CN113172699A - Servo pipe cutting machine of silica gel - Google Patents

Abstract

A servo silicone rubber pipe cutting machine comprises a pre-feeding device, a conveying device and a cutting device; the conveyer includes main part, rolling device and transmission adjusting device, transmission adjusting device includes the swing piece, the swing piece is located in the main part, it draws the knot to be equipped with first on the swing piece, the one end of main part is equipped with the second and draws the knot, first draw the knot with the second draws the knot to pass through the elastic component and connects, the top and the first transfer wheel of swing piece are connected, and the compression/tensile swing that drives the swing piece through adjusting the elastic component, thereby adjust the elasticity degree of conveyer belt. This servo pipe cutting machine of silica gel is through the cooperation of swing piece, first transfer wheel and second transfer wheel, and the homoenergetic can realize the tight state of conveyer belt through adjusting swing piece, and the conveyer belt can not appear loosening or the dead condition of card, has guaranteed the normal clear of transportation, and the conveyer belt keeps certain degree of tightening always, has guaranteed that the transportation rate of silica gel is not influenced.

Description

Servo pipe cutting machine of silica gel

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of servo silicon pipe cutters, in particular to a servo silicon pipe cutter.

[ background of the invention ]

Silica gel often appears with the form of strip as the thing that often uses in daily life, and strip silica gel often cuts through silica gel cutting device and handles, but because the uncertain and the restriction of conveyer transmission adjustment mechanism of silica gel transportation rate in the cutting process, has leaded to the transport speed of silica gel in the conveyer to change often, leads to the product length of follow-up cutting out to differ, and the size of incision also receives the influence.

[ summary of the invention ]

The invention aims to solve the problems and provides a silica gel servo pipe cutting machine which solves the problems that the speed change is large, and a conveying conveyor belt is easy to loosen and block in the conveying process of the existing silica gel cutting mechanism.

In order to achieve the purpose, the invention adopts the following technical scheme:

a servo silicone rubber pipe cutting machine comprises a pre-feeding device, a conveying device and a cutting device;

the pre-feeding device is positioned at one side of the conveying device, and the cutting device is arranged at one end of the conveying device far away from the pre-feeding device;

the conveying device comprises a main body, a rolling device and a transmission adjusting device, wherein the rolling device is arranged on one side of the main body, the transmission adjusting device is arranged on the other side of the main body, and the transmission adjusting device is connected with the rolling device through a rotating shaft;

the transmission adjusting device comprises a swinging piece, the swinging piece is arranged on the main body, a first pull buckle is arranged on the swinging piece, a second pull buckle is arranged at one end of the main body, the first pull buckle and the second pull buckle are connected through an elastic piece, the top of the swinging piece is connected with a first adjusting wheel, the first adjusting wheel is connected with a second adjusting wheel through a conveyor belt, and the swinging of the swinging piece is driven through the compression/stretching of the adjusting elastic piece, so that the degree of tightness of the conveyor belt is adjusted.

Preferably, the main part includes a lifting piece and a fixed piece, the lifting piece is located above the fixed piece, the swinging piece spans the lifting piece and the fixed piece, and the second tab is arranged on the fixed piece.

The rolling device comprises a first roller and a second roller, the first roller is arranged above the second roller, the first roller is connected with the lifting piece, and the second roller is connected with the fixing piece;

the rolling device further comprises a hollow part, the hollow part is arranged between the first idler wheel and the second idler wheel, and the hollow part is used for transporting silica gel.

Preferably, the transportation device further comprises a first driving wheel and a second driving wheel, the first driving wheel is positioned above the second driving wheel, the first driving wheel is connected with the lifting piece, and the second driving wheel is connected with the fixing piece;

the first driving wheel is connected with the second transferring wheel through the conveying belt, the first driving wheel is connected with the second driving wheel through the conveying belt, and the second driving wheel is connected with the first transferring wheel through the conveying belt.

Preferably, material feeding unit includes organism, preliminary treatment subassembly, main pinch roller, vice pinch roller and response subassembly in advance, the preliminary treatment subassembly is located the feed end of main part, the left side of preliminary treatment subassembly is equipped with main pinch roller, the negative pressure roller is located main pinch roller is kept away from one side of preliminary treatment subassembly, the response subassembly is located the discharge end of main part.

Preferably, the main pressing wheel comprises a first adjusting wheel, a second adjusting wheel and an adjusting part, the second adjusting wheel is installed on the main body, the first adjusting wheel is arranged above the second adjusting wheel, the adjusting part is connected with the first adjusting wheel, silica gel is arranged between the first adjusting wheel and the second adjusting wheel, and the distance between the first adjusting wheel and the second adjusting wheel is adjusted through the adjusting part;

vice pinch roller includes first pinch roller, connecting piece and recess, first pinch roller is located one side of second regulating wheel, the one end of first pinch roller with the connecting piece is connected, but the vertical gliding of connecting piece inserts in the recess, silica gel is followed first pinch roller with pass through the back between the second regulating wheel, silica gel is the parabola state.

Preferably, the preliminary treatment subassembly includes leading wheel, pretension piece and base, the base is located the feed end of main part, the pretension piece is located on the base, the leading wheel is located the base is kept away from one side of main part, silica gel passes through the leading wheel transportation gets into the pretension piece.

Preferably, the induction assembly comprises a first inductor and a second inductor, the first inductor is mounted on the main body, the second inductor is arranged below the first inductor, and the silica gel is arranged between the first inductor and the second inductor;

the induction component further comprises a limiting column and a mounting plate, the mounting plate is arranged on one side of the second inductor, the mounting plate is connected with the main body, and the limiting column is arranged on the mounting plate.

Preferably, the cutting device comprises a box body, a rotating assembly, a limiting assembly and a cutter, wherein the cutter is arranged above the box body, the rotating assembly is rotatably connected with the box body through a first rotating shaft, the limiting assembly is arranged below the rotating assembly, and the first rotating shaft drives the rotating assembly to do circular motion;

the rotating assembly comprises a pull rod and a rotating piece, the pull rod is arranged on one side of the box body, the rotating piece is rotatably arranged between the box body and the pull rod, the top of the pull rod is connected with the cutter, and the bottom of the pull rod is connected with the box body through the first rotating shaft;

the rotating part comprises a cylinder, the cylinder is arranged on the rotating part and rotates along with the rotating part, and when the cutter is located at the highest point, the cylinder is abutted to the limiting component.

Preferably, the limiting assembly comprises a base plate and a limiting piece, one side of the main body, which is close to the rotating assembly, extends to form the base plate, the limiting piece is arranged on the base plate, and when the cutter is located at the highest point, the cylinder abuts against the limiting piece;

the cutting device further comprises a lifting assembly, the lifting assembly is arranged at one end of the main body and connected with the cutter, and the cutter slides on the lifting assembly.

Preferably, the cutting device further comprises a cutting die which is positioned right below the cutting knife;

the cutting die comprises an opening, the opening is arranged right below the cutter, the width of the opening is larger than the thickness of the cutter, and the height of the cutting die is consistent with the diameter of the circular motion of the rotating assembly.

The contribution of the invention lies in: according to the invention, the degree of tightness of the conveying belt is adjusted through the matching of the swinging piece, the first adjusting wheel and the second adjusting wheel on the transmission adjusting device, and the tight state of the conveying belt can be realized by adjusting the swinging piece no matter the rolling device moves downwards or upwards, so that the conveying belt can be suitable for silica gel strips with different sizes, the conveying belt cannot be loosened or stuck, the normal operation of transportation is ensured, the tightness of the conveying belt is ensured to be unchanged, the conveying belt always keeps a certain degree of tightness, and the conveying speed of silica gel is ensured not to be influenced.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic view of the construction of the transport unit of the present invention;

FIG. 3 is an enlarged partial schematic view of A in FIG. 2;

FIG. 4 is a schematic view of the rolling device of the present invention;

FIG. 5 is a schematic view of the construction of the oscillating member of the present invention;

FIG. 6 is a schematic view of the connection of the oscillating member and the first regulating wheel according to the present invention;

FIG. 7 is a schematic view of the construction of the pre-feeding apparatus of the present invention;

FIG. 8 is a schematic diagram of the construction of the primary and secondary wheels of the present invention;

FIG. 9 is a schematic view of the cutting apparatus of the present invention;

FIG. 10 is a schematic view of the cutting die of the present invention;

wherein: the device comprises a pre-feeding device 1, a machine body 11, a pre-processing assembly 12, a guide wheel 121, a pre-tightening piece 122, a base 123, a main pressure wheel 13, a first adjusting wheel 131, a second adjusting wheel 132, an adjusting part 133, an auxiliary pressure wheel 14, a first pressure wheel 141, a connecting piece 142, a groove 143, an induction assembly 15, a first inductor 151, a second inductor 152, a limiting column 153 and a mounting plate 154;

the conveying device 2, the main body 21, the lifting piece 211, the fixing piece 212, the rolling device 22, the first roller 221, the second roller 222, the hollow part 223, the transmission adjusting device 23, the swinging piece 231, the first pull buckle 232, the second pull buckle 233, the elastic piece 234, the first adjusting wheel 24, the second adjusting wheel 25, the conveying belt 26, the first driving wheel 27 and the second driving wheel 28;

the cutting device 3, the box 31, the rotating component 32, the pull rod 321, the rotating component 322, the column 3221, the limiting component 33, the base plate 331, the limiting column 332, the cutter 34, the lifting component 35, the cutting die 36 and the opening 361.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not limit the present invention in any way.

As shown in fig. 1-10, a servo pipe cutter for silica gel comprises a pre-feeding device 1, a transporting device 2 and a cutting device 3;

the pre-feeding device 1 is positioned at one side of the conveying device 2, and the cutting device 3 is arranged at one end of the conveying device 2 far away from the pre-feeding device 1;

the transportation device 2 comprises a main body 21, a rolling device 22 and a transmission adjusting device 23, wherein the rolling device 22 is arranged on one side of the main body 21, the transmission adjusting device 23 is arranged on the other side of the main body 21, and the transmission adjusting device 23 is connected with the rolling device 22 through a rotating shaft;

the transmission adjusting device 23 comprises a swinging part 231, the swinging part 231 is arranged on the main body 21, a first pull buckle 232 is arranged on the swinging part 231, a second pull buckle 233 is arranged at one end of the main body 21, the first pull buckle 232 and the second pull buckle 233 are connected through an elastic part 234, the top of the swinging part 231 is connected with a first adjusting wheel 24, the first adjusting wheel 24 and a second adjusting wheel 25 are connected through a conveying belt 26, and the swinging of the swinging part 231 is driven through the compression/stretching of the adjusting elastic part 234, so that the tightness degree of the conveying belt 26 is adjusted.

Servo pipe cutting machine of silica gel is including material feeding unit 1 in advance, conveyer 2 and cutting device 3, material feeding unit 1 is used for carrying out preliminary processing to silica gel in advance, ensure that the condition of knoing or having the type to become can not appear in silica gel, and ensure that it can accurately get into conveyer 2, conveyer 2 is used for carrying silica gel, ensure its position can not take place skew and crooked condition in transportation process, and can adjust the speed of transportation, adjust according to the production actual conditions, cutting device 3 is used for cutting silica gel and handles, it is required to make it accord with daily life.

Wherein, conveyer 2 has included main part 21, rolling device 22 and transmission adjusting device 23, rolling device 22 is located one side of main part 21, transmission adjusting device 23 is located the opposite side of main part 21, just transmission adjusting device 23 through the pivot with rolling device 22 is connected, and rolling device 22 is used for transporting silica gel, makes it can be towards the direction and the rail transport of regulation, and transmission adjusting device 23 is used for adjusting the elasticity degree of conveyer belt 26, ensures that conveyer belt 26 can keep certain tensioning state, ensures that silica gel can normally transport.

To be more specific, the transmission adjusting mechanism of the silicone tube cutting machine is mainly used for adjusting the tension degree of the conveyor belt 26 between the first adjusting wheel 24 and the second adjusting wheel 25, so as to keep the conveyor belt 26 at a certain tension degree, and avoid the situation that the conveyor belt 26 is loosened or the rotation speed of the conveyor belt 26 is changed.

Specifically, firstly, the silica gel is transported through the lifting member 211 and the vacant part 223 in the fixing member 212, and transported to the subsequent cutting device 3, and the silica gel is cut, now the device carries out lifting operation on the first roller 221 on the lifting member 211 through the adjusting component a (the adjusting component a is located at the top of the main body 21 and is used for adjusting the lifting and descending of the first roller 221), the fixing member 212 and the second roller 222 below are kept still (suitable for the silica gel with different diameters), in the process of vertical motion of the lifting member 211, the position between the first adjusting wheel 24 and the second adjusting wheel 25 changes along with the motion of the lifting member 211, so that the tightness of the conveyor belt 26 between the first adjusting wheel and the second adjusting wheel changes, the speed of the conveyor belt 26 is influenced, and therefore the transportation speed of the silica gel is influenced, at this time, the tightening adjustment of the conveyor belt 26 can be realized by adjusting the swinging member 231, to be more specific, since the swing member 231 is connected to the first adjustment wheel 24, and the first pull tab 232 on the swing member 231 is connected to the second pull tab 233 on the main body 21 through the elastic member 234 (where the elastic member 234 is a spring), we can adjust the swing member 231 to swing left or right to drive the first adjustment wheel 24 to move, so as to adjust the tightness of the conveyor belt, when a silica gel with a larger diameter needs to be transported, the lifting member 211 moves upward to drive the second adjustment wheel 25 to move upward, so that the conveyor belt 26 between the first adjustment wheel 24 and the second adjustment wheel 25 is tensioned and becomes tighter than the previous one, at this time, the swing member 231 needs to swing right to drive the first adjustment wheel 24 to move right, so as to reduce the tightness of the conveyor belt 26 to keep the same transportation speed as the previous one, when a silica gel with a smaller diameter needs to be transported, the lifting member 211 moves downwards to drive the second driving wheel 25 to move downwards, so that the transmission belt 26 between the first driving wheel 24 and the second driving wheel 25 is loosened and becomes looser than before, at this time, the swinging member 231 needs to swing leftwards to drive the first driving wheel 24 to move leftwards, the loosening degree of the transmission belt 26 is reduced, and the transmission speed is kept the same as the original transmission speed.

According to the invention, the degree of tightness of the conveying belt 26 is adjusted through the matching of the swinging piece 231, the first adjusting wheel 24 and the second adjusting wheel 25, no matter the rolling device 22 moves downwards or upwards, the tight state of the conveying belt 26 can be realized through adjusting the swinging piece 231, the conveying belt 26 cannot be loosened or stuck, the normal operation of transportation is ensured, the degree of tightness of the conveying belt 26 is ensured to be unchanged, the conveying belt 26 always keeps a certain degree of tightness, and the conveying speed of silica gel is ensured not to be influenced.

In a further description, the main body 21 includes a lifting member 211 and a fixing member 212, the lifting member 211 is located above the fixing member 212, the swinging member 231 spans the lifting member 211 and the fixing member 212, and the second tab 233 is disposed on the fixing member 212.

The rolling device 22 includes a first roller 221 and a second roller 222, the first roller 221 is disposed above the second roller 222, the first roller 221 is connected to the lifting member 211, and the second roller 222 is connected to the fixing member 212;

the rolling device 22 further comprises a hollow part 223, the hollow part 223 is arranged between the first roller 221 and the second roller 222, and the hollow part 223 is used for transporting silica gel.

The main part 21 includes a lifting piece 211 and a fixing piece 212, wherein the lifting piece 211 moves in the vertical direction, the fixing piece 212 remains stationary, thereby the change of the size of the middle space 223 is realized, thereby silica gel with different sizes can be transported, the first buckle is arranged on the swinging piece 231, the second buckle 233 is arranged on the fixing piece 212, so the second buckle 233 is not arranged on the lifting piece 211, because the lifting piece 211 can move, the second buckle 233 can also move along with the movement, and the elastic piece 234 between the first buckle 233 and the second buckle 233 is inconvenient to adjust the first adjusting wheel 24.

The first roller 221 and the second roller 222 are matched, a certain space exists between the first roller 221 and the second roller 222, the space is a hollow part 223, the silica gel is transported on the first roller 221, the bottom of the second roller 222 is tangent to the silica gel, the silica gel cannot move in the vertical direction, and the condition that the silica gel cannot deviate in the transporting process is guaranteed. Specifically, the first roller 221 is connected to the lifting member 211 and moves along with the movement of the lifting member 211, so that the size of the hollow portion 223 is changed, silica gel with different sizes can be transported by using the hollow portion, the second roller 222 is connected to the fixing member 212, the second roller 222 is ensured not to move, and the silica gel is ensured not to shake or move in the transportation process.

In a further description, the transportation device 2 further includes a first driving wheel 27 and a second driving wheel 28, the first driving wheel 27 is located above the second driving wheel 28, the first driving wheel 27 is connected to the lifting member 211, and the second driving wheel 28 is connected to the fixing member 212;

the first driving wheel 27 is connected with the second driving wheel 25 through the conveyer belt 26, the first driving wheel 27 is connected with the second driving wheel 28 through the conveyer belt 26, the second driving wheel 28 is connected with the first driving wheel 24 through the conveyer belt 26.

The first driving wheel 27 is located above the second driving wheel 28, the first driving wheel 27 is connected with the lifting part 211, the second driving wheel 28 is connected with the fixing part 212, the first driving wheel 27 is used for driving the first roller 221 to move, and the second driving wheel 28 is used for being connected with a driving device, so that the whole device conveying belt 26 is driven to move.

Further, the pre-feeding device 1 comprises a machine body 11, a pre-processing assembly 12, a main pressing wheel 13, an auxiliary pressing wheel 14 and an induction assembly 15, wherein the pre-processing assembly 12 is arranged at the feeding end of the main body 21, the main pressing wheel 13 is arranged on the left side of the pre-processing assembly 12, the negative pressing wheel is arranged on one side, away from the pre-processing assembly 12, of the main pressing wheel 13, and the induction assembly 15 is arranged at the discharging end of the main body 21.

To be further described, the main pressing wheel 13 includes a first adjusting wheel 131, a second adjusting wheel 132 and an adjusting portion 133, the second adjusting wheel 132 is mounted on the main body 21, the first adjusting wheel 131 is disposed above the second adjusting wheel 132, the adjusting portion 133 is connected to the first adjusting wheel 131, silica gel is disposed between the first adjusting wheel 131 and the second adjusting wheel 132, and the distance between the first adjusting wheel 131 and the second adjusting wheel 132 is adjusted by the adjusting portion 133;

vice pinch roller 14 includes first pinch roller 141, connecting piece 142 and recess 143, first pinch roller 141 locates one side of second regulating wheel 132, first pinch roller 141's one end with connecting piece 142 is connected, but connecting piece 142 vertical slip inserts in the recess 143, silica gel follows first pinch roller 141 with second regulating wheel 132 is between through the back, silica gel is the parabola state.

The pre-feeding device 1 mainly comprises a machine body 11, a pretreatment assembly 12, a main pressing wheel 13, an auxiliary pressing wheel 14 and an induction assembly 15, wherein the silica gel sequentially passes through the pretreatment assembly 12, the main pressing wheel 13, the auxiliary pressing wheel 14 and the induction assembly 15, the pretreatment assembly 12 is used for preliminarily smoothing out raw material silica gel, the silica gel is mainly sorted in the horizontal direction and is transported to the main pressing wheel 13, and knotting or blocking cannot occur.

The main pressing wheel 13 is used for pressing the transported silica gel, and simultaneously controlling the speed of the silica gel entering the next process, the main pressing wheel 13 comprises a first adjusting wheel 131, a second adjusting wheel 132 and an adjusting part 133, the second adjusting wheel 132 is installed on the machine body 11, the first adjusting wheel 131 is arranged above the second adjusting wheel 132, the adjusting part 133 is connected with the first adjusting wheel 131, the silica gel is arranged between the first adjusting wheel 131 and the second adjusting wheel 132, the distance between the first adjusting wheel 131 and the second adjusting wheel 132 is adjusted through the adjusting part 133, further description is provided, the adjusting part 133 is controlled, so that the downward or downward movement of the first adjusting wheel 131 is realized, the space between the first adjusting wheel 131 and the second adjusting wheel 132 is changed, and the degree of the silica gel entering the first adjusting wheel 131 and the second adjusting wheel 132 is also changed, the smaller the space between first regulating wheel 131 and second regulating wheel 132 is, then the pressure exerted to silica gel is the bigger, then the rear is to silica gel drag under the inconvenient condition of power, and silica gel's transport speed slows down, and the bigger the space between first regulating wheel 131 and second regulating wheel 132 is, then the pressure exerted to silica gel is the smaller, then the rear is to silica gel drag under the inconvenient condition of power, silica gel's transport speed accelerates.

Vice pinch roller 14 includes first pinch roller 141, connecting piece 142 and recess 143, and wherein first pinch roller 141 locates one side of second regulating wheel 132, first pinch roller 141's one end with connecting piece 142 is connected, but connecting piece 142 vertical slip inserts in the recess 143, silica gel follows first pinch roller 141 with after passing through between second regulating wheel 132, silica gel is the parabola state for silica gel presents the natural state, can not appear tensile condition, does not influence subsequent cutting, specifically, get into between first pinch roller 141 and the second regulating wheel 132 immediately after silica gel comes out from main pinch roller 13, make silica gel be the parabola state and continue to transport through vice pinch roller 14 after, through adjusting the position of connecting piece 142 in recess 143 to drive the position between first pinch roller 141 and the second regulating wheel 132, thereby influenced the position that silica gel came out from first regulating wheel 131 and second regulating wheel 132, specifically, when the first pressing wheel 141 moves upward, the degree of curvature of the parabola after the silicone rubber comes out is larger, and when the first pressing wheel 141 moves downward, the degree of curvature of the parabola after the silicone rubber comes out is smaller.

The end of organism 11 is located to response subassembly 15, appears the parabola state after silica gel comes out from vice pinch roller 14, and response subassembly 15 is used for restricting the position of parabola form state silica gel in vertical side, avoids appearing silica gel too lax or too tight, and when silica gel surpassed response subassembly 15's scope, explains the transportation of silica gel and goes wrong, specifically is silica gel too lax or too tight, is unfavorable for subsequent cutting.

Material feeding unit 1 can not appear knoing or the dead condition of card when ensureing the silica gel access device through setting up preprocessing subassembly 12 in advance, through the cooperation of main pinch roller 13 and vice pinch roller 14, realize the level and smooth of silica gel, the silica gel that comes out from vice pinch roller 14 is the parabola state for the tight condition can not appear in silica gel, the length is inaccurate when avoiding follow-up cutting, through setting up response subassembly 15, ensure that silica gel is in certain elasticity within range, can normally transport to cutting link.

In a further illustration, the pre-treating assembly 12 includes a guide wheel 121, a pre-treating member 122 and a base 123, the base 123 is disposed at the feeding end of the main body 21, the pre-treating member 122 is disposed on the base 123, the guide wheel 121 is disposed at a side of the base 123 away from the main body 21, and the silica gel is transported into the pre-treating member 122 through the guide wheel 121.

The pretreatment assembly 12 comprises a guide wheel 121, a preload piece 122 and a base 123, wherein the guide wheel 121 is used for guiding, so that silica gel can enter the preload piece 122 according to a correct route, the preload piece 122 is used for preliminarily correcting the silica gel, the condition that the silica gel is knotted or jammed is avoided, and the base 123 provides a supporting seat for the preload piece 122.

To be further described, the sensing assembly 15 includes a first sensor 151 and a second sensor 152, the first sensor 151 is mounted on the main body 21, the second sensor 152 is disposed below the first sensor 151, and the silicone rubber is disposed between the first sensor 151 and the second sensor 152;

the sensing assembly 15 further comprises a limiting column 153 and a mounting plate 154, the mounting plate 154 is arranged on one side of the second sensor 152, the mounting plate 154 is connected with the main body 21, and the limiting column 153 is arranged on the mounting plate 154.

Silica gel moves between first inductor 151 and second inductor 152, surpasss the inductor scope and says that silica gel is too lax or too tight, and too lax then can lead to silica gel and ground contact, has increased frictional force, and subsequent transportation of being inconvenient for leads to follow-up cutting to go wrong, and the silica gel after the cutting can resume natural state, and this just leads to length to diminish, can not reach anticipated length requirement.

The mounting plate 154 is used for providing a fulcrum for the limiting columns 153, and the limiting columns 153 are used for limiting the passing track of the silica gel, so that the silica gel can only pass between the limiting columns 153, and is convenient for subsequent transportation into the cutting device 3.

More specifically, the cutting device 3 includes a box 31, a rotating component 32, a limiting component 33 and a cutter 34, the cutter 34 is disposed above the box 31, the rotating component 32 is rotatably connected to the box 31 through a first rotating shaft, the limiting component 33 is disposed below the rotating component 32, and the first rotating shaft drives the rotating component 32 to make a circular motion;

the rotating assembly 32 comprises a pull rod 321 and a rotating member 322, the pull rod 321 is arranged on one side of the box body 31, the rotating member 322 is rotatably arranged between the box body 31 and the pull rod 321, the top of the pull rod 321 is connected with the cutter 34, and the bottom of the pull rod 321 is connected with the box body 31 through the first rotating shaft;

the rotating member 322 includes a cylinder 3221, the cylinder 3221 is disposed on the rotating member 322, and the cylinder 3221 rotates along with the rotating member 322, when the cutter 34 is located at the highest point, the cylinder 3221 abuts against the limiting component 33.

Cutting device 3, mainly include box 31, runner assembly 32, spacing subassembly 33 and cutter 34, wherein runner assembly 32 can be round motion around box 31 through first pivot, thereby realize driving the purpose of cutter 34 motion, spacing subassembly 33 is used for restricting the position of runner assembly 32, ensure when cutter 34 is located the highest point, cylinder 3221 of runner assembly 32 offsets with spacing subassembly 33's locating part 153, circumference diameter when restricting the runner assembly 32 motion, ensure that cutter 34's motion stroke is at certain extent, can not take place to collide with box 31, avoid box 31 and cutter 34 to damage.

Further, the rotating assembly 32 includes a pull rod 321 and a rotating member 322, the rotating member 322 is rotatably disposed between the box 31 and the pull rod 321, the top of the pull rod 321 is connected to the cutter 34, the bottom of the pull rod 321 is connected to the box 31 through the first rotating shaft, the first rotating shaft is connected to the driving device, the driving device drives the first rotating shaft to move, so as to drive the rotating member 322 to rotate circumferentially, and the cylinder 3221 is disposed on the rotating member 322, so that the cylinder 3221 plays a role in prompting, during the rotation of the rotating member 322, the cylinder 3221 also rotates along with the rotating member, when the cutter 34 is located at the highest point, the cylinder 3221 abuts against the limiting assembly 33, when the cutter 34 needs to be cut off, the rotating member 322 starts to move circumferentially, at this time, the cylinder 3221 is separated from the limiting member 332, and drives the cutter 34 to move downward to cut off the silicone tube, after the rotating member 322 completes a circular motion, the rotating member 322 returns to the original position, at this time, the cylinder 3221 rotates 360 degrees and abuts against the limiting member 332 again, the cutter 34 also returns to the original highest point, and the silica gel is cut in such a reciprocating cycle.

Further, different with traditional cutting mode, what this device adopted is that rotating member 322 rotates the mode that drives 34 motions of cutter, and this kind of mode can guarantee that 34 no matter the process homoenergetic that cuts or carry the sword down can keep very fast speed, compares with the cutting mode of traditional upper and lower pull rod 321 formula, has higher fault-tolerant rate, and can guarantee that the silica gel incision of cutting is level and smooth, and 34 can not take place to collide with silica gel. On the other hand, the frequency of the driving device can be changed, so that the moving speed of the cutting knife 34 can be realized, and the device is suitable for silica gel with different sizes.

Cutting device 3 is through setting up runner assembly 32 for the promotion that tangential silica gel that cutter 34 can be quick also can be rapid simultaneously can not take place too much with silica gel and collide with, make the incision of silica gel level and smooth, in the same time, the cutting output of product promotes greatly, has restricted runner assembly 32's rotation circumference diameter through spacing subassembly 33, has avoided cutter 34 to contact with box 31 at the in-process of cutting, avoids box 31 and cutter 34's damage.

To be further described, the limiting component 33 includes a base 331 and a limiting component 332, the base 331 extends from one side of the main body 21 close to the rotating component 32, the limiting component 332 is disposed on the base 331, and when the cutting knife 34 is located at the highest point, the column 3221 abuts against the limiting component 332;

the cutting device 3 further comprises a lifting component 35, the lifting component 35 is arranged at one end of the main body 21, the lifting component 35 is connected with the cutter 34, and the cutter 34 slides on the lifting component.

The limiting component 33 includes a base 331 and a limiting member 332, wherein the base 331 is disposed on one side of the box 31 and connected to the box 31 to provide a supporting point for the limiting member 332, the limiting member 332 is disposed on the base 331, when the cutting knife 34 is reset, the cylinder 3221 abuts against the limiting member 332 to determine whether the cutting knife 34 is reset, and if the two are not abutted, the position of the cutting knife 34 is changed, which requires to adjust the cutting knife 34. The lifting assembly 35 is used to control the movement of the cutter 34 in the vertical direction.

Stated further, the cutting device 3 further includes a cutting die 36, which is located right below the cutting knife 34;

the cutting die 36 includes an opening 361, the opening 361 is disposed right below the cutting knife 34, the width of the opening 361 is greater than the thickness of the cutting knife 34, and the height of the cutting die 36 is consistent with the diameter of the circular motion of the rotating component 32.

Cutting die 36 is used for standardizing the position of silica gel, is equipped with opening 361 simultaneously on cutting die 36, and cutter 34 can cut off the silica gel in cutting die 36 through opening 361, and is concrete, and cutting die 36 includes opening 361, opening 361 locates under cutter 34, just the width of opening 361 is greater than cutter 34's thickness, cutting die 36's height with rotating component 32 circular motion's diameter size is unanimous, and opening 361's width is greater than cutter 34's thickness, ensures that cutter 34 can not take place to collide with cutting die 36's lateral wall in the in-process of whereabouts, and cutting die 36's height is unanimous with rotating component 32 circular motion's diameter size, ensures that cutter 34 can not take place to collide with box 31 in the motion process, has avoided box 31 and cutter 34's damage.

Although the present invention has been described with reference to the above embodiments, the scope of the present invention is not limited thereto, and modifications, substitutions and the like of the above members are intended to fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a servo pipe cutting machine of silica gel which characterized in that: comprises a pre-feeding device, a conveying device and a cutting device;

the pre-feeding device is positioned at one side of the conveying device, and the cutting device is arranged at one end of the conveying device far away from the pre-feeding device;

the conveying device comprises a main body, a rolling device and a transmission adjusting device, wherein the rolling device is arranged on one side of the main body, the transmission adjusting device is arranged on the other side of the main body, and the transmission adjusting device is connected with the rolling device through a rotating shaft;

the transmission adjusting device comprises a swinging piece, the swinging piece is arranged on the main body, a first pull buckle is arranged on the swinging piece, a second pull buckle is arranged at one end of the main body, the first pull buckle and the second pull buckle are connected through an elastic piece, the top of the swinging piece is connected with a first adjusting wheel, the first adjusting wheel is connected with a second adjusting wheel through a conveyor belt, and the swinging of the swinging piece is driven through the compression/stretching of the adjusting elastic piece, so that the degree of tightness of the conveyor belt is adjusted.

2. The servo pipe cutter of silica gel of claim 1, wherein: the main part includes lifting member and mounting, the lifting member is located the top of mounting, the swing piece spanes lifting member with the mounting, the second is drawn and is detained and to be located on the mounting.

The rolling device comprises a first roller and a second roller, the first roller is arranged above the second roller, the first roller is connected with the lifting piece, and the second roller is connected with the fixing piece;

the rolling device further comprises a hollow part, the hollow part is arranged between the first idler wheel and the second idler wheel, and the hollow part is used for transporting silica gel.

3. The servo pipe cutter of silica gel of claim 1, wherein: the conveying device further comprises a first driving wheel and a second driving wheel, the first driving wheel is positioned above the second driving wheel, the first driving wheel is connected with the lifting piece, and the second driving wheel is connected with the fixing piece;

the first driving wheel is connected with the second transferring wheel through the conveying belt, the first driving wheel is connected with the second driving wheel through the conveying belt, and the second driving wheel is connected with the first transferring wheel through the conveying belt.

4. The servo pipe cutter of silica gel of claim 1, wherein: pre-feeding device includes organism, preliminary treatment subassembly, main pinch roller, vice pinch roller and response subassembly, the preliminary treatment subassembly is located the feed end of main part, the left side of preliminary treatment subassembly is equipped with main pinch roller, the negative pressure roller is located main pinch roller is kept away from one side of preliminary treatment subassembly, the response subassembly is located the discharge end of main part.

5. The servo pipe cutter of claim 4, wherein: the main pressing wheel comprises a first adjusting wheel, a second adjusting wheel and an adjusting part, the second adjusting wheel is installed on the main body, the first adjusting wheel is arranged above the second adjusting wheel, the adjusting part is connected with the first adjusting wheel, silica gel is arranged between the first adjusting wheel and the second adjusting wheel, and the distance between the first adjusting wheel and the second adjusting wheel is adjusted through the adjusting part;

vice pinch roller includes first pinch roller, connecting piece and recess, first pinch roller is located one side of second regulating wheel, the one end of first pinch roller with the connecting piece is connected, but the vertical gliding of connecting piece inserts in the recess, silica gel is followed first pinch roller with pass through the back between the second regulating wheel, silica gel is the parabola state.

6. The servo pipe cutter of claim 4, wherein: the preprocessing component comprises a guide wheel, a preprocessing piece and a base, the base is arranged at the feeding end of the main body, the preprocessing piece is arranged on the base, the guide wheel is arranged on the base and is far away from one side of the main body, and the silica gel is conveyed to enter the preprocessing piece through the guide wheel.

7. The servo pipe cutter of claim 4, wherein: the induction assembly comprises a first inductor and a second inductor, the first inductor is mounted on the main body, the second inductor is arranged below the first inductor, and the silica gel is arranged between the first inductor and the second inductor;

the induction component further comprises a limiting column and a mounting plate, the mounting plate is arranged on one side of the second inductor, the mounting plate is connected with the main body, and the limiting column is arranged on the mounting plate.

8. The servo pipe cutter of silica gel of claim 1, wherein: the cutting device comprises a box body, a rotating assembly, a limiting assembly and a cutter, wherein the cutter is arranged above the box body, the rotating assembly is rotatably connected with the box body through a first rotating shaft, the limiting assembly is arranged below the rotating assembly, and the first rotating shaft drives the rotating assembly to do circular motion;

the rotating assembly comprises a pull rod and a rotating piece, the pull rod is arranged on one side of the box body, the rotating piece is rotatably arranged between the box body and the pull rod, the top of the pull rod is connected with the cutter, and the bottom of the pull rod is connected with the box body through the first rotating shaft;

the rotating part comprises a cylinder, the cylinder is arranged on the rotating part and rotates along with the rotating part, and when the cutter is located at the highest point, the cylinder is abutted to the limiting component.

9. The servo pipe cutter of claim 8, wherein: the limiting assembly comprises a base plate and a limiting piece, one side of the main body, which is close to the rotating assembly, extends to form the base plate, the limiting piece is arranged on the base plate, and when the cutter is located at the highest point, the cylinder abuts against the limiting piece;

the cutting device further comprises a lifting assembly, the lifting assembly is arranged at one end of the main body and connected with the cutter, and the cutter slides on the lifting assembly.

10. The servo pipe cutter of claim 8, wherein: the cutting device also comprises a cutting die which is positioned right below the cutting knife;

the cutting die comprises an opening, the opening is arranged right below the cutter, the width of the opening is larger than the thickness of the cutter, and the height of the cutting die is consistent with the diameter of the circular motion of the rotating assembly.

Images