CN117921769A - Silica gel production and processing is with silica gel pipe cutting machine - Google Patents

Abstract

The invention discloses a silicone tube cutting machine for producing and processing silicone tube, which belongs to the technical field of silicone tube production and processing, and comprises an equipment base mechanism, wherein a cutting driving mechanism is fixedly connected between two sides of the top of the equipment base mechanism, two adjusting circular plate mechanisms are fixedly connected on the cutting driving mechanism, and a transmission mechanism is connected between the two adjusting circular plate mechanisms in a sliding manner. The invention designs the cutting driving mechanism, the adjusting circular plate mechanism, the transmission mechanism, the adjusting bottom plate mechanism, the limiting guide mechanism and the driven clamping mechanism, and the whole device only has two driving structures of the driving motor and the driving cylinder, so that the whole device has simple structure and low manufacturing cost, is suitable for cutting work of a small amount of silicone tubes, can realize adjustment of a larger cutting length range through any adjustment of the transmission mechanism on the adjusting circular plate mechanism, and increases the application range of the pipe cutting machine.

Description

Silica gel production and processing is with silica gel pipe cutting machine

Technical Field

The invention belongs to the technical field of silicone tube production and processing, and particularly relates to a silicone tube cutting machine for silicone tube production and processing.

Background

Silica gel is a common material widely applied to the fields of industry and consumer goods, is prepared from silica dioxide and water through a special process, is a substance with stable chemical properties and good physical properties, is widely applied to various fields because of the advantages of the characteristics, comprises a silica gel tube, is a circulation and cladding carrier of liquid, gas and other materials, can be divided into extrusion tubes and special tube strips in the industry, is widely applied to the modern industry, national defense industry and daily necessities, is prepared by adding raw silica rubber into a double-roller rubber mixing machine or a closed kneader, is gradually added with white carbon black and other auxiliary agents, is repeatedly refined uniformly, and is extruded to prepare a product, and the common silica gel tube comprises: medical silicone tubes, food-grade silicone tubes, industrial silicone tubes, silicone tubes and silicone tube fittings can be divided into different specifications such as length, diameter and the like according to different purposes.

The silicone tube needs to be cut into tubes in the production and processing process, so that the silicone tube reaches a specific length, the silicone tube is cut by a full-automatic pipe cutting machine in order to ensure the tube cutting efficiency in mass production factories, the working efficiency is high, the device is suitable for mass production, but the whole structure of the device is complex, the cost of the device is high, the device is not suitable for use when a small amount of silicone tube is produced, the automatic cutting cannot be realized by the conventional simple pipe cutting machines, the manual auxiliary operation is needed, the efficiency is low, and meanwhile, the work such as clamping, transmission and cutting is respectively completed in a plurality of driving modes.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a silicone tube cutting machine for producing and processing silicone.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a silica gel pipe cutting machine for silica gel production and processing, which comprises an equipment base mechanism, wherein a cutting driving mechanism is fixedly connected between two sides of the top of the equipment base mechanism, and two adjusting circular plate mechanisms are fixedly connected on the cutting driving mechanism;

A transmission mechanism is connected between the two adjusting circular plate mechanisms in a sliding way, the top of the equipment base mechanism is connected with an adjusting bottom plate mechanism in a sliding way, and a clamping mechanism is arranged on the adjusting bottom plate mechanism;

The device comprises a base mechanism, a plurality of supporting upright rods, a limiting guide mechanism and a driven clamping mechanism, wherein the limiting guide mechanism is fixedly connected between the two ends of the top of the base mechanism, the driven clamping mechanism is slidably connected between the top of the base mechanism and a transmission mechanism, and the limiting sliding top plate is fixedly connected between the tops of the supporting upright rods.

Further, equipment base mechanism is including supporting the base main part, both ends all fixedly connected with side limiting plate around the top of supporting the base main part, support the first bearing plate of base main part top center one side fixedly connected with, support one side fixedly connected with side closure plate of base main part, be provided with the regulation threaded rod between first bearing plate and the side closure plate, support the top center fixedly connected with gag lever post of base main part, support the base main part and offered down the silo in one side of keeping away from the regulation threaded rod.

Through above-mentioned technical scheme, during the use, cut the length of pipe as required and adjust, rotate the regulation threaded rod, and then drive the screw hole board with spiral connection thereof, drive whole regulation bottom plate mechanism and remove and promote regulation bottom plate mechanism to the biggest position and can carry out the vision according to cutting the pipe length, the position that removes be greater than cut the length of pipe can, then adjust after the cutting length, reverse rotation adjusts the threaded rod, and then drive whole regulation bottom plate mechanism reset can, wherein the silo realization is with the silica gel pipe slip of cutting drop down.

Further, the cutting driving mechanism comprises a first supporting column and a second supporting column which are respectively and fixedly connected to the centers of the tops of the two side limit plates, the tops of the first supporting column and the second supporting column are fixedly connected with two second bearing plates, a driving motor is arranged between the inner walls of the tops of the first supporting column, a first rotating shaft and a second rotating shaft are respectively arranged between the corresponding second bearing plates at the tops of the first supporting column, belt pulleys are fixedly connected to the bottoms of the first supporting column and one side of the first rotating shaft, and a plurality of driving belts are arranged between the belt pulleys.

Through above-mentioned technical scheme, start driving motor, and then through the transmission of two belt pulleys and driving belt, realize the drive to first axis of rotation, and then realize the rotation to two regulation plectane mechanisms through drive mechanism.

Further, the adjusting circular plate mechanism comprises a circular plate main body fixedly connected to one end of the first support upright post or the second support upright post, which is close to one end of the first support upright post or the second support upright post, limiting strip holes are formed in two sides of the circular plate main body, and a graduated scale and a limiting slot hole are respectively formed in the bottom and the top of each limiting strip hole on one side of the circular plate main body.

Through above-mentioned technical scheme, spacing hole can realize the slip regulation to drive mechanism, and after drive mechanism accomplished fixedly, the distance of slip regulation is half of cutting silicone tube length.

Further, drive mechanism includes two sliding connection's regulation square between two regulation plectane mechanisms, two the inside of regulation square all is provided with connecting bearing, two fixedly connected with transmission square between connecting bearing's the inner wall, two the equal fixedly connected with of top of regulation square is fixed ear, two the equal fixedly connected with bar pointer in bottom of regulation square, two all be provided with first locking bolt subassembly between fixed ear and the spacing slotted hole in the corresponding plectane main part.

Through the technical scheme, when the rotary type circular plate is used, the limit strip hole in the circular plate main body is guaranteed to be in a horizontal state, the transmission square strip is pushed, then the adjusting squares at two ends slide in the corresponding limit strip holes, the graduated scale pointed by the strip-shaped pointer is observed, the graduated scale starts to calculate from the circle center of the circular plate main body until reaching a determined numerical value, the numerical value is half of the length of a cut tube, the rotary radius of the transmission mechanism is half of the length of the cut tube, the cut tube is rotated in a circle, the length of the cut tube is twice of the numerical value, the two first locking bolt assemblies are screwed, the position fixing of the transmission mechanism on the two circular plate main bodies is completed, the circular plate main body rotates, the transmission mechanism drives the other circular plate main body to rotate simultaneously through the transmission mechanism, the transmission square strip keeps the original horizontal state due to the two connecting bearings, and the driven clamping mechanism is pushed to slide along with the rotation of the transmission square strip.

Further, the adjusting bottom plate mechanism comprises a bottom plate main body which is connected between the two side limit plates in a sliding mode, two limit bar-shaped holes and one blanking bar hole are respectively formed in the bottom plate main body, and a threaded hole plate corresponding to the adjusting threaded rod is fixedly connected to one side of the bottom plate main body.

Through above-mentioned technical scheme, two spacing bar holes and spacing slip roof have realized the slip spacing to driven fixture, and the unloading bar hole makes the silicone tube after the cutting can drop at the unloading groove.

Further, clamping mechanism includes two fixed bottom shells of fixed connection in regulation bottom plate mechanism one end and sliding connection at the slip bottom shell of regulation bottom plate mechanism center one side, two the equal sliding connection of inner wall of fixed bottom shell and the inner wall both sides of slip bottom shell have square splint, a plurality of the equal fixedly connected with clamping spring and spacing backup pad in bottom one side of square splint respectively, the front end fixedly connected with side connection orifice plate of slip bottom shell one side, be provided with second locking bolt assembly between side connection orifice plate and the gag lever post.

Through the technical scheme, the position of the sliding bottom shell is adjusted according to the sliding of the cut length, so that the horizontal distance from the circle center of the circular plate main body to the position is larger than the numerical value pointed by the strip-shaped pointer, the situation that the square clamping plates on the sliding bottom shell are touched when the silicone tube is clamped and pulled in the later stage can be avoided, the silicone tube is respectively clamped between the two fixed bottom shells and the square clamping plates on the sliding bottom shell, the sliding bottom shell is protruded for a certain distance, and the limiting fixation of the silicone tube is realized.

Further, spacing guiding mechanism includes U type backup pad and U type support bar of fixed connection at bottom plate main part top both ends, one side center fixedly connected with connecting plate of U type backup pad, the one end fixedly connected with arc cutting deflector of connecting plate, the bottom fixedly connected with a plurality of circular support bars of arc cutting deflector one side, and a plurality of circular support bars run through U type support bar.

Through above-mentioned technical scheme, the arc cutting deflector can realize the direction and the spacing to cutting tool, drives its rising through driven fixture's lateral shifting, then descends after pressing from both sides tight pulling silicone tube and accomplish the cutting, and a plurality of circular support bars can avoid cutting tool to descend.

Further, driven fixture includes two sliding connection support the draw runner between adjusting bottom plate mechanism and spacing slip roof, two the equal fixedly connected with stopper in top and bottom of support draw runner, two equal fixedly connected with of support draw runner bottom one side is fixed sleeve, two equal fixedly connected with of fixed sleeve's one end drives the cylinder, two equal fixedly connected with of output of drive cylinder slides the push pedal, two the equal fixedly connected with extrusion spring of one side that the push pedal is being close to each other, two the equal fixedly connected with of one end that the extrusion spring is being close to each other slides the push rod, two the equal fixedly connected with of one end that the push rod is being close to each other is circular splint, two equal fixedly connected with side frame board in bottom one side of support draw runner, two equal fixedly connected with square draw runner of side frame inboard wall, two fixedly connected with circular guide strip between the square draw runner, two fixedly connected with cutting tool between the bottom of square draw runner.

Through above-mentioned technical scheme, transmission square strip can promote two support slide along with the pivoted in the drive mechanism and begin to slide, two support slide passes through the stopper of top and bottom and transversely slides between bottom plate main part and spacing slip roof, simultaneously because the slip of two support slide, can drive the cutter of bottom and transversely slide simultaneously, and because receive circular guide strip at the inside spacing of arc cutting deflector, and two square slide can provide certain buffering at the spacing of side frame board, can drive the cutter and rise along arc cutting deflector, and the back transversely slides on a plurality of circular support strips, when two support slide slides, two drive cylinders of bottom drive slip push pedal and then drive extrusion spring and slip push rod shrink, realize that two circular splint separate, rotate the semicircle back at the plectrum main part from initial state, two support slide to the maximum distance this moment, and then make two circular splint press from each other through extrusion spring and slip push rod, can provide certain buffering with the silicon clamp of two circular drain pan one side leading to press from each other, then main part rotates, then drive the seal round tube is cut down at two limit plate and then the limit for the time, and the die is cut the circle is cut at the time cut with the time to the time of the two seal plate is cut down to the limit plate, and the circle is cut with the limit is cut to the limit of two drive cylinder, and then the round tube is cut down along with the time, the time the limit cut silicon tube is cut and the limit is cut down.

The beneficial effects of the invention are as follows: (1) According to the invention, the cutting driving mechanism, the adjusting circular plate mechanism, the transmission mechanism, the adjusting bottom plate mechanism, the limiting guide mechanism and the driven clamping mechanism are designed, wherein the cutting driving mechanism finishes the power input through the driving motor, the adjusting circular plate mechanism is supported, the transmission mechanism can adjust the length of the silicone tube by adjusting the position on the adjusting circular plate mechanism, the driven clamping mechanism is driven to finish the transverse movement while the adjusting circular plate mechanism drives the transmission mechanism to rotate, the clamping operation is finished through the pneumatic of the driving cylinder, the driven clamping mechanism transversely finishes the movement and the reset in the process of rotating the adjusting circular plate mechanism for one circle, the circular clamping plate at the bottom clamps and pulls out the silicone tube, and the cutting tool moves along with the circular clamping plate and then resets to cut off the pulled silicone tube under the action of the limiting guide mechanism, the whole device has only two driving structures of the driving motor and the driving cylinder, the whole device has a simple structure and low manufacturing cost, and is suitable for cutting work of a small amount of silicone tube, and can realize the adjustment of a larger cutting length range through the random adjustment of the transmission mechanism on the adjusting circular plate mechanism, so that the application range of the pipe cutting machine is increased; (2) According to the invention, the adjusting bottom plate mechanism is designed, the adjusting bottom plate mechanism is adjusted after the adjusting bottom plate mechanism is adjusted according to the length of the cut pipe, the lowest point of the arc-shaped cutting guide plate in the limiting guide mechanism fixed at the top of the adjusting bottom plate mechanism is ensured to be consistent with the lowest point of the round guide bar, the initial starting state is determined, the cutting work can be completed after one period is completed, the clamping springs in the clamping mechanism and the extrusion springs in the driven clamping mechanism are designed, the clamping cutting operation can be carried out according to the silica gel pipes with different pipe diameters, and the application range of the equipment is improved.

Drawings

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

FIG. 2 is a schematic longitudinal sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a schematic view of the apparatus base mechanism of the present invention;

FIG. 5 is a schematic view of the cutting drive mechanism of the present invention;

FIG. 6 is a schematic perspective view of the adjusting circular plate mechanism of the present invention;

FIG. 7 is a schematic side perspective view of an adjustment circular plate mechanism of the present invention;

FIG. 8 is a schematic diagram of the transmission mechanism of the present invention;

FIG. 9 is a schematic view of the position of the driven clamping mechanism of the present invention;

FIG. 10 is a schematic view of the adjusting floor mechanism of the present invention;

FIG. 11 is a schematic view of the bottom structure of the adjusting floor mechanism of the present invention;

FIG. 12 is a schematic view of the clamping mechanism of the present invention;

FIG. 13 is a schematic view of a spacing guide mechanism of the present invention;

FIG. 14 is a schematic view of a portion of the structure of the present invention;

FIG. 15 is an enlarged view of a portion of FIG. 14 at A;

FIG. 16 is a schematic view of the driven clamping mechanism of the present invention;

FIG. 17 is a schematic view in partial cross-section of a driven clamp mechanism of the present invention;

FIG. 18 is a schematic view of a stopper according to the present invention;

FIG. 19 is a schematic view of the cutting tool configuration of the present invention;

Fig. 20 is a partial enlarged view at B in fig. 3.

Reference numerals: 1. a device base mechanism; 101. a support base body; 102. a side limit plate; 103. a first bearing plate; 104. side blocking plates; 105. adjusting a threaded rod; 106. a limit rod; 107. discharging groove; 2. a cutting drive mechanism; 201. a first support column; 202. a second support column; 203. a second bearing plate; 204. a driving motor; 205. a first rotation shaft; 206. a second rotation shaft; 207. a belt pulley; 208. a drive belt; 3. an adjusting circular plate mechanism; 301. a circular plate body; 302. limiting strip holes; 303. a graduated scale; 304. limiting slot holes; 4. a transmission mechanism; 401. adjusting the square; 402. connecting a bearing; 403. driving square bars; 404. a fixed ear; 405. a bar pointer; 406. a first lock bolt assembly; 5. adjusting the bottom plate mechanism; 51. a base plate main body; 52. limiting the bar-shaped hole; 53. blanking strip holes; 54. a threaded orifice plate; 6. a clamping mechanism; 601. fixing the bottom shell; 602. a sliding bottom case; 603. square clamping plates; 604. a clamping spring; 605. a limit support plate; 606. the side edge is connected with the pore plate; 607. a second lock bolt assembly; 7. a limit guide mechanism; 701. a U-shaped supporting plate; 702. a connecting plate; 703. arc-shaped cutting guide plates; 704. a circular support bar; 705. a U-shaped supporting bar; 8. a driven clamping mechanism; 801. a support slide; 802. a limiting block; 803. a fixed sleeve; 804. a driving cylinder; 805. a sliding push plate; 806. extruding a spring; 807. sliding the push rod; 808. a circular splint; 809. a side frame plate; 810. square sliding bar; 811. a circular guide bar; 812. a cutting tool; 9. supporting the upright rod; 10. and limiting the sliding top plate.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1-4, a silicone tube cutting machine for silicone production and processing of this embodiment includes an apparatus base mechanism 1, the apparatus base mechanism 1 includes a supporting base main body 101, both ends all fixedly connected with side limiting plates 102 around the top of supporting base main body 101, a first bearing plate 103 is fixedly connected with one side of the supporting base main body 101 top center, a side blocking plate 104 is fixedly connected with one side of supporting base main body 101, an adjusting threaded rod 105 is provided between the first bearing plate 103 and the side blocking plate 104, a limiting rod 106 is fixedly connected with the top center of supporting base main body 101, a blanking groove 107 is provided on one side far away from adjusting threaded rod 105, during use, the length of a cut tube is adjusted according to the need, the adjusting threaded rod 105 is rotated, and then a threaded orifice plate 54 in threaded connection with the adjusting threaded rod 105 is driven, the whole adjusting base plate mechanism 5 is driven to move and push the adjusting base plate mechanism 5 to a maximum position (can be visualized according to the length of the cut tube, the moving position is larger than the length of the cut tube), then the adjusting base plate is reversely rotated, and the adjusting threaded rod 105 is driven to reset the whole adjusting base plate mechanism 5, wherein the blanking groove 107 is slid to realize the cut tube sliding.

As shown in fig. 2-7, a cutting driving mechanism 2 is fixedly connected between two sides of the top of the equipment base mechanism 1, the cutting driving mechanism 2 comprises a first supporting column 201 and a second supporting column 202 which are respectively and fixedly connected to the centers of the tops of two side limit plates 102, two second bearing plates 203 are respectively and fixedly connected to the tops of the first supporting column 201 and the second supporting column 202, a driving motor 204 is installed between the inner walls of the tops of the first supporting column 201, a first rotating shaft 205 and a second rotating shaft 206 are respectively arranged between the corresponding second bearing plates 203 at the tops of the first supporting column 201 and the second supporting column 202, pulleys 207 are respectively and fixedly connected to one side of the bottom of the first supporting column 201 and one side of the first rotating shaft 205, a plurality of transmission belts 208 are arranged between the two pulleys 207, the driving motor 204 is started, and then the transmission of the two pulleys 207 and the transmission belts 208 is started, and then the driving of the first rotating shaft 205 is realized through a transmission mechanism 4, two adjusting circular plate mechanisms 3 are fixedly connected to the inner walls of the cutting driving mechanism 2, the adjusting circular plate mechanisms 3 are respectively, the adjusting mechanism 3 comprises a first rotating shaft 205 and a circular plate 301 or a second supporting column 201 or a circular plate 301 is arranged at one side of the two sides of the main body 302, namely, the main body 301 is provided with a sliding limiting hole 302, and a sliding distance is limited by the two sides of the main body 301 is limited by the sliding distance is limited by the two side of the main body 301, and the two side of the main body 301 are respectively, and the two side of the main body 301 and the two side limiting hole 302 are respectively and the sliding distance 302 are limited by the distance is limited by the two side and the distance 302.

As shown in fig. 8, a transmission mechanism 4 is slidably connected between two adjusting disc mechanisms 3, the transmission mechanism 4 comprises two adjusting blocks 401 slidably connected between the two adjusting disc mechanisms 3, connecting bearings 402 are arranged in the two adjusting blocks 401, a transmission square bar 403 is fixedly connected between the inner walls of the two connecting bearings 402, fixing lugs 404 are fixedly connected to the tops of the two adjusting blocks 401, bar-shaped pointers 405 are fixedly connected to the bottoms of the two adjusting blocks 401, first locking bolt assemblies 406 are arranged between the two fixing lugs 404 and limiting slot holes 304 on the corresponding disc main body 301, when the disc is used, the limiting slot holes 302 on the disc main body 301 are ensured to be in a horizontal state, the transmission square bar 403 is pushed, and then the adjusting blocks 401 at two ends slide in the corresponding limiting slot holes 302, and observe the scale 303 pointed by the bar pointer 405 until reaching a determined value (the scale 303 starts to calculate from the center of the circular plate main body 301, the value is half of the length of the cut pipe, which is the rotation radius of the transmission mechanism 4, and then rotates one circle of cut pipe, namely, the cut pipe length twice the value), then the transmission mechanism 4 is screwed down by the two first locking bolt assemblies 406, the position of the transmission mechanism 4 on the two circular plate main bodies 301 is fixed, the circular plate main body 301 rotates, the transmission mechanism 4 drives the other circular plate main body 301 to rotate simultaneously by the transmission mechanism 4 along with the rotation of the two circular plate main bodies 301, the transmission square bar 403 keeps the original horizontal state due to the two connecting bearings 402, and the driven clamping mechanism 8 is pushed to slide along with the rotation of the transmission square bar 403.

As shown in fig. 9-15, the top of the device base mechanism 1 is slidably connected with an adjusting bottom plate mechanism 5, the adjusting bottom plate mechanism 5 comprises a bottom plate main body 51 slidably connected between two side limit plates 102, two limit bar holes 52 and a blanking bar hole 53 are respectively formed on the bottom plate main body 51, a threaded hole plate 54 corresponding to the adjusting threaded rod 105 is fixedly connected to one side of the bottom plate main body 51, the two limit bar holes 52 and the limit sliding top plate 10 realize the sliding limit of the driven clamping mechanism 8, the blanking bar holes 53 enable cut silicone tubes to drop into a blanking groove 107, a clamping mechanism 6 is arranged on the adjusting bottom plate mechanism 5, the clamping mechanism 6 comprises two fixed bottom cases 601 fixedly connected to one end of the adjusting bottom plate mechanism 5 and a sliding bottom case 602 slidably connected to one side of the center of the adjusting bottom plate mechanism 5, the inner wall of two fixed drain pans 601 and the inner wall both sides of slip drain pan 602 all sliding connection have square splint 603, the equal fixedly connected with clamp spring 604 of bottom one side of a plurality of square splint 603 and spacing backup pad 605 respectively, the front end fixedly connected with side connection orifice plate 606 of slip drain pan 602 one side, be provided with second locking bolt subassembly 607 between side connection orifice plate 606 and the gag lever post 106, slide according to the length of cutting and adjust slip drain pan 602 position, make its horizontal distance from the centre of a circle of plectane main part 301 be greater than the numerical value pointed by bar pointer 405, square splint 603 on the slip drain pan 602 can be touched when can avoid later clamping pulling silicone tube, with the silicone tube centre gripping respectively between square splint 603 on two fixed drain pans 601 and slip drain pan 602, and the spacing of protrusion drain pan 602 is fixed.

As shown in fig. 13, a limiting guide mechanism 7 is fixedly connected between two ends of the top of the adjusting bottom plate mechanism 5, the limiting guide mechanism 7 comprises a U-shaped supporting plate 701 and a U-shaped supporting bar 705 which are fixedly connected to two ends of the top of the bottom plate main body 51, a connecting plate 702 is fixedly connected to the center of one side of the U-shaped supporting plate 701, one end of the connecting plate 702 is fixedly connected with an arc-shaped cutting guide plate 703, a plurality of circular supporting bars 704 are fixedly connected to the bottom of one side of the arc-shaped cutting guide plate 703, the plurality of circular supporting bars 704 penetrate through the U-shaped supporting bars 705, the arc-shaped cutting guide plate 703 can guide and limit a cutting tool 812, the cutting tool is driven to ascend through the transverse movement of the driven clamping mechanism 8, then the cutting tool is completed after the silicon tube is clamped and pulled, and the plurality of circular supporting bars 704 can avoid the cutting tool 812 from descending.

As shown in fig. 16-20, a driven clamping mechanism 8 is slidably connected between the top of the adjusting bottom plate mechanism 5 and the transmission mechanism 4, the driven clamping mechanism 8 comprises two supporting sliding bars 801 which are slidably connected between the adjusting bottom plate mechanism 5 and the limiting sliding top plate 10, limiting blocks 802 are fixedly connected to the top and bottom of the two supporting sliding bars 801, fixing sleeves 803 are fixedly connected to one sides of the bottoms of the two supporting sliding bars 801, driving cylinders 804 are fixedly connected to one ends of the two fixing sleeves 803, sliding push plates 805 are fixedly connected to output ends of the two driving cylinders 804, pressing springs 806 are fixedly connected to one sides of the two sliding push plates 805 which are close to each other, sliding push rods 807 are fixedly connected to one sides of the two pressing springs 806 which are close to each other, round clamping plates 808 are fixedly connected to one sides of the two sliding push rods 807 which are close to each other, the side frame plates 809 are fixedly connected to one side of the bottom of the two supporting slide bars 801, the square slide bars 810 are fixedly connected to the inner walls of the two side frame plates 809 in a sliding manner, the round guide bars 811 are fixedly connected between the two square slide bars 810, the cutting tools 812 are fixedly connected between the bottoms of the two square slide bars 810, the driving square bars 403 in the driving mechanism 4 push the two supporting slide bars 801 to start sliding along with rotation, the two supporting slide bars 801 transversely slide between the bottom plate main body 51 and the limit sliding top plate 10 through the limit blocks 802 at the top and the bottom, meanwhile, due to the sliding of the two supporting slide bars 801, the cutting tools 812 at the bottom can be driven to transversely slide simultaneously, and due to the limit of the round guide bars 811 in the arc cutting guide plates 703 and the limit of the two square slide bars 810 in the side frame plates 809, the cutting tools 812 can be driven to ascend along the arc cutting guide plates 703, and then slide transversely on a plurality of circular support bars 704, while the two support slide bars 801 slide, the two driving cylinders 804 at the bottom drive the sliding push plate 805 to further drive the extrusion springs 806 and the sliding push rods 807 to shrink, so as to separate the two circular clamping plates 808, after the circular plate main body 301 rotates a half turn from the initial state, the two support slide bars 801 slide to the maximum distance at the moment, the two driving cylinders 804 start to push the sliding push plate 805, and further clamp the two circular clamping plates 808 through the extrusion springs 806 and the sliding push rods 807, the silica gel tube at the head of one side of the sliding bottom shell 602 is clamped (the control time of the driving cylinders 804 can be determined by one turn period of the rotation of the driving motor 204, so as to realize continuous clamping work), certain buffering can be provided through two extrusion springs 806, excessive extrusion is avoided, then the circular plate main body 301 continues to rotate, two driving cylinders 804 keep pushing state in the process of the second half circle, simultaneously, two supporting sliding strips 801 are driven to reset under the limiting guide effect between the limiting sliding top plate 10 and the bottom plate main body 51 along with the rotation of the second half circle of the circular plate main body 301, and two side frame plates 809 also reset along with the limiting sliding top plate, the circular guide strips 811 are rapidly lowered by the arc-shaped cutting guide plates 703 when one cycle is completed, further, the silica gel tube which is clamped and pulled out is cut, the top of the equipment base mechanism 1 is fixedly connected with a plurality of supporting vertical rods 9, and the limiting sliding top plate 10 is fixedly connected between the tops of the supporting vertical rods 9.

The working principle of this embodiment is as follows, when in use, the length of the pipe is adjusted according to the requirement, firstly, the limit bar hole 302 on the circular plate main body 301 is in a horizontal state, the adjusting threaded rod 105 is rotated, and then the threaded hole plate 54 connected with the threaded rod is driven, the integral adjusting bottom plate mechanism 5 is driven to move and push the adjusting bottom plate mechanism 5 to a certain distance, then the driving square bar 403 is pushed, and then the adjusting square blocks 401 at two ends slide in the corresponding limit bar hole 302, and observe the graduated scale 303 pointed by the bar pointer 405 until reaching a determined value, then the two first locking bolt assemblies 406 are screwed up, the position fixing of the driving mechanism 4 on the two circular plate main bodies 301 is completed, and then the adjusting threaded rod 105 is reversely rotated, and then the integral adjusting bottom plate mechanism 5 is driven to reset until one end of the limit bar hole 52 on the bottom plate main body 51 is propped against the limit block 802 at the bottom of the supporting sliding bar 801 (in order to ensure that the lowest point of the arc-shaped cutting guide plate 703 in the limit guide mechanism 7 fixed at the top of the adjusting bottom plate mechanism 5 is consistent with the lowest point of the circular guide bar 811, the initial state of starting is completed after completing a certain initial state of cutting work;

According to the length of the cut, the position of the sliding bottom shell 602 is slidingly adjusted to enable the horizontal distance from the circle center of the circular plate main body 301 to be larger than the numerical value pointed by the strip-shaped pointer 405, a silicone tube is respectively clamped between the two fixed bottom shells 601 and the square clamping plates 603 on the sliding bottom shell 602 and protrudes out of the sliding bottom shell 602 for a certain distance, then the driving motor 204 (taking the specification drawing as the initial motion state of the pipe cutting machine) is started, the driving of the first rotating shaft 205 is realized through the transmission of the two belt pulleys 207 and the driving belt 208, the corresponding circular plate main body 301 is driven to rotate, the driving mechanism 4 drives the other circular plate main body 301 to rotate simultaneously, the driving square bar 403 keeps the original horizontal state due to the two connecting bearings 402 while the driving square bar 403 drives the two supporting sliding bars 801 to start sliding along with the rotation, the two supporting slide bars 801 slide transversely between the bottom plate main body 51 and the limiting slide top plate 10 through the limiting blocks 802 at the top and the bottom, meanwhile, due to the sliding of the two supporting slide bars 801, the bottom cutting tool 812 is driven to slide transversely at the same time, and due to the limiting of the round guide bars 811 in the arc cutting guide plate 703 and the limiting of the two square sliding bars 810 in the side frame plates 809, the cutting tool 812 is driven to ascend along the arc cutting guide plate 703 and then slide transversely on the plurality of round support bars 704, while the two supporting slide bars 801 slide, the two driving cylinders 804 at the bottom drive the sliding push plates 805 to further drive the compression springs 806 and the sliding push rods 807 to shrink, so that the two round clamping plates 808 are separated, after the round plate main body 301 rotates a half circle from an initial state, the two supporting slide bars 801 slide to a maximum distance at the moment, at this time, the two driving cylinders 804 start to push the sliding push plate 805, and then the two circular clamping plates 808 are clamped by the pressing springs 806 and the sliding push rod 807, the silicone tube at the head of one side of the sliding bottom shell 602 is clamped, then the circular plate main body 301 continues to rotate, in the process of the second half circle, the two driving cylinders 804 keep in a pushing state, and simultaneously, along with the rotation of the second half circle of the circular plate main body 301, the two supporting sliding strips 801 are driven to reset under the limiting guiding action between the limiting sliding top plate 10 and the bottom plate main body 51, and the two side frame plates 809 also reset, so that the circular guiding strips 811 are rapidly lowered by the arc-shaped cutting guiding plate 703 when one cycle is completed, and then the silicone tube which is clamped and pulled out is cut, the length of the first section of cutting does not meet the standard, and when the second time of cutting starts, the length of the cut is twice the value indicated by the bar pointer 405, and then the automatic cutting work is completed.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (9)

1. The utility model provides a silica gel production processing is with silica gel pipe cutting machine, includes equipment base mechanism (1), its characterized in that: a cutting driving mechanism (2) is fixedly connected between two sides of the top of the equipment base mechanism (1), and two adjusting circular plate mechanisms (3) are fixedly connected to the cutting driving mechanism (2);

A transmission mechanism (4) is connected between the two adjusting circular plate mechanisms (3) in a sliding way, an adjusting bottom plate mechanism (5) is connected to the top of the equipment base mechanism (1) in a sliding way, and a clamping mechanism (6) is arranged on the adjusting bottom plate mechanism (5);

The device comprises a base mechanism (1) and is characterized in that a limiting guide mechanism (7) is fixedly connected between two ends of the top of the base mechanism (5), a driven clamping mechanism (8) is slidably connected between the top of the base mechanism (5) and a transmission mechanism (4), a plurality of supporting vertical rods (9) are fixedly connected to the top of the base mechanism (1), and a limiting sliding top plate (10) is fixedly connected between the tops of the supporting vertical rods (9).

2. The silicone tube cutting machine for silicone production and processing according to claim 1, wherein the device base mechanism (1) comprises a supporting base body (101), both ends are all fixedly connected with side limiting plates (102) around the top of supporting base body (101), a first bearing plate (103) is fixedly connected with one side of the top center of supporting base body (101), a side blocking plate (104) is fixedly connected with one side of supporting base body (101), an adjusting threaded rod (105) is arranged between the first bearing plate (103) and the side blocking plate (104), a limiting rod (106) is fixedly connected with the top center of supporting base body (101), and a blanking groove (107) is formed in one side away from the adjusting threaded rod (105) of supporting base body (101).

3. The silicone tube cutting machine for silicone production and processing according to claim 2, wherein the cutting driving mechanism (2) comprises a first supporting column (201) and a second supporting column (202) which are respectively and fixedly connected to the centers of the tops of the two side limit plates (102), two second bearing plates (203) are fixedly connected to the tops of the first supporting column (201) and the second supporting column (202), a driving motor (204) is installed between the inner walls of the tops of the first supporting column (201), a first rotating shaft (205) and a second rotating shaft (206) are respectively arranged between the corresponding second bearing plates (203) at the tops of the first supporting column (201), a belt pulley (207) is fixedly connected to one side of the bottom of the first supporting column (201) and one side of the first rotating shaft (205), and a plurality of driving belts (208) are arranged between the two belt pulleys (207).

4. The silicone tube cutting machine for silicone production and processing according to claim 3, wherein the adjusting disc mechanism (3) comprises a disc body (301) fixedly connected to one end of the first support column (201) or the second support column (202) close to each other, two sides of the disc body (301) are provided with limiting strip holes (302), and one side of the disc body (301) is provided with a graduated scale (303) and a limiting slot hole (304) respectively at the bottom and the top of the limiting strip holes (302).

5. The silicone tube cutting machine for silicone production and processing according to claim 4, wherein the transmission mechanism (4) comprises two adjusting blocks (401) which are connected between two adjusting circular plate mechanisms (3) in a sliding manner, connecting bearings (402) are arranged in the two adjusting blocks (401), transmission square bars (403) are fixedly connected between inner walls of the two connecting bearings (402), fixing lugs (404) are fixedly connected to the tops of the two adjusting blocks (401), bar-shaped pointers (405) are fixedly connected to the bottoms of the two adjusting blocks (401), and first locking bolt assemblies (406) are arranged between the two fixing lugs (404) and limiting slots (304) on the corresponding circular plate main bodies (301).

6. The silicone tube cutting machine for silicone production and processing according to claim 2, wherein the adjusting bottom plate mechanism (5) comprises a bottom plate main body (51) which is slidably connected between two side limit plates (102), two limit bar holes (52) and one blanking bar hole (53) are respectively formed in the bottom plate main body (51), and a threaded hole plate (54) corresponding to the adjusting threaded rod (105) is fixedly connected to one side of the bottom plate main body (51).

7. The silicone tube cutting machine for silicone production and processing according to claim 6, wherein the clamping mechanism (6) comprises two fixed bottom cases (601) fixedly connected to one end of the adjusting bottom plate mechanism (5) and a sliding bottom case (602) slidingly connected to one side of the center of the adjusting bottom plate mechanism (5), two square clamping plates (603) are slidingly connected to two inner walls of the fixed bottom case (601) and two sides of the inner wall of the sliding bottom case (602), a plurality of clamping springs (604) and a limiting support plate (605) are fixedly connected to one side of the bottom of the square clamping plates (603), a side connecting hole plate (606) is fixedly connected to the front end of one side of the sliding bottom case (602), and a second locking bolt assembly (607) is arranged between the side connecting hole plate (606) and the limiting rod (106).

8. The silicone tube cutting machine for silicone production and processing according to claim 6, wherein the limit guiding mechanism (7) comprises a U-shaped supporting plate (701) and a U-shaped supporting bar (705) which are fixedly connected to two ends of the top of the bottom plate main body (51), a connecting plate (702) is fixedly connected to the center of one side of the U-shaped supporting plate (701), an arc-shaped cutting guiding plate (703) is fixedly connected to one end of the connecting plate (702), a plurality of circular supporting bars (704) are fixedly connected to the bottom of one side of the arc-shaped cutting guiding plate (703), and the plurality of circular supporting bars (704) penetrate through the U-shaped supporting bars (705).

9. The silicone tube cutting machine for silicone production and processing according to claim 1, wherein the driven clamping mechanism (8) comprises two supporting slide bars (801) which are connected between the adjusting bottom plate mechanism (5) and the limiting slide top plate (10) in a sliding manner, limiting blocks (802) are connected to the top and the bottom of the supporting slide bars (801) in a fixed manner, fixing sleeves (803) are connected to one side of the bottom of the supporting slide bars (801) in a fixed manner, driving cylinders (804) are connected to one ends of the fixing sleeves (803) in a fixed manner, sliding push plates (805) are connected to the output ends of the driving cylinders (804) in a fixed manner, compression springs (806) are connected to one side of the two sliding push plates (805) in a fixed manner, sliding push rods (807) are connected to one end of the two sliding push rods (807) in a fixed manner, round clamping plates (808) are connected to one side of the bottom of the two supporting slide bars (801) in a fixed manner, square sliding plates (809) are connected to the two square sliding plates (810) in a fixed manner, a cutting tool (812) is fixedly connected between the bottoms of the two square sliding strips (810).