CN113510879A

CN113510879A - Drying equipment for engineering plastic preparation

Info

Publication number: CN113510879A
Application number: CN202110459162.1A
Authority: CN
Inventors: 翁俊峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-10-19

Abstract

The invention discloses drying equipment for preparing engineering plastics, which is structurally provided with a machine body, a through-filling pipe, an instrument, a control panel, a motor and a sleeve opening, wherein the through-filling pipe is arranged above the machine body and is arranged in a through manner, the instrument is fixedly embedded at the top surface end of the machine body, the control panel is arranged above the through-filling pipe, the motor is connected with and matched with the control panel, the motor changes along with different pressed forces of a movable plate through a driving device, a sliding block assists the driving device to integrally slide and clamp a connecting block to move, a telescopic rod frame extends and retracts simultaneously, a generated driving force acts on a tough block, the toughness characteristic of the drying equipment pressurizes a swing frame after being pressed, a spring is compressed, the swing frame can reversely assist the turnover of the tough block, the connecting block drives a tilting plate to move, the tilting plate is driven to tilt and move, and the tilting plate can generate upward pushing action on the engineering plastics at the lower end position of a drying cavity, so that the plastic with larger weight can be forced to be mixed into the middle upper end position of the plastic again.

Description

Drying equipment for engineering plastic preparation

Technical Field

The invention belongs to the technical field of preparation of special engineering plastics, and particularly relates to drying equipment for preparing engineering plastics.

Background

The engineering plastic is widely applied due to the comprehensive properties of rigidity, creep property, heat resistance, cold resistance and the like superior to those of common plastic, and the engineering plastic needs to be dried by a plastic dryer in a drying process in the preparation process of the engineering plastic.

Based on the discovery of the inventor, the existing drying equipment for engineering plastic preparation has the following defects:

engineering plastics's structural morphology is diversified, and the size can differ, when putting into the drier with cubic small volume engineering plastics of side's during the drying, because the moisture that receives the plastics after the mummification contains can its weight be different, appears not the thorough plastics of mummification in the drying chamber easily and is in the condition of drier bottom position, leads to drying effect not to differ, and mummification efficiency is not good.

Therefore, a drying device for preparing engineering plastics needs to be provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide drying equipment for engineering plastic preparation, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a drying equipment for engineering plastics preparation, its structure is equipped with the organism, leads to irritates pipe, instrument, controls panel, motor, cuff, lead to irritate the pipe and install in the organism top and link up the setting, the top surface end at the organism is installed in the instrument embedded solid, it installs in leading to irritate the pipe top to control the panel, the motor with control the panel and be connected and cooperate, cuff activity block is in the organism bottom.

The organism is equipped with lid frame, pan feeding mouth, dry chamber, screw, head, discharge gate, lid frame activity block is in dry chamber top, pan feeding mouth and lid frame structure as an organic whole and link up the setting, the screw embedding activity is inside dry chamber, the discharge gate is located dry chamber bottom position, the head is located the discharge gate top, the head activity is in the screw lower extreme.

As a further improvement of the invention, the movable device is provided with a rotating head, a vertical frame, a movable plate and a driving device, the vertical frame is connected to the lower end of the rotating head and is movably matched, the movable plate is communicated with the vertical frame, the driving device is embedded and movably arranged in the vertical frame, the driving device is movably connected with the middle section of the movable plate and is matched with the middle section of the movable plate, the rotating head can rotate, the interior of the vertical frame is in a hollow groove state, and the movable plate is transversely arranged and can be angularly folded under the condition of no stress.

As a further improvement of the invention, the movable plate is provided with a connecting block and two tilting plates, the tilting plates are hinged to two side ends of the connecting block and are movably matched with each other, the connecting block is a plate with sliding grooves on the upper edge and the lower edge, and the two tilting plates are symmetrically distributed about the connecting block and move relatively.

As a further improvement of the invention, the driving device is provided with a slide block, a telescopic rod frame and a turnover block, the slide block is connected to the top end of the telescopic rod frame, the turnover block is movably connected to the bottom end of the telescopic rod frame and movably matched with the bottom end of the telescopic rod frame, the telescopic rod frame has elasticity, and the turnover block is in a semicircular shape and can turn in an arc direction.

As a further improvement of the invention, the turnover block is provided with a supporting block, a swing frame, a tough block and a spring, the supporting block is embedded in the middle end of the interior of the turnover block, the swing frame penetrates through the lower end of the supporting block, the tough block is connected to the outer side of the swing frame, the spring is connected between the swing frame and the supporting block and is in movable fit with the supporting block, the supporting block is made of silica gel and has certain flexibility, the tough block is a block made of rubber and has better deformation force and elastic force, the swing frame is in an inverted-splayed shape, and the swing frame penetrates through the supporting block to swing under the elastic fit of the spring.

As a further improvement of the invention, the seesaw is provided with a solid plate, a groove and a rotating ball, the groove and the solid plate are integrated and embedded in the groove, the rotating ball is movably clamped on the groove, the upper end of the groove is in a groove cavity structure in an open state, and the rotating ball is spherical and continuously rotates.

As a further improvement of the invention, the rotary ball is provided with an outer ring, a telescopic ring, a variable cavity and a rolling ball, the telescopic ring is movably arranged on the inner side of the outer ring, the variable cavity is positioned between the outer ring and the telescopic ring, the rolling ball is embedded and movably arranged in the telescopic ring, the outer ring is a ring with a through hole, the telescopic ring is a telescopic ring, and the rolling ball is a magnetic ball.

As a further improvement of the invention, the variable cavity is provided with a movable groove, magnetic balls and elastic blocks, the magnetic balls are connected to two side ends of the elastic blocks and are movably matched, the magnetic balls and the elastic blocks are embedded and movable in the movable groove, the interior of the movable groove is of a hollow structure, each elastic block and two magnetic balls are matched and move in one group, two groups are arranged, the magnetic balls are spherical objects with magnetism, repulsive magnetic field force can be generated between every two magnetic balls, and the elastic blocks are blocks made of plastic elastic bodies and have excellent elasticity and deformation.

Compared with the prior art, the invention has the following beneficial effects:

1. the driving device is changed along with the different compression of the movable plate, the sliding block auxiliary driving device is integrally clamped with the displacement of the connecting block in a sliding mode, meanwhile, the telescopic rod frame stretches out and draws back, the generated driving force acts on the tough block, the self toughness property of the sliding block auxiliary driving device is compressed to pressurize the swinging frame, the sliding block auxiliary driving device is made to compress a spring, the tough block can be reversely assisted to overturn, the connecting block is convenient to drive the tilting plate to displace, the tilting plate is driven to tilt and swing, circulation is realized, the tilting plate is convenient to generate an upward pushing effect on engineering plastics at the lower end position of the drying cavity, and the plastics with larger weight can be stressed and mixed into the upper end position of the plastic in the middle part again.

2. The utility model discloses a take place to stick up pendulum activity through the real board, order about the commentaries on classics ball and do the roll-over, make the magnetic ball atress and move in the activity groove, by the magnetic force effect between the magnetic ball, make the magnetic ball move certain distance, the compliance of bullet piece self, it takes place deformation along with the magnetic ball displacement to be convenient for it, its endless extension shrink deformation, the magnetic field change between the reverse supplementary magnetic ball, it is convenient for the roll ball atress and rolls in the expansion ring is inside, interact with the expansion ring, it is nimble to do annular expansion and contraction change to be convenient for it, gas in the activity groove is activated, produce outside blowing effect via the opening on the outer loop.

Drawings

FIG. 1 is a schematic structural diagram of a drying apparatus for engineering plastic production according to the present invention.

Fig. 2 is a schematic view of an internal cross-sectional structure of a machine body according to the present invention.

FIG. 3 is a schematic view of an internal cross-sectional structure of an active device according to the present invention.

Fig. 4 is a schematic view showing an internal sectional structure of a movable plate according to the present invention.

Fig. 5 is a schematic view of the internal cross-sectional structure of a driving device according to the present invention.

Fig. 6 is a schematic view of the internal cross-sectional structure of a turning block of the present invention.

Fig. 7 is a schematic view of an internal cross-sectional structure of a seesaw according to the present invention.

Fig. 8 is a schematic view of the internal cross-sectional structure of a rotary ball according to the present invention.

FIG. 9 is a schematic view of the internal cross-section of a modified chamber according to the present invention.

In the figure: the device comprises a machine body-1, a through irrigation pipe-2, an instrument-3, a control panel-4, a motor-5, a sleeve opening-6, a cover frame-11, a feeding opening-12, a drying cavity-13, a propeller-14, a moving device-15, a discharging opening-16, a rotating head-151, a vertical frame-152, a moving plate-153, a driving device-154, a connecting block-a 1, a tilting plate-a 2, a sliding block-q 1, a telescopic rod frame-q 2, a tilting block-q 3, a supporting block-q 31, a swinging frame-q 32, a toughness block-q 33, a spring-q 34, a solid plate-a 21, a groove-a 22, a rotating ball-a 23, an outer ring-w 1, a telescopic ring-w 2, a changing cavity-w 3, a ball-w 4, a moving groove-w 31, a magnetic ball-w 32 and a bullet block-w 33.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides drying equipment for engineering plastic preparation, which is structurally provided with a machine body 1, a through filling pipe 2, an instrument 3, an operation panel 4, a motor 5 and a sleeve opening 6, wherein the through filling pipe 2 is arranged above the machine body 1 and is arranged in a through manner, the instrument 3 is fixedly embedded at the top surface end of the machine body 1, the operation panel 4 is arranged above the through filling pipe 2, the motor 5 is connected with and matched with the operation panel 4, and the sleeve opening 6 is movably clamped at the bottom end of the machine body 1.

Organism 1 is equipped with lid frame 11, pan feeding mouth 12, dry chamber 13, screw 14, head 15, discharge gate 16, lid frame 11 activity block in dry chamber 13 top, pan feeding mouth 12 and lid frame 11 structure as an organic whole just link up the setting, screw 14 embedding activity is inside dry chamber 13, discharge gate 16 is located dry chamber 13 bottom position, head 15 is located discharge gate 16 top, head 15 moves about in the 14 lower extremes of screw.

Wherein, the mobile device 15 is equipped with turn round 151, erects frame 152, fly leaf 153, drive arrangement 154, erect frame 152 and connect at turn round 151 lower extreme and clearance fit, fly leaf 153 link up with erecting frame 152 mutually, drive arrangement 154 embedding activity is inside erecting frame 152, drive arrangement 154 and the middle sector swing joint of fly leaf 153 and mutually support, turn round 151 can carry out the rotation, erect the inside dead slot state that is of frame 152, fly leaf 153 is horizontal pendulum and puts and can carry out the angle pendulum and roll over under the atress condition, when fly leaf 153 carries out vertical sliding displacement under drive arrangement 154's cooperation, two sides use middle sector to do relative perk pendulum activity as the fulcrum.

Wherein, fly leaf 153 is equipped with joint piece a1, seesaw a2, the articulated connection of seesaw a2 is in joint piece a1 both sides end and clearance fit, joint piece a1 is the plate that has the spout on the upper and lower limit, seesaw a2 is equipped with two, and is the symmetric distribution about joint piece a1 to do relative activity, seesaw a2 is slided by joint piece a1 drive to turn over the pendulum of making certain angle along with it and roll over.

The driving device 154 is provided with a sliding block q1, a telescopic rod frame q2 and a turning block q3, the sliding block q1 is connected to the top end of the telescopic rod frame q2, the turning block q3 is movably connected to the bottom end of the telescopic rod frame q2 and movably matched with the bottom end of the telescopic rod frame q2, the telescopic rod frame q2 is telescopic, the turning block q3 is in a semicircular shape and can be turned in an arc direction, the telescopic rod frame q2 stretches along with compression and changes the inclination under the action of pressure, power is applied to the turning block q3, and the turning block q2 is reversely assisted to change better.

The turning block q3 is provided with a supporting block q31, a swinging frame q32, a tough block q33 and a spring q34, the supporting block q31 is embedded in the middle end of the inside of the turning block q3, the swinging frame q32 penetrates through the supporting block q31 to be in a lower end position, the tough block q33 is connected to the outer side of the swinging frame q32, the spring q34 is connected between the swinging frame q32 and the supporting block q31 and is in movable fit, the supporting block q31 is made of silica gel and has certain flexibility, the tough block q33 is a rubber block which has good deformation force and elastic force, the swinging frame q32 is in an inverted-splayed shape, and the swinging frame q32 swings through the tough q31 under the elastic fit of the spring q34 to apply certain lateral pressure to the supporting block q33 and have an arc-turning driving effect.

The specific use mode and function of the embodiment are as follows: a person puts small square block-shaped engineering plastics into the drying cavity 13 from the material inlet 12, starts the motor 5, adjusts the control panel 4, enables the screw propeller 14 to be controlled to rotate and move, observes the drying temperature change in the drying cavity 13 through the instrument 3, enables the engineering plastics in the drying cavity 13 to be uniformly heated and dried through the matching action of the screw propeller 14 and the moving device 15, and then is discharged from the material outlet 16 after the drying is finished, so as to realize the drying preparation operation of the process plastics, drives the rotating head 151 to rotate through the rotation of the screw propeller 14, enables the vertical frame 152 to rotate to drive the movable plate 153 to rotate circularly, enables the movable plate 153 to be stressed differently by the square block-shaped engineering plastics, facilitates the driving device 154 to change along with the different stressed conditions of the movable plate 153, facilitates the telescopic performance of the telescopic rod frame q2 to be convenient for the telescopic device to stretch along with the change of the stressed size, and the sliding block q1 assists the driving device 154 to be integrally clamped with the displacement of the connecting block a1 in a sliding way, the flexible driving force acts on the flexible block q33, the flexible driving force is pressed by the flexible characteristic of the flexible driving force to press the swinging frame q32 to compress the spring q34, the flexible driving force can reversely assist the flexible block q33 to have a certain arc-direction turning degree, the driving devices 154 at the upper end and the lower end of the connecting block a1 do opposite movement, the connecting block a1 drives the tilting plate a2 to move, meanwhile, the tilting plate q2 is oppositely pressed to swing, the tilting plate a2 is driven to do tilting movement, and therefore circulation is achieved, the tilting plate a2 can conveniently generate upward pushing action on engineering plastics at the lower end position of the drying cavity 13, the plastics with larger weight can be stressed to be mixed into the upper end position of the plastics again, the plastics can be better driven by the propeller 14 to stir, and the plastics can be contacted with hot air as far as possible to dry thoroughly.

Example 2:

as shown in fig. 7 to 9:

wherein, the board a2 that sticks up is equipped with solid board a21, recess a22, changes ball a23, it is inside that recess a22 and solid board a21 are the integrated structure and embedded into, it is on recess a22 to change ball a23 activity block, recess a22 is the slot cavity structure of open-ended state for the upper end, it is spherical and constantly do the activity of rolling to change ball a23, change ball a23 block recess a22, along with the top atress is different and have the activity of fluctuation from top to bottom of small amplitude when rolling, do benefit to and produce drive power to the object.

Wherein, change ball a23 and be equipped with outer loop w1, expansion ring w2, change chamber w3, rolling ball w4, expansion ring w2 activity is inboard in outer loop w1, it is located between outer loop w1 and the expansion ring w2 to change chamber w3, rolling ball w4 embedding activity is inside expansion ring w2, outer loop w1 is the ring that has the opening itself, expansion ring w2 is the ring that has the elasticity, rolling ball w4 is the spheroid that has magnetism, when expansion ring w2 expands and contracts the activity, with changing chamber w3 interact, do benefit to its inside atmospheric pressure change, then produce outside blowing force through outer loop w1, strengthen the mummification to the plastics when being favorable to blowing the plastics.

The variable cavity w3 is provided with a movable groove w31, magnetic balls w32 and a spring block w33, the magnetic balls w32 are connected to two side ends of the spring block w33 and are movably matched, the magnetic balls w32 and the spring block w33 are embedded and movable in the movable groove w31, the movable groove w31 is of a hollow structure, each spring block w33 and the two magnetic balls w32 are matched and move in a group, the two groups of magnetic balls w32 are magnetic balls, repulsive magnetic field force can be generated between every two spring blocks, each spring block w33 is a plastic elastomer block and has excellent elastic force and deformation, the spring block w33 deforms under the matching of the magnetic force of the magnetic balls w32, gas is squeezed during folding, blowing air flow is facilitated, annular movement is achieved during changing, and rotating and rolling driving force is further generated.

The specific use mode and function of the embodiment are as follows: the solid plate a21 is driven by the connecting block a1 to tilt and swing, the rotating ball a23 is driven to roll, the magnetic ball w32 is driven to move in the moving groove w31, the magnetic force between the magnetic balls w32 displaces the magnetic ball w32 for a certain distance, the flexibility of the elastic block w33 is convenient for the elastic block w33 to deform along with the displacement of the magnetic ball w32, the circular expansion and contraction deformation of the elastic block w33 assists the change of the magnetic field between the magnetic balls w32 in a reverse direction, the elastic block w33 is more movably rotated in the moving groove w31 to push and press the telescopic ring w2, the rolling ball w4 is driven to roll in the inner part of the elastic block w4 and interacts with the telescopic ring w2, the elastic block w31 is convenient for the air to be actively expanded and contracted by the through a through hole on the outer ring w1, the rotating ball a23 is driven by the block engineering plastics, and a certain blowing force is generated for the plastic, and drying it to some extent.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a drying equipment for engineering plastics preparation, its structure is equipped with organism (1), leads to irritate pipe (2), instrument (3), controls panel (4), motor (5), linking (6), it installs in organism (1) top and link up the setting to lead to irritate pipe (2), instrument (3) are embedded solid and are installed the top surface end at organism (1), it installs in leading to irritate pipe (2) top to control panel (4), motor (5) are connected and cooperate with controlling panel (4), linking (6) activity block is in organism (1) bottom, its characterized in that:

organism (1) is equipped with lid frame (11), pan feeding mouth (12), dry chamber (13), screw (14), head (15), discharge gate (16), lid frame (11) activity block in dry chamber (13) top, pan feeding mouth (12) and lid frame (11) structure as an organic whole and link up the setting, screw (14) embedding activity is inside dry chamber (13), discharge gate (16) are located dry chamber (13) bottom position, head (15) are located discharge gate (16) top, head (15) activity is in screw (14) lower extreme.

2. The drying apparatus for engineering plastic production according to claim 1, wherein: the movable device (15) is provided with a rotating head (151), a vertical frame (152), a movable plate (153) and a driving device (154), the vertical frame (152) is connected to the lower end of the rotating head (151) in a movable fit mode, the movable plate (153) is communicated with the vertical frame (152), the driving device (154) is embedded into the vertical frame (152) in a movable mode, and the driving device (154) is movably connected with the middle section of the movable plate (153) in a movable mode and is matched with the middle section of the movable plate (153).

3. The drying apparatus for engineering plastic production according to claim 2, wherein: the fly leaf (153) are equipped with and link up piece (a1), wane board (a2), tilted board (a2) hinged joint links up piece (a1) both sides end and clearance fit.

4. The drying apparatus for engineering plastic production according to claim 2, wherein: drive arrangement (154) are equipped with slider (q1), telescopic link frame (q2), upset piece (q3), slider (q1) are connected on telescopic link frame (q2) top, upset piece (q3) swing joint is in telescopic link frame (q2) bottom and clearance fit.

5. The drying apparatus for engineering plastic production according to claim 4, wherein: the turnover block (q3) is provided with a supporting block (q31), a swinging frame (q32), a tough block (q33) and a spring (q34), the supporting block (q31) is embedded in the middle end of the interior of the turnover block (q3), the swinging frame (q32) penetrates through the supporting block (q31) to be in a lower end position, the tough block (q33) is connected to the outer side of the swinging frame (q32), and the spring (q34) is connected between the swinging frame (q32) and the supporting block (q31) and is in movable fit with the swinging frame (q 32).

6. The drying apparatus for engineering plastic production according to claim 3, wherein: the tilting plate (a2) is provided with a solid plate (a21), a groove (a22) and a rotating ball (a23), the groove (a22) and the solid plate (a21) are of an integrated structure and are embedded into the groove, and the rotating ball (a23) is movably clamped on the groove (a 22).

7. The drying apparatus for engineering plastic production according to claim 6, wherein: the rotary ball (a23) is provided with an outer ring (w1), a telescopic ring (w2), a variable cavity (w3) and a rolling ball (w4), the telescopic ring (w2) is movable on the inner side of the outer ring (w1), the variable cavity (w3) is positioned between the outer ring (w1) and the telescopic ring (w2), and the rolling ball (w4) is embedded and movable inside the telescopic ring (w 2).

8. The drying apparatus for engineering plastic production according to claim 7, wherein: the variable cavity (w3) is provided with a movable groove (w31), a magnetic ball (w32) and a spring block (w33), the magnetic ball (w32) is connected to two side ends of the spring block (w33) and is movably matched with the two side ends of the spring block, and the magnetic ball (w32) and the spring block (w33) are embedded into the movable groove (w 31).