to quickly solidify, and the combination of waste heat collection and constant temperature is worth considering.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a plastic products production is with guide system with thermal cycle constant temperature effect, preset feeding spare and external feeding equipment end butt joint, and the nested butt joint in the outside of presetting feeding spare has a butt joint spare, includes:

the limiting part is fixedly connected to the outer side of the preset feeding part;

the accommodating groove is formed in the inner side of the upper end of the butt joint piece, a blind groove is reserved at the outer end of the accommodating groove, and the accommodating groove and the blind groove are matched with the limiting piece and are mutually butted with the preset feeding piece;

the embedded part is butted on the outer side of the butting part, a heat collecting cavity is reserved on the inner side of the embedded part, the lower end of the embedded part is provided with a butting pipe fitting in a penetrating mode, the lower end of the butting pipe fitting is butted with a built-in constant temperature part connected with the inner side of the butting part, and the lower end of the built-in constant temperature part is provided with an exhaust hole;

the bearing of the reserved blade is butted at the inner side of the butt joint pipe fitting, the outer side of the shaft end of the reserved blade is provided with a conveyor belt in a nested mode, and the tail end of the conveyor belt is butted with a nested wheel butted with the inner side of the butt joint part;

the conveying piece is nested and butted at the outer side of the shaft end of the reserved blade, the tail end of the conveying piece is butted with an eccentric wheel connected with the outer side of the butting piece, the outer side of the butting piece is connected with a first air bag in an adhering mode, the outer side of the first air bag is mutually attached to the outer end of the eccentric wheel, the inner end of the butting piece is connected with a second air bag in an adhering mode, and the second air bag is mutually communicated with the first air bag through an air supply hose;

and the sealing element is nested in the inner side of the butt joint element, the upper end of the sealing element is provided with a connecting shaft for supporting the angle in a penetrating way, and the inner end of the butt joint element is provided with a supporting shaft in a penetrating way.

Preferably, the limiting part is in an L-shaped structure when viewed from above, the limiting part is matched with the preset feeding part to perform self-locking operation along the accommodating groove and the inner end of the blind groove in a stable angle rotation manner, the length of the accommodating groove is greater than that of the blind groove, and the limiting part can be matched with the accommodating groove and the blind groove to achieve self-locking operation effect through the L-shaped butt joint structure of the limiting part.

Preferably, the nested piece is provided with a return spring and a heat conducting piece, the inner wall of the nested piece is provided with the return spring in a penetrating mode, and the inner end of the nested piece is in butt joint with the heat conducting piece through the return spring.

Preferably, the heat-conducting piece is the copper product, and the heat-conducting piece passes through reset spring and forms flexible bearing structure along the inner of nested piece to the surface of heat-conducting piece forms heat-conduction structure with laminating each other in the outside of presetting the feeding piece, through the good heat-conduction performance of copper product, can be stable carry out quick conduction work to the waste heat that the feeding piece outside produced.

Preferably, the nesting wheel rotates along the inner side of the butt joint part by the gravity of contacting materials, the nesting wheel is matched with the conveying belt on the outer side of the shaft end to drive the reserved blades to form a rotating structure, a hot gas lower guiding state is formed along the inner side of the nesting part, and the reserved blades are driven to move by the discharge force of the materials to form hot gas conduction work.

Preferably, the outer surface of the first air bag and the eccentric wheel are mutually pressed, the eccentric wheel synchronously rotates at an angle by reserving the rotating force of the blade, the first air bag forms air supply treatment to the inside of the second air bag through an air supply hose, and the eccentric wheel which rotates under stress can synchronously supply air to the inside of the second air bag through extrusion force of the first air bag.

Preferably, the sealing member symmetry is provided with 2, and 2 sealing members pass through the connecting axle and form rotation bearing structure to 2 sealing members receive the inflation second gasbag extrusion force and form angle self-adaptation activity, let the expanded in-process of second gasbag atress, can stably promote the sealing member of upper end contact and carry out the angle rotation work.

Preferably, the support shaft is provided with a torsion spring and a traction rope, the torsion spring for resetting is nested on the outer side of the support shaft, and the traction rope connected with the sealing element is butted at the outer end of the support shaft.

Preferably, the back shaft passes through torsion spring and drives the haulage rope and form quick return structure along the inboard of butt joint spare to the sealing member passes through the haulage rope and forms sliding construction, lets carry out the sealing member of position activity, and the relative traction force of the cooperation haulage rope that can be stable forms quick return structure.

Compared with the prior art, the invention has the beneficial effects that: the material guide system with the thermal circulation constant temperature effect for plastic product production;

1. the device is provided with the embedded wheels and the reserved blades which are synchronously driven, a large amount of heat is condensed in the discharging process, the heat is attached and contacted with the copper heat conducting piece through the device, the reserved blades which are stably matched with the self-rotation form a lower guiding state of hot gas, the hot gas is transmitted to the position of the copper built-in constant temperature piece to carry out constant temperature treatment on the material, the phenomenon that the ambient temperature around the device is increased and resources are wasted is avoided, and the discharged material is contacted with the residual heat of heat conduction to avoid the bad phenomenon that the discharged temperature is diffused too fast and is easy to solidify quickly;

2. the sealing parts which are symmetrically distributed are arranged, when the reserved blades are in contact stress through the weight of the discharged materials, the eccentric wheels which stably drive the outer sides to be in butt joint rotate synchronously, so that the second air bag is subjected to circular air supply treatment, 2 groups of the contact sealing parts are pushed to move along the inner side reciprocating angle of the butt joint part, the discharged materials are uniformly and stably contacted with the built-in constant-temperature part for heat conduction while the quantitative discharge of the discharged materials is realized, and the thermal circulation contact work is carried out to the maximum extent;

3. the butt joint structure with the limiting part structure is provided, a user can regularly hold the butt joint part to rotate directionally along the lower end of the preset material supply part, so that the butted limiting part is quickly separated from the locking state between the butt joint part and the blind groove, the whole material guide device is conveniently and quickly disassembled, cleaned, regularly overhauled and the like, and the operation steps of a complicated bolt installation structure are avoided.

Drawings

FIG. 1 is a schematic cross-sectional structural view of the present invention;

FIG. 2 is a schematic top cross-sectional view of a nest according to the present invention;

FIG. 3 is a schematic front sectional view of a thermally conductive member according to the present invention;

FIG. 4 is a schematic bottom view of the pre-loading unit of the present invention;

FIG. 5 is a schematic top view of the docking member of the present invention;

FIG. 6 is a schematic cross-sectional side view of a seal according to the present invention;

fig. 7 is a schematic front view of a reserved blade according to the present invention.

In the figure: 1. a docking member; 2. presetting a feeding piece; 3. a limiting member; 4. a containing groove; 5. a hidden groove; 6. nesting; 601. a return spring; 602. a heat conductive member; 7. butting the pipe fittings; 8. a heat collection cavity; 9. reserving blades; 10. a conveyor belt; 11. nesting wheels; 12. a constant temperature part is arranged inside; 13. an exhaust hole; 14. a conveying member; 15. an eccentric wheel; 16. a first air bag; 17. an air supply hose; 18. a second air bag; 19. a seal member; 20. a connecting shaft; 21. a support shaft; 2101. a torsion spring; 2102. and (6) pulling the rope.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a material guide system with a thermal circulation constant temperature effect for plastic product production comprises an abutting part 1, a preset feeding part 2, a limiting part 3, a containing groove 4, a blind groove 5, a nesting part 6, a reset spring 601, a heat conducting part 602, an abutting pipe part 7, a heat collecting cavity 8, a reserved blade 9, a conveyor belt 10, a nesting wheel 11, a built-in constant temperature part 12, an exhaust hole 13, a conveying part 14, an eccentric wheel 15, a first air bag 16, an air supply hose 17, a second air bag 18, a sealing part 19, a connecting shaft 20, a supporting shaft 21, a torsion spring 2101 and a traction rope 2102.

Preset feeding spare 2 and external feeding equipment end butt joint, and the nested butt joint in the outside of presetting feeding spare 2 has butt joint piece 1, includes:

a limiting part 3 fixedly connected to the outer side of the preset feeding part 2;

the accommodating groove 4 is formed in the inner side of the upper end of the butt joint part 1, a blind groove 5 is reserved at the outer end of the accommodating groove 4, and the accommodating groove 4 and the blind groove 5 are matched with the limiting part 3 and are mutually butted with the preset material supply part 2;

the embedded part 6 is butted on the outer side of the butting part 1, a heat collecting cavity 8 is reserved on the inner side of the embedded part 6, the lower end of the embedded part 6 is provided with a butting pipe fitting 7 in a penetrating mode, the lower end of the butting pipe fitting 7 is butted with a built-in constant temperature part 12 connected with the inner side of the butting part 1, and the lower end of the built-in constant temperature part 12 is provided with an exhaust hole 13;

the bearing of the reserved blade 9 is butted at the inner side of the butt joint pipe fitting 7, the outer side of the shaft end of the reserved blade 9 is provided with a conveyor belt 10 in a nested mode, and the tail end of the conveyor belt 10 is butted with a nested wheel 11 butted with the inner side of the butt joint part 1;

the conveying piece 14 is nested and butted at the outer side of the shaft end of the reserved blade 9, the tail end of the conveying piece 14 is butted with an eccentric wheel 15 connected with the outer side of the butting piece 1, the outer side of the butting piece 1 is connected with a first air bag 16 in an adhering mode, the outer side of the first air bag 16 is mutually jointed with the outer end of the eccentric wheel 15, the inner end of the butting piece 1 is connected with a second air bag 18 in an adhering mode, and the second air bag 18 is mutually communicated with the first air bag 16 through an air supply hose 17;

and a sealing member 19 which is nested inside the butt piece 1, wherein the upper end of the sealing member 19 is provided with a connecting shaft 20 for angle support, and the inner end of the butt piece 1 is provided with a supporting shaft 21.

The limiting part 3 is in an L-shaped structure when viewed from above, the limiting part 3 is matched with the preset feeding part 2 to perform self-locking operation along the accommodating groove 4 and the inner end of the hidden groove 5 in a stable angle rotation manner, and the length of the accommodating groove 4 is greater than that of the hidden groove 5. The nest 6 is provided with a return spring 601 and a heat-conducting member 602, the inner wall of the nest 6 is provided with the return spring 601 in a penetrating manner, and the inner end of the nest 6 is butted with the heat-conducting member 602 through the return spring 601. The heat conducting member 602 is made of copper material, and the heat conducting member 602 forms a telescopic supporting structure along the inner end of the nesting member 6 through the return spring 601, and the outer surface of the heat conducting member 602 and the outer side of the preset feeding member 2 are mutually attached to form a heat conducting structure. The nesting wheel 11 rotates along the inner side of the butt joint part 1 by the gravity of contacting materials, and the nesting wheel 11 is matched with the conveyor belt 10 on the outer side of the shaft end to drive the reserved blades 9 to form a rotating structure and form a lower guiding state of hot air along the inner side of the nesting part 6.

Preset the supplies 2 will be stable carry out the material and discharge the work, and the in-process of arranging the material condenses a large amount of heat, will be through butt joint spare 1 and the copper material heat-conducting piece 602 of preset supplies 2 outside laminating contact, stable deposit to the inner of nested 6, the in-process that the inside material of device discharged simultaneously, the weight of discharging the material will contact sleeve wheel 11 and make its atress rotate along with it, and then the conveyer belt 10 of cooperation butt joint drives reservation blade 9 autogyration, thereby cooperation autogyration reserves blade 9 and forms the lower guide state of steam along butt joint spare 7, transmit to the built-in constant temperature spare 12 department of copper material and handle distal end material constant temperature, avoid the device all ring edge border temperature to rise simultaneously the wasting of resources, and the material of discharging contacts thermal-conduction residual temperature and avoids discharging the temperature and gives off the fast bad phenomenon that very easily appears solidifying.

The outer surface of the first air bag 16 and the eccentric wheel 15 are pressed together, and the eccentric wheel 15 rotates angularly in synchronization with the rotation force of the reserve blade 9, and the first air bag 16 supplies air to the inside of the second air bag 18 through the air supply hose 17. The number of the sealing members 19 is symmetrically arranged to be 2, the 2 sealing members 19 form a rotating supporting structure through a connecting shaft 20, and the 2 sealing members 19 form angle self-adaptive movement under the extrusion force of the expanded second air bag 18.

When the blade 9 is reserved and is forced to rotate by the weight contact of the discharged materials, the eccentric wheel 15 which drives the outer side to be butted through the conveying part 14 is stably rotated synchronously along the outer end of the butting part 1, and then the first air bag 16 which is contacted is extruded in a reciprocating mode, so that the air supply hose 17 is matched to perform circulating air supply treatment to the inside of the

second air bag

18, 2 groups of sealing parts 19 which are contacted are pushed to move along the inner side reciprocating angle of the butting part 1, quantitative discharge of the discharged materials is realized, the discharged materials are more uniformly and stably contacted with the heat-conducting built-in constant temperature part, and thermal circulation contact work is performed to the maximum extent.

The support shaft 21 is provided with a torsion spring 2101 and a pull rope 2102, the torsion spring 2101 for resetting is nested and installed on the outer side of the support shaft 21, and the pull rope 2102 connected with the sealing piece 19 is butted at the outer end of the support shaft 21. The support shaft 21 drives the pulling rope 2102 along the inner side of the interface element 1 by the torsion spring 2101 to form a quick return structure, and the sealing element 19 forms a sliding structure by the pulling rope 2102.

According to the life cycle of device, the user can regularly hand butt joint piece 1 along the directional rotation of the lower extreme that presets feeding part 2 for the locating part 3 atress of butt joint rotates, thereby break away from fast and the camera obscura between 5 closure state, can drive butt joint piece 1 and dismantle clearance periodic maintenance etc. along storage tank 4 fast, the operating procedure of loaded down with trivial details bolt mounting structure has been avoided, the integrated device does not have the electric power structure simultaneously, consequently can whole body washing, it is clean convenient quick.

The working principle is as follows: when the guide system with the thermal circulation constant temperature effect for producing plastic products is used, according to the figures 1-7, the device is firstly placed at a position needing to work, in the process of discharging materials in the device, the weight of the discharged materials is in contact with the sleeve wheel 11 to enable the sleeve wheel to be stressed and rotate along with the sleeve wheel, then the butted conveying belt 10 is matched to drive the reserved blade 9 to rotate by itself, so that the self-rotating reserved blade 9 forms a hot gas downward guiding state along the butting pipe fitting 7 and is transmitted to the position of the copper built-in constant temperature part 12 to carry out constant temperature treatment on far-end materials, meanwhile, the conveying part 14 drives the eccentric wheel 15 butted at the outer side to synchronously rotate along the outer end of the butting part 1, so that the air supply hose 17 is matched to carry out circular air supply treatment on the inside of the second air bag 18, thereby 2 groups of contact sealing parts 19 are pushed to move along the inner side reciprocating angle of the butting part 1, and quantitative discharge of the discharged materials is realized, the discharged materials are more uniformly and stably contacted with the heat-conducting built-in constant-temperature part, and the thermal cycle contact work is carried out to the maximum extent.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a guide system is used in plastic products production with thermal cycle constant temperature effect, preset feeding spare (2) and external feeding equipment end butt joint, and the nested butt joint in the outside of presetting feeding spare (2) has butt joint spare (1), its characterized in that includes:

the limiting piece (3) is fixedly connected to the outer side of the preset feeding piece (2);

the accommodating groove (4) is formed in the inner side of the upper end of the butt joint piece (1), a blind groove (5) is reserved at the outer end of the accommodating groove (4), and the accommodating groove (4) and the blind groove (5) are matched with the limiting piece (3) and are mutually butted with the preset material supply piece (2);

the embedded part (6) is butted on the outer side of the butting part (1), a heat collecting cavity (8) is reserved on the inner side of the embedded part (6), the lower end of the embedded part (6) is provided with a butting pipe fitting (7) in a penetrating mode, the lower end of the butting pipe fitting (7) is butted with a built-in constant temperature part (12) connected with the inner side of the butting part (1), and the lower end of the built-in constant temperature part (12) is provided with an exhaust hole (13);

the bearing of the reserved blade (9) is butted at the inner side of the butt joint pipe fitting (7), a conveyor belt (10) is nested and mounted at the outer side of the shaft end of the reserved blade (9), and a nested wheel (11) butted with the inner side of the butt joint part (1) is butted at the tail end of the conveyor belt (10);

the conveying piece (14) is nested and butted outside the shaft end of the reserved blade (9), the tail end of the conveying piece (14) is butted with an eccentric wheel (15) connected with the outer side of the butting piece (1), the outer side of the butting piece (1) is connected with a first air bag (16) in an adhering mode, the outer side of the first air bag (16) is attached to the outer end of the eccentric wheel (15), the inner end of the butting piece (1) is connected with a second air bag (18) in an adhering mode, and the second air bag (18) is communicated with the first air bag (16) through an air supply hose (17);

and the sealing element (19) is nested on the inner side of the butt joint element (1), the upper end of the sealing element (19) is provided with a connecting shaft (20) for supporting the angle in a penetrating way, and the inner end of the butt joint element (1) is provided with a supporting shaft (21) in a penetrating way.

2. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the limiting piece (3) is of an L-shaped structure when viewed from top, the limiting piece (3) is matched with the preset feeding piece (2) to perform self-locking operation along the containing groove (4) and the inner end of the blind groove (5) in a stable angle rotation mode, and the length of the containing groove (4) is larger than that of the blind groove (5).

3. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the embedded piece (6) is provided with a return spring (601) and a heat conducting piece (602), the inner wall of the embedded piece (6) is provided with the return spring (601) in a penetrating mode, and the inner end of the embedded piece (6) is in butt joint with the heat conducting piece (602) through the return spring (601).

4. The material guiding system with the thermal cycle constant temperature effect for plastic product production of claim 3, wherein: the heat conducting piece (602) is made of copper, a telescopic supporting structure is formed at the inner end of the heat conducting piece (602) along the nesting piece (6) through the reset spring (601), and the outer surface of the heat conducting piece (602) is attached to the outer side of the preset material supplying piece (2) to form a heat conducting structure.

5. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the nested wheel (11) rotates along the inner side of the butt joint part (1) by the gravity of contacting materials, the nested wheel (11) is matched with the conveying belt (10) on the outer side of the shaft end to drive the reserved blades (9) to form a rotating structure, and a hot gas guiding state is formed along the inner side of the nested part (6).

6. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the outer surface of the first air bag (16) and the eccentric wheel (15) are pressed together, the eccentric wheel (15) rotates at an angle synchronously by reserving the rotating force of the blade (9), and the first air bag (16) supplies air to the inside of the second air bag (18) through the air supply hose (17).

7. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the sealing elements (19) are symmetrically provided with 2 sealing elements, the 2 sealing elements (19) form a rotating supporting structure through a connecting shaft (20), and the 2 sealing elements (19) are subjected to extrusion force of the expanded second air bag (18) to form angle self-adaptive movement.

8. The material guiding system with the thermal cycle constant temperature effect for plastic product production as claimed in claim 1, wherein: the supporting shaft (21) is provided with a torsion spring (2101) and a traction rope (2102), the torsion spring (2101) for resetting is nested on the outer side of the supporting shaft (21), and the traction rope (2102) connected with the sealing element (19) is butted at the outer end of the supporting shaft (21).

9. The material guiding system with the thermal cycle constant temperature effect for plastic product production of claim 8, wherein: the supporting shaft (21) drives the traction rope (2102) to form a quick return structure along the inner side of the butt joint piece (1) through the torsion spring (2101), and the sealing piece (19) forms a sliding structure through the traction rope (2102).